From 31cdf2bd5bf74c82c4586d25c2635349caf570fd Mon Sep 17 00:00:00 2001 From: soares Date: Tue, 24 Mar 2020 17:00:32 +0000 Subject: [PATCH] JAL-3210 New site-resources dir too --- utils/jalviewjs/site-resources/applets-nocore.html | 230 + utils/jalviewjs/site-resources/applets.html | 230 + utils/jalviewjs/site-resources/css/ie6.css | 91 + utils/jalviewjs/site-resources/css/ie7.css | 85 + utils/jalviewjs/site-resources/css/reset.css | 113 + utils/jalviewjs/site-resources/css/style.css | 457 ++ utils/jalviewjs/site-resources/examples/1gaq.txt | 691 ++ utils/jalviewjs/site-resources/examples/2GIS.pdb | 2693 ++++++++ utils/jalviewjs/site-resources/examples/3W5V.pdb | 7088 ++++++++++++++++++++ .../site-resources/examples/backupfilestest.fa | 2 + .../site-resources/examples/biojsonschema.json | 1 + .../site-resources/examples/dna_interleaved.phy | 132 + .../site-resources/examples/dna_sequential.phy | 11 + .../examples/estrogenReceptorCdna.fa | 221 + .../examples/estrogenReceptorCdna_aln.fa | 320 + .../examples/estrogenReceptorCdna_frag.fa | 32 + .../examples/estrogenReceptorProtein.aln | 162 + .../examples/estrogenReceptorProtein.fa | 81 + .../examples/estrogenReceptorProtein_aln.fa | 112 + .../examples/estrogenReceptorProtein_frag.fa | 16 + .../jalviewjs/site-resources/examples/example.json | 1 + .../site-resources/examples/ferredoxin.nw | 1 + .../site-resources/examples/jpred_msa.fasta | 45 + .../site-resources/examples/jpred_msa.seq.concise | 30 + .../site-resources/examples/plantfdx.annotations | 7 + .../jalviewjs/site-resources/examples/plantfdx.fa | 60 + .../site-resources/examples/plantfdx.features | 118 + .../site-resources/examples/unfolded_RF00031.aln | 126 + .../site-resources/examples/uniref50.score_ascii | 99 + .../site-resources/examples/uniref50_mz.fa | 30 + .../images/coolJalviewBackgroundFading.png | Bin 0 -> 527022 bytes .../site-resources/images/coolVeryLightBG.png | Bin 0 -> 560379 bytes .../jalview_bin_JalviewJS_embedded.html | 68 - .../jalview_bin_JalviewJS_embedded_core.html | 69 - .../site-resources/jalview_embedded_example1.html | 137 + .../site-resources/javascript/deployJava.js | 1 + .../site-resources/javascript/facebox-1.3.js | 309 + .../jalviewjs/site-resources/javascript/jalview.js | 380 ++ .../site-resources/javascript/jquery-1.4.4.min.js | 167 + .../site-resources/javascript/jquery.blockUI.js | 490 ++ .../site-resources/javascript/jquery.timer.js | 75 + .../site-resources/javascript/jshashtable-2.1.js | 16 + .../site-resources/javascript/jvcontroller.js | 220 + .../site-resources/swingjs/JalviewApplet.js | 191 + 44 files changed, 15271 insertions(+), 137 deletions(-) create mode 100644 utils/jalviewjs/site-resources/applets-nocore.html create mode 100644 utils/jalviewjs/site-resources/applets.html create mode 100644 utils/jalviewjs/site-resources/css/ie6.css create mode 100644 utils/jalviewjs/site-resources/css/ie7.css create mode 100644 utils/jalviewjs/site-resources/css/reset.css create mode 100644 utils/jalviewjs/site-resources/css/style.css create mode 100644 utils/jalviewjs/site-resources/examples/1gaq.txt create mode 100644 utils/jalviewjs/site-resources/examples/2GIS.pdb create mode 100644 utils/jalviewjs/site-resources/examples/3W5V.pdb create mode 100644 utils/jalviewjs/site-resources/examples/backupfilestest.fa create mode 100644 utils/jalviewjs/site-resources/examples/biojsonschema.json create mode 100644 utils/jalviewjs/site-resources/examples/dna_interleaved.phy create mode 100644 utils/jalviewjs/site-resources/examples/dna_sequential.phy create mode 100644 utils/jalviewjs/site-resources/examples/estrogenReceptorCdna.fa create mode 100644 utils/jalviewjs/site-resources/examples/estrogenReceptorCdna_aln.fa create mode 100644 utils/jalviewjs/site-resources/examples/estrogenReceptorCdna_frag.fa create mode 100644 utils/jalviewjs/site-resources/examples/estrogenReceptorProtein.aln create mode 100644 utils/jalviewjs/site-resources/examples/estrogenReceptorProtein.fa create mode 100644 utils/jalviewjs/site-resources/examples/estrogenReceptorProtein_aln.fa create mode 100644 utils/jalviewjs/site-resources/examples/estrogenReceptorProtein_frag.fa create mode 100644 utils/jalviewjs/site-resources/examples/example.json create mode 100644 utils/jalviewjs/site-resources/examples/ferredoxin.nw create mode 100644 utils/jalviewjs/site-resources/examples/jpred_msa.fasta create mode 100644 utils/jalviewjs/site-resources/examples/jpred_msa.seq.concise create mode 100644 utils/jalviewjs/site-resources/examples/plantfdx.annotations create mode 100644 utils/jalviewjs/site-resources/examples/plantfdx.fa create mode 100644 utils/jalviewjs/site-resources/examples/plantfdx.features create mode 100644 utils/jalviewjs/site-resources/examples/unfolded_RF00031.aln create mode 100644 utils/jalviewjs/site-resources/examples/uniref50.score_ascii create mode 100644 utils/jalviewjs/site-resources/examples/uniref50_mz.fa create mode 100644 utils/jalviewjs/site-resources/images/coolJalviewBackgroundFading.png create mode 100644 utils/jalviewjs/site-resources/images/coolVeryLightBG.png delete mode 100644 utils/jalviewjs/site-resources/jalview_bin_JalviewJS_embedded.html delete mode 100644 utils/jalviewjs/site-resources/jalview_bin_JalviewJS_embedded_core.html create mode 100644 utils/jalviewjs/site-resources/jalview_embedded_example1.html create mode 100644 utils/jalviewjs/site-resources/javascript/deployJava.js create mode 100644 utils/jalviewjs/site-resources/javascript/facebox-1.3.js create mode 100644 utils/jalviewjs/site-resources/javascript/jalview.js create mode 100644 utils/jalviewjs/site-resources/javascript/jquery-1.4.4.min.js create mode 100644 utils/jalviewjs/site-resources/javascript/jquery.blockUI.js create mode 100644 utils/jalviewjs/site-resources/javascript/jquery.timer.js create mode 100644 utils/jalviewjs/site-resources/javascript/jshashtable-2.1.js create mode 100644 utils/jalviewjs/site-resources/javascript/jvcontroller.js create mode 100644 utils/jalviewjs/site-resources/swingjs/JalviewApplet.js diff --git a/utils/jalviewjs/site-resources/applets-nocore.html b/utils/jalviewjs/site-resources/applets-nocore.html new file mode 100644 index 0000000..f63f78d --- /dev/null +++ b/utils/jalviewjs/site-resources/applets-nocore.html @@ -0,0 +1,230 @@ + + + +SwingJS test Jalview + + + + + + + +

+

JalviewJS Button Examples

+Try out JalviewJS by pressing one of the buttons below. +Original Java (requires SeaMonkey browser) +

+

 

+

+

Ferredoxins, chloroplast precursor related UniRef50 + cluster

+
(15 sequences x 150 residues) +

+ + + + + + + + + + + + + + + + + +
+ + + + + + + + + + + + + + + +User Defined Colours, loads an associated + Newick format tree file which is used to sort the alignment, and + group consensus and sequence logos are shown below the alignment.
+ + + + + + + + + + + + + + + +Displays a features file on the alignment
+ + + + + + + + + + + + + + + + +Associates PDB file 1GAQ with sequence + FER1_MAIZE
+ + + + + + + + + + + + + + + Displays a Multiple Sequence Alignment + Based JPred Prediction for a Sequence
+

+

RF00031 RFAM Alignment with per sequence secondary + structure

+

+ + + + + +
+ + + + + + + + + +Displays an RFAM RNA fold family with + secondary structure annotation
+

+

Linked Protein and cDNA alignments for a family of Steroid Receptors

+

+ + + + + +
+ + + + + + + + + + + + + + + +Displays a split window view showing aligned protein + and a reconstructed cDNA alignment.
Proteins were aligned with Muscle (version 3.8.31, + via the Jalview Desktop).
Data retrieved from Uniprot and + ENA, after Thornton, Need and Crews, Science 19 + September 2003: 301 (5640), 1714-1717 +
+
+
+ + + + + diff --git a/utils/jalviewjs/site-resources/applets.html b/utils/jalviewjs/site-resources/applets.html new file mode 100644 index 0000000..2496054 --- /dev/null +++ b/utils/jalviewjs/site-resources/applets.html @@ -0,0 +1,230 @@ + + + +SwingJS test Jalview + + + + + + + +

+

JalviewJS Button Examples

+Try out JalviewJS by pressing one of the buttons below. +Original Java (requires SeaMonkey browser) +

+

 

+

+

Ferredoxins, chloroplast precursor related UniRef50 + cluster

+
(15 sequences x 150 residues) +

+ + + + + + + + + + + + + + + + + +
+ + + + + + + + + + + + + + + +User Defined Colours, loads an associated + Newick format tree file which is used to sort the alignment, and + group consensus and sequence logos are shown below the alignment.
+ + + + + + + + + + + + + + + +Displays a features file on the alignment
+ + + + + + + + + + + + + + + + +Associates PDB file 1GAQ with sequence + FER1_MAIZE
+ + + + + + + + + + + + + + + Displays a Multiple Sequence Alignment + Based JPred Prediction for a Sequence
+

+

RF00031 RFAM Alignment with per sequence secondary + structure

+

+ + + + + +
+ + + + + + + + + +Displays an RFAM RNA fold family with + secondary structure annotation
+

+

Linked Protein and cDNA alignments for a family of Steroid Receptors

+

+ + + + + +
+ + + + + + + + + + + + + + + +Displays a split window view showing aligned protein + and a reconstructed cDNA alignment.
Proteins were aligned with Muscle (version 3.8.31, + via the Jalview Desktop).
Data retrieved from Uniprot and + ENA, after Thornton, Need and Crews, Science 19 + September 2003: 301 (5640), 1714-1717 +
+
+
+ + + + + diff --git a/utils/jalviewjs/site-resources/css/ie6.css b/utils/jalviewjs/site-resources/css/ie6.css new file mode 100644 index 0000000..2a70fa1 --- /dev/null +++ b/utils/jalviewjs/site-resources/css/ie6.css @@ -0,0 +1,91 @@ +/** + * Jalview - A Sequence Alignment Editor and Viewer ($$Version-Rel$$) + * Copyright (C) $$Year-Rel$$ The Jalview Authors + * + * This file is part of Jalview. + * + * Jalview is free software: you can redistribute it and/or + * modify it under the terms of the GNU General Public License + * as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. + * + * Jalview is distributed in the hope that it will be useful, but + * WITHOUT ANY WARRANTY; without even the implied warranty + * of MERCHANTABILITY or FITNESS FOR A PARTICULAR + * PURPOSE. See the GNU General Public License for more details. + * + * You should have received a copy of the GNU General Public License along with Jalview. If not, see . + * The Jalview Authors are detailed in the 'AUTHORS' file. + */ +#nav #navInner +{ +margin-top:0x; +} + + +#sddm +{ + position:relative; + top:0; +} + + +#sddm li a.download-right +{ +position:absolute; +top:28px; +left:270px; +} + +#sddm li +{ +padding-top:30px; +padding-bottom:30px; +} + +#sddm div +{ position: absolute; + visibility: hidden; + margin: 0; + padding: 0; + top:80px; + z-index:9999; + width:0; + display:none; +} + + + #sddm div a + { position: relative; + display: block; + margin: 0; + padding:8px; + width: 200px; + white-space: nowrap; + text-align: left; + text-decoration: none; + background: #555; + color: #fff; + border: 1px solid #000000; + background: #555; + z-index:100; + left:-1100px; + } + + +#nav +{ +position:relative; +z-index:2; + clear:both; + float:left; + width:100%; /* width of whole page */ +} + +#content +{ +position:relative; +z-index:2; + clear:both; + float:left; + width:100%; /* width of whole page */ +} diff --git a/utils/jalviewjs/site-resources/css/ie7.css b/utils/jalviewjs/site-resources/css/ie7.css new file mode 100644 index 0000000..47ba859 --- /dev/null +++ b/utils/jalviewjs/site-resources/css/ie7.css @@ -0,0 +1,85 @@ +/** + * Jalview - A Sequence Alignment Editor and Viewer ($$Version-Rel$$) + * Copyright (C) $$Year-Rel$$ The Jalview Authors + * + * This file is part of Jalview. + * + * Jalview is free software: you can redistribute it and/or + * modify it under the terms of the GNU General Public License + * as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. + * + * Jalview is distributed in the hope that it will be useful, but + * WITHOUT ANY WARRANTY; without even the implied warranty + * of MERCHANTABILITY or FITNESS FOR A PARTICULAR + * PURPOSE. See the GNU General Public License for more details. + * + * You should have received a copy of the GNU General Public License along with Jalview. If not, see . + * The Jalview Authors are detailed in the 'AUTHORS' file. + */ +#sddm +{ + position:relative; + top:0; +} + + +#sddm li a.download-right +{ +position:relative; +left:0; +} + +#sddm li +{ +padding-top:30px; +padding-bottom:30px; +} + +#sddm div +{ position: absolute; + visibility: hidden; + margin: 0; + padding: 0; + background: #555; + border: 1px solid #000000; + top:80px; + z-index:9999; + width:120px; +} + + + #sddm div a + { position: relative; + display: block; + margin: 0; + padding:8px; + width: 200px; + white-space: nowrap; + text-align: left; + text-decoration: none; + background: #555; + color: #fff; + border: 1px solid #000000; + background: #555; + z-index:100; + left:-80px; + } + + +#nav +{ +position:relative; +z-index:2; + clear:both; + float:left; + width:100%; /* width of whole page */ +} + +#content +{ +position:relative; +z-index:2; + clear:both; + float:left; + width:100%; /* width of whole page */ +} diff --git a/utils/jalviewjs/site-resources/css/reset.css b/utils/jalviewjs/site-resources/css/reset.css new file mode 100644 index 0000000..de3e422 --- /dev/null +++ b/utils/jalviewjs/site-resources/css/reset.css @@ -0,0 +1,113 @@ +/** + * Jalview - A Sequence Alignment Editor and Viewer ($$Version-Rel$$) + * Copyright (C) $$Year-Rel$$ The Jalview Authors + * + * This file is part of Jalview. + * + * Jalview is free software: you can redistribute it and/or + * modify it under the terms of the GNU General Public License + * as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. + * + * Jalview is distributed in the hope that it will be useful, but + * WITHOUT ANY WARRANTY; without even the implied warranty + * of MERCHANTABILITY or FITNESS FOR A PARTICULAR + * PURPOSE. See the GNU General Public License for more details. + * + * You should have received a copy of the GNU General Public License along with Jalview. If not, see . + * The Jalview Authors are detailed in the 'AUTHORS' file. + */ +/* http://meyerweb.com/eric/tools/css/reset/ + + v2.0 | 20110126 + + License: none (public domain) + +*/ + + + +html, body, div, span, applet, object, iframe, + +h1, h2, h3, h4, h5, h6, p, blockquote, pre, + +a, abbr, acronym, address, big, cite, code, + +del, dfn, em, img, ins, kbd, q, s, samp, + +small, strike, strong, sub, sup, tt, var, + +b, u, i, center, + +dl, dt, dd, ol, ul, li, + +fieldset, form, label, legend, + +table, caption, tbody, tfoot, thead, tr, th, td, + +article, aside, canvas, details, embed, + +figure, figcaption, footer, header, hgroup, + +menu, nav, output, ruby, section, summary, + +time, mark, audio, video { + + margin: 0; + + padding: 0; + + border: 0; + + font-size: 100%; + + font: inherit; + + vertical-align: baseline; + +} + +/* HTML5 display-role reset for older browsers */ + +article, aside, details, figcaption, figure, + +footer, header, hgroup, menu, nav, section { + + display: block; + +} + +body { + + line-height: 1; + +} + +ol, ul { + + list-style: none; + +} + +blockquote, q { + + quotes: none; + +} + +blockquote:before, blockquote:after, + +q:before, q:after { + + content: ''; + + content: none; + +} + +table { + + border-collapse: collapse; + + border-spacing: 0; + +} diff --git a/utils/jalviewjs/site-resources/css/style.css b/utils/jalviewjs/site-resources/css/style.css new file mode 100644 index 0000000..3184fde --- /dev/null +++ b/utils/jalviewjs/site-resources/css/style.css @@ -0,0 +1,457 @@ +/** + * Jalview - A Sequence Alignment Editor and Viewer ($$Version-Rel$$) + * Copyright (C) $$Year-Rel$$ The Jalview Authors + * + * This file is part of Jalview. + * + * Jalview is free software: you can redistribute it and/or + * modify it under the terms of the GNU General Public License + * as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. + * + * Jalview is distributed in the hope that it will be useful, but + * WITHOUT ANY WARRANTY; without even the implied warranty + * of MERCHANTABILITY or FITNESS FOR A PARTICULAR + * PURPOSE. See the GNU General Public License for more details. + * + * You should have received a copy of the GNU General Public License along with Jalview. If not, see . + * The Jalview Authors are detailed in the 'AUTHORS' file. + */ +@import url(http://fonts.googleapis.com/css?family=Lato); +@import url(http://fonts.googleapis.com/css?family=Oswald); + +/***************** +HTML 5 Elements +******************/ +new + + +article, aside, details, figcaption, figure, +footer, header, hgroup, menu, nav, section +{ + display: block; +} + + +.clearfix:after + { + visibility: hidden; + display: block; + font-size: 0; + content: " "; + clear: both; + height: 0; +} + + +/**************** +Body +****************/ + +body + +{ + font: 76% arial,Helvetica,sans-serif; + text-align:left; + background:#fff; + color:#000; + border-top: 20px solid #555555; +} + + + +/********************* +Page Wrapper +********************/ + +#pageWrap + +{ + width: 960px; + margin: 0 auto; + position:relative; +} + +/********************** +HEADER +************************/ + +#header +{ + display: block; + height: 180px; + margin: 0 auto 8px; + width: 960px; + position:relative; +} + +#logo a +{ + background-image: url("../images/logo.jpg"); + background-repeat: no-repeat; + height: 87px; + left: 0; + position: absolute; + top: 50px; + width: 361px; + margin-bottom:50px; +} + +#buttons +{ +height:88px; +width:252px; +float:right; + right: 0; + position: absolute; + top: 50px; +} + +#buttons li +{ +margin-bottom:10px; +} + +#buttons #applet a +{ + background-image: url("../images/applet.jpg"); + background-repeat: no-repeat; + height:50px; + width:250px; + position: absolute; + opacity: 1; + transition: opacity .25s ease-in-out; + -moz-transition: opacity .25s ease-in-out; + -webkit-transition: opacity .25s ease-in-out; + text-shadow: 2px 2px 10px #000000; +} + +#buttons #desktop a +{ + background-image: url("../images/desk.jpg"); + background-repeat: no-repeat; + height:50px; + width:250px; + position: absolute; + top:45px; + opacity: 1; + transition: opacity .25s ease-in-out; + -moz-transition: opacity .25s ease-in-out; + -webkit-transition: opacity .25s ease-in-out; + text-shadow: 2px 2px 10px #000000; +} + +#buttons #applet a:hover +{ + opacity: 0.8; +} + +#buttons #desktop a:hover +{ + opacity: 0.8; +} + +/***************************** +NAV +*********************************/ +#nav +{ +width:100%; +max-width:100%; +color:#fff; +background:#555; +height:80px; +} + +#navInner +{ +width:960px; +margin:0 auto; +position:relative; +} + + +#sddm +{ margin: 0; + padding: 0; + z-index: 30; + position:relative; + top:27px; +} + +#sddm li +{ margin: 0; + padding:0; + list-style: none; + float: left; +} + +#sddm li a +{ + color: #FFFFFF; + font-size: 13pt; + padding: 27px 15px 25px; + text-align: center; + text-decoration: none; + font-family: 'Lato',sans-serif; +} + +#sddm li a.community:hover +{ +background:#F78E1E; +} + +#sddm li a.development:hover +{ +background:#AEBF45; +} + +#sddm li a.training:hover +{ +background:#009DDC; +} + +#sddm li a.download-right +{ +float:right; +position:relative; +left:345px; +display:block; +clear:left; + margin-top: -27px; + padding: 27px 15px 25px; +} + + +ul#sddm li a:hover +{ + text-decoration: none; + background:#0083A9; +} + +#sddm div +{ position: absolute; + visibility: hidden; + margin: 0; + padding: 0; + background: #555; + border: 1px solid #000000; + top:50px; +} + + #sddm div a + { position: relative; + display: block; + margin: 0; + padding:8px; + width: 200px; + white-space: nowrap; + text-align: center; + text-decoration: none; + background: #555; + color: #fff; + border: 1px solid #000000; + background: #555; + } + + + +/***************************** +CONTENT +*****************************/ + +#content +{ + font-size: 10pt; + height: auto; + width: 710px; + padding-top:23px; + padding-bottom:12px; + overflow-x:auto; + overflow-y:hidden; +} +#content h1 +{ + padding-top:29px; + font-size: 15pt; + font-style: bold; +} +#content h2 +{ + padding-top:27px; + font-size: 13pt; + font-style: bold; +} +#content h3 +{ + padding-top:25px; + font-size: 12pt; + font-style: bold italic; +} +#content pre +{ + font-family: monospace; +} +#sideNav +{ +width:200px; +float:left; +padding-top:29px; +margin-right:50px; +} +#content ul +{ + list-style-type: disc; +} +#content li +{ + margin-left: 11px; + padding-bottom:11px; +} + +#sideNav li +{ + height: 40px; + list-style-image: none; + list-style-type: none; + margin-bottom: 20px; +} + +#sideNav a +{ + color: #555555; + display: block; + font-size: 13pt; + padding: 8px 0 0 15px; + text-decoration: none; +} + +#sideNav a:hover +{ + text-decoration: underline; +} +#sideNav .about-nav-title +{ +background: url("../images/normal-arrow-3-normal.png") no-repeat scroll 0 0 transparent; + color: #FFFFFF; + font-family: 'Lato',sans-serif; + font-size: 18pt; + font-weight: normal; + height: 40px; + margin-bottom: 20px; + padding-left: 5px; +} + +#sideNav .jvlite-nav-title +{ +background: url("../images/jvlite-arrow-3-small.png") no-repeat scroll 0 0 transparent; + color: #FFFFFF; + font-family: 'Lato',sans-serif; + font-size: 18pt; + font-weight: normal; + height: 40px; + margin-bottom: 20px; + padding-left: 5px; +} + +#sideNav .jvlite-nav-small +{ +background: url("../images/jvlite-arrow-3-small.png") no-repeat scroll 0 0 transparent; + color: #FFFFFF; + font-family: 'Lato',sans-serif; + font-size: 18pt; + font-weight: normal; + height: 40px; + margin-bottom: 20px; + padding-left: 0px; +} + +#sideNav .com-nav-title +{ +background: url("../images/com-arrow-3-small.png") no-repeat scroll 0 0 transparent; + color: #FFFFFF; + font-family: 'Lato',sans-serif; + font-size: 18pt; + font-weight: normal; + height: 40px; + margin-bottom: 20px; + padding-left: 5px; +} + +#sideNav .dev-nav-title +{ +background: url("../images/dev-arrow-3-normal.png") no-repeat scroll 0 0 transparent; + color: #FFFFFF; + font-family: 'Lato',sans-serif; + font-size: 18pt; + font-weight: normal; + height: 40px; + margin-bottom: 20px; + padding-left: 5px; +} + +#sideNav .train-nav-title +{ +background: url("../images/train-arrow-3-normal.png") no-repeat scroll 0 0 transparent; + color: #FFFFFF; + font-family: 'Lato',sans-serif; + font-size: 18pt; + font-weight: normal; + height: 40px; + margin-bottom: 20px; + padding-left: 5px; +} + +#content .borderTable td +{ + border: 1px solid black; +} +#content .borderTable tr +{ + border-bottom: 2px solid black; +} + +td +{ + vertical-align: middle; +} + +/******************************** +FOOTER +***********************************/ + +#footer +{ +max-width:100%; +width:100%; +color:#fff; +background:#555; +height:140px; +padding-top:10px; +clear:both; +} +#innerFooter a +{ + color: #EEEEEE; + visited: #DDDDDD; + +} + +#innerFooter +{ +width:960px; +margin:0 auto; +height:140px; +padding-top:10px; +} + + +#copyright +{ +float:left; +} + +#cite +{ +float:right; +width:555px; +} diff --git a/utils/jalviewjs/site-resources/examples/1gaq.txt b/utils/jalviewjs/site-resources/examples/1gaq.txt new file mode 100644 index 0000000..7a40768 --- /dev/null +++ b/utils/jalviewjs/site-resources/examples/1gaq.txt @@ -0,0 +1,691 @@ +HEADER OXIDOREDUCTASE/ELECTRON TRANSPORT 08-MAY-00 1GAQ +ATOM 2 CA GLU A 19 20.491 30.713 36.290 1.00 74.29 C +ATOM 11 CA SER A 20 24.056 29.774 37.264 1.00 72.09 C +ATOM 17 CA LYS A 21 27.517 31.289 37.563 1.00 70.09 C +ATOM 26 CA LYS A 22 28.794 27.865 36.481 1.00 68.64 C +ATOM 35 CA GLN A 23 29.484 26.806 32.884 1.00 70.46 C +ATOM 44 CA GLU A 24 26.420 25.175 31.360 1.00 72.08 C +ATOM 53 CA GLU A 25 26.736 26.049 27.683 1.00 70.43 C +ATOM 62 CA GLY A 26 28.299 22.912 26.233 1.00 63.14 C +ATOM 66 CA VAL A 27 26.863 20.704 28.982 1.00 54.50 C +ATOM 73 CA VAL A 28 25.030 17.390 28.655 1.00 48.32 C +ATOM 80 CA THR A 29 23.728 14.677 30.991 1.00 44.86 C +ATOM 87 CA ASN A 30 22.327 11.164 30.703 1.00 45.42 C +ATOM 95 CA LEU A 31 23.332 10.459 27.102 1.00 45.42 C +ATOM 103 CA TYR A 32 23.549 6.898 28.380 1.00 45.88 C +ATOM 115 CA LYS A 33 21.656 5.321 31.262 1.00 47.27 C +ATOM 124 CA PRO A 34 21.991 2.046 33.248 1.00 48.99 C +ATOM 131 CA LYS A 35 19.339 0.560 30.970 1.00 52.75 C +ATOM 140 CA GLU A 36 21.580 0.855 27.886 1.00 53.33 C +ATOM 149 CA PRO A 37 25.154 2.015 28.678 1.00 47.54 C +ATOM 156 CA TYR A 38 27.929 2.872 26.249 1.00 41.98 C +ATOM 168 CA VAL A 39 30.355 -0.017 25.909 1.00 41.48 C +ATOM 175 CA GLY A 40 33.823 1.485 25.966 1.00 37.59 C +ATOM 179 CA ARG A 41 37.165 -0.277 26.122 1.00 39.77 C +ATOM 190 CA CYS A 42 40.148 -0.029 28.442 1.00 36.51 C +ATOM 196 CA LEU A 43 43.095 1.441 26.554 1.00 36.13 C +ATOM 204 CA LEU A 44 45.231 2.023 29.649 1.00 33.55 C +ATOM 212 CA ASN A 45 45.140 1.026 33.307 1.00 27.79 C +ATOM 220 CA THR A 46 48.056 1.800 35.617 1.00 28.75 C +ATOM 227 CA LYS A 47 48.542 1.776 39.388 1.00 30.31 C +ATOM 236 CA ILE A 48 49.564 5.317 40.376 1.00 31.32 C +ATOM 244 CA THR A 49 50.339 4.682 44.059 1.00 37.62 C +ATOM 251 CA GLY A 50 53.585 3.317 45.460 1.00 44.49 C +ATOM 255 CA ASP A 51 53.706 -0.448 46.087 1.00 52.89 C +ATOM 263 CA ASP A 52 53.910 0.545 49.751 1.00 55.23 C +ATOM 271 CA ALA A 53 50.816 2.767 50.056 1.00 53.34 C +ATOM 276 CA PRO A 54 47.904 1.940 52.405 1.00 50.60 C +ATOM 283 CA GLY A 55 45.420 1.579 49.561 1.00 50.35 C +ATOM 287 CA GLU A 56 46.098 1.286 45.836 1.00 42.53 C +ATOM 296 CA THR A 57 44.534 3.816 43.480 1.00 41.14 C +ATOM 303 CA TRP A 58 44.540 3.423 39.708 1.00 35.60 C +ATOM 317 CA HIS A 59 44.468 5.853 36.796 1.00 31.89 C +ATOM 327 CA MET A 60 42.658 4.227 33.866 1.00 31.65 C +ATOM 335 CA VAL A 61 41.716 5.345 30.350 1.00 30.43 C +ATOM 342 CA PHE A 62 38.669 4.172 28.360 1.00 34.36 C +ATOM 353 CA SER A 63 37.657 4.908 24.772 1.00 34.69 C +ATOM 359 CA THR A 64 34.448 6.828 23.951 1.00 36.96 C +ATOM 366 CA GLU A 65 34.691 7.644 20.254 1.00 40.08 C +ATOM 375 CA GLY A 66 33.742 11.183 21.285 1.00 40.22 C +ATOM 379 CA LYS A 67 30.272 9.763 22.003 1.00 41.93 C +ATOM 388 CA ILE A 68 30.279 11.116 25.577 1.00 41.52 C +ATOM 396 CA PRO A 69 30.791 14.926 25.537 1.00 42.35 C +ATOM 403 CA TYR A 70 31.228 15.232 29.299 1.00 39.84 C +ATOM 415 CA ARG A 71 32.639 18.451 30.768 1.00 44.14 C +ATOM 426 CA GLU A 72 35.122 19.278 33.515 1.00 43.82 C +ATOM 435 CA GLY A 73 33.472 18.458 36.835 1.00 41.97 C +ATOM 439 CA GLN A 74 30.929 15.874 35.657 1.00 37.19 C +ATOM 448 CA SER A 75 31.285 12.124 36.138 1.00 38.28 C +ATOM 454 CA ILE A 76 30.458 8.792 34.539 1.00 36.84 C +ATOM 462 CA GLY A 77 28.983 5.620 35.918 1.00 35.39 C +ATOM 466 CA VAL A 78 30.311 2.108 35.530 1.00 32.05 C +ATOM 473 CA ILE A 79 28.458 -1.201 35.591 1.00 32.67 C +ATOM 481 CA ALA A 80 30.745 -4.018 36.644 1.00 35.36 C +ATOM 486 CA ASP A 81 30.359 -7.373 34.872 1.00 38.72 C +ATOM 494 CA GLY A 82 28.308 -10.332 36.110 1.00 45.79 C +ATOM 498 CA VAL A 83 25.820 -10.242 39.001 1.00 52.24 C +ATOM 505 CA ASP A 84 25.838 -10.250 42.834 1.00 60.54 C +ATOM 513 CA LYS A 85 25.014 -13.158 45.196 1.00 66.72 C +ATOM 522 CA ASN A 86 21.414 -13.062 43.904 1.00 67.37 C +ATOM 530 CA GLY A 87 21.724 -13.423 40.136 1.00 64.74 C +ATOM 534 CA LYS A 88 20.971 -9.733 39.570 1.00 61.12 C +ATOM 543 CA PRO A 89 23.054 -7.201 37.561 1.00 54.68 C +ATOM 550 CA HIS A 90 25.224 -4.957 39.755 1.00 44.44 C +ATOM 560 CA LYS A 91 23.940 -1.433 40.260 1.00 40.48 C +ATOM 569 CA VAL A 92 25.803 1.546 38.843 1.00 38.45 C +ATOM 576 CA ARG A 93 28.709 2.986 40.828 1.00 38.93 C +ATOM 587 CA LEU A 94 29.778 6.584 40.096 1.00 34.37 C +ATOM 595 CA TYR A 95 33.309 7.878 39.513 1.00 30.27 C +ATOM 607 CA SER A 96 34.425 11.475 39.057 1.00 29.44 C +ATOM 613 CA ILE A 97 36.029 12.090 35.662 1.00 27.61 C +ATOM 621 CA ALA A 98 39.769 12.693 36.069 1.00 31.12 C +ATOM 626 CA SER A 99 40.393 13.712 32.475 1.00 32.42 C +ATOM 632 CA SER A 100 39.566 17.142 31.059 1.00 36.14 C +ATOM 638 CA ALA A 101 37.097 17.367 28.154 1.00 41.07 C +ATOM 643 CA ILE A 102 39.764 16.549 25.527 1.00 47.65 C +ATOM 651 CA GLY A 103 41.172 13.692 27.599 1.00 46.77 C +ATOM 655 CA ASP A 104 44.730 12.612 28.289 1.00 43.82 C +ATOM 663 CA PHE A 105 45.115 12.065 24.522 1.00 41.52 C +ATOM 674 CA GLY A 106 43.862 15.455 23.328 1.00 41.66 C +ATOM 678 CA ASP A 107 41.355 13.883 20.926 1.00 40.90 C +ATOM 686 CA SER A 108 38.132 14.250 22.954 1.00 42.95 C +ATOM 692 CA LYS A 109 37.967 10.535 22.224 1.00 44.74 C +ATOM 701 CA THR A 110 38.731 9.184 25.704 1.00 41.09 C +ATOM 708 CA VAL A 111 37.728 9.519 29.374 1.00 39.03 C +ATOM 715 CA SER A 112 39.912 8.705 32.399 1.00 37.17 C +ATOM 721 CA LEU A 113 39.098 7.476 35.935 1.00 32.10 C +ATOM 729 CA CYS A 114 40.964 7.578 39.261 1.00 30.65 C +ATOM 735 CA VAL A 115 39.724 4.459 41.060 1.00 33.45 C +ATOM 742 CA LYS A 116 40.668 3.524 44.628 1.00 34.75 C +ATOM 751 CA ARG A 117 40.376 -0.250 45.123 1.00 32.85 C +ATOM 762 CA LEU A 118 38.137 -1.094 48.077 1.00 30.50 C +ATOM 770 CA ILE A 119 39.376 -3.752 50.459 1.00 34.34 C +ATOM 778 CA TYR A 120 38.699 -4.266 54.125 1.00 31.39 C +ATOM 790 CA THR A 121 38.264 -7.086 56.567 1.00 28.83 C +ATOM 797 CA ASN A 122 34.792 -7.477 58.109 1.00 26.51 C +ATOM 805 CA ASP A 123 33.626 -8.382 61.634 1.00 31.58 C +ATOM 813 CA ALA A 124 34.191 -12.077 60.901 1.00 27.84 C +ATOM 818 CA GLY A 125 37.759 -11.844 59.728 1.00 32.39 C +ATOM 822 CA GLU A 126 36.809 -12.146 56.073 1.00 35.82 C +ATOM 831 CA ILE A 127 38.655 -9.932 53.598 1.00 38.42 C +ATOM 839 CA VAL A 128 36.025 -8.261 51.421 1.00 33.73 C +ATOM 846 CA LYS A 129 36.482 -6.484 48.090 1.00 31.87 C +ATOM 855 CA GLY A 130 34.363 -3.680 46.686 1.00 26.91 C +ATOM 859 CA VAL A 131 32.680 -5.051 43.569 1.00 27.89 C +ATOM 866 CA CYS A 132 33.074 -2.246 41.018 1.00 28.46 C +ATOM 872 CA SER A 133 36.266 -0.553 42.213 1.00 31.33 C +ATOM 878 CA ASN A 134 37.861 -3.983 41.984 1.00 30.29 C +ATOM 886 CA PHE A 135 36.318 -4.795 38.623 1.00 31.48 C +ATOM 897 CA LEU A 136 37.926 -1.553 37.520 1.00 27.81 C +ATOM 905 CA CYS A 137 41.417 -1.976 38.955 1.00 25.91 C +ATOM 911 CA ASP A 138 41.605 -5.419 37.338 1.00 30.22 C +ATOM 919 CA LEU A 139 40.462 -4.306 33.874 1.00 32.69 C +ATOM 927 CA GLN A 140 42.851 -5.511 31.186 1.00 36.80 C +ATOM 936 CA PRO A 141 43.380 -3.220 28.170 1.00 36.16 C +ATOM 943 CA GLY A 142 40.864 -4.420 25.586 1.00 31.10 C +ATOM 947 CA ASP A 143 38.129 -5.298 28.055 1.00 30.62 C +ATOM 955 CA ASN A 144 34.690 -3.847 27.645 1.00 33.52 C +ATOM 963 CA VAL A 145 33.430 -1.522 30.361 1.00 37.08 C +ATOM 970 CA GLN A 146 29.817 -0.374 30.523 1.00 37.65 C +ATOM 979 CA ILE A 147 29.547 3.413 31.045 1.00 30.95 C +ATOM 987 CA THR A 148 26.637 5.791 31.832 1.00 29.95 C +ATOM 994 CA GLY A 149 26.297 9.581 31.843 1.00 32.81 C +ATOM 998 CA PRO A 150 27.785 12.148 31.800 1.00 34.98 C +ATOM 1005 CA VAL A 151 26.376 12.668 35.275 1.00 36.53 C +ATOM 1012 CA GLY A 152 26.196 15.756 37.474 1.00 43.09 C +ATOM 1016 CA LYS A 153 26.048 19.528 37.068 1.00 48.37 C +ATOM 1025 CA GLU A 154 26.921 20.540 40.633 1.00 49.70 C +ATOM 1034 CA MET A 155 30.710 20.266 40.235 1.00 47.30 C +ATOM 1042 CA LEU A 156 30.882 22.020 36.869 1.00 50.36 C +ATOM 1050 CA MET A 157 33.362 24.883 36.404 1.00 55.29 C +ATOM 1058 CA PRO A 158 32.521 28.612 36.605 1.00 54.88 C +ATOM 1065 CA LYS A 159 32.291 30.776 33.464 1.00 54.92 C +ATOM 1074 CA ASP A 160 34.497 33.503 34.939 1.00 57.22 C +ATOM 1082 CA PRO A 161 38.055 32.687 33.759 1.00 58.62 C +ATOM 1089 CA ASN A 162 39.524 35.240 36.163 1.00 60.44 C +ATOM 1097 CA ALA A 163 37.814 33.910 39.279 1.00 55.80 C +ATOM 1102 CA THR A 164 39.596 32.487 42.316 1.00 51.04 C +ATOM 1109 CA ILE A 165 38.966 28.771 42.756 1.00 50.26 C +ATOM 1117 CA ILE A 166 39.774 26.773 45.885 1.00 47.54 C +ATOM 1125 CA MET A 167 39.883 23.014 45.324 1.00 46.38 C +ATOM 1133 CA LEU A 168 39.700 20.963 48.522 1.00 42.18 C +ATOM 1141 CA ALA A 169 40.377 17.316 47.770 1.00 36.41 C +ATOM 1146 CA THR A 170 41.005 14.086 49.622 1.00 32.98 C +ATOM 1153 CA GLY A 171 42.027 10.802 48.014 1.00 31.36 C +ATOM 1157 CA THR A 172 40.386 10.037 44.680 1.00 30.48 C +ATOM 1164 CA GLY A 173 38.640 13.335 45.359 1.00 33.99 C +ATOM 1168 CA ILE A 174 41.418 15.036 43.394 1.00 35.66 C +ATOM 1176 CA ALA A 175 39.758 13.585 40.300 1.00 36.00 C +ATOM 1181 CA PRO A 176 37.445 16.385 39.155 1.00 39.41 C +ATOM 1188 CA PHE A 177 40.109 18.971 39.976 1.00 43.21 C +ATOM 1199 CA ARG A 178 42.726 17.119 37.955 1.00 41.09 C +ATOM 1210 CA SER A 179 40.235 17.536 35.124 1.00 39.92 C +ATOM 1216 CA PHE A 180 39.808 21.204 36.009 1.00 39.23 C +ATOM 1227 CA LEU A 181 43.528 21.949 35.995 1.00 39.50 C +ATOM 1235 CA TRP A 182 44.305 20.081 32.770 1.00 41.47 C +ATOM 1249 CA LYS A 183 42.141 22.654 30.972 1.00 48.08 C +ATOM 1258 CA MET A 184 43.477 25.547 33.062 1.00 52.79 C +ATOM 1266 CA PHE A 185 47.102 25.043 32.014 1.00 57.35 C +ATOM 1277 CA PHE A 186 48.075 21.921 30.051 1.00 55.98 C +ATOM 1288 CA GLU A 187 45.758 23.173 27.297 1.00 54.44 C +ATOM 1297 CA LYS A 188 44.908 26.236 25.196 1.00 51.29 C +ATOM 1306 CA HIS A 189 41.395 27.080 24.003 1.00 51.35 C +ATOM 1316 CA ASP A 190 40.108 29.972 21.873 1.00 54.30 C +ATOM 1324 CA ASP A 191 37.199 30.481 24.249 1.00 53.95 C +ATOM 1332 CA TYR A 192 38.816 29.937 27.634 1.00 50.68 C +ATOM 1344 CA LYS A 193 41.916 31.388 29.230 1.00 51.00 C +ATOM 1353 CA PHE A 194 42.322 30.967 32.956 1.00 52.09 C +ATOM 1364 CA ASN A 195 43.672 34.234 34.312 1.00 56.46 C +ATOM 1372 CA GLY A 196 42.616 34.078 37.969 1.00 57.17 C +ATOM 1376 CA LEU A 197 43.874 31.920 40.843 1.00 57.92 C +ATOM 1384 CA GLY A 198 43.549 28.151 41.086 1.00 56.67 C +ATOM 1388 CA TRP A 199 44.258 26.886 44.592 1.00 51.55 C +ATOM 1402 CA LEU A 200 44.411 23.170 45.379 1.00 49.17 C +ATOM 1410 CA PHE A 201 44.558 21.335 48.709 1.00 48.60 C +ATOM 1421 CA LEU A 202 45.122 17.570 48.598 1.00 45.34 C +ATOM 1429 CA GLY A 203 44.885 15.480 51.742 1.00 48.55 C +ATOM 1433 CA VAL A 204 46.225 11.936 51.755 1.00 50.23 C +ATOM 1440 CA PRO A 205 47.942 9.740 54.365 1.00 51.51 C +ATOM 1447 CA THR A 206 51.284 9.148 52.648 1.00 50.21 C +ATOM 1454 CA SER A 207 53.551 10.483 49.894 1.00 49.38 C +ATOM 1460 CA SER A 208 53.267 7.061 48.259 1.00 43.49 C +ATOM 1466 CA SER A 209 49.588 8.049 48.093 1.00 42.57 C +ATOM 1472 CA LEU A 210 49.990 11.424 46.364 1.00 42.65 C +ATOM 1480 CA LEU A 211 48.121 11.446 43.035 1.00 39.33 C +ATOM 1488 CA TYR A 212 49.516 13.214 39.935 1.00 40.89 C +ATOM 1500 CA LYS A 213 52.128 15.234 41.873 1.00 45.88 C +ATOM 1509 CA GLU A 214 54.518 15.406 38.899 1.00 53.22 C +ATOM 1518 CA GLU A 215 51.680 16.911 36.889 1.00 55.16 C +ATOM 1527 CA PHE A 216 50.757 19.475 39.514 1.00 60.55 C +ATOM 1538 CA GLY A 217 54.488 20.153 39.524 1.00 66.64 C +ATOM 1542 CA LYS A 218 54.575 21.110 35.850 1.00 68.86 C +ATOM 1551 CA MET A 219 51.398 23.159 36.265 1.00 66.97 C +ATOM 1559 CA LYS A 220 53.138 25.090 39.061 1.00 65.97 C +ATOM 1568 CA GLU A 221 55.654 26.250 36.459 1.00 70.02 C +ATOM 1577 CA ARG A 222 53.584 26.507 33.294 1.00 73.48 C +ATOM 1588 CA ALA A 223 52.005 29.449 35.175 1.00 76.21 C +ATOM 1593 CA PRO A 224 53.272 29.877 38.804 1.00 79.25 C +ATOM 1600 CA GLU A 225 51.296 33.124 39.020 1.00 81.84 C +ATOM 1609 CA ASN A 226 47.873 31.528 38.622 1.00 78.84 C +ATOM 1617 CA PHE A 227 48.418 28.176 40.350 1.00 75.28 C +ATOM 1628 CA ARG A 228 49.090 27.305 43.996 1.00 72.05 C +ATOM 1639 CA VAL A 229 49.165 23.724 45.323 1.00 68.82 C +ATOM 1646 CA ASP A 230 49.258 22.581 48.958 1.00 66.54 C +ATOM 1654 CA TYR A 231 49.605 18.943 49.968 1.00 60.31 C +ATOM 1666 CA ALA A 232 48.551 17.560 53.332 1.00 57.39 C +ATOM 1671 CA VAL A 233 50.260 14.228 53.945 1.00 57.14 C +ATOM 1678 CA SER A 234 48.465 13.579 57.244 1.00 60.81 C +ATOM 1684 CA ARG A 235 50.959 11.010 58.514 1.00 60.74 C +ATOM 1695 CA GLU A 236 54.268 12.594 57.481 1.00 59.17 C +ATOM 1704 CA GLN A 237 53.494 16.197 58.450 1.00 59.62 C +ATOM 1713 CA THR A 238 52.590 18.236 61.521 1.00 63.18 C +ATOM 1720 CA ASN A 239 52.019 21.937 62.188 1.00 66.71 C +ATOM 1728 CA ALA A 240 52.096 23.767 65.537 1.00 70.06 C +ATOM 1733 CA ALA A 241 51.302 21.400 68.410 1.00 72.44 C +ATOM 1738 CA GLY A 242 52.383 18.324 66.438 1.00 72.38 C +ATOM 1742 CA GLU A 243 48.826 18.169 65.110 1.00 69.71 C +ATOM 1751 CA ARG A 244 48.674 15.776 62.148 1.00 67.21 C +ATOM 1762 CA MET A 245 48.712 17.796 58.933 1.00 64.20 C +ATOM 1770 CA TYR A 246 45.246 17.082 57.556 1.00 60.65 C +ATOM 1782 CA ILE A 247 43.617 18.437 54.409 1.00 62.98 C +ATOM 1790 CA GLN A 248 42.035 21.001 56.761 1.00 64.64 C +ATOM 1799 CA THR A 249 45.057 21.461 59.009 1.00 63.37 C +ATOM 1806 CA ARG A 250 46.891 22.664 55.903 1.00 62.47 C +ATOM 1817 CA MET A 251 44.123 25.201 55.251 1.00 63.35 C +ATOM 1825 CA ALA A 252 44.571 26.305 58.854 1.00 65.73 C +ATOM 1830 CA GLU A 253 47.973 27.809 58.076 1.00 65.97 C +ATOM 1839 CA TYR A 254 46.267 30.063 55.517 1.00 65.83 C +ATOM 1851 CA LYS A 255 42.991 30.559 57.379 1.00 70.30 C +ATOM 1860 CA GLU A 256 43.578 34.326 57.320 1.00 73.73 C +ATOM 1869 CA GLU A 257 44.189 34.738 53.593 1.00 71.52 C +ATOM 1878 CA LEU A 258 41.459 32.202 52.893 1.00 73.38 C +ATOM 1886 CA TRP A 259 38.790 34.074 54.853 1.00 76.72 C +ATOM 1900 CA GLU A 260 39.721 37.275 53.006 1.00 78.61 C +ATOM 1909 CA LEU A 261 38.580 35.553 49.815 1.00 75.71 C +ATOM 1917 CA LEU A 262 35.391 33.881 51.047 1.00 73.74 C +ATOM 1925 CA LYS A 263 33.562 37.165 50.535 1.00 73.64 C +ATOM 1934 CA LYS A 264 34.299 38.143 46.954 1.00 72.48 C +ATOM 1943 CA ASP A 265 31.954 37.554 43.993 1.00 69.65 C +ATOM 1951 CA ASN A 266 34.660 35.649 42.106 1.00 65.06 C +ATOM 1959 CA THR A 267 35.835 33.117 44.683 1.00 58.24 C +ATOM 1966 CA TYR A 268 34.459 29.646 43.909 1.00 51.04 C +ATOM 1978 CA VAL A 269 35.192 26.827 46.382 1.00 44.95 C +ATOM 1985 CA TYR A 270 35.012 23.150 45.368 1.00 44.96 C +ATOM 1997 CA MET A 271 35.162 20.122 47.656 1.00 41.72 C +ATOM 2005 CA CYS A 272 35.314 16.468 46.632 1.00 37.19 C +ATOM 2011 CA GLY A 273 36.343 13.080 47.951 1.00 37.65 C +ATOM 2015 CA LEU A 274 36.040 10.886 51.020 1.00 39.39 C +ATOM 2023 CA LYS A 275 33.076 12.283 52.955 1.00 44.86 C +ATOM 2032 CA GLY A 276 34.322 13.183 56.400 1.00 49.16 C +ATOM 2036 CA MET A 277 36.932 15.608 55.168 1.00 53.30 C +ATOM 2044 CA GLU A 278 33.917 17.921 55.165 1.00 56.74 C +ATOM 2053 CA LYS A 279 33.531 18.089 58.947 1.00 59.30 C +ATOM 2062 CA GLY A 280 36.982 19.413 59.776 1.00 58.94 C +ATOM 2066 CA ILE A 281 36.705 22.048 57.063 1.00 61.43 C +ATOM 2074 CA ASP A 282 33.453 23.402 58.515 1.00 67.06 C +ATOM 2082 CA ASP A 283 35.050 23.189 61.972 1.00 74.12 C +ATOM 2090 CA ILE A 284 37.991 25.422 61.040 1.00 78.49 C +ATOM 2098 CA MET A 285 35.456 27.566 59.201 1.00 82.25 C +ATOM 2106 CA VAL A 286 32.941 27.959 62.027 1.00 83.44 C +ATOM 2113 CA SER A 287 35.610 29.113 64.469 1.00 83.43 C +ATOM 2119 CA LEU A 288 36.927 31.601 61.887 1.00 85.53 C +ATOM 2127 CA ALA A 289 33.506 33.025 60.970 1.00 86.85 C +ATOM 2132 CA GLU A 290 31.841 32.696 64.387 1.00 89.26 C +ATOM 2141 CA LYS A 291 34.438 35.312 65.347 1.00 88.73 C +ATOM 2150 CA ASP A 292 33.635 37.891 62.652 1.00 88.03 C +ATOM 2158 CA GLY A 293 30.219 37.450 61.081 1.00 87.88 C +ATOM 2162 CA ILE A 294 27.319 35.051 61.511 1.00 84.61 C +ATOM 2170 CA ASP A 295 27.665 31.329 62.188 1.00 82.45 C +ATOM 2178 CA TRP A 296 29.539 29.627 59.355 1.00 80.12 C +ATOM 2192 CA PHE A 297 26.527 27.452 58.512 1.00 78.99 C +ATOM 2203 CA ASP A 298 24.167 30.241 57.486 1.00 76.37 C +ATOM 2211 CA TYR A 299 27.074 31.748 55.561 1.00 74.07 C +ATOM 2223 CA LYS A 300 27.679 28.620 53.473 1.00 74.31 C +ATOM 2232 CA LYS A 301 24.059 29.146 52.464 1.00 75.97 C +ATOM 2241 CA GLN A 302 24.921 32.563 51.018 1.00 75.38 C +ATOM 2250 CA LEU A 303 27.896 31.099 49.155 1.00 72.10 C +ATOM 2258 CA LYS A 304 25.917 28.207 47.690 1.00 72.08 C +ATOM 2267 CA ARG A 305 23.595 31.021 46.594 1.00 74.82 C +ATOM 2278 CA GLY A 306 26.071 32.136 43.958 1.00 71.84 C +ATOM 2282 CA ASP A 307 27.505 28.682 43.220 1.00 67.23 C +ATOM 2290 CA GLN A 308 30.620 29.291 45.346 1.00 60.18 C +ATOM 2299 CA TRP A 309 30.585 26.177 47.537 1.00 52.25 C +ATOM 2313 CA ASN A 310 29.894 22.997 45.597 1.00 45.03 C +ATOM 2321 CA VAL A 311 30.327 19.716 47.403 1.00 39.13 C +ATOM 2328 CA GLU A 312 30.507 16.190 46.110 1.00 35.17 C +ATOM 2337 CA VAL A 313 31.761 13.957 48.861 1.00 30.12 C +ATOM 2344 CA TYR A 314 31.112 10.230 49.021 1.00 28.23 C +ATOM 2358 CA ALA B 1 2.311 24.702 44.475 1.00 74.17 C +ATOM 2363 CA THR B 2 3.590 24.207 48.055 1.00 74.76 C +ATOM 2370 CA TYR B 3 3.069 20.876 49.837 1.00 73.52 C +ATOM 2382 CA ASN B 4 3.748 19.874 53.435 1.00 75.75 C +ATOM 2390 CA VAL B 5 6.618 17.399 53.868 1.00 75.95 C +ATOM 2397 CA LYS B 6 7.769 15.523 56.983 1.00 77.70 C +ATOM 2406 CA LEU B 7 11.351 14.325 57.458 1.00 78.91 C +ATOM 2414 CA ILE B 8 11.807 11.511 59.985 1.00 81.00 C +ATOM 2422 CA THR B 9 15.560 12.046 60.247 1.00 87.49 C +ATOM 2429 CA PRO B 10 17.662 9.793 62.539 1.00 92.94 C +ATOM 2436 CA GLU B 11 18.161 13.147 64.282 1.00 96.61 C +ATOM 2445 CA GLY B 12 14.579 14.154 65.041 1.00 97.52 C +ATOM 2449 CA GLU B 13 11.602 14.823 62.748 1.00 96.90 C +ATOM 2458 CA VAL B 14 11.547 17.892 60.480 1.00 96.63 C +ATOM 2465 CA GLU B 15 8.340 19.701 59.440 1.00 94.86 C +ATOM 2474 CA LEU B 16 9.471 21.479 56.254 1.00 91.55 C +ATOM 2482 CA GLN B 17 7.281 23.141 53.598 1.00 89.75 C +ATOM 2491 CA VAL B 18 8.485 22.069 50.145 1.00 87.92 C +ATOM 2498 CA PRO B 19 6.906 23.558 46.964 1.00 86.35 C +ATOM 2505 CA ASP B 20 5.990 21.744 43.717 1.00 86.29 C +ATOM 2513 CA ASP B 21 8.578 22.751 41.083 1.00 83.78 C +ATOM 2521 CA VAL B 22 11.385 22.401 43.639 1.00 80.98 C +ATOM 2528 CA TYR B 23 13.439 19.280 44.481 1.00 77.04 C +ATOM 2540 CA ILE B 24 13.212 18.196 48.120 1.00 76.45 C +ATOM 2548 CA LEU B 25 16.959 18.133 48.851 1.00 75.15 C +ATOM 2556 CA ASP B 26 17.154 21.745 47.689 1.00 75.80 C +ATOM 2564 CA GLN B 27 14.616 22.906 50.280 1.00 76.31 C +ATOM 2573 CA ALA B 28 16.562 20.957 52.914 1.00 78.86 C +ATOM 2578 CA GLU B 29 19.698 23.011 52.198 1.00 81.51 C +ATOM 2587 CA GLU B 30 17.491 26.106 52.510 1.00 83.25 C +ATOM 2596 CA ASP B 31 15.857 25.933 55.935 1.00 81.92 C +ATOM 2604 CA GLY B 32 19.280 24.859 57.151 1.00 79.08 C +ATOM 2608 CA ILE B 33 18.621 21.130 57.157 1.00 76.93 C +ATOM 2616 CA ASP B 34 21.528 18.731 56.618 1.00 73.53 C +ATOM 2624 CA LEU B 35 20.738 15.738 54.421 1.00 67.74 C +ATOM 2632 CA PRO B 36 23.138 13.391 52.547 1.00 65.90 C +ATOM 2639 CA TYR B 37 23.916 14.226 48.912 1.00 64.85 C +ATOM 2651 CA SER B 38 26.659 13.373 46.412 1.00 62.58 C +ATOM 2657 CA CYS B 39 26.193 13.603 42.652 1.00 60.99 C +ATOM 2663 CA ARG B 40 22.908 15.441 43.251 1.00 58.35 C +ATOM 2674 CA ALA B 41 21.699 14.108 39.886 1.00 56.38 C +ATOM 2679 CA GLY B 42 19.886 10.955 40.991 1.00 56.66 C +ATOM 2683 CA SER B 43 22.465 8.336 40.010 1.00 58.55 C +ATOM 2689 CA CYS B 44 23.548 7.052 43.447 1.00 56.27 C +ATOM 2695 CA SER B 45 22.057 5.987 46.791 1.00 58.20 C +ATOM 2701 CA SER B 46 23.574 8.773 48.890 1.00 59.13 C +ATOM 2707 CA CYS B 47 20.220 10.475 49.517 1.00 65.64 C +ATOM 2713 CA ALA B 48 17.911 7.436 49.610 1.00 69.71 C +ATOM 2718 CA GLY B 49 14.733 7.635 51.681 1.00 73.09 C +ATOM 2722 CA LYS B 50 11.712 5.340 52.183 1.00 73.77 C +ATOM 2731 CA VAL B 51 8.551 7.412 51.568 1.00 76.51 C +ATOM 2738 CA VAL B 52 5.237 7.081 53.429 1.00 78.85 C +ATOM 2745 CA SER B 53 2.180 9.376 53.647 1.00 79.57 C +ATOM 2751 CA GLY B 54 2.118 10.991 50.218 1.00 76.32 C +ATOM 2755 CA SER B 55 3.577 10.944 46.726 1.00 76.31 C +ATOM 2761 CA VAL B 56 6.436 12.592 44.828 1.00 77.50 C +ATOM 2768 CA ASP B 57 7.691 12.960 41.243 1.00 76.83 C +ATOM 2776 CA GLN B 58 11.150 11.483 40.555 1.00 76.66 C +ATOM 2785 CA SER B 59 10.976 10.827 36.792 1.00 80.19 C +ATOM 2791 CA ASP B 60 14.688 11.644 36.510 1.00 83.51 C +ATOM 2799 CA GLN B 61 15.175 8.137 37.916 1.00 85.74 C +ATOM 2808 CA SER B 62 18.644 7.080 36.699 1.00 85.85 C +ATOM 2814 CA TYR B 63 19.324 5.049 39.852 1.00 84.49 C +ATOM 2826 CA LEU B 64 15.683 4.296 40.629 1.00 89.06 C +ATOM 2834 CA ASP B 65 15.356 0.604 39.742 1.00 92.21 C +ATOM 2842 CA ASP B 66 12.421 -1.791 39.331 1.00 92.35 C +ATOM 2850 CA GLY B 67 10.747 -2.542 42.659 1.00 89.07 C +ATOM 2854 CA GLN B 68 12.336 0.632 44.010 1.00 88.41 C +ATOM 2863 CA ILE B 69 9.483 2.828 42.742 1.00 86.11 C +ATOM 2871 CA ALA B 70 7.060 0.441 44.446 1.00 81.10 C +ATOM 2876 CA ASP B 71 8.985 -0.310 47.648 1.00 76.82 C +ATOM 2884 CA GLY B 72 8.653 3.423 48.186 1.00 73.00 C +ATOM 2888 CA TRP B 73 12.342 4.386 48.095 1.00 67.93 C +ATOM 2902 CA VAL B 74 13.052 8.007 47.136 1.00 63.84 C +ATOM 2909 CA LEU B 75 16.093 9.940 45.892 1.00 58.37 C +ATOM 2917 CA THR B 76 15.524 13.198 47.826 1.00 55.82 C +ATOM 2924 CA CYS B 77 17.941 15.109 45.556 1.00 58.23 C +ATOM 2930 CA HIS B 78 15.777 14.389 42.513 1.00 64.55 C +ATOM 2940 CA ALA B 79 12.108 14.429 43.512 1.00 68.40 C +ATOM 2945 CA TYR B 80 9.442 17.152 43.581 1.00 69.69 C +ATOM 2957 CA PRO B 81 6.414 16.584 45.842 1.00 71.39 C +ATOM 2964 CA THR B 82 3.015 16.014 44.179 1.00 73.67 C +ATOM 2971 CA SER B 83 1.278 15.771 47.557 1.00 76.90 C +ATOM 2977 CA ASP B 84 1.940 16.119 51.289 1.00 75.20 C +ATOM 2985 CA VAL B 85 4.840 13.765 52.050 1.00 71.37 C +ATOM 2992 CA VAL B 86 6.363 11.824 54.956 1.00 70.12 C +ATOM 2999 CA ILE B 87 9.770 10.300 54.188 1.00 74.18 C +ATOM 3007 CA GLU B 88 12.211 8.403 56.410 1.00 78.53 C +ATOM 3012 CA THR B 89 15.541 9.964 55.407 1.00 79.79 C +ATOM 3019 CA HIS B 90 19.062 8.538 55.881 1.00 79.40 C +ATOM 3029 CA LYS B 91 17.584 5.099 55.099 1.00 84.52 C +ATOM 3038 CA GLU B 92 20.016 2.596 53.549 1.00 91.64 C +ATOM 3047 CA GLU B 93 20.192 -0.858 51.981 1.00 98.97 C +ATOM 3056 CA GLU B 94 23.321 -2.924 51.298 1.00106.32 C +ATOM 3065 CA LEU B 95 22.104 -6.552 51.453 1.00111.32 C +ATOM 3073 CA THR B 96 18.778 -8.417 51.866 1.00116.01 C +ATOM 3080 CA GLY B 97 18.877 -11.302 49.394 1.00116.63 C +ATOM 3084 CA ALA B 98 22.056 -9.833 47.910 1.00116.02 C +ATOM 3091 CA GLU C 19 26.080 -2.480 15.294 1.00 73.96 C +ATOM 3100 CA SER C 20 23.405 0.198 14.956 1.00 67.27 C +ATOM 3106 CA LYS C 21 22.937 3.927 15.380 1.00 59.27 C +ATOM 3115 CA LYS C 22 19.198 3.481 15.874 1.00 58.42 C +ATOM 3124 CA GLN C 23 17.251 3.141 19.137 1.00 59.89 C +ATOM 3133 CA GLU C 24 17.931 -0.276 20.610 1.00 62.66 C +ATOM 3142 CA GLU C 25 16.850 -0.453 24.226 1.00 64.27 C +ATOM 3151 CA GLY C 26 13.211 -0.817 25.116 1.00 61.78 C +ATOM 3155 CA VAL C 27 12.703 -2.073 21.582 1.00 58.37 C +ATOM 3162 CA VAL C 28 10.779 -5.347 21.485 1.00 54.17 C +ATOM 3169 CA THR C 29 9.481 -7.339 18.549 1.00 52.79 C +ATOM 3176 CA ASN C 30 6.670 -9.775 17.786 1.00 51.30 C +ATOM 3184 CA LEU C 31 4.863 -9.997 21.112 1.00 51.05 C +ATOM 3192 CA TYR C 32 1.766 -11.297 19.327 1.00 50.51 C +ATOM 3204 CA LYS C 33 1.373 -13.532 16.266 1.00 49.49 C +ATOM 3213 CA PRO C 34 -1.609 -14.150 13.925 1.00 50.98 C +ATOM 3220 CA LYS C 35 -2.450 -17.248 16.011 1.00 55.46 C +ATOM 3229 CA GLU C 36 -2.977 -15.400 19.288 1.00 53.79 C +ATOM 3238 CA PRO C 37 -3.251 -11.638 18.607 1.00 49.32 C +ATOM 3245 CA TYR C 38 -3.674 -9.050 21.318 1.00 46.76 C +ATOM 3257 CA VAL C 39 -7.276 -7.947 21.418 1.00 43.68 C +ATOM 3264 CA GLY C 40 -7.415 -4.194 21.922 1.00 41.62 C +ATOM 3268 CA ARG C 41 -10.273 -1.719 21.954 1.00 40.07 C +ATOM 3279 CA CYS C 42 -11.026 1.064 19.477 1.00 36.37 C +ATOM 3285 CA LEU C 43 -11.330 4.206 21.583 1.00 31.09 C +ATOM 3293 CA LEU C 44 -11.337 6.671 18.673 1.00 28.46 C +ATOM 3301 CA ASN C 45 -11.792 6.653 14.923 1.00 26.74 C +ATOM 3309 CA THR C 46 -11.954 9.920 13.013 1.00 25.29 C +ATOM 3316 CA LYS C 47 -11.667 10.775 9.352 1.00 21.50 C +ATOM 3325 CA ILE C 48 -8.895 13.355 9.121 1.00 19.33 C +ATOM 3333 CA THR C 49 -9.125 14.281 5.442 1.00 20.38 C +ATOM 3340 CA GLY C 50 -11.630 16.676 3.855 1.00 20.12 C +ATOM 3344 CA ASP C 51 -14.895 15.345 2.412 1.00 21.75 C +ATOM 3352 CA ASP C 52 -13.889 16.693 -0.999 1.00 21.19 C +ATOM 3360 CA ALA C 53 -10.651 14.683 -0.749 1.00 21.06 C +ATOM 3365 CA PRO C 54 -10.036 11.974 -3.413 1.00 21.39 C +ATOM 3372 CA GLY C 55 -9.982 9.067 -0.977 1.00 24.42 C +ATOM 3376 CA GLU C 56 -10.374 9.298 2.857 1.00 22.08 C +ATOM 3385 CA THR C 57 -7.723 8.611 5.517 1.00 20.31 C +ATOM 3392 CA TRP C 58 -8.541 7.849 9.162 1.00 19.33 C +ATOM 3406 CA HIS C 59 -6.758 8.520 12.438 1.00 22.68 C +ATOM 3416 CA MET C 60 -7.645 5.951 15.108 1.00 27.16 C +ATOM 3424 CA VAL C 61 -6.672 5.224 18.723 1.00 29.32 C +ATOM 3431 CA PHE C 62 -6.669 1.704 20.220 1.00 34.23 C +ATOM 3442 CA SER C 63 -6.102 0.643 23.847 1.00 37.05 C +ATOM 3448 CA THR C 64 -3.096 -1.517 24.798 1.00 41.86 C +ATOM 3455 CA GLU C 65 -3.169 -1.652 28.621 1.00 48.33 C +ATOM 3464 CA GLY C 66 0.537 -0.885 28.318 1.00 52.45 C +ATOM 3468 CA LYS C 67 0.955 -4.385 26.891 1.00 54.14 C +ATOM 3477 CA ILE C 68 2.429 -3.211 23.570 1.00 51.52 C +ATOM 3485 CA PRO C 69 5.602 -1.279 24.487 1.00 49.85 C +ATOM 3492 CA TYR C 70 6.523 -0.180 20.967 1.00 44.48 C +ATOM 3504 CA ARG C 71 9.185 2.353 19.993 1.00 40.96 C +ATOM 3515 CA GLU C 72 8.727 5.317 17.688 1.00 33.49 C +ATOM 3524 CA GLY C 73 8.913 3.876 14.164 1.00 30.16 C +ATOM 3528 CA GLN C 74 7.423 0.399 14.427 1.00 31.26 C +ATOM 3537 CA SER C 75 4.187 -0.913 12.966 1.00 33.65 C +ATOM 3543 CA ILE C 76 1.454 -3.212 14.278 1.00 33.75 C +ATOM 3551 CA GLY C 77 -0.295 -5.923 12.356 1.00 34.32 C +ATOM 3555 CA VAL C 78 -4.060 -6.111 12.164 1.00 36.67 C +ATOM 3562 CA ILE C 79 -6.137 -9.230 11.507 1.00 41.91 C +ATOM 3570 CA ALA C 80 -9.427 -8.086 10.024 1.00 44.06 C +ATOM 3575 CA ASP C 81 -12.530 -9.927 11.224 1.00 47.03 C +ATOM 3583 CA GLY C 82 -13.972 -12.487 8.829 1.00 53.52 C +ATOM 3587 CA VAL C 83 -12.521 -14.951 6.324 1.00 62.57 C +ATOM 3594 CA ASP C 84 -11.856 -14.200 2.630 1.00 71.97 C +ATOM 3602 CA LYS C 85 -12.935 -17.403 0.861 1.00 76.86 C +ATOM 3611 CA ASN C 86 -13.690 -18.960 4.253 1.00 76.52 C +ATOM 3619 CA GLY C 87 -10.006 -19.837 4.066 1.00 76.22 C +ATOM 3623 CA LYS C 88 -8.802 -19.138 7.616 1.00 71.60 C +ATOM 3632 CA PRO C 89 -8.651 -15.577 8.944 1.00 64.14 C +ATOM 3639 CA HIS C 90 -7.547 -12.649 6.805 1.00 52.35 C +ATOM 3649 CA LYS C 91 -3.753 -12.529 6.474 1.00 46.81 C +ATOM 3658 CA VAL C 92 -2.180 -9.868 8.686 1.00 43.48 C +ATOM 3665 CA ARG C 93 -1.491 -6.414 7.232 1.00 36.99 C +ATOM 3676 CA LEU C 94 0.983 -3.882 8.601 1.00 32.95 C +ATOM 3684 CA TYR C 95 0.340 -0.239 9.510 1.00 24.84 C +ATOM 3696 CA SER C 96 3.003 2.101 10.803 1.00 23.32 C +ATOM 3702 CA ILE C 97 2.244 3.502 14.236 1.00 24.12 C +ATOM 3710 CA ALA C 98 1.243 7.179 13.932 1.00 22.32 C +ATOM 3715 CA SER C 99 1.572 7.636 17.676 1.00 25.69 C +ATOM 3721 CA SER C 100 4.752 7.924 19.726 1.00 28.83 C +ATOM 3727 CA ALA C 101 5.741 5.521 22.508 1.00 35.61 C +ATOM 3732 CA ILE C 102 3.906 7.635 25.079 1.00 38.39 C +ATOM 3740 CA GLY C 103 0.899 7.826 22.742 1.00 31.93 C +ATOM 3744 CA ASP C 104 -1.803 10.384 21.986 1.00 28.77 C +ATOM 3752 CA PHE C 105 -3.050 10.293 25.607 1.00 37.05 C +ATOM 3763 CA GLY C 106 0.503 10.389 26.967 1.00 39.36 C +ATOM 3767 CA ASP C 107 -0.221 7.437 29.266 1.00 41.44 C +ATOM 3775 CA SER C 108 1.566 4.766 27.217 1.00 42.18 C +ATOM 3781 CA LYS C 109 -1.747 2.877 27.156 1.00 42.45 C +ATOM 3790 CA THR C 110 -2.698 3.586 23.515 1.00 38.10 C +ATOM 3797 CA VAL C 111 -1.603 2.971 19.906 1.00 32.79 C +ATOM 3804 CA SER C 112 -2.671 5.020 16.872 1.00 29.60 C +ATOM 3810 CA LEU C 113 -2.713 4.324 13.126 1.00 25.68 C +ATOM 3818 CA CYS C 114 -3.142 6.498 9.999 1.00 24.23 C +ATOM 3824 CA VAL C 115 -5.345 4.496 7.641 1.00 22.80 C +ATOM 3831 CA LYS C 116 -6.221 5.196 4.015 1.00 22.11 C +ATOM 3840 CA ARG C 117 -9.458 3.521 2.955 1.00 25.68 C +ATOM 3851 CA LEU C 118 -8.447 1.440 -0.100 1.00 28.80 C +ATOM 3859 CA ILE C 119 -11.140 1.661 -2.792 1.00 31.75 C +ATOM 3867 CA TYR C 120 -10.086 0.716 -6.312 1.00 32.93 C +ATOM 3879 CA THR C 121 -11.388 -0.733 -9.598 1.00 36.84 C +ATOM 3886 CA ASN C 122 -10.258 -4.257 -10.546 1.00 36.90 C +ATOM 3894 CA ASP C 123 -9.574 -5.562 -14.056 1.00 45.45 C +ATOM 3902 CA ALA C 124 -13.196 -6.758 -14.269 1.00 44.66 C +ATOM 3907 CA GLY C 125 -14.207 -3.102 -14.023 1.00 45.49 C +ATOM 3911 CA GLU C 126 -16.059 -3.511 -10.722 1.00 45.54 C +ATOM 3920 CA ILE C 127 -15.507 -1.321 -7.638 1.00 39.70 C +ATOM 3928 CA VAL C 128 -13.846 -3.171 -4.762 1.00 38.09 C +ATOM 3935 CA LYS C 129 -12.759 -2.512 -1.198 1.00 33.77 C +ATOM 3944 CA GLY C 130 -9.566 -3.363 0.599 1.00 31.98 C +ATOM 3948 CA VAL C 131 -10.443 -5.797 3.385 1.00 33.16 C +ATOM 3955 CA CYS C 132 -8.241 -4.645 6.257 1.00 29.97 C +ATOM 3961 CA SER C 133 -8.238 -0.898 5.607 1.00 30.67 C +ATOM 3967 CA ASN C 134 -12.022 -0.902 5.268 1.00 30.35 C +ATOM 3975 CA PHE C 135 -12.375 -2.946 8.424 1.00 29.86 C +ATOM 3986 CA LEU C 136 -10.223 -0.334 10.195 1.00 29.42 C +ATOM 3994 CA CYS C 137 -11.779 2.834 8.813 1.00 32.27 C +ATOM 4000 CA ASP C 138 -15.116 1.280 9.724 1.00 34.29 C +ATOM 4008 CA LEU C 139 -14.287 0.699 13.399 1.00 37.51 C +ATOM 4016 CA GLN C 140 -16.635 2.170 16.028 1.00 43.76 C +ATOM 4025 CA PRO C 141 -15.630 3.032 19.581 1.00 42.77 C +ATOM 4032 CA GLY C 142 -16.082 -0.210 21.478 1.00 42.83 C +ATOM 4036 CA ASP C 143 -15.117 -2.625 18.696 1.00 40.91 C +ATOM 4044 CA ASN C 144 -12.182 -4.947 19.288 1.00 45.66 C +ATOM 4052 CA VAL C 145 -9.056 -5.146 17.145 1.00 46.95 C +ATOM 4059 CA GLN C 146 -6.707 -8.107 16.606 1.00 48.69 C +ATOM 4068 CA ILE C 147 -3.249 -6.538 17.123 1.00 46.84 C +ATOM 4076 CA THR C 148 -0.010 -8.392 16.264 1.00 46.26 C +ATOM 4083 CA GLY C 149 3.543 -7.117 16.634 1.00 45.60 C +ATOM 4087 CA PRO C 150 5.248 -4.818 17.394 1.00 44.97 C +ATOM 4094 CA VAL C 151 7.423 -5.293 14.321 1.00 44.50 C +ATOM 4101 CA GLY C 152 10.289 -3.716 12.438 1.00 45.33 C +ATOM 4105 CA LYS C 153 13.599 -2.161 13.435 1.00 48.64 C +ATOM 4114 CA GLU C 154 14.166 -0.437 10.074 1.00 48.20 C +ATOM 4123 CA MET C 155 12.437 2.888 10.737 1.00 41.77 C +ATOM 4131 CA LEU C 156 13.839 3.081 14.267 1.00 38.27 C +ATOM 4139 CA MET C 157 15.076 6.540 15.308 1.00 34.29 C +ATOM 4147 CA PRO C 158 18.782 7.419 15.339 1.00 34.05 C +ATOM 4154 CA LYS C 159 20.262 7.521 18.845 1.00 35.82 C +ATOM 4163 CA ASP C 160 22.076 10.792 18.273 1.00 35.95 C +ATOM 4171 CA PRO C 161 19.683 13.401 19.809 1.00 35.63 C +ATOM 4178 CA ASN C 162 21.563 15.948 17.758 1.00 33.92 C +ATOM 4186 CA ALA C 163 21.028 14.172 14.487 1.00 30.82 C +ATOM 4191 CA THR C 164 19.693 15.722 11.305 1.00 25.18 C +ATOM 4198 CA ILE C 165 16.617 13.601 10.636 1.00 19.91 C +ATOM 4206 CA ILE C 166 15.351 13.978 7.060 1.00 13.76 C +ATOM 4214 CA MET C 167 11.843 12.550 6.703 1.00 14.98 C +ATOM 4222 CA LEU C 168 10.385 11.831 3.251 1.00 16.64 C +ATOM 4230 CA ALA C 169 6.747 10.808 3.007 1.00 15.85 C +ATOM 4235 CA THR C 170 3.765 10.346 0.737 1.00 14.23 C +ATOM 4242 CA GLY C 171 0.255 9.724 2.035 1.00 13.78 C +ATOM 4246 CA THR C 172 -0.103 7.560 5.139 1.00 17.62 C +ATOM 4253 CA GLY C 173 3.646 7.343 4.821 1.00 17.20 C +ATOM 4257 CA ILE C 174 3.469 10.213 7.270 1.00 15.91 C +ATOM 4265 CA ALA C 175 2.586 7.783 10.110 1.00 15.63 C +ATOM 4270 CA PRO C 176 6.023 6.933 11.582 1.00 17.04 C +ATOM 4277 CA PHE C 177 7.215 10.514 11.327 1.00 18.21 C +ATOM 4288 CA ARG C 178 4.268 11.745 13.359 1.00 22.35 C +ATOM 4299 CA SER C 179 5.563 9.289 15.983 1.00 25.22 C +ATOM 4305 CA PHE C 180 9.139 10.593 15.614 1.00 25.98 C +ATOM 4316 CA LEU C 181 7.925 14.180 15.767 1.00 29.12 C +ATOM 4324 CA TRP C 182 5.625 13.641 18.714 1.00 31.35 C +ATOM 4338 CA LYS C 183 8.488 12.385 20.871 1.00 30.92 C +ATOM 4347 CA MET C 184 10.841 15.050 19.503 1.00 24.85 C +ATOM 4355 CA PHE C 185 8.741 18.202 20.114 1.00 22.97 C +ATOM 4366 CA PHE C 186 5.604 17.337 22.076 1.00 27.77 C +ATOM 4377 CA GLU C 187 7.117 15.432 25.009 1.00 37.71 C +ATOM 4386 CA LYS C 188 9.542 15.977 27.878 1.00 53.59 C +ATOM 4395 CA HIS C 189 12.355 13.416 28.180 1.00 63.67 C +ATOM 4405 CA ASP C 190 15.318 13.181 30.569 1.00 66.93 C +ATOM 4413 CA ASP C 191 17.480 11.106 28.238 1.00 59.79 C +ATOM 4421 CA TYR C 192 16.190 12.725 25.047 1.00 51.96 C +ATOM 4433 CA LYS C 193 16.700 16.406 24.324 1.00 47.01 C +ATOM 4442 CA PHE C 194 16.580 16.471 20.530 1.00 39.85 C +ATOM 4453 CA ASN C 195 18.572 19.494 19.409 1.00 37.52 C +ATOM 4461 CA GLY C 196 19.361 18.548 15.845 1.00 32.08 C +ATOM 4465 CA LEU C 197 17.310 19.266 12.766 1.00 28.26 C +ATOM 4473 CA GLY C 198 14.051 17.526 11.928 1.00 25.05 C +ATOM 4477 CA TRP C 199 13.211 18.137 8.269 1.00 19.81 C +ATOM 4491 CA LEU C 200 9.908 16.742 7.059 1.00 13.86 C +ATOM 4499 CA PHE C 201 8.855 16.521 3.429 1.00 14.83 C +ATOM 4510 CA LEU C 202 5.288 15.361 2.717 1.00 16.12 C +ATOM 4518 CA GLY C 203 3.701 14.731 -0.681 1.00 13.79 C +ATOM 4522 CA VAL C 204 -0.051 14.414 -1.182 1.00 11.75 C +ATOM 4529 CA PRO C 205 -2.113 15.264 -4.308 1.00 14.66 C +ATOM 4536 CA THR C 206 -4.553 17.737 -2.778 1.00 16.37 C +ATOM 4543 CA SER C 207 -4.756 20.169 0.120 1.00 18.01 C +ATOM 4549 CA SER C 208 -7.780 18.225 1.280 1.00 17.59 C +ATOM 4555 CA SER C 209 -5.452 15.198 1.550 1.00 16.19 C +ATOM 4561 CA LEU C 210 -2.972 16.940 3.860 1.00 14.22 C +ATOM 4569 CA LEU C 211 -2.255 14.980 7.059 1.00 14.43 C +ATOM 4577 CA TYR C 212 -1.624 16.449 10.549 1.00 18.94 C +ATOM 4589 CA LYS C 213 -0.818 19.896 9.150 1.00 22.61 C +ATOM 4598 CA GLU C 214 -2.039 21.572 12.352 1.00 25.73 C +ATOM 4607 CA GLU C 215 0.152 19.413 14.514 1.00 19.23 C +ATOM 4616 CA PHE C 216 3.216 20.178 12.439 1.00 17.80 C +ATOM 4627 CA GLY C 217 2.478 23.890 12.512 1.00 19.90 C +ATOM 4631 CA LYS C 218 2.578 24.001 16.294 1.00 25.54 C +ATOM 4640 CA MET C 219 5.810 22.021 16.188 1.00 26.79 C +ATOM 4648 CA LYS C 220 7.224 24.606 13.819 1.00 31.85 C +ATOM 4657 CA GLU C 221 6.071 27.341 16.219 1.00 38.62 C +ATOM 4666 CA ARG C 222 7.760 25.760 19.233 1.00 39.10 C +ATOM 4677 CA ALA C 223 11.124 24.971 17.668 1.00 35.43 C +ATOM 4682 CA PRO C 224 11.696 27.100 14.528 1.00 32.99 C +ATOM 4689 CA GLU C 225 15.425 26.331 14.360 1.00 33.87 C +ATOM 4698 CA ASN C 226 15.038 22.591 14.986 1.00 30.46 C +ATOM 4706 CA PHE C 227 12.088 21.755 12.732 1.00 24.98 C +ATOM 4717 CA ARG C 228 11.351 22.384 9.075 1.00 19.87 C +ATOM 4728 CA VAL C 229 8.435 21.010 7.118 1.00 14.21 C +ATOM 4735 CA ASP C 230 7.739 21.452 3.398 1.00 12.26 C +ATOM 4743 CA TYR C 231 4.627 20.147 1.722 1.00 14.42 C +ATOM 4755 CA ALA C 232 4.334 19.003 -1.872 1.00 9.99 C +ATOM 4760 CA VAL C 233 0.778 19.232 -3.168 1.00 10.49 C +ATOM 4767 CA SER C 234 1.043 17.769 -6.694 1.00 19.00 C +ATOM 4773 CA ARG C 235 -2.240 19.042 -8.206 1.00 23.13 C +ATOM 4784 CA GLU C 236 -2.069 22.459 -6.578 1.00 17.58 C +ATOM 4793 CA GLN C 237 1.546 23.511 -6.623 1.00 15.89 C +ATOM 4802 CA THR C 238 4.202 24.018 -9.275 1.00 17.86 C +ATOM 4809 CA ASN C 239 7.922 24.800 -9.182 1.00 15.15 C +ATOM 4817 CA ALA C 240 9.558 27.791 -10.892 1.00 21.51 C +ATOM 4822 CA ALA C 241 9.475 25.887 -14.174 1.00 24.05 C +ATOM 4827 CA GLY C 242 5.741 25.110 -13.938 1.00 26.25 C +ATOM 4831 CA GLU C 243 5.999 21.359 -13.153 1.00 25.92 C +ATOM 4840 CA ARG C 244 3.679 19.536 -10.704 1.00 24.04 C +ATOM 4851 CA MET C 245 5.076 19.643 -7.174 1.00 18.58 C +ATOM 4859 CA TYR C 246 5.784 16.047 -6.100 1.00 14.16 C +ATOM 4871 CA ILE C 247 7.910 15.343 -3.034 1.00 16.78 C +ATOM 4879 CA GLN C 248 11.089 15.070 -5.120 1.00 18.72 C +ATOM 4888 CA THR C 249 10.168 18.255 -6.921 1.00 20.93 C +ATOM 4895 CA ARG C 250 9.962 20.031 -3.567 1.00 19.25 C +ATOM 4906 CA MET C 251 13.275 18.471 -2.561 1.00 19.40 C +ATOM 4914 CA ALA C 252 14.910 19.812 -5.760 1.00 20.48 C +ATOM 4919 CA GLU C 253 14.456 23.418 -4.569 1.00 18.19 C +ATOM 4928 CA TYR C 254 16.804 22.515 -1.673 1.00 17.80 C +ATOM 4940 CA LYS C 255 19.038 20.415 -3.902 1.00 20.66 C +ATOM 4949 CA GLU C 256 22.452 21.603 -2.682 1.00 16.05 C +ATOM 4958 CA GLU C 257 21.544 21.914 0.993 1.00 15.89 C +ATOM 4967 CA LEU C 258 20.377 18.297 0.919 1.00 20.74 C +ATOM 4975 CA TRP C 259 23.388 16.939 -0.965 1.00 23.45 C +ATOM 4989 CA GLU C 260 25.645 18.669 1.563 1.00 24.08 C +ATOM 4998 CA LEU C 261 23.573 17.378 4.477 1.00 24.74 C +ATOM 5006 CA LEU C 262 24.020 13.928 2.938 1.00 26.14 C +ATOM 5014 CA LYS C 263 27.792 14.091 3.402 1.00 25.40 C +ATOM 5023 CA LYS C 264 27.457 14.521 7.176 1.00 31.47 C +ATOM 5032 CA ASP C 265 27.877 11.474 9.425 1.00 35.31 C +ATOM 5040 CA ASN C 266 24.934 12.482 11.620 1.00 29.63 C +ATOM 5048 CA THR C 267 22.321 12.795 8.832 1.00 28.00 C +ATOM 5055 CA TYR C 268 19.556 10.160 8.808 1.00 27.00 C +ATOM 5067 CA VAL C 269 17.143 9.903 5.884 1.00 24.65 C +ATOM 5074 CA TYR C 270 13.890 8.016 6.276 1.00 23.37 C +ATOM 5086 CA MET C 271 11.373 7.327 3.518 1.00 18.93 C +ATOM 5094 CA CYS C 272 7.834 6.074 4.043 1.00 18.24 C +ATOM 5100 CA GLY C 273 4.784 5.874 1.826 1.00 22.39 C +ATOM 5104 CA LEU C 274 3.837 4.483 -1.568 1.00 26.95 C +ATOM 5112 CA LYS C 275 6.305 2.384 -3.532 1.00 32.36 C +ATOM 5121 CA GLY C 276 7.741 4.199 -6.514 1.00 37.46 C +ATOM 5125 CA MET C 277 7.714 7.455 -4.608 1.00 28.76 C +ATOM 5133 CA GLU C 278 11.430 6.639 -4.425 1.00 32.22 C +ATOM 5142 CA LYS C 279 12.017 6.321 -8.153 1.00 29.94 C +ATOM 5151 CA GLY C 280 11.317 10.057 -8.293 1.00 24.18 C +ATOM 5155 CA ILE C 281 13.766 10.673 -5.460 1.00 23.68 C +ATOM 5163 CA ASP C 282 16.431 8.365 -6.934 1.00 26.58 C +ATOM 5171 CA ASP C 283 16.211 10.530 -10.054 1.00 28.70 C +ATOM 5179 CA ILE C 284 17.089 13.937 -8.538 1.00 27.28 C +ATOM 5187 CA MET C 285 19.706 12.222 -6.388 1.00 27.45 C +ATOM 5195 CA VAL C 286 21.377 10.712 -9.470 1.00 30.74 C +ATOM 5202 CA SER C 287 21.619 14.159 -11.061 1.00 32.14 C +ATOM 5208 CA LEU C 288 23.240 15.463 -7.873 1.00 34.20 C +ATOM 5216 CA ALA C 289 25.801 12.653 -7.874 1.00 40.16 C +ATOM 5221 CA GLU C 290 26.837 12.825 -11.536 1.00 41.84 C +ATOM 5230 CA LYS C 291 27.855 16.387 -10.793 1.00 43.17 C +ATOM 5239 CA ASP C 292 30.299 15.115 -8.139 1.00 41.84 C +ATOM 5247 CA GLY C 293 31.237 12.232 -10.420 1.00 46.12 C +ATOM 5251 CA ILE C 294 30.053 9.669 -7.864 1.00 45.54 C +ATOM 5259 CA ASP C 295 27.399 6.998 -8.480 1.00 41.14 C +ATOM 5267 CA TRP C 296 24.222 7.605 -6.479 1.00 30.67 C +ATOM 5281 CA PHE C 297 23.381 3.910 -6.151 1.00 31.97 C +ATOM 5292 CA ASP C 298 26.856 2.916 -4.907 1.00 38.12 C +ATOM 5300 CA TYR C 299 26.671 5.875 -2.540 1.00 39.05 C +ATOM 5312 CA LYS C 300 23.196 4.971 -1.294 1.00 41.63 C +ATOM 5321 CA LYS C 301 24.542 1.489 -0.577 1.00 43.40 C +ATOM 5330 CA GLN C 302 27.207 3.064 1.608 1.00 43.79 C +ATOM 5339 CA LEU C 303 24.476 5.181 3.238 1.00 41.51 C +ATOM 5347 CA LYS C 304 22.138 2.343 4.264 1.00 45.18 C +ATOM 5356 CA ARG C 305 25.322 0.535 5.256 1.00 46.65 C +ATOM 5367 CA GLY C 306 25.613 3.181 7.945 1.00 40.29 C +ATOM 5371 CA ASP C 307 21.954 3.487 8.940 1.00 41.21 C +ATOM 5379 CA GLN C 308 21.463 6.730 7.023 1.00 35.55 C +ATOM 5388 CA TRP C 309 18.961 5.674 4.361 1.00 31.22 C +ATOM 5402 CA ASN C 310 16.018 3.728 5.752 1.00 31.61 C +ATOM 5410 CA VAL C 311 13.120 2.841 3.452 1.00 32.13 C +ATOM 5417 CA GLU C 312 9.705 1.332 4.261 1.00 31.51 C +ATOM 5426 CA VAL C 313 7.466 1.606 1.209 1.00 26.39 C +ATOM 5433 CA TYR C 314 4.403 -0.343 0.111 1.00 25.42 C diff --git a/utils/jalviewjs/site-resources/examples/2GIS.pdb b/utils/jalviewjs/site-resources/examples/2GIS.pdb new file mode 100644 index 0000000..7a51ef1 --- /dev/null +++ b/utils/jalviewjs/site-resources/examples/2GIS.pdb @@ -0,0 +1,2693 @@ +HEADER RNA 29-MAR-06 2GIS +TITLE STRUCTURE OF THE S-ADENOSYLMETHIONINE RIBOSWITCH MRNA +TITLE 2 REGULATORY ELEMENT +COMPND MOL_ID: 1; +COMPND 2 MOLECULE: SAM-I RIBOSWITCH; +COMPND 3 CHAIN: A; +COMPND 4 ENGINEERED: YES +SOURCE MOL_ID: 1; +SOURCE 2 SYNTHETIC: YES; +SOURCE 3 OTHER_DETAILS: THIS SEQUENCE WAS ENGINEERED BASED ON THE +SOURCE 4 SAM-I RIBOSWITCH FROM THE METF-METH OPERON IN +SOURCE 5 THERMOANAEROBACTER TENGCONGENSIS +KEYWDS MRNA, RIBOSWITCH, S-ADENOSYLMETHIONINE, SAM, RNA-LIGAND +KEYWDS 2 COMPLEX +EXPDTA X-RAY DIFFRACTION +AUTHOR R.K.MONTANGE,R.T.BATEY +REVDAT 2 24-FEB-09 2GIS 1 VERSN +REVDAT 1 04-JUL-06 2GIS 0 +JRNL AUTH R.K.MONTANGE,R.T.BATEY +JRNL TITL STRUCTURE OF THE S-ADENOSYLMETHIONINE RIBOSWITCH +JRNL TITL 2 REGULATORY MRNA ELEMENT. +JRNL REF NATURE V. 441 1172 2006 +JRNL REFN ISSN 0028-0836 +JRNL PMID 16810258 +JRNL DOI 10.1038/NATURE04819 +REMARK 1 +REMARK 2 +REMARK 2 RESOLUTION. 2.90 ANGSTROMS. +REMARK 3 +REMARK 3 REFINEMENT. +REMARK 3 PROGRAM : CNS 1.1 +REMARK 3 AUTHORS : BRUNGER,ADAMS,CLORE,DELANO,GROS,GROSSE- +REMARK 3 : KUNSTLEVE,JIANG,KUSZEWSKI,NILGES, PANNU, +REMARK 3 : READ,RICE,SIMONSON,WARREN +REMARK 3 +REMARK 3 REFINEMENT TARGET : ENGH & HUBER +REMARK 3 +REMARK 3 DATA USED IN REFINEMENT. +REMARK 3 RESOLUTION RANGE HIGH (ANGSTROMS) : 2.90 +REMARK 3 RESOLUTION RANGE LOW (ANGSTROMS) : 49.32 +REMARK 3 DATA CUTOFF (SIGMA(F)) : 0.000 +REMARK 3 DATA CUTOFF HIGH (ABS(F)) : 441185.100 +REMARK 3 DATA CUTOFF LOW (ABS(F)) : 0.0000 +REMARK 3 COMPLETENESS (WORKING+TEST) (%) : 99.3 +REMARK 3 NUMBER OF REFLECTIONS : 13415 +REMARK 3 +REMARK 3 FIT TO DATA USED IN REFINEMENT. +REMARK 3 CROSS-VALIDATION METHOD : THROUGHOUT +REMARK 3 FREE R VALUE TEST SET SELECTION : RANDOM +REMARK 3 R VALUE (WORKING SET) : 0.266 +REMARK 3 FREE R VALUE : 0.289 +REMARK 3 FREE R VALUE TEST SET SIZE (%) : 7.400 +REMARK 3 FREE R VALUE TEST SET COUNT : 999 +REMARK 3 ESTIMATED ERROR OF FREE R VALUE : 0.009 +REMARK 3 +REMARK 3 FIT IN THE HIGHEST RESOLUTION BIN. +REMARK 3 TOTAL NUMBER OF BINS USED : 6 +REMARK 3 BIN RESOLUTION RANGE HIGH (A) : 2.90 +REMARK 3 BIN RESOLUTION RANGE LOW (A) : 3.08 +REMARK 3 BIN COMPLETENESS (WORKING+TEST) (%) : 98.90 +REMARK 3 REFLECTIONS IN BIN (WORKING SET) : 2056 +REMARK 3 BIN R VALUE (WORKING SET) : 0.4270 +REMARK 3 BIN FREE R VALUE : 0.4160 +REMARK 3 BIN FREE R VALUE TEST SET SIZE (%) : 7.30 +REMARK 3 BIN FREE R VALUE TEST SET COUNT : 162 +REMARK 3 ESTIMATED ERROR OF BIN FREE R VALUE : 0.033 +REMARK 3 +REMARK 3 NUMBER OF NON-HYDROGEN ATOMS USED IN REFINEMENT. +REMARK 3 PROTEIN ATOMS : 0 +REMARK 3 NUCLEIC ACID ATOMS : 2029 +REMARK 3 HETEROGEN ATOMS : 57 +REMARK 3 SOLVENT ATOMS : 88 +REMARK 3 +REMARK 3 B VALUES. +REMARK 3 FROM WILSON PLOT (A**2) : 139.30 +REMARK 3 MEAN B VALUE (OVERALL, A**2) : 69.60 +REMARK 3 OVERALL ANISOTROPIC B VALUE. +REMARK 3 B11 (A**2) : 11.87000 +REMARK 3 B22 (A**2) : 11.87000 +REMARK 3 B33 (A**2) : -23.74000 +REMARK 3 B12 (A**2) : 0.00000 +REMARK 3 B13 (A**2) : 0.00000 +REMARK 3 B23 (A**2) : 0.00000 +REMARK 3 +REMARK 3 ESTIMATED COORDINATE ERROR. +REMARK 3 ESD FROM LUZZATI PLOT (A) : 0.39 +REMARK 3 ESD FROM SIGMAA (A) : 0.39 +REMARK 3 LOW RESOLUTION CUTOFF (A) : 5.00 +REMARK 3 +REMARK 3 CROSS-VALIDATED ESTIMATED COORDINATE ERROR. +REMARK 3 ESD FROM C-V LUZZATI PLOT (A) : 0.48 +REMARK 3 ESD FROM C-V SIGMAA (A) : 0.35 +REMARK 3 +REMARK 3 RMS DEVIATIONS FROM IDEAL VALUES. +REMARK 3 BOND LENGTHS (A) : 0.010 +REMARK 3 BOND ANGLES (DEGREES) : 1.60 +REMARK 3 DIHEDRAL ANGLES (DEGREES) : 17.30 +REMARK 3 IMPROPER ANGLES (DEGREES) : 2.31 +REMARK 3 +REMARK 3 ISOTROPIC THERMAL MODEL : RESTRAINED +REMARK 3 +REMARK 3 ISOTROPIC THERMAL FACTOR RESTRAINTS. RMS SIGMA +REMARK 3 MAIN-CHAIN BOND (A**2) : 1.380 ; 1.500 +REMARK 3 MAIN-CHAIN ANGLE (A**2) : 2.560 ; 2.000 +REMARK 3 SIDE-CHAIN BOND (A**2) : 1.630 ; 2.000 +REMARK 3 SIDE-CHAIN ANGLE (A**2) : 2.610 ; 2.500 +REMARK 3 +REMARK 3 BULK SOLVENT MODELING. +REMARK 3 METHOD USED : FLAT MODEL +REMARK 3 KSOL : 0.88 +REMARK 3 BSOL : 300.00 +REMARK 3 +REMARK 3 NCS MODEL : NULL +REMARK 3 +REMARK 3 NCS RESTRAINTS. RMS SIGMA/WEIGHT +REMARK 3 GROUP 1 POSITIONAL (A) : NULL ; NULL +REMARK 3 GROUP 1 B-FACTOR (A**2) : NULL ; NULL +REMARK 3 +REMARK 3 PARAMETER FILE 1 : DNA-RNA_REP.PARAM +REMARK 3 PARAMETER FILE 2 : ION2.PARAM +REMARK 3 PARAMETER FILE 3 : SAM3.PARAM +REMARK 3 PARAMETER FILE 4 : WATER_REP.PARAM +REMARK 3 PARAMETER FILE 5 : NULL +REMARK 3 TOPOLOGY FILE 1 : DNA-RNA_REP.TOP +REMARK 3 TOPOLOGY FILE 2 : ION2.TOP +REMARK 3 TOPOLOGY FILE 3 : SAM3.TOP +REMARK 3 TOPOLOGY FILE 4 : WATER_REP.TOP +REMARK 3 TOPOLOGY FILE 5 : NULL +REMARK 3 +REMARK 3 OTHER REFINEMENT REMARKS: NULL +REMARK 4 +REMARK 4 2GIS COMPLIES WITH FORMAT V. 3.15, 01-DEC-08 +REMARK 100 +REMARK 100 THIS ENTRY HAS BEEN PROCESSED BY RCSB ON 14-APR-06. +REMARK 100 THE RCSB ID CODE IS RCSB037170. +REMARK 200 +REMARK 200 EXPERIMENTAL DETAILS +REMARK 200 EXPERIMENT TYPE : X-RAY DIFFRACTION +REMARK 200 DATE OF DATA COLLECTION : 11-NOV-05 +REMARK 200 TEMPERATURE (KELVIN) : 100 +REMARK 200 PH : NULL +REMARK 200 NUMBER OF CRYSTALS USED : 1 +REMARK 200 +REMARK 200 SYNCHROTRON (Y/N) : Y +REMARK 200 RADIATION SOURCE : ALS +REMARK 200 BEAMLINE : 8.2.1 +REMARK 200 X-RAY GENERATOR MODEL : NULL +REMARK 200 MONOCHROMATIC OR LAUE (M/L) : M +REMARK 200 WAVELENGTH OR RANGE (A) : 1.10532, 1.10573 +REMARK 200 MONOCHROMATOR : NULL +REMARK 200 OPTICS : NULL +REMARK 200 +REMARK 200 DETECTOR TYPE : CCD +REMARK 200 DETECTOR MANUFACTURER : ADSC QUANTUM 315 +REMARK 200 INTENSITY-INTEGRATION SOFTWARE : BOS +REMARK 200 DATA SCALING SOFTWARE : D*TREK +REMARK 200 +REMARK 200 NUMBER OF UNIQUE REFLECTIONS : 14940 +REMARK 200 RESOLUTION RANGE HIGH (A) : 2.900 +REMARK 200 RESOLUTION RANGE LOW (A) : 49.320 +REMARK 200 REJECTION CRITERIA (SIGMA(I)) : 3.000 +REMARK 200 +REMARK 200 OVERALL. +REMARK 200 COMPLETENESS FOR RANGE (%) : 99.6 +REMARK 200 DATA REDUNDANCY : 14.640 +REMARK 200 R MERGE (I) : 0.07200 +REMARK 200 R SYM (I) : NULL +REMARK 200 FOR THE DATA SET : 17.9000 +REMARK 200 +REMARK 200 IN THE HIGHEST RESOLUTION SHELL. +REMARK 200 HIGHEST RESOLUTION SHELL, RANGE HIGH (A) : 2.90 +REMARK 200 HIGHEST RESOLUTION SHELL, RANGE LOW (A) : 3.08 +REMARK 200 COMPLETENESS FOR SHELL (%) : 99.9 +REMARK 200 DATA REDUNDANCY IN SHELL : 11.74 +REMARK 200 R MERGE FOR SHELL (I) : 0.42600 +REMARK 200 R SYM FOR SHELL (I) : NULL +REMARK 200 FOR SHELL : 4.400 +REMARK 200 +REMARK 200 DIFFRACTION PROTOCOL: MAD +REMARK 200 METHOD USED TO DETERMINE THE STRUCTURE: MAD +REMARK 200 SOFTWARE USED: CNS +REMARK 200 STARTING MODEL: NULL +REMARK 200 +REMARK 200 REMARK: NULL +REMARK 280 +REMARK 280 CRYSTAL +REMARK 280 SOLVENT CONTENT, VS (%): 52.20 +REMARK 280 MATTHEWS COEFFICIENT, VM (ANGSTROMS**3/DA): 2.57 +REMARK 280 +REMARK 280 CRYSTALLIZATION CONDITIONS: NULL +REMARK 290 +REMARK 290 CRYSTALLOGRAPHIC SYMMETRY +REMARK 290 SYMMETRY OPERATORS FOR SPACE GROUP: P 43 21 2 +REMARK 290 +REMARK 290 SYMOP SYMMETRY +REMARK 290 NNNMMM OPERATOR +REMARK 290 1555 X,Y,Z +REMARK 290 2555 -X,-Y,Z+1/2 +REMARK 290 3555 -Y+1/2,X+1/2,Z+3/4 +REMARK 290 4555 Y+1/2,-X+1/2,Z+1/4 +REMARK 290 5555 -X+1/2,Y+1/2,-Z+3/4 +REMARK 290 6555 X+1/2,-Y+1/2,-Z+1/4 +REMARK 290 7555 Y,X,-Z +REMARK 290 8555 -Y,-X,-Z+1/2 +REMARK 290 +REMARK 290 WHERE NNN -> OPERATOR NUMBER +REMARK 290 MMM -> TRANSLATION VECTOR +REMARK 290 +REMARK 290 CRYSTALLOGRAPHIC SYMMETRY TRANSFORMATIONS +REMARK 290 THE FOLLOWING TRANSFORMATIONS OPERATE ON THE ATOM/HETATM +REMARK 290 RECORDS IN THIS ENTRY TO PRODUCE CRYSTALLOGRAPHICALLY +REMARK 290 RELATED MOLECULES. +REMARK 290 SMTRY1 1 1.000000 0.000000 0.000000 0.00000 +REMARK 290 SMTRY2 1 0.000000 1.000000 0.000000 0.00000 +REMARK 290 SMTRY3 1 0.000000 0.000000 1.000000 0.00000 +REMARK 290 SMTRY1 2 -1.000000 0.000000 0.000000 0.00000 +REMARK 290 SMTRY2 2 0.000000 -1.000000 0.000000 0.00000 +REMARK 290 SMTRY3 2 0.000000 0.000000 1.000000 79.48350 +REMARK 290 SMTRY1 3 0.000000 -1.000000 0.000000 31.45050 +REMARK 290 SMTRY2 3 1.000000 0.000000 0.000000 31.45050 +REMARK 290 SMTRY3 3 0.000000 0.000000 1.000000 119.22525 +REMARK 290 SMTRY1 4 0.000000 1.000000 0.000000 31.45050 +REMARK 290 SMTRY2 4 -1.000000 0.000000 0.000000 31.45050 +REMARK 290 SMTRY3 4 0.000000 0.000000 1.000000 39.74175 +REMARK 290 SMTRY1 5 -1.000000 0.000000 0.000000 31.45050 +REMARK 290 SMTRY2 5 0.000000 1.000000 0.000000 31.45050 +REMARK 290 SMTRY3 5 0.000000 0.000000 -1.000000 119.22525 +REMARK 290 SMTRY1 6 1.000000 0.000000 0.000000 31.45050 +REMARK 290 SMTRY2 6 0.000000 -1.000000 0.000000 31.45050 +REMARK 290 SMTRY3 6 0.000000 0.000000 -1.000000 39.74175 +REMARK 290 SMTRY1 7 0.000000 1.000000 0.000000 0.00000 +REMARK 290 SMTRY2 7 1.000000 0.000000 0.000000 0.00000 +REMARK 290 SMTRY3 7 0.000000 0.000000 -1.000000 0.00000 +REMARK 290 SMTRY1 8 0.000000 -1.000000 0.000000 0.00000 +REMARK 290 SMTRY2 8 -1.000000 0.000000 0.000000 0.00000 +REMARK 290 SMTRY3 8 0.000000 0.000000 -1.000000 79.48350 +REMARK 290 +REMARK 290 REMARK: NULL +REMARK 300 +REMARK 300 BIOMOLECULE: 1 +REMARK 300 SEE REMARK 350 FOR THE AUTHOR PROVIDED AND/OR PROGRAM +REMARK 300 GENERATED ASSEMBLY INFORMATION FOR THE STRUCTURE IN +REMARK 300 THIS ENTRY. THE REMARK MAY ALSO PROVIDE INFORMATION ON +REMARK 300 BURIED SURFACE AREA. +REMARK 350 +REMARK 350 COORDINATES FOR A COMPLETE MULTIMER REPRESENTING THE KNOWN +REMARK 350 BIOLOGICALLY SIGNIFICANT OLIGOMERIZATION STATE OF THE +REMARK 350 MOLECULE CAN BE GENERATED BY APPLYING BIOMT TRANSFORMATIONS +REMARK 350 GIVEN BELOW. BOTH NON-CRYSTALLOGRAPHIC AND +REMARK 350 CRYSTALLOGRAPHIC OPERATIONS ARE GIVEN. +REMARK 350 +REMARK 350 BIOMOLECULE: 1 +REMARK 350 AUTHOR DETERMINED BIOLOGICAL UNIT: MONOMERIC +REMARK 350 APPLY THE FOLLOWING TO CHAINS: A +REMARK 350 BIOMT1 1 1.000000 0.000000 0.000000 0.00000 +REMARK 350 BIOMT2 1 0.000000 1.000000 0.000000 0.00000 +REMARK 350 BIOMT3 1 0.000000 0.000000 1.000000 0.00000 +REMARK 500 +REMARK 500 GEOMETRY AND STEREOCHEMISTRY +REMARK 500 SUBTOPIC: CLOSE CONTACTS IN SAME ASYMMETRIC UNIT +REMARK 500 +REMARK 500 THE FOLLOWING ATOMS ARE IN CLOSE CONTACT. +REMARK 500 +REMARK 500 ATM1 RES C SSEQI ATM2 RES C SSEQI DISTANCE +REMARK 500 O2' A A 20 O4' G A 21 2.13 +REMARK 500 O2' A A 20 OP2 G A 21 2.18 +REMARK 500 +REMARK 500 REMARK: NULL +REMARK 500 +REMARK 500 GEOMETRY AND STEREOCHEMISTRY +REMARK 500 SUBTOPIC: CLOSE CONTACTS +REMARK 500 +REMARK 500 THE FOLLOWING ATOMS THAT ARE RELATED BY CRYSTALLOGRAPHIC +REMARK 500 SYMMETRY ARE IN CLOSE CONTACT. AN ATOM LOCATED WITHIN 0.15 +REMARK 500 ANGSTROMS OF A SYMMETRY RELATED ATOM IS ASSUMED TO BE ON A +REMARK 500 SPECIAL POSITION AND IS, THEREFORE, LISTED IN REMARK 375 +REMARK 500 INSTEAD OF REMARK 500. ATOMS WITH NON-BLANK ALTERNATE +REMARK 500 LOCATION INDICATORS ARE NOT INCLUDED IN THE CALCULATIONS. +REMARK 500 +REMARK 500 DISTANCE CUTOFF: +REMARK 500 2.2 ANGSTROMS FOR CONTACTS NOT INVOLVING HYDROGEN ATOMS +REMARK 500 1.6 ANGSTROMS FOR CONTACTS INVOLVING HYDROGEN ATOMS +REMARK 500 +REMARK 500 ATM1 RES C SSEQI ATM2 RES C SSEQI SSYMOP DISTANCE +REMARK 500 N3 IRI A 201 N3 IRI A 201 7555 1.02 +REMARK 500 IR IRI A 201 N3 IRI A 201 7555 2.10 +REMARK 500 +REMARK 500 REMARK: NULL +REMARK 500 +REMARK 500 GEOMETRY AND STEREOCHEMISTRY +REMARK 500 SUBTOPIC: COVALENT BOND LENGTHS +REMARK 500 +REMARK 500 THE STEREOCHEMICAL PARAMETERS OF THE FOLLOWING RESIDUES +REMARK 500 HAVE VALUES WHICH DEVIATE FROM EXPECTED VALUES BY MORE +REMARK 500 THAN 6*RMSD (M=MODEL NUMBER; RES=RESIDUE NAME; C=CHAIN +REMARK 500 IDENTIFIER; SSEQ=SEQUENCE NUMBER; I=INSERTION CODE). +REMARK 500 +REMARK 500 STANDARD TABLE: +REMARK 500 FORMAT: (10X,I3,1X,2(A3,1X,A1,I4,A1,1X,A4,3X),1X,F6.3) +REMARK 500 +REMARK 500 EXPECTED VALUES PROTEIN: ENGH AND HUBER, 1999 +REMARK 500 EXPECTED VALUES NUCLEIC ACID: CLOWNEY ET AL 1996 +REMARK 500 +REMARK 500 M RES CSSEQI ATM1 RES CSSEQI ATM2 DEVIATION +REMARK 500 G A 1 P G A 1 OP3 -0.078 +REMARK 500 +REMARK 500 REMARK: NULL +REMARK 500 +REMARK 500 GEOMETRY AND STEREOCHEMISTRY +REMARK 500 SUBTOPIC: COVALENT BOND ANGLES +REMARK 500 +REMARK 500 THE STEREOCHEMICAL PARAMETERS OF THE FOLLOWING RESIDUES +REMARK 500 HAVE VALUES WHICH DEVIATE FROM EXPECTED VALUES BY MORE +REMARK 500 THAN 6*RMSD (M=MODEL NUMBER; RES=RESIDUE NAME; C=CHAIN +REMARK 500 IDENTIFIER; SSEQ=SEQUENCE NUMBER; I=INSERTION CODE). +REMARK 500 +REMARK 500 STANDARD TABLE: +REMARK 500 FORMAT: (10X,I3,1X,A3,1X,A1,I4,A1,3(1X,A4,2X),12X,F5.1) +REMARK 500 +REMARK 500 EXPECTED VALUES PROTEIN: ENGH AND HUBER, 1999 +REMARK 500 EXPECTED VALUES NUCLEIC ACID: CLOWNEY ET AL 1996 +REMARK 500 +REMARK 500 M RES CSSEQI ATM1 ATM2 ATM3 +REMARK 500 A A 9 C2' - C3' - O3' ANGL. DEV. = 12.3 DEGREES +REMARK 500 A A 33 C2' - C3' - O3' ANGL. DEV. = 12.6 DEGREES +REMARK 500 G A 50 C4' - C3' - O3' ANGL. DEV. = 13.7 DEGREES +REMARK 500 G A 50 C2' - C3' - O3' ANGL. DEV. = 10.0 DEGREES +REMARK 500 G A 50 N9 - C1' - C2' ANGL. DEV. = -8.2 DEGREES +REMARK 500 U A 63 C2' - C3' - O3' ANGL. DEV. = 15.3 DEGREES +REMARK 500 G A 74 C4' - C3' - O3' ANGL. DEV. = 12.7 DEGREES +REMARK 500 G A 74 C2' - C3' - O3' ANGL. DEV. = 11.3 DEGREES +REMARK 500 G A 74 N9 - C1' - C2' ANGL. DEV. = -7.3 DEGREES +REMARK 500 +REMARK 500 REMARK: NULL +REMARK 500 +REMARK 500 GEOMETRY AND STEREOCHEMISTRY +REMARK 500 SUBTOPIC: PLANAR GROUPS +REMARK 500 +REMARK 500 PLANAR GROUPS IN THE FOLLOWING RESIDUES HAVE A TOTAL +REMARK 500 RMS DISTANCE OF ALL ATOMS FROM THE BEST-FIT PLANE +REMARK 500 BY MORE THAN AN EXPECTED VALUE OF 6*RMSD, WITH AN +REMARK 500 RMSD 0.02 ANGSTROMS, OR AT LEAST ONE ATOM HAS +REMARK 500 AN RMSD GREATER THAN THIS VALUE +REMARK 500 (M=MODEL NUMBER; RES=RESIDUE NAME; C=CHAIN IDENTIFIER; +REMARK 500 SSEQ=SEQUENCE NUMBER; I=INSERTION CODE). +REMARK 500 +REMARK 500 M RES CSSEQI RMS TYPE +REMARK 500 G A 19 0.05 SIDE_CHAIN +REMARK 500 G A 35 0.06 SIDE_CHAIN +REMARK 500 G A 50 0.07 SIDE_CHAIN +REMARK 500 U A 67 0.08 SIDE_CHAIN +REMARK 500 G A 74 0.08 SIDE_CHAIN +REMARK 500 +REMARK 500 REMARK: NULL +REMARK 620 +REMARK 620 METAL COORDINATION +REMARK 620 (M=MODEL NUMBER; RES=RESIDUE NAME; C=CHAIN IDENTIFIER; +REMARK 620 SSEQ=SEQUENCE NUMBER; I=INSERTION CODE): +REMARK 620 +REMARK 620 COORDINATION ANGLES FOR: M RES CSSEQI METAL +REMARK 620 MG A 205 MG +REMARK 620 N RES CSSEQI ATOM +REMARK 620 1 A A 10 OP2 +REMARK 620 2 U A 63 O3' 95.0 +REMARK 620 3 U A 64 OP2 133.2 53.2 +REMARK 620 N 1 2 +REMARK 620 +REMARK 620 COORDINATION ANGLES FOR: M RES CSSEQI METAL +REMARK 620 MG A 206 MG +REMARK 620 N RES CSSEQI ATOM +REMARK 620 1 A A 84 O5' +REMARK 620 2 A A 84 O3' 115.5 +REMARK 620 3 A A 85 OP2 130.4 63.5 +REMARK 620 4 A A 84 OP1 62.8 164.4 130.5 +REMARK 620 N 1 2 3 +REMARK 800 +REMARK 800 SITE +REMARK 800 SITE_IDENTIFIER: AC1 +REMARK 800 EVIDENCE_CODE: SOFTWARE +REMARK 800 SITE_DESCRIPTION: BINDING SITE FOR RESIDUE MG A 205 +REMARK 800 SITE_IDENTIFIER: AC2 +REMARK 800 EVIDENCE_CODE: SOFTWARE +REMARK 800 SITE_DESCRIPTION: BINDING SITE FOR RESIDUE MG A 206 +REMARK 800 SITE_IDENTIFIER: AC3 +REMARK 800 EVIDENCE_CODE: SOFTWARE +REMARK 800 SITE_DESCRIPTION: BINDING SITE FOR RESIDUE IRI A 201 +REMARK 800 SITE_IDENTIFIER: AC4 +REMARK 800 EVIDENCE_CODE: SOFTWARE +REMARK 800 SITE_DESCRIPTION: BINDING SITE FOR RESIDUE IRI A 202 +REMARK 800 SITE_IDENTIFIER: AC5 +REMARK 800 EVIDENCE_CODE: SOFTWARE +REMARK 800 SITE_DESCRIPTION: BINDING SITE FOR RESIDUE IRI A 203 +REMARK 800 SITE_IDENTIFIER: AC6 +REMARK 800 EVIDENCE_CODE: SOFTWARE +REMARK 800 SITE_DESCRIPTION: BINDING SITE FOR RESIDUE IRI A 204 +REMARK 800 SITE_IDENTIFIER: AC7 +REMARK 800 EVIDENCE_CODE: SOFTWARE +REMARK 800 SITE_DESCRIPTION: BINDING SITE FOR RESIDUE SAM A 301 +DBREF 2GIS A 1 94 PDB 2GIS 2GIS 1 94 +SEQRES 1 A 94 G G C U U A U C A A G A G +SEQRES 2 A 94 A G G U G G A G G G A C U +SEQRES 3 A 94 G G C C C G A U G A A A C +SEQRES 4 A 94 C C G G C A A C C A G A A +SEQRES 5 A 94 A U G G U G C C A A U U C +SEQRES 6 A 94 C U G C A G C G G A A A C +SEQRES 7 A 94 G U U G A A A G A U G A G +SEQRES 8 A 94 C C A +HET MG A 205 1 +HET MG A 206 1 +HET IRI A 201 7 +HET IRI A 202 7 +HET IRI A 203 7 +HET IRI A 204 7 +HET SAM A 301 27 +HETNAM MG MAGNESIUM ION +HETNAM IRI IRIDIUM HEXAMMINE ION +HETNAM SAM S-ADENOSYLMETHIONINE +FORMUL 2 MG 2(MG 2+) +FORMUL 4 IRI 4(H18 IR N6 3+) +FORMUL 8 SAM C15 H22 N6 O5 S +FORMUL 9 HOH *88(H2 O) +LINK MG MG A 205 OP2 A A 10 1555 1555 2.88 +LINK MG MG A 205 O3' U A 63 1555 1555 2.88 +LINK MG MG A 205 OP2 U A 64 1555 1555 2.42 +LINK MG MG A 206 O5' A A 84 1555 1555 1.93 +LINK MG MG A 206 O3' A A 84 1555 1555 2.35 +LINK MG MG A 206 OP2 A A 85 1555 1555 2.46 +LINK MG MG A 206 OP1 A A 84 1555 1555 2.71 +SITE 1 AC1 4 A A 9 A A 10 U A 63 U A 64 +SITE 1 AC2 2 A A 84 A A 85 +SITE 1 AC3 5 C A 31 G A 32 A A 33 U A 34 +SITE 2 AC3 5 HOH A 448 +SITE 1 AC4 6 G A 15 G A 16 U A 17 G A 18 +SITE 2 AC4 6 A A 36 A A 38 +SITE 1 AC5 6 G A 23 C A 25 U A 26 G A 27 +SITE 2 AC5 6 G A 28 C A 29 +SITE 1 AC6 6 U A 4 U A 5 A A 6 U A 88 +SITE 2 AC6 6 G A 89 HOH A 475 +SITE 1 AC7 11 U A 7 G A 11 A A 45 A A 46 +SITE 2 AC7 11 C A 47 U A 57 G A 58 C A 59 +SITE 3 AC7 11 U A 88 G A 89 HOH A 437 +CRYST1 62.901 62.901 158.967 90.00 90.00 90.00 P 43 21 2 8 +ORIGX1 1.000000 0.000000 0.000000 0.00000 +ORIGX2 0.000000 1.000000 0.000000 0.00000 +ORIGX3 0.000000 0.000000 1.000000 0.00000 +SCALE1 0.015898 0.000000 0.000000 0.00000 +SCALE2 0.000000 0.015898 0.000000 0.00000 +SCALE3 0.000000 0.000000 0.006291 0.00000 +ATOM 1 OP3 G A 1 66.836 54.358 31.023 1.00 83.72 O +ATOM 2 P G A 1 66.932 54.717 32.506 1.00 83.64 P +ATOM 3 OP1 G A 1 68.009 55.754 32.789 1.00 83.61 O +ATOM 4 OP2 G A 1 65.585 55.074 33.126 1.00 82.16 O +ATOM 5 O5' G A 1 67.440 53.379 33.287 1.00 79.65 O +ATOM 6 C5' G A 1 68.672 52.742 32.913 1.00 73.57 C +ATOM 7 C4' G A 1 69.247 51.962 34.076 1.00 70.37 C +ATOM 8 O4' G A 1 69.770 52.884 35.073 1.00 66.83 O +ATOM 9 C3' G A 1 68.269 51.092 34.851 1.00 68.85 C +ATOM 10 O3' G A 1 68.072 49.836 34.215 1.00 68.87 O +ATOM 11 C2' G A 1 68.974 50.952 36.194 1.00 66.89 C +ATOM 12 O2' G A 1 70.032 50.011 36.151 1.00 66.32 O +ATOM 13 C1' G A 1 69.560 52.353 36.371 1.00 64.13 C +ATOM 14 N9 G A 1 68.630 53.226 37.076 1.00 60.62 N +ATOM 15 C8 G A 1 67.918 54.269 36.547 1.00 60.07 C +ATOM 16 N7 G A 1 67.123 54.838 37.412 1.00 59.30 N +ATOM 17 C5 G A 1 67.331 54.130 38.585 1.00 57.00 C +ATOM 18 C6 G A 1 66.738 54.282 39.860 1.00 55.77 C +ATOM 19 O6 G A 1 65.881 55.106 40.221 1.00 56.93 O +ATOM 20 N1 G A 1 67.233 53.352 40.767 1.00 54.01 N +ATOM 21 C2 G A 1 68.178 52.396 40.480 1.00 55.22 C +ATOM 22 N2 G A 1 68.526 51.581 41.489 1.00 54.38 N +ATOM 23 N3 G A 1 68.740 52.247 39.288 1.00 56.29 N +ATOM 24 C4 G A 1 68.270 53.140 38.397 1.00 57.86 C +ATOM 25 P G A 2 66.612 49.156 34.222 1.00 69.18 P +ATOM 26 OP1 G A 2 66.706 47.977 33.323 1.00 70.02 O +ATOM 27 OP2 G A 2 65.566 50.194 33.985 1.00 68.86 O +ATOM 28 O5' G A 2 66.442 48.597 35.701 1.00 66.97 O +ATOM 29 C5' G A 2 67.276 47.544 36.152 1.00 62.30 C +ATOM 30 C4' G A 2 67.252 47.457 37.651 1.00 59.60 C +ATOM 31 O4' G A 2 67.506 48.784 38.198 1.00 56.42 O +ATOM 32 C3' G A 2 65.898 47.105 38.233 1.00 59.17 C +ATOM 33 O3' G A 2 65.645 45.711 38.175 1.00 60.55 O +ATOM 34 C2' G A 2 66.007 47.655 39.650 1.00 56.90 C +ATOM 35 O2' G A 2 66.780 46.829 40.499 1.00 57.29 O +ATOM 36 C1' G A 2 66.787 48.946 39.405 1.00 54.02 C +ATOM 37 N9 G A 2 65.942 50.127 39.299 1.00 50.64 N +ATOM 38 C8 G A 2 65.753 50.932 38.206 1.00 50.83 C +ATOM 39 N7 G A 2 64.944 51.936 38.442 1.00 50.61 N +ATOM 40 C5 G A 2 64.573 51.774 39.768 1.00 48.72 C +ATOM 41 C6 G A 2 63.723 52.556 40.584 1.00 48.85 C +ATOM 42 O6 G A 2 63.108 53.584 40.289 1.00 50.52 O +ATOM 43 N1 G A 2 63.627 52.034 41.866 1.00 48.14 N +ATOM 44 C2 G A 2 64.268 50.902 42.311 1.00 47.93 C +ATOM 45 N2 G A 2 64.035 50.543 43.580 1.00 47.56 N +ATOM 46 N3 G A 2 65.071 50.172 41.568 1.00 48.14 N +ATOM 47 C4 G A 2 65.177 50.661 40.312 1.00 49.83 C +ATOM 48 P C A 3 64.129 45.193 38.109 1.00 60.96 P +ATOM 49 OP1 C A 3 64.118 43.738 37.817 1.00 60.20 O +ATOM 50 OP2 C A 3 63.355 46.126 37.249 1.00 61.70 O +ATOM 51 O5' C A 3 63.587 45.427 39.585 1.00 60.54 O +ATOM 52 C5' C A 3 63.884 44.512 40.626 1.00 55.75 C +ATOM 53 C4' C A 3 63.184 44.934 41.889 1.00 53.73 C +ATOM 54 O4' C A 3 63.549 46.312 42.172 1.00 52.44 O +ATOM 55 C3' C A 3 61.674 45.025 41.777 1.00 53.43 C +ATOM 56 O3' C A 3 61.022 43.789 41.941 1.00 55.57 O +ATOM 57 C2' C A 3 61.321 45.978 42.898 1.00 51.46 C +ATOM 58 O2' C A 3 61.402 45.337 44.151 1.00 52.96 O +ATOM 59 C1' C A 3 62.458 46.978 42.787 1.00 49.83 C +ATOM 60 N1 C A 3 62.072 48.135 41.979 1.00 46.39 N +ATOM 61 C2 C A 3 61.207 49.065 42.547 1.00 45.76 C +ATOM 62 O2 C A 3 60.800 48.861 43.692 1.00 47.45 O +ATOM 63 N3 C A 3 60.831 50.152 41.837 1.00 43.39 N +ATOM 64 C4 C A 3 61.290 50.323 40.602 1.00 44.39 C +ATOM 65 N4 C A 3 60.911 51.413 39.948 1.00 44.48 N +ATOM 66 C5 C A 3 62.168 49.382 39.986 1.00 45.55 C +ATOM 67 C6 C A 3 62.534 48.309 40.707 1.00 46.04 C +ATOM 68 P U A 4 59.622 43.553 41.204 1.00 57.98 P +ATOM 69 OP1 U A 4 59.364 42.082 41.244 1.00 57.52 O +ATOM 70 OP2 U A 4 59.681 44.265 39.900 1.00 59.29 O +ATOM 71 O5' U A 4 58.561 44.348 42.088 1.00 53.55 O +ATOM 72 C5' U A 4 58.363 44.011 43.446 1.00 53.36 C +ATOM 73 C4' U A 4 57.410 44.981 44.081 1.00 55.02 C +ATOM 74 O4' U A 4 57.989 46.313 44.050 1.00 55.96 O +ATOM 75 C3' U A 4 56.097 45.142 43.346 1.00 57.18 C +ATOM 76 O3' U A 4 55.179 44.108 43.677 1.00 60.33 O +ATOM 77 C2' U A 4 55.642 46.516 43.814 1.00 54.53 C +ATOM 78 O2' U A 4 55.165 46.437 45.140 1.00 55.14 O +ATOM 79 C1' U A 4 56.967 47.272 43.829 1.00 52.98 C +ATOM 80 N1 U A 4 57.269 47.986 42.580 1.00 49.42 N +ATOM 81 C2 U A 4 56.614 49.174 42.350 1.00 47.24 C +ATOM 82 O2 U A 4 55.771 49.612 43.103 1.00 45.38 O +ATOM 83 N3 U A 4 56.978 49.829 41.207 1.00 46.59 N +ATOM 84 C4 U A 4 57.903 49.416 40.282 1.00 48.90 C +ATOM 85 O4 U A 4 58.117 50.111 39.282 1.00 50.34 O +ATOM 86 C5 U A 4 58.523 48.162 40.580 1.00 48.98 C +ATOM 87 C6 U A 4 58.187 47.505 41.691 1.00 49.39 C +ATOM 88 P U A 5 54.205 43.531 42.537 1.00 60.31 P +ATOM 89 OP1 U A 5 53.567 42.301 43.067 1.00 60.80 O +ATOM 90 OP2 U A 5 54.982 43.466 41.269 1.00 61.31 O +ATOM 91 O5' U A 5 53.102 44.672 42.382 1.00 57.62 O +ATOM 92 C5' U A 5 52.176 44.937 43.427 1.00 56.18 C +ATOM 93 C4' U A 5 51.450 46.221 43.143 1.00 55.97 C +ATOM 94 O4' U A 5 52.432 47.275 43.039 1.00 55.58 O +ATOM 95 C3' U A 5 50.695 46.272 41.826 1.00 56.58 C +ATOM 96 O3' U A 5 49.393 45.733 41.981 1.00 58.63 O +ATOM 97 C2' U A 5 50.663 47.767 41.536 1.00 55.50 C +ATOM 98 O2' U A 5 49.696 48.452 42.301 1.00 56.71 O +ATOM 99 C1' U A 5 52.048 48.188 42.023 1.00 54.24 C +ATOM 100 N1 U A 5 53.071 48.125 40.974 1.00 50.31 N +ATOM 101 C2 U A 5 53.197 49.208 40.124 1.00 48.81 C +ATOM 102 O2 U A 5 52.488 50.194 40.204 1.00 48.14 O +ATOM 103 N3 U A 5 54.188 49.091 39.181 1.00 47.64 N +ATOM 104 C4 U A 5 55.044 48.019 39.011 1.00 49.86 C +ATOM 105 O4 U A 5 55.897 48.060 38.122 1.00 53.10 O +ATOM 106 C5 U A 5 54.843 46.933 39.930 1.00 49.29 C +ATOM 107 C6 U A 5 53.886 47.020 40.854 1.00 48.98 C +ATOM 108 P A A 6 48.651 45.080 40.719 1.00 60.24 P +ATOM 109 OP1 A A 6 47.527 44.256 41.233 1.00 60.47 O +ATOM 110 OP2 A A 6 49.696 44.440 39.882 1.00 58.91 O +ATOM 111 O5' A A 6 48.047 46.341 39.956 1.00 56.95 O +ATOM 112 C5' A A 6 47.050 47.139 40.571 1.00 55.21 C +ATOM 113 C4' A A 6 46.808 48.385 39.760 1.00 56.41 C +ATOM 114 O4' A A 6 47.992 49.219 39.787 1.00 56.16 O +ATOM 115 C3' A A 6 46.574 48.148 38.285 1.00 57.58 C +ATOM 116 O3' A A 6 45.232 47.755 38.032 1.00 59.85 O +ATOM 117 C2' A A 6 46.960 49.491 37.679 1.00 55.59 C +ATOM 118 O2' A A 6 45.980 50.474 37.905 1.00 56.04 O +ATOM 119 C1' A A 6 48.163 49.859 38.536 1.00 53.99 C +ATOM 120 N9 A A 6 49.425 49.404 37.958 1.00 52.37 N +ATOM 121 C8 A A 6 50.091 48.223 38.172 1.00 52.73 C +ATOM 122 N7 A A 6 51.212 48.119 37.495 1.00 50.40 N +ATOM 123 C5 A A 6 51.282 49.309 36.791 1.00 48.95 C +ATOM 124 C6 A A 6 52.220 49.810 35.895 1.00 49.10 C +ATOM 125 N6 A A 6 53.319 49.157 35.543 1.00 49.07 N +ATOM 126 N1 A A 6 51.991 51.030 35.360 1.00 49.55 N +ATOM 127 C2 A A 6 50.892 51.689 35.721 1.00 49.92 C +ATOM 128 N3 A A 6 49.936 51.324 36.564 1.00 51.13 N +ATOM 129 C4 A A 6 50.192 50.108 37.068 1.00 50.04 C +ATOM 130 P U A 7 44.942 46.678 36.880 1.00 60.77 P +ATOM 131 OP1 U A 7 43.556 46.166 37.041 1.00 62.34 O +ATOM 132 OP2 U A 7 46.083 45.727 36.862 1.00 60.86 O +ATOM 133 O5' U A 7 45.014 47.576 35.575 1.00 58.27 O +ATOM 134 C5' U A 7 44.309 48.807 35.537 1.00 56.31 C +ATOM 135 C4' U A 7 44.796 49.660 34.396 1.00 55.63 C +ATOM 136 O4' U A 7 46.124 50.175 34.690 1.00 53.71 O +ATOM 137 C3' U A 7 44.989 48.897 33.106 1.00 55.41 C +ATOM 138 O3' U A 7 43.761 48.723 32.432 1.00 57.39 O +ATOM 139 C2' U A 7 45.975 49.781 32.356 1.00 54.03 C +ATOM 140 O2' U A 7 45.344 50.895 31.752 1.00 54.05 O +ATOM 141 C1' U A 7 46.877 50.253 33.497 1.00 51.60 C +ATOM 142 N1 U A 7 48.069 49.414 33.644 1.00 48.98 N +ATOM 143 C2 U A 7 49.147 49.744 32.880 1.00 47.41 C +ATOM 144 O2 U A 7 49.125 50.684 32.101 1.00 50.13 O +ATOM 145 N3 U A 7 50.245 48.941 33.048 1.00 44.70 N +ATOM 146 C4 U A 7 50.360 47.854 33.884 1.00 44.88 C +ATOM 147 O4 U A 7 51.421 47.226 33.925 1.00 43.14 O +ATOM 148 C5 U A 7 49.192 47.568 34.642 1.00 45.41 C +ATOM 149 C6 U A 7 48.109 48.343 34.502 1.00 48.51 C +ATOM 150 P C A 8 43.662 47.638 31.261 1.00 59.85 P +ATOM 151 OP1 C A 8 42.278 47.710 30.723 1.00 61.02 O +ATOM 152 OP2 C A 8 44.188 46.346 31.770 1.00 59.29 O +ATOM 153 O5' C A 8 44.678 48.182 30.158 1.00 58.48 O +ATOM 154 C5' C A 8 44.351 49.334 29.392 1.00 56.82 C +ATOM 155 C4' C A 8 45.288 49.473 28.222 1.00 58.23 C +ATOM 156 O4' C A 8 46.602 49.835 28.707 1.00 57.92 O +ATOM 157 C3' C A 8 45.519 48.211 27.410 1.00 58.66 C +ATOM 158 O3' C A 8 44.512 48.077 26.413 1.00 61.50 O +ATOM 159 C2' C A 8 46.870 48.491 26.771 1.00 57.69 C +ATOM 160 O2' C A 8 46.744 49.342 25.647 1.00 56.83 O +ATOM 161 C1' C A 8 47.593 49.232 27.896 1.00 56.12 C +ATOM 162 N1 C A 8 48.418 48.363 28.744 1.00 53.94 N +ATOM 163 C2 C A 8 49.783 48.292 28.489 1.00 52.97 C +ATOM 164 O2 C A 8 50.251 48.967 27.565 1.00 54.92 O +ATOM 165 N3 C A 8 50.560 47.493 29.251 1.00 50.44 N +ATOM 166 C4 C A 8 50.013 46.784 30.242 1.00 49.28 C +ATOM 167 N4 C A 8 50.812 46.013 30.966 1.00 47.57 N +ATOM 168 C5 C A 8 48.619 46.840 30.530 1.00 50.26 C +ATOM 169 C6 C A 8 47.865 47.635 29.762 1.00 52.95 C +ATOM 170 P A A 9 44.220 46.636 25.756 1.00 62.39 P +ATOM 171 OP1 A A 9 43.364 45.868 26.691 1.00 62.54 O +ATOM 172 OP2 A A 9 45.505 46.055 25.302 1.00 62.79 O +ATOM 173 O5' A A 9 43.321 46.991 24.492 1.00 64.20 O +ATOM 174 C5' A A 9 43.849 46.942 23.173 1.00 69.12 C +ATOM 175 C4' A A 9 42.837 47.488 22.188 1.00 71.94 C +ATOM 176 O4' A A 9 41.791 46.511 21.961 1.00 74.83 O +ATOM 177 C3' A A 9 42.121 48.739 22.656 1.00 71.21 C +ATOM 178 O3' A A 9 42.375 49.964 21.965 1.00 68.03 O +ATOM 179 C2' A A 9 40.779 48.297 23.235 1.00 73.66 C +ATOM 180 O2' A A 9 39.714 49.146 22.861 1.00 73.60 O +ATOM 181 C1' A A 9 40.588 46.912 22.594 1.00 77.57 C +ATOM 182 N9 A A 9 40.229 45.843 23.530 1.00 83.33 N +ATOM 183 C8 A A 9 40.530 45.749 24.869 1.00 84.98 C +ATOM 184 N7 A A 9 40.113 44.636 25.429 1.00 87.16 N +ATOM 185 C5 A A 9 39.485 43.954 24.394 1.00 88.00 C +ATOM 186 C6 A A 9 38.840 42.694 24.335 1.00 89.06 C +ATOM 187 N6 A A 9 38.726 41.864 25.379 1.00 88.96 N +ATOM 188 N1 A A 9 38.314 42.312 23.147 1.00 89.43 N +ATOM 189 C2 A A 9 38.439 43.138 22.097 1.00 89.45 C +ATOM 190 N3 A A 9 39.028 44.337 22.025 1.00 88.20 N +ATOM 191 C4 A A 9 39.536 44.692 23.221 1.00 86.70 C +ATOM 192 P A A 10 41.514 50.352 20.666 1.00 61.47 P +ATOM 193 OP1 A A 10 40.725 49.160 20.325 1.00 65.15 O +ATOM 194 OP2 A A 10 42.447 50.920 19.669 1.00 65.52 O +ATOM 195 O5' A A 10 40.538 51.510 21.159 1.00 61.29 O +ATOM 196 C5' A A 10 39.126 51.356 21.085 1.00 61.12 C +ATOM 197 C4' A A 10 38.435 52.547 21.702 1.00 61.27 C +ATOM 198 O4' A A 10 38.545 52.487 23.140 1.00 61.33 O +ATOM 199 C3' A A 10 39.017 53.894 21.326 1.00 60.56 C +ATOM 200 O3' A A 10 38.418 54.348 20.136 1.00 62.31 O +ATOM 201 C2' A A 10 38.590 54.770 22.486 1.00 60.01 C +ATOM 202 O2' A A 10 37.262 55.220 22.354 1.00 61.63 O +ATOM 203 C1' A A 10 38.702 53.795 23.654 1.00 60.36 C +ATOM 204 N9 A A 10 39.993 53.847 24.327 1.00 60.66 N +ATOM 205 C8 A A 10 40.916 52.837 24.411 1.00 60.47 C +ATOM 206 N7 A A 10 41.969 53.145 25.124 1.00 62.84 N +ATOM 207 C5 A A 10 41.727 54.453 25.533 1.00 62.66 C +ATOM 208 C6 A A 10 42.457 55.346 26.339 1.00 62.24 C +ATOM 209 N6 A A 10 43.621 55.042 26.911 1.00 63.38 N +ATOM 210 N1 A A 10 41.939 56.573 26.545 1.00 62.82 N +ATOM 211 C2 A A 10 40.765 56.873 25.983 1.00 62.56 C +ATOM 212 N3 A A 10 39.981 56.121 25.217 1.00 62.85 N +ATOM 213 C4 A A 10 40.523 54.905 25.030 1.00 62.24 C +ATOM 214 P G A 11 39.283 55.186 19.092 1.00 64.09 P +ATOM 215 OP1 G A 11 38.517 55.279 17.830 1.00 67.46 O +ATOM 216 OP2 G A 11 40.632 54.579 19.093 1.00 65.72 O +ATOM 217 O5' G A 11 39.385 56.634 19.737 1.00 64.27 O +ATOM 218 C5' G A 11 38.238 57.286 20.263 1.00 65.57 C +ATOM 219 C4' G A 11 38.672 58.430 21.142 1.00 66.04 C +ATOM 220 O4' G A 11 39.266 57.913 22.356 1.00 66.05 O +ATOM 221 C3' G A 11 39.753 59.293 20.527 1.00 66.30 C +ATOM 222 O3' G A 11 39.131 60.294 19.737 1.00 68.41 O +ATOM 223 C2' G A 11 40.417 59.895 21.755 1.00 65.85 C +ATOM 224 O2' G A 11 39.667 60.970 22.273 1.00 68.84 O +ATOM 225 C1' G A 11 40.345 58.737 22.749 1.00 65.15 C +ATOM 226 N9 G A 11 41.537 57.901 22.820 1.00 64.75 N +ATOM 227 C8 G A 11 41.777 56.766 22.093 1.00 63.49 C +ATOM 228 N7 G A 11 42.910 56.195 22.394 1.00 64.89 N +ATOM 229 C5 G A 11 43.455 57.007 23.378 1.00 64.88 C +ATOM 230 C6 G A 11 44.666 56.884 24.103 1.00 64.13 C +ATOM 231 O6 G A 11 45.526 55.999 24.029 1.00 64.41 O +ATOM 232 N1 G A 11 44.830 57.926 25.000 1.00 64.36 N +ATOM 233 C2 G A 11 43.947 58.946 25.189 1.00 65.00 C +ATOM 234 N2 G A 11 44.297 59.851 26.098 1.00 68.08 N +ATOM 235 N3 G A 11 42.807 59.069 24.535 1.00 65.84 N +ATOM 236 C4 G A 11 42.627 58.071 23.645 1.00 65.62 C +ATOM 237 P A A 12 39.589 60.508 18.216 1.00 72.17 P +ATOM 238 OP1 A A 12 38.441 61.088 17.469 1.00 72.28 O +ATOM 239 OP2 A A 12 40.202 59.237 17.756 1.00 71.67 O +ATOM 240 O5' A A 12 40.736 61.612 18.310 1.00 73.09 O +ATOM 241 C5' A A 12 40.436 62.931 18.755 1.00 74.99 C +ATOM 242 C4' A A 12 41.689 63.630 19.220 1.00 76.06 C +ATOM 243 O4' A A 12 42.252 62.910 20.347 1.00 75.60 O +ATOM 244 C3' A A 12 42.811 63.640 18.200 1.00 77.69 C +ATOM 245 O3' A A 12 42.666 64.736 17.314 1.00 84.06 O +ATOM 246 C2' A A 12 44.049 63.806 19.063 1.00 76.03 C +ATOM 247 O2' A A 12 44.266 65.155 19.407 1.00 74.27 O +ATOM 248 C1' A A 12 43.669 62.990 20.300 1.00 75.72 C +ATOM 249 N9 A A 12 44.223 61.636 20.328 1.00 75.30 N +ATOM 250 C8 A A 12 44.108 60.649 19.388 1.00 74.14 C +ATOM 251 N7 A A 12 44.736 59.544 19.705 1.00 74.09 N +ATOM 252 C5 A A 12 45.300 59.823 20.941 1.00 74.63 C +ATOM 253 C6 A A 12 46.096 59.060 21.819 1.00 74.42 C +ATOM 254 N6 A A 12 46.478 57.808 21.578 1.00 72.95 N +ATOM 255 N1 A A 12 46.490 59.638 22.971 1.00 74.65 N +ATOM 256 C2 A A 12 46.104 60.888 23.220 1.00 74.97 C +ATOM 257 N3 A A 12 45.361 61.704 22.480 1.00 75.87 N +ATOM 258 C4 A A 12 44.989 61.105 21.338 1.00 75.00 C +ATOM 259 P G A 13 42.588 64.456 15.747 1.00 89.08 P +ATOM 260 OP1 G A 13 41.214 63.997 15.432 1.00 89.24 O +ATOM 261 OP2 G A 13 43.757 63.599 15.410 1.00 88.56 O +ATOM 262 O5' G A 13 42.840 65.858 15.051 1.00 92.85 O +ATOM 263 C5' G A 13 43.609 65.918 13.855 1.00 99.27 C +ATOM 264 C4' G A 13 44.119 67.311 13.644 1.00103.14 C +ATOM 265 O4' G A 13 44.653 67.791 14.898 1.00103.90 O +ATOM 266 C3' G A 13 45.283 67.411 12.672 1.00105.04 C +ATOM 267 O3' G A 13 44.800 67.565 11.345 1.00108.37 O +ATOM 268 C2' G A 13 45.964 68.692 13.125 1.00105.26 C +ATOM 269 O2' G A 13 45.315 69.841 12.618 1.00104.89 O +ATOM 270 C1' G A 13 45.756 68.625 14.639 1.00104.73 C +ATOM 271 N9 G A 13 46.891 68.187 15.441 1.00104.87 N +ATOM 272 C8 G A 13 47.268 66.915 15.809 1.00104.80 C +ATOM 273 N7 G A 13 48.320 66.902 16.586 1.00104.77 N +ATOM 274 C5 G A 13 48.654 68.244 16.726 1.00104.42 C +ATOM 275 C6 G A 13 49.696 68.877 17.464 1.00103.88 C +ATOM 276 O6 G A 13 50.565 68.363 18.184 1.00102.76 O +ATOM 277 N1 G A 13 49.657 70.262 17.305 1.00104.10 N +ATOM 278 C2 G A 13 48.734 70.949 16.541 1.00104.31 C +ATOM 279 N2 G A 13 48.843 72.280 16.483 1.00103.88 N +ATOM 280 N3 G A 13 47.769 70.373 15.873 1.00104.42 N +ATOM 281 C4 G A 13 47.787 69.036 16.008 1.00104.66 C +ATOM 282 P A A 14 44.891 66.334 10.322 1.00111.53 P +ATOM 283 OP1 A A 14 43.610 65.588 10.429 1.00111.71 O +ATOM 284 OP2 A A 14 46.174 65.631 10.568 1.00111.96 O +ATOM 285 O5' A A 14 44.952 67.015 8.880 1.00113.37 O +ATOM 286 C5' A A 14 46.163 67.595 8.388 1.00115.63 C +ATOM 287 C4' A A 14 45.863 68.602 7.295 1.00117.25 C +ATOM 288 O4' A A 14 45.362 67.887 6.140 1.00118.63 O +ATOM 289 C3' A A 14 44.811 69.629 7.703 1.00117.39 C +ATOM 290 O3' A A 14 45.367 70.922 7.924 1.00115.58 O +ATOM 291 C2' A A 14 43.702 69.579 6.645 1.00118.52 C +ATOM 292 O2' A A 14 43.661 70.767 5.878 1.00117.82 O +ATOM 293 C1' A A 14 44.122 68.423 5.730 1.00119.51 C +ATOM 294 N9 A A 14 43.165 67.322 5.573 1.00120.87 N +ATOM 295 C8 A A 14 43.339 66.006 5.934 1.00121.79 C +ATOM 296 N7 A A 14 42.327 65.231 5.622 1.00122.72 N +ATOM 297 C5 A A 14 41.418 66.095 5.023 1.00122.75 C +ATOM 298 C6 A A 14 40.141 65.887 4.464 1.00122.97 C +ATOM 299 N6 A A 14 39.545 64.692 4.404 1.00123.09 N +ATOM 300 N1 A A 14 39.493 66.962 3.957 1.00122.70 N +ATOM 301 C2 A A 14 40.097 68.157 4.010 1.00122.76 C +ATOM 302 N3 A A 14 41.296 68.477 4.503 1.00122.66 N +ATOM 303 C4 A A 14 41.914 67.389 4.999 1.00122.06 C +ATOM 304 P G A 15 46.313 71.178 9.199 1.00114.09 P +ATOM 305 OP1 G A 15 47.669 70.679 8.842 1.00113.11 O +ATOM 306 OP2 G A 15 45.634 70.652 10.411 1.00113.63 O +ATOM 307 O5' G A 15 46.392 72.765 9.299 1.00110.78 O +ATOM 308 C5' G A 15 47.622 73.436 9.083 1.00106.55 C +ATOM 309 C4' G A 15 47.841 74.474 10.147 1.00104.29 C +ATOM 310 O4' G A 15 47.457 73.923 11.434 1.00103.66 O +ATOM 311 C3' G A 15 49.285 74.901 10.335 1.00103.12 C +ATOM 312 O3' G A 15 49.677 75.893 9.400 1.00102.02 O +ATOM 313 C2' G A 15 49.282 75.408 11.769 1.00102.62 C +ATOM 314 O2' G A 15 48.760 76.718 11.867 1.00102.61 O +ATOM 315 C1' G A 15 48.341 74.398 12.438 1.00102.79 C +ATOM 316 N9 G A 15 49.064 73.248 12.975 1.00102.03 N +ATOM 317 C8 G A 15 48.919 71.930 12.610 1.00101.72 C +ATOM 318 N7 G A 15 49.732 71.131 13.246 1.00101.59 N +ATOM 319 C5 G A 15 50.453 71.971 14.085 1.00101.16 C +ATOM 320 C6 G A 15 51.487 71.679 15.022 1.00101.10 C +ATOM 321 O6 G A 15 51.994 70.575 15.304 1.00101.15 O +ATOM 322 N1 G A 15 51.932 72.833 15.662 1.00100.41 N +ATOM 323 C2 G A 15 51.449 74.098 15.432 1.00 99.93 C +ATOM 324 N2 G A 15 51.999 75.086 16.142 1.00 99.94 N +ATOM 325 N3 G A 15 50.493 74.377 14.567 1.00100.17 N +ATOM 326 C4 G A 15 50.045 73.278 13.935 1.00100.88 C +ATOM 327 P G A 16 51.026 75.682 8.551 1.00101.42 P +ATOM 328 OP1 G A 16 50.682 75.731 7.109 1.00102.83 O +ATOM 329 OP2 G A 16 51.725 74.492 9.095 1.00101.20 O +ATOM 330 O5' G A 16 51.919 76.949 8.908 1.00100.66 O +ATOM 331 C5' G A 16 53.321 76.916 8.702 1.00100.34 C +ATOM 332 C4' G A 16 54.036 77.485 9.896 1.00100.56 C +ATOM 333 O4' G A 16 53.436 76.981 11.111 1.00 99.81 O +ATOM 334 C3' G A 16 55.491 77.080 9.985 1.00101.38 C +ATOM 335 O3' G A 16 56.265 77.979 9.201 1.00103.43 O +ATOM 336 C2' G A 16 55.778 77.206 11.477 1.00100.28 C +ATOM 337 O2' G A 16 56.066 78.524 11.885 1.00101.05 O +ATOM 338 C1' G A 16 54.443 76.770 12.086 1.00 99.62 C +ATOM 339 N9 G A 16 54.369 75.375 12.509 1.00 98.45 N +ATOM 340 C8 G A 16 53.508 74.423 12.025 1.00 97.73 C +ATOM 341 N7 G A 16 53.644 73.266 12.608 1.00 96.93 N +ATOM 342 C5 G A 16 54.659 73.463 13.530 1.00 96.67 C +ATOM 343 C6 G A 16 55.243 72.561 14.451 1.00 96.34 C +ATOM 344 O6 G A 16 54.965 71.373 14.646 1.00 96.14 O +ATOM 345 N1 G A 16 56.247 73.169 15.195 1.00 96.64 N +ATOM 346 C2 G A 16 56.637 74.479 15.071 1.00 97.14 C +ATOM 347 N2 G A 16 57.623 74.875 15.890 1.00 96.62 N +ATOM 348 N3 G A 16 56.099 75.334 14.211 1.00 97.69 N +ATOM 349 C4 G A 16 55.123 74.760 13.478 1.00 97.40 C +ATOM 350 P U A 17 57.613 77.465 8.504 1.00105.06 P +ATOM 351 OP1 U A 17 58.306 78.633 7.898 1.00106.21 O +ATOM 352 OP2 U A 17 57.264 76.299 7.656 1.00105.45 O +ATOM 353 O5' U A 17 58.481 76.978 9.742 1.00104.29 O +ATOM 354 C5' U A 17 59.030 77.934 10.631 1.00105.27 C +ATOM 355 C4' U A 17 60.024 77.281 11.542 1.00106.09 C +ATOM 356 O4' U A 17 59.313 76.526 12.556 1.00106.80 O +ATOM 357 C3' U A 17 60.896 76.236 10.865 1.00106.38 C +ATOM 358 O3' U A 17 61.999 76.794 10.166 1.00105.97 O +ATOM 359 C2' U A 17 61.333 75.377 12.039 1.00107.09 C +ATOM 360 O2' U A 17 62.390 75.956 12.777 1.00107.37 O +ATOM 361 C1' U A 17 60.062 75.368 12.886 1.00107.53 C +ATOM 362 N1 U A 17 59.249 74.171 12.641 1.00108.23 N +ATOM 363 C2 U A 17 59.727 72.987 13.165 1.00108.78 C +ATOM 364 O2 U A 17 60.774 72.918 13.788 1.00108.71 O +ATOM 365 N3 U A 17 58.941 71.889 12.933 1.00109.36 N +ATOM 366 C4 U A 17 57.756 71.849 12.242 1.00109.57 C +ATOM 367 O4 U A 17 57.161 70.773 12.132 1.00109.52 O +ATOM 368 C5 U A 17 57.327 73.116 11.719 1.00109.14 C +ATOM 369 C6 U A 17 58.072 74.209 11.933 1.00108.45 C +ATOM 370 P G A 18 62.500 76.096 8.807 1.00105.66 P +ATOM 371 OP1 G A 18 63.661 76.851 8.267 1.00106.51 O +ATOM 372 OP2 G A 18 61.283 75.919 7.968 1.00105.50 O +ATOM 373 O5' G A 18 63.018 74.668 9.285 1.00103.99 O +ATOM 374 C5' G A 18 64.021 74.559 10.291 1.00102.43 C +ATOM 375 C4' G A 18 64.199 73.117 10.695 1.00101.12 C +ATOM 376 O4' G A 18 62.949 72.618 11.238 1.00100.63 O +ATOM 377 C3' G A 18 64.527 72.165 9.556 1.00100.12 C +ATOM 378 O3' G A 18 65.928 72.132 9.335 1.00 99.74 O +ATOM 379 C2' G A 18 64.031 70.830 10.098 1.00 99.32 C +ATOM 380 O2' G A 18 64.952 70.220 10.976 1.00 98.70 O +ATOM 381 C1' G A 18 62.774 71.261 10.858 1.00 99.21 C +ATOM 382 N9 G A 18 61.557 71.174 10.058 1.00 97.34 N +ATOM 383 C8 G A 18 61.041 72.135 9.221 1.00 96.69 C +ATOM 384 N7 G A 18 59.926 71.773 8.650 1.00 96.07 N +ATOM 385 C5 G A 18 59.693 70.496 9.136 1.00 95.84 C +ATOM 386 C6 G A 18 58.632 69.595 8.875 1.00 95.53 C +ATOM 387 O6 G A 18 57.654 69.753 8.139 1.00 94.90 O +ATOM 388 N1 G A 18 58.790 68.401 9.575 1.00 95.75 N +ATOM 389 C2 G A 18 59.837 68.113 10.420 1.00 95.59 C +ATOM 390 N2 G A 18 59.815 66.907 10.994 1.00 95.41 N +ATOM 391 N3 G A 18 60.830 68.947 10.676 1.00 95.69 N +ATOM 392 C4 G A 18 60.695 70.110 10.004 1.00 96.38 C +ATOM 393 P G A 19 66.529 72.627 7.927 1.00100.83 P +ATOM 394 OP1 G A 19 67.023 74.021 8.096 1.00101.74 O +ATOM 395 OP2 G A 19 65.531 72.332 6.866 1.00 99.87 O +ATOM 396 O5' G A 19 67.784 71.666 7.719 1.00 98.72 O +ATOM 397 C5' G A 19 67.715 70.548 6.836 1.00 95.36 C +ATOM 398 C4' G A 19 67.006 69.387 7.504 1.00 92.73 C +ATOM 399 O4' G A 19 65.677 69.803 7.898 1.00 92.37 O +ATOM 400 C3' G A 19 66.784 68.160 6.634 1.00 90.61 C +ATOM 401 O3' G A 19 67.898 67.278 6.715 1.00 88.58 O +ATOM 402 C2' G A 19 65.571 67.513 7.282 1.00 90.73 C +ATOM 403 O2' G A 19 65.939 66.784 8.435 1.00 91.75 O +ATOM 404 C1' G A 19 64.761 68.740 7.698 1.00 90.64 C +ATOM 405 N9 G A 19 63.754 69.219 6.755 1.00 88.83 N +ATOM 406 C8 G A 19 63.909 70.246 5.855 1.00 87.97 C +ATOM 407 N7 G A 19 62.804 70.558 5.236 1.00 87.34 N +ATOM 408 C5 G A 19 61.865 69.664 5.732 1.00 87.12 C +ATOM 409 C6 G A 19 60.486 69.532 5.442 1.00 86.28 C +ATOM 410 O6 G A 19 59.791 70.206 4.678 1.00 85.66 O +ATOM 411 N1 G A 19 59.914 68.489 6.154 1.00 86.49 N +ATOM 412 C2 G A 19 60.577 67.680 7.038 1.00 87.60 C +ATOM 413 N2 G A 19 59.838 66.725 7.615 1.00 88.67 N +ATOM 414 N3 G A 19 61.863 67.797 7.332 1.00 87.70 N +ATOM 415 C4 G A 19 62.442 68.805 6.647 1.00 87.88 C +ATOM 416 P A A 20 67.943 65.983 5.777 1.00 86.58 P +ATOM 417 OP1 A A 20 69.331 65.483 5.704 1.00 86.40 O +ATOM 418 OP2 A A 20 67.232 66.383 4.539 1.00 86.39 O +ATOM 419 O5' A A 20 67.063 64.896 6.537 1.00 85.63 O +ATOM 420 C5' A A 20 67.650 63.993 7.479 1.00 83.85 C +ATOM 421 C4' A A 20 66.922 62.667 7.448 1.00 82.33 C +ATOM 422 O4' A A 20 65.507 62.890 7.680 1.00 81.16 O +ATOM 423 C3' A A 20 66.983 61.952 6.114 1.00 81.89 C +ATOM 424 O3' A A 20 68.221 61.231 6.041 1.00 83.05 O +ATOM 425 C2' A A 20 65.712 61.108 6.103 1.00 81.15 C +ATOM 426 O2' A A 20 65.786 59.824 6.656 1.00 83.37 O +ATOM 427 C1' A A 20 64.744 61.986 6.902 1.00 80.09 C +ATOM 428 N9 A A 20 63.779 62.755 6.122 1.00 77.26 N +ATOM 429 C8 A A 20 63.909 64.014 5.592 1.00 76.84 C +ATOM 430 N7 A A 20 62.844 64.431 4.955 1.00 76.08 N +ATOM 431 C5 A A 20 61.958 63.373 5.068 1.00 75.98 C +ATOM 432 C6 A A 20 60.651 63.184 4.598 1.00 75.86 C +ATOM 433 N6 A A 20 59.982 64.094 3.882 1.00 76.10 N +ATOM 434 N1 A A 20 60.045 62.012 4.888 1.00 75.42 N +ATOM 435 C2 A A 20 60.720 61.100 5.602 1.00 76.18 C +ATOM 436 N3 A A 20 61.952 61.161 6.096 1.00 76.33 N +ATOM 437 C4 A A 20 62.522 62.336 5.786 1.00 76.27 C +ATOM 438 P G A 21 68.416 59.835 6.842 1.00 83.99 P +ATOM 439 OP1 G A 21 69.871 59.617 7.084 1.00 82.93 O +ATOM 440 OP2 G A 21 67.632 58.787 6.129 1.00 85.06 O +ATOM 441 O5' G A 21 67.758 60.103 8.267 1.00 81.30 O +ATOM 442 C5' G A 21 67.378 59.027 9.123 1.00 78.72 C +ATOM 443 C4' G A 21 66.027 59.321 9.725 1.00 78.10 C +ATOM 444 O4' G A 21 65.080 59.521 8.640 1.00 78.26 O +ATOM 445 C3' G A 21 65.380 58.242 10.572 1.00 76.75 C +ATOM 446 O3' G A 21 65.797 58.230 11.918 1.00 75.15 O +ATOM 447 C2' G A 21 63.914 58.615 10.469 1.00 77.51 C +ATOM 448 O2' G A 21 63.635 59.759 11.250 1.00 78.02 O +ATOM 449 C1' G A 21 63.821 58.986 8.994 1.00 78.22 C +ATOM 450 N9 G A 21 63.595 57.775 8.211 1.00 78.46 N +ATOM 451 C8 G A 21 64.527 57.004 7.558 1.00 78.61 C +ATOM 452 N7 G A 21 64.008 55.947 6.988 1.00 79.65 N +ATOM 453 C5 G A 21 62.651 56.035 7.272 1.00 79.52 C +ATOM 454 C6 G A 21 61.569 55.176 6.920 1.00 79.20 C +ATOM 455 O6 G A 21 61.593 54.121 6.262 1.00 77.93 O +ATOM 456 N1 G A 21 60.362 55.653 7.420 1.00 79.94 N +ATOM 457 C2 G A 21 60.211 56.801 8.162 1.00 80.08 C +ATOM 458 N2 G A 21 58.978 57.110 8.559 1.00 80.92 N +ATOM 459 N3 G A 21 61.202 57.597 8.494 1.00 79.71 N +ATOM 460 C4 G A 21 62.383 57.161 8.020 1.00 79.25 C +ATOM 461 P G A 22 65.553 56.907 12.788 1.00 75.22 P +ATOM 462 OP1 G A 22 66.079 57.154 14.161 1.00 76.23 O +ATOM 463 OP2 G A 22 66.048 55.739 12.002 1.00 74.26 O +ATOM 464 O5' G A 22 63.966 56.780 12.860 1.00 74.14 O +ATOM 465 C5' G A 22 63.189 57.768 13.513 1.00 71.88 C +ATOM 466 C4' G A 22 61.736 57.364 13.541 1.00 70.11 C +ATOM 467 O4' G A 22 61.245 57.258 12.173 1.00 69.75 O +ATOM 468 C3' G A 22 61.479 55.972 14.091 1.00 69.37 C +ATOM 469 O3' G A 22 61.441 55.892 15.497 1.00 68.01 O +ATOM 470 C2' G A 22 60.128 55.634 13.493 1.00 69.71 C +ATOM 471 O2' G A 22 59.080 56.284 14.172 1.00 69.55 O +ATOM 472 C1' G A 22 60.269 56.226 12.097 1.00 70.83 C +ATOM 473 N9 G A 22 60.698 55.184 11.167 1.00 71.65 N +ATOM 474 C8 G A 22 61.942 54.973 10.631 1.00 71.65 C +ATOM 475 N7 G A 22 61.995 53.916 9.865 1.00 72.21 N +ATOM 476 C5 G A 22 60.704 53.408 9.890 1.00 71.92 C +ATOM 477 C6 G A 22 60.149 52.278 9.247 1.00 71.25 C +ATOM 478 O6 G A 22 60.704 51.471 8.496 1.00 71.85 O +ATOM 479 N1 G A 22 58.797 52.130 9.550 1.00 71.46 N +ATOM 480 C2 G A 22 58.071 52.964 10.362 1.00 71.45 C +ATOM 481 N2 G A 22 56.779 52.662 10.534 1.00 71.19 N +ATOM 482 N3 G A 22 58.578 54.021 10.962 1.00 72.00 N +ATOM 483 C4 G A 22 59.891 54.181 10.684 1.00 72.15 C +ATOM 484 P G A 23 61.563 54.455 16.191 1.00 67.32 P +ATOM 485 OP1 G A 23 61.633 54.663 17.661 1.00 67.78 O +ATOM 486 OP2 G A 23 62.665 53.751 15.493 1.00 67.92 O +ATOM 487 O5' G A 23 60.178 53.745 15.842 1.00 66.55 O +ATOM 488 C5' G A 23 58.959 54.370 16.209 1.00 66.95 C +ATOM 489 C4' G A 23 57.770 53.491 15.901 1.00 66.33 C +ATOM 490 O4' G A 23 57.553 53.426 14.460 1.00 66.90 O +ATOM 491 C3' G A 23 57.922 52.034 16.291 1.00 66.34 C +ATOM 492 O3' G A 23 57.682 51.787 17.656 1.00 69.23 O +ATOM 493 C2' G A 23 56.884 51.359 15.412 1.00 64.38 C +ATOM 494 O2' G A 23 55.584 51.547 15.920 1.00 61.23 O +ATOM 495 C1' G A 23 57.037 52.146 14.114 1.00 64.35 C +ATOM 496 N9 G A 23 57.967 51.457 13.227 1.00 63.89 N +ATOM 497 C8 G A 23 59.306 51.697 13.043 1.00 63.75 C +ATOM 498 N7 G A 23 59.868 50.849 12.223 1.00 64.11 N +ATOM 499 C5 G A 23 58.831 50.010 11.833 1.00 62.97 C +ATOM 500 C6 G A 23 58.825 48.887 10.958 1.00 62.43 C +ATOM 501 O6 G A 23 59.769 48.388 10.326 1.00 63.41 O +ATOM 502 N1 G A 23 57.556 48.332 10.852 1.00 61.36 N +ATOM 503 C2 G A 23 56.437 48.785 11.502 1.00 60.60 C +ATOM 504 N2 G A 23 55.296 48.112 11.268 1.00 60.05 N +ATOM 505 N3 G A 23 56.431 49.822 12.322 1.00 61.58 N +ATOM 506 C4 G A 23 57.652 50.383 12.437 1.00 62.69 C +ATOM 507 P A A 24 58.081 50.365 18.262 1.00 70.89 P +ATOM 508 OP1 A A 24 58.882 49.647 17.244 1.00 73.17 O +ATOM 509 OP2 A A 24 56.848 49.740 18.787 1.00 72.21 O +ATOM 510 O5' A A 24 59.039 50.727 19.478 1.00 71.11 O +ATOM 511 C5' A A 24 60.110 51.657 19.320 1.00 70.21 C +ATOM 512 C4' A A 24 61.356 51.123 19.985 1.00 68.55 C +ATOM 513 O4' A A 24 61.028 50.722 21.337 1.00 67.16 O +ATOM 514 C3' A A 24 61.944 49.873 19.358 1.00 69.42 C +ATOM 515 O3' A A 24 62.824 50.253 18.304 1.00 71.85 O +ATOM 516 C2' A A 24 62.695 49.249 20.531 1.00 67.92 C +ATOM 517 O2' A A 24 63.935 49.871 20.803 1.00 69.68 O +ATOM 518 C1' A A 24 61.752 49.558 21.688 1.00 64.41 C +ATOM 519 N9 A A 24 60.780 48.506 21.963 1.00 60.75 N +ATOM 520 C8 A A 24 59.468 48.471 21.572 1.00 59.22 C +ATOM 521 N7 A A 24 58.812 47.425 22.015 1.00 59.13 N +ATOM 522 C5 A A 24 59.761 46.720 22.737 1.00 58.33 C +ATOM 523 C6 A A 24 59.689 45.530 23.474 1.00 58.17 C +ATOM 524 N6 A A 24 58.567 44.818 23.625 1.00 58.76 N +ATOM 525 N1 A A 24 60.816 45.090 24.067 1.00 58.32 N +ATOM 526 C2 A A 24 61.931 45.814 23.930 1.00 60.28 C +ATOM 527 N3 A A 24 62.122 46.959 23.277 1.00 61.00 N +ATOM 528 C4 A A 24 60.983 47.364 22.697 1.00 60.30 C +ATOM 529 P C A 25 63.295 49.164 17.228 1.00 72.52 P +ATOM 530 OP1 C A 25 64.442 49.734 16.487 1.00 70.92 O +ATOM 531 OP2 C A 25 62.101 48.674 16.477 1.00 74.42 O +ATOM 532 O5' C A 25 63.825 47.968 18.134 1.00 71.83 O +ATOM 533 C5' C A 25 65.165 47.952 18.598 1.00 72.62 C +ATOM 534 C4' C A 25 65.485 46.606 19.185 1.00 74.39 C +ATOM 535 O4' C A 25 64.558 46.356 20.273 1.00 73.10 O +ATOM 536 C3' C A 25 65.263 45.426 18.250 1.00 76.56 C +ATOM 537 O3' C A 25 66.392 45.192 17.419 1.00 81.10 O +ATOM 538 C2' C A 25 65.043 44.274 19.223 1.00 74.88 C +ATOM 539 O2' C A 25 66.249 43.738 19.735 1.00 75.19 O +ATOM 540 C1' C A 25 64.261 44.972 20.335 1.00 72.77 C +ATOM 541 N1 C A 25 62.813 44.801 20.227 1.00 71.71 N +ATOM 542 C2 C A 25 62.260 43.662 20.760 1.00 71.83 C +ATOM 543 O2 C A 25 63.013 42.827 21.270 1.00 73.95 O +ATOM 544 N3 C A 25 60.927 43.481 20.711 1.00 70.88 N +ATOM 545 C4 C A 25 60.155 44.391 20.139 1.00 69.84 C +ATOM 546 N4 C A 25 58.841 44.155 20.123 1.00 70.13 N +ATOM 547 C5 C A 25 60.695 45.576 19.562 1.00 69.41 C +ATOM 548 C6 C A 25 62.022 45.740 19.626 1.00 70.68 C +ATOM 549 P U A 26 66.238 44.250 16.126 1.00 85.16 P +ATOM 550 OP1 U A 26 67.594 43.929 15.605 1.00 84.53 O +ATOM 551 OP2 U A 26 65.243 44.884 15.235 1.00 85.22 O +ATOM 552 O5' U A 26 65.582 42.908 16.686 1.00 83.10 O +ATOM 553 C5' U A 26 66.404 41.853 17.168 1.00 83.06 C +ATOM 554 C4' U A 26 65.751 40.520 16.911 1.00 82.90 C +ATOM 555 O4' U A 26 64.618 40.350 17.795 1.00 83.33 O +ATOM 556 C3' U A 26 65.164 40.371 15.525 1.00 82.05 C +ATOM 557 O3' U A 26 66.184 39.990 14.616 1.00 81.59 O +ATOM 558 C2' U A 26 64.113 39.289 15.737 1.00 82.83 C +ATOM 559 O2' U A 26 64.643 37.983 15.780 1.00 83.21 O +ATOM 560 C1' U A 26 63.594 39.639 17.129 1.00 83.33 C +ATOM 561 N1 U A 26 62.387 40.475 17.115 1.00 84.07 N +ATOM 562 C2 U A 26 61.168 39.833 17.084 1.00 84.45 C +ATOM 563 O2 U A 26 61.060 38.619 17.070 1.00 84.31 O +ATOM 564 N3 U A 26 60.076 40.662 17.073 1.00 84.96 N +ATOM 565 C4 U A 26 60.082 42.039 17.090 1.00 85.37 C +ATOM 566 O4 U A 26 59.012 42.648 17.081 1.00 85.84 O +ATOM 567 C5 U A 26 61.383 42.627 17.120 1.00 84.60 C +ATOM 568 C6 U A 26 62.465 41.842 17.132 1.00 84.27 C +ATOM 569 P G A 27 66.132 40.515 13.104 1.00 81.65 P +ATOM 570 OP1 G A 27 67.350 40.038 12.413 1.00 83.23 O +ATOM 571 OP2 G A 27 65.837 41.963 13.132 1.00 82.55 O +ATOM 572 O5' G A 27 64.885 39.731 12.503 1.00 80.51 O +ATOM 573 C5' G A 27 64.935 38.317 12.376 1.00 78.28 C +ATOM 574 C4' G A 27 63.552 37.741 12.178 1.00 77.67 C +ATOM 575 O4' G A 27 62.747 38.009 13.362 1.00 77.49 O +ATOM 576 C3' G A 27 62.728 38.306 11.023 1.00 76.44 C +ATOM 577 O3' G A 27 63.058 37.664 9.795 1.00 75.91 O +ATOM 578 C2' G A 27 61.311 37.972 11.470 1.00 76.07 C +ATOM 579 O2' G A 27 61.007 36.613 11.242 1.00 74.28 O +ATOM 580 C1' G A 27 61.397 38.227 12.979 1.00 76.21 C +ATOM 581 N9 G A 27 61.016 39.598 13.319 1.00 74.43 N +ATOM 582 C8 G A 27 61.838 40.697 13.410 1.00 74.12 C +ATOM 583 N7 G A 27 61.190 41.800 13.682 1.00 73.38 N +ATOM 584 C5 G A 27 59.863 41.404 13.788 1.00 72.40 C +ATOM 585 C6 G A 27 58.695 42.162 14.067 1.00 71.55 C +ATOM 586 O6 G A 27 58.592 43.386 14.280 1.00 70.85 O +ATOM 587 N1 G A 27 57.559 41.356 14.086 1.00 70.35 N +ATOM 588 C2 G A 27 57.544 40.002 13.863 1.00 70.15 C +ATOM 589 N2 G A 27 56.350 39.400 13.926 1.00 68.30 N +ATOM 590 N3 G A 27 58.623 39.288 13.598 1.00 71.70 N +ATOM 591 C4 G A 27 59.740 40.047 13.577 1.00 72.98 C +ATOM 592 P G A 28 62.365 38.133 8.409 1.00 76.89 P +ATOM 593 OP1 G A 28 62.160 36.878 7.623 1.00 77.47 O +ATOM 594 OP2 G A 28 63.124 39.269 7.796 1.00 75.40 O +ATOM 595 O5' G A 28 60.924 38.672 8.823 1.00 76.26 O +ATOM 596 C5' G A 28 60.164 39.487 7.926 1.00 73.92 C +ATOM 597 C4' G A 28 58.705 39.462 8.314 1.00 71.92 C +ATOM 598 O4' G A 28 58.573 39.835 9.714 1.00 71.54 O +ATOM 599 C3' G A 28 57.811 40.439 7.565 1.00 70.88 C +ATOM 600 O3' G A 28 57.367 39.868 6.331 1.00 69.61 O +ATOM 601 C2' G A 28 56.656 40.616 8.546 1.00 70.99 C +ATOM 602 O2' G A 28 55.717 39.557 8.480 1.00 71.07 O +ATOM 603 C1' G A 28 57.387 40.587 9.894 1.00 71.11 C +ATOM 604 N9 G A 28 57.746 41.916 10.380 1.00 70.31 N +ATOM 605 C8 G A 28 58.962 42.543 10.281 1.00 70.75 C +ATOM 606 N7 G A 28 58.958 43.747 10.782 1.00 70.48 N +ATOM 607 C5 G A 28 57.663 43.920 11.251 1.00 69.56 C +ATOM 608 C6 G A 28 57.055 45.027 11.906 1.00 69.08 C +ATOM 609 O6 G A 28 57.557 46.119 12.224 1.00 68.50 O +ATOM 610 N1 G A 28 55.724 44.771 12.202 1.00 69.21 N +ATOM 611 C2 G A 28 55.060 43.608 11.915 1.00 69.07 C +ATOM 612 N2 G A 28 53.767 43.555 12.280 1.00 68.80 N +ATOM 613 N3 G A 28 55.616 42.572 11.315 1.00 69.71 N +ATOM 614 C4 G A 28 56.906 42.797 11.014 1.00 69.55 C +ATOM 615 P C A 29 57.271 40.780 5.008 1.00 67.90 P +ATOM 616 OP1 C A 29 56.896 39.914 3.864 1.00 70.57 O +ATOM 617 OP2 C A 29 58.508 41.596 4.940 1.00 69.03 O +ATOM 618 O5' C A 29 56.055 41.759 5.299 1.00 66.35 O +ATOM 619 C5' C A 29 54.758 41.248 5.567 1.00 62.83 C +ATOM 620 C4' C A 29 53.946 42.279 6.308 1.00 62.09 C +ATOM 621 O4' C A 29 54.537 42.496 7.619 1.00 59.41 O +ATOM 622 C3' C A 29 53.949 43.661 5.684 1.00 62.50 C +ATOM 623 O3' C A 29 53.018 43.803 4.618 1.00 64.25 O +ATOM 624 C2' C A 29 53.618 44.546 6.876 1.00 61.37 C +ATOM 625 O2' C A 29 52.234 44.525 7.187 1.00 61.74 O +ATOM 626 C1' C A 29 54.421 43.860 7.981 1.00 59.52 C +ATOM 627 N1 C A 29 55.777 44.424 8.092 1.00 59.57 N +ATOM 628 C2 C A 29 55.950 45.631 8.772 1.00 59.50 C +ATOM 629 O2 C A 29 54.973 46.175 9.280 1.00 60.54 O +ATOM 630 N3 C A 29 57.180 46.174 8.858 1.00 59.71 N +ATOM 631 C4 C A 29 58.225 45.562 8.299 1.00 59.10 C +ATOM 632 N4 C A 29 59.412 46.152 8.405 1.00 56.50 N +ATOM 633 C5 C A 29 58.091 44.321 7.607 1.00 59.16 C +ATOM 634 C6 C A 29 56.856 43.790 7.529 1.00 59.74 C +ATOM 635 P C A 30 53.015 45.164 3.761 1.00 65.71 P +ATOM 636 OP1 C A 30 51.995 45.078 2.682 1.00 66.48 O +ATOM 637 OP2 C A 30 54.428 45.487 3.422 1.00 64.15 O +ATOM 638 O5' C A 30 52.539 46.252 4.817 1.00 66.68 O +ATOM 639 C5' C A 30 52.834 47.619 4.624 1.00 66.07 C +ATOM 640 C4' C A 30 52.552 48.383 5.883 1.00 64.24 C +ATOM 641 O4' C A 30 53.379 47.875 6.961 1.00 63.99 O +ATOM 642 C3' C A 30 52.853 49.863 5.817 1.00 63.38 C +ATOM 643 O3' C A 30 51.704 50.500 5.285 1.00 63.48 O +ATOM 644 C2' C A 30 53.060 50.195 7.287 1.00 63.64 C +ATOM 645 O2' C A 30 51.818 50.289 7.955 1.00 63.72 O +ATOM 646 C1' C A 30 53.793 48.945 7.782 1.00 63.35 C +ATOM 647 N1 C A 30 55.243 49.051 7.628 1.00 63.96 N +ATOM 648 C2 C A 30 55.945 49.948 8.418 1.00 64.30 C +ATOM 649 O2 C A 30 55.330 50.610 9.257 1.00 66.15 O +ATOM 650 N3 C A 30 57.280 50.073 8.250 1.00 64.07 N +ATOM 651 C4 C A 30 57.909 49.334 7.339 1.00 63.26 C +ATOM 652 N4 C A 30 59.218 49.497 7.206 1.00 63.72 N +ATOM 653 C5 C A 30 57.220 48.395 6.526 1.00 63.27 C +ATOM 654 C6 C A 30 55.897 48.284 6.704 1.00 64.28 C +ATOM 655 P C A 31 51.870 51.754 4.306 1.00 64.41 P +ATOM 656 OP1 C A 31 50.528 52.130 3.784 1.00 63.20 O +ATOM 657 OP2 C A 31 52.983 51.484 3.365 1.00 63.17 O +ATOM 658 O5' C A 31 52.369 52.895 5.282 1.00 63.89 O +ATOM 659 C5' C A 31 51.578 53.280 6.382 1.00 63.36 C +ATOM 660 C4' C A 31 52.287 54.339 7.160 1.00 63.12 C +ATOM 661 O4' C A 31 53.352 53.730 7.927 1.00 63.91 O +ATOM 662 C3' C A 31 53.003 55.344 6.284 1.00 61.70 C +ATOM 663 O3' C A 31 52.113 56.345 5.844 1.00 61.08 O +ATOM 664 C2' C A 31 54.052 55.885 7.231 1.00 62.18 C +ATOM 665 O2' C A 31 53.483 56.788 8.145 1.00 62.99 O +ATOM 666 C1' C A 31 54.443 54.622 7.990 1.00 63.19 C +ATOM 667 N1 C A 31 55.620 53.977 7.410 1.00 63.84 N +ATOM 668 C2 C A 31 56.831 54.589 7.597 1.00 63.43 C +ATOM 669 O2 C A 31 56.855 55.634 8.245 1.00 64.84 O +ATOM 670 N3 C A 31 57.946 54.041 7.081 1.00 63.21 N +ATOM 671 C4 C A 31 57.872 52.902 6.402 1.00 64.27 C +ATOM 672 N4 C A 31 59.010 52.390 5.922 1.00 64.98 N +ATOM 673 C5 C A 31 56.633 52.238 6.190 1.00 65.15 C +ATOM 674 C6 C A 31 55.535 52.809 6.707 1.00 64.47 C +ATOM 675 P G A 32 52.458 57.185 4.523 1.00 62.37 P +ATOM 676 OP1 G A 32 51.396 58.213 4.397 1.00 60.41 O +ATOM 677 OP2 G A 32 52.715 56.238 3.403 1.00 60.94 O +ATOM 678 O5' G A 32 53.835 57.910 4.866 1.00 63.18 O +ATOM 679 C5' G A 32 53.847 59.093 5.641 1.00 62.39 C +ATOM 680 C4' G A 32 55.228 59.676 5.680 1.00 63.39 C +ATOM 681 O4' G A 32 56.105 58.751 6.367 1.00 64.76 O +ATOM 682 C3' G A 32 55.889 59.815 4.326 1.00 64.49 C +ATOM 683 O3' G A 32 55.509 60.970 3.617 1.00 65.91 O +ATOM 684 C2' G A 32 57.362 59.837 4.675 1.00 65.04 C +ATOM 685 O2' G A 32 57.780 61.102 5.143 1.00 64.75 O +ATOM 686 C1' G A 32 57.404 58.811 5.800 1.00 64.89 C +ATOM 687 N9 G A 32 57.744 57.503 5.264 1.00 66.38 N +ATOM 688 C8 G A 32 56.907 56.435 5.060 1.00 68.11 C +ATOM 689 N7 G A 32 57.510 55.412 4.521 1.00 69.20 N +ATOM 690 C5 G A 32 58.823 55.836 4.361 1.00 68.47 C +ATOM 691 C6 G A 32 59.932 55.175 3.806 1.00 69.12 C +ATOM 692 O6 G A 32 59.980 54.056 3.304 1.00 71.60 O +ATOM 693 N1 G A 32 61.076 55.961 3.856 1.00 69.48 N +ATOM 694 C2 G A 32 61.139 57.234 4.358 1.00 69.13 C +ATOM 695 N2 G A 32 62.336 57.831 4.314 1.00 68.48 N +ATOM 696 N3 G A 32 60.103 57.870 4.863 1.00 68.83 N +ATOM 697 C4 G A 32 58.984 57.116 4.833 1.00 67.70 C +ATOM 698 P A A 33 55.228 60.837 2.054 1.00 67.60 P +ATOM 699 OP1 A A 33 53.763 60.625 1.905 1.00 65.92 O +ATOM 700 OP2 A A 33 56.180 59.801 1.567 1.00 67.33 O +ATOM 701 O5' A A 33 55.593 62.258 1.434 1.00 67.76 O +ATOM 702 C5' A A 33 56.865 62.878 1.641 1.00 69.76 C +ATOM 703 C4' A A 33 56.994 64.038 0.684 1.00 71.33 C +ATOM 704 O4' A A 33 58.204 64.805 0.937 1.00 71.47 O +ATOM 705 C3' A A 33 57.125 63.544 -0.740 1.00 72.06 C +ATOM 706 O3' A A 33 56.034 63.736 -1.619 1.00 74.07 O +ATOM 707 C2' A A 33 58.602 63.589 -1.112 1.00 71.79 C +ATOM 708 O2' A A 33 58.810 64.058 -2.429 1.00 71.97 O +ATOM 709 C1' A A 33 59.144 64.615 -0.110 1.00 70.81 C +ATOM 710 N9 A A 33 60.441 64.313 0.492 1.00 69.50 N +ATOM 711 C8 A A 33 61.506 65.166 0.616 1.00 69.12 C +ATOM 712 N7 A A 33 62.547 64.634 1.211 1.00 68.67 N +ATOM 713 C5 A A 33 62.140 63.340 1.497 1.00 68.66 C +ATOM 714 C6 A A 33 62.789 62.260 2.126 1.00 67.48 C +ATOM 715 N6 A A 33 64.024 62.321 2.622 1.00 67.34 N +ATOM 716 N1 A A 33 62.112 61.104 2.236 1.00 66.36 N +ATOM 717 C2 A A 33 60.863 61.047 1.756 1.00 68.99 C +ATOM 718 N3 A A 33 60.140 61.993 1.155 1.00 68.41 N +ATOM 719 C4 A A 33 60.845 63.127 1.054 1.00 69.05 C +ATOM 720 P U A 34 55.824 65.152 -2.328 1.00 74.88 P +ATOM 721 OP1 U A 34 55.020 64.908 -3.544 1.00 76.95 O +ATOM 722 OP2 U A 34 57.139 65.818 -2.430 1.00 77.84 O +ATOM 723 O5' U A 34 54.926 65.989 -1.318 1.00 78.42 O +ATOM 724 C5' U A 34 54.185 65.351 -0.295 1.00 81.29 C +ATOM 725 C4' U A 34 52.728 65.677 -0.440 1.00 83.18 C +ATOM 726 O4' U A 34 52.277 65.244 -1.744 1.00 85.09 O +ATOM 727 C3' U A 34 51.830 64.944 0.538 1.00 84.70 C +ATOM 728 O3' U A 34 51.739 65.734 1.721 1.00 86.22 O +ATOM 729 C2' U A 34 50.492 64.920 -0.195 1.00 85.34 C +ATOM 730 O2' U A 34 49.750 66.116 -0.048 1.00 86.46 O +ATOM 731 C1' U A 34 50.941 64.780 -1.652 1.00 85.85 C +ATOM 732 N1 U A 34 50.856 63.449 -2.274 1.00 86.02 N +ATOM 733 C2 U A 34 49.694 62.731 -2.110 1.00 86.35 C +ATOM 734 O2 U A 34 48.760 63.134 -1.441 1.00 86.70 O +ATOM 735 N3 U A 34 49.663 61.521 -2.759 1.00 86.83 N +ATOM 736 C4 U A 34 50.662 60.967 -3.534 1.00 86.45 C +ATOM 737 O4 U A 34 50.500 59.849 -4.031 1.00 85.04 O +ATOM 738 C5 U A 34 51.837 61.771 -3.643 1.00 86.54 C +ATOM 739 C6 U A 34 51.894 62.951 -3.021 1.00 85.75 C +ATOM 740 P G A 35 52.152 65.101 3.133 1.00 86.03 P +ATOM 741 OP1 G A 35 53.057 63.962 2.842 1.00 87.58 O +ATOM 742 OP2 G A 35 50.900 64.870 3.900 1.00 86.93 O +ATOM 743 O5' G A 35 52.992 66.243 3.851 1.00 82.44 O +ATOM 744 C5' G A 35 53.697 65.970 5.055 1.00 82.21 C +ATOM 745 C4' G A 35 54.954 65.202 4.743 1.00 80.34 C +ATOM 746 O4' G A 35 55.443 65.620 3.455 1.00 81.24 O +ATOM 747 C3' G A 35 56.105 65.432 5.709 1.00 80.16 C +ATOM 748 O3' G A 35 56.017 64.446 6.733 1.00 78.85 O +ATOM 749 C2' G A 35 57.326 65.138 4.843 1.00 81.09 C +ATOM 750 O2' G A 35 57.613 63.762 4.756 1.00 84.00 O +ATOM 751 C1' G A 35 56.852 65.607 3.468 1.00 81.14 C +ATOM 752 N9 G A 35 57.345 66.850 2.883 1.00 80.09 N +ATOM 753 C8 G A 35 56.599 67.774 2.191 1.00 79.74 C +ATOM 754 N7 G A 35 57.324 68.703 1.637 1.00 79.94 N +ATOM 755 C5 G A 35 58.624 68.394 2.016 1.00 78.91 C +ATOM 756 C6 G A 35 59.843 69.026 1.693 1.00 78.16 C +ATOM 757 O6 G A 35 60.033 70.005 0.961 1.00 79.05 O +ATOM 758 N1 G A 35 60.919 68.399 2.305 1.00 76.96 N +ATOM 759 C2 G A 35 60.834 67.298 3.114 1.00 77.37 C +ATOM 760 N2 G A 35 61.990 66.850 3.623 1.00 76.36 N +ATOM 761 N3 G A 35 59.702 66.685 3.407 1.00 78.05 N +ATOM 762 C4 G A 35 58.645 67.280 2.825 1.00 78.58 C +ATOM 763 P A A 36 56.302 64.840 8.264 1.00 76.30 P +ATOM 764 OP1 A A 36 54.975 64.874 8.942 1.00 75.67 O +ATOM 765 OP2 A A 36 57.180 66.045 8.282 1.00 77.08 O +ATOM 766 O5' A A 36 57.155 63.624 8.842 1.00 72.20 O +ATOM 767 C5' A A 36 56.630 62.304 8.880 1.00 69.65 C +ATOM 768 C4' A A 36 57.735 61.338 9.196 1.00 67.97 C +ATOM 769 O4' A A 36 58.775 61.499 8.202 1.00 68.85 O +ATOM 770 C3' A A 36 58.432 61.569 10.525 1.00 67.41 C +ATOM 771 O3' A A 36 57.747 60.830 11.524 1.00 67.02 O +ATOM 772 C2' A A 36 59.815 60.974 10.276 1.00 67.37 C +ATOM 773 O2' A A 36 59.886 59.573 10.441 1.00 66.90 O +ATOM 774 C1' A A 36 60.045 61.341 8.808 1.00 67.53 C +ATOM 775 N9 A A 36 60.752 62.600 8.641 1.00 66.76 N +ATOM 776 C8 A A 36 60.375 63.652 7.852 1.00 67.45 C +ATOM 777 N7 A A 36 61.191 64.671 7.908 1.00 66.96 N +ATOM 778 C5 A A 36 62.172 64.259 8.794 1.00 66.08 C +ATOM 779 C6 A A 36 63.311 64.889 9.276 1.00 66.19 C +ATOM 780 N6 A A 36 63.665 66.125 8.928 1.00 67.40 N +ATOM 781 N1 A A 36 64.087 64.205 10.142 1.00 66.85 N +ATOM 782 C2 A A 36 63.716 62.966 10.495 1.00 66.08 C +ATOM 783 N3 A A 36 62.657 62.268 10.111 1.00 65.19 N +ATOM 784 C4 A A 36 61.917 62.982 9.248 1.00 65.98 C +ATOM 785 P A A 37 57.509 61.470 12.975 1.00 68.44 P +ATOM 786 OP1 A A 37 56.864 60.414 13.806 1.00 68.71 O +ATOM 787 OP2 A A 37 56.818 62.771 12.773 1.00 66.15 O +ATOM 788 O5' A A 37 58.982 61.698 13.553 1.00 69.51 O +ATOM 789 C5' A A 37 59.702 60.597 14.106 1.00 72.39 C +ATOM 790 C4' A A 37 61.083 61.004 14.590 1.00 73.88 C +ATOM 791 O4' A A 37 61.842 61.585 13.493 1.00 74.64 O +ATOM 792 C3' A A 37 61.133 62.080 15.665 1.00 75.34 C +ATOM 793 O3' A A 37 60.948 61.522 16.963 1.00 77.76 O +ATOM 794 C2' A A 37 62.544 62.635 15.506 1.00 74.93 C +ATOM 795 O2' A A 37 63.525 61.813 16.108 1.00 73.93 O +ATOM 796 C1' A A 37 62.730 62.569 13.995 1.00 75.06 C +ATOM 797 N9 A A 37 62.515 63.833 13.299 1.00 76.44 N +ATOM 798 C8 A A 37 61.475 64.214 12.492 1.00 77.47 C +ATOM 799 N7 A A 37 61.604 65.421 12.002 1.00 77.88 N +ATOM 800 C5 A A 37 62.808 65.868 12.528 1.00 78.70 C +ATOM 801 C6 A A 37 63.516 67.076 12.386 1.00 79.68 C +ATOM 802 N6 A A 37 63.093 68.103 11.641 1.00 80.75 N +ATOM 803 N1 A A 37 64.689 67.195 13.045 1.00 80.31 N +ATOM 804 C2 A A 37 65.112 66.167 13.792 1.00 80.01 C +ATOM 805 N3 A A 37 64.538 64.987 14.002 1.00 79.09 N +ATOM 806 C4 A A 37 63.376 64.900 13.332 1.00 78.07 C +ATOM 807 P A A 38 60.393 62.448 18.155 1.00 79.26 P +ATOM 808 OP1 A A 38 60.704 61.769 19.430 1.00 80.61 O +ATOM 809 OP2 A A 38 58.991 62.817 17.844 1.00 79.34 O +ATOM 810 O5' A A 38 61.291 63.760 18.070 1.00 79.38 O +ATOM 811 C5' A A 38 62.553 63.820 18.730 1.00 81.15 C +ATOM 812 C4' A A 38 63.073 65.228 18.704 1.00 81.79 C +ATOM 813 O4' A A 38 63.352 65.593 17.331 1.00 81.63 O +ATOM 814 C3' A A 38 62.094 66.283 19.177 1.00 82.49 C +ATOM 815 O3' A A 38 62.076 66.412 20.583 1.00 84.40 O +ATOM 816 C2' A A 38 62.616 67.524 18.479 1.00 82.22 C +ATOM 817 O2' A A 38 63.767 68.030 19.123 1.00 83.01 O +ATOM 818 C1' A A 38 62.993 66.945 17.115 1.00 80.98 C +ATOM 819 N9 A A 38 61.822 66.947 16.243 1.00 78.84 N +ATOM 820 C8 A A 38 60.905 65.942 16.088 1.00 78.39 C +ATOM 821 N7 A A 38 59.915 66.249 15.289 1.00 77.70 N +ATOM 822 C5 A A 38 60.210 67.540 14.875 1.00 77.24 C +ATOM 823 C6 A A 38 59.546 68.437 14.018 1.00 77.01 C +ATOM 824 N6 A A 38 58.390 68.170 13.407 1.00 76.37 N +ATOM 825 N1 A A 38 60.117 69.640 13.812 1.00 77.26 N +ATOM 826 C2 A A 38 61.268 69.918 14.433 1.00 77.25 C +ATOM 827 N3 A A 38 61.981 69.165 15.263 1.00 77.22 N +ATOM 828 C4 A A 38 61.391 67.974 15.444 1.00 77.56 C +ATOM 829 P C A 39 60.743 66.942 21.298 1.00 86.61 P +ATOM 830 OP1 C A 39 60.919 66.819 22.766 1.00 87.75 O +ATOM 831 OP2 C A 39 59.580 66.302 20.641 1.00 86.54 O +ATOM 832 O5' C A 39 60.712 68.487 20.936 1.00 86.18 O +ATOM 833 C5' C A 39 61.720 69.347 21.428 1.00 85.71 C +ATOM 834 C4' C A 39 61.518 70.740 20.903 1.00 86.21 C +ATOM 835 O4' C A 39 61.657 70.721 19.457 1.00 85.21 O +ATOM 836 C3' C A 39 60.124 71.312 21.113 1.00 86.52 C +ATOM 837 O3' C A 39 59.927 71.874 22.399 1.00 87.69 O +ATOM 838 C2' C A 39 60.063 72.379 20.039 1.00 86.39 C +ATOM 839 O2' C A 39 60.788 73.527 20.422 1.00 87.59 O +ATOM 840 C1' C A 39 60.782 71.680 18.888 1.00 85.69 C +ATOM 841 N1 C A 39 59.790 71.009 18.040 1.00 85.17 N +ATOM 842 C2 C A 39 59.112 71.781 17.103 1.00 85.98 C +ATOM 843 O2 C A 39 59.424 72.977 16.983 1.00 88.51 O +ATOM 844 N3 C A 39 58.140 71.218 16.353 1.00 85.49 N +ATOM 845 C4 C A 39 57.847 69.928 16.510 1.00 84.91 C +ATOM 846 N4 C A 39 56.868 69.416 15.759 1.00 84.63 N +ATOM 847 C5 C A 39 58.543 69.105 17.445 1.00 84.88 C +ATOM 848 C6 C A 39 59.503 69.681 18.179 1.00 84.74 C +ATOM 849 P C A 40 58.440 71.960 23.004 1.00 87.52 P +ATOM 850 OP1 C A 40 58.530 72.443 24.403 1.00 87.13 O +ATOM 851 OP2 C A 40 57.789 70.663 22.722 1.00 88.65 O +ATOM 852 O5' C A 40 57.724 73.076 22.125 1.00 87.10 O +ATOM 853 C5' C A 40 58.160 74.423 22.184 1.00 87.69 C +ATOM 854 C4' C A 40 57.305 75.294 21.301 1.00 88.35 C +ATOM 855 O4' C A 40 57.424 74.836 19.927 1.00 88.43 O +ATOM 856 C3' C A 40 55.811 75.229 21.578 1.00 89.15 C +ATOM 857 O3' C A 40 55.427 76.080 22.652 1.00 89.80 O +ATOM 858 C2' C A 40 55.221 75.672 20.247 1.00 89.22 C +ATOM 859 O2' C A 40 55.242 77.071 20.063 1.00 90.74 O +ATOM 860 C1' C A 40 56.184 75.016 19.259 1.00 89.11 C +ATOM 861 N1 C A 40 55.680 73.714 18.791 1.00 89.08 N +ATOM 862 C2 C A 40 54.720 73.712 17.784 1.00 88.89 C +ATOM 863 O2 C A 40 54.357 74.800 17.312 1.00 88.07 O +ATOM 864 N3 C A 40 54.214 72.537 17.349 1.00 88.17 N +ATOM 865 C4 C A 40 54.640 71.394 17.881 1.00 87.25 C +ATOM 866 N4 C A 40 54.111 70.259 17.420 1.00 86.84 N +ATOM 867 C5 C A 40 55.627 71.365 18.910 1.00 87.49 C +ATOM 868 C6 C A 40 56.118 72.537 19.329 1.00 88.37 C +ATOM 869 P C A 41 54.296 75.590 23.687 1.00 91.70 P +ATOM 870 OP1 C A 41 54.317 76.506 24.848 1.00 92.23 O +ATOM 871 OP2 C A 41 54.484 74.132 23.905 1.00 92.16 O +ATOM 872 O5' C A 41 52.921 75.809 22.911 1.00 89.93 O +ATOM 873 C5' C A 41 52.470 77.118 22.601 1.00 89.57 C +ATOM 874 C4' C A 41 51.643 77.101 21.344 1.00 89.19 C +ATOM 875 O4' C A 41 52.410 76.440 20.301 1.00 89.84 O +ATOM 876 C3' C A 41 50.360 76.288 21.406 1.00 88.65 C +ATOM 877 O3' C A 41 49.269 76.984 21.992 1.00 87.24 O +ATOM 878 C2' C A 41 50.117 75.978 19.940 1.00 89.20 C +ATOM 879 O2' C A 41 49.606 77.084 19.234 1.00 90.10 O +ATOM 880 C1' C A 41 51.538 75.698 19.463 1.00 89.86 C +ATOM 881 N1 C A 41 51.817 74.263 19.619 1.00 90.67 N +ATOM 882 C2 C A 41 51.094 73.376 18.829 1.00 90.46 C +ATOM 883 O2 C A 41 50.292 73.835 18.017 1.00 90.97 O +ATOM 884 N3 C A 41 51.280 72.049 18.972 1.00 90.17 N +ATOM 885 C4 C A 41 52.155 71.592 19.865 1.00 91.13 C +ATOM 886 N4 C A 41 52.292 70.264 19.975 1.00 91.98 N +ATOM 887 C5 C A 41 52.927 72.476 20.683 1.00 91.06 C +ATOM 888 C6 C A 41 52.730 73.795 20.523 1.00 90.74 C +ATOM 889 P G A 42 48.270 76.196 22.975 1.00 87.44 P +ATOM 890 OP1 G A 42 47.291 77.141 23.567 1.00 89.10 O +ATOM 891 OP2 G A 42 49.134 75.380 23.871 1.00 88.78 O +ATOM 892 O5' G A 42 47.474 75.205 22.013 1.00 86.64 O +ATOM 893 C5' G A 42 46.541 75.702 21.061 1.00 83.77 C +ATOM 894 C4' G A 42 45.922 74.562 20.279 1.00 82.63 C +ATOM 895 O4' G A 42 46.960 73.869 19.533 1.00 81.47 O +ATOM 896 C3' G A 42 45.236 73.476 21.096 1.00 81.18 C +ATOM 897 O3' G A 42 43.883 73.838 21.383 1.00 79.00 O +ATOM 898 C2' G A 42 45.304 72.282 20.150 1.00 81.50 C +ATOM 899 O2' G A 42 44.294 72.313 19.164 1.00 82.78 O +ATOM 900 C1' G A 42 46.671 72.484 19.489 1.00 81.61 C +ATOM 901 N9 G A 42 47.741 71.774 20.181 1.00 81.64 N +ATOM 902 C8 G A 42 48.763 72.326 20.911 1.00 81.07 C +ATOM 903 N7 G A 42 49.539 71.435 21.463 1.00 81.18 N +ATOM 904 C5 G A 42 49.003 70.221 21.061 1.00 81.25 C +ATOM 905 C6 G A 42 49.410 68.898 21.358 1.00 81.50 C +ATOM 906 O6 G A 42 50.354 68.526 22.067 1.00 81.74 O +ATOM 907 N1 G A 42 48.589 67.959 20.740 1.00 81.55 N +ATOM 908 C2 G A 42 47.512 68.257 19.943 1.00 81.83 C +ATOM 909 N2 G A 42 46.847 67.214 19.438 1.00 82.10 N +ATOM 910 N3 G A 42 47.119 69.488 19.664 1.00 81.24 N +ATOM 911 C4 G A 42 47.904 70.414 20.254 1.00 81.41 C +ATOM 912 P G A 43 43.122 73.181 22.637 1.00 79.16 P +ATOM 913 OP1 G A 43 41.728 73.681 22.656 1.00 80.54 O +ATOM 914 OP2 G A 43 43.981 73.361 23.831 1.00 80.58 O +ATOM 915 O5' G A 43 43.054 71.627 22.294 1.00 78.89 O +ATOM 916 C5' G A 43 42.267 71.158 21.205 1.00 76.22 C +ATOM 917 C4' G A 43 42.432 69.665 21.035 1.00 73.95 C +ATOM 918 O4' G A 43 43.825 69.361 20.731 1.00 73.16 O +ATOM 919 C3' G A 43 42.147 68.845 22.284 1.00 72.25 C +ATOM 920 O3' G A 43 40.760 68.556 22.410 1.00 70.37 O +ATOM 921 C2' G A 43 42.934 67.568 22.021 1.00 72.79 C +ATOM 922 O2' G A 43 42.252 66.676 21.167 1.00 72.66 O +ATOM 923 C1' G A 43 44.169 68.108 21.301 1.00 73.72 C +ATOM 924 N9 G A 43 45.326 68.263 22.176 1.00 74.90 N +ATOM 925 C8 G A 43 45.959 69.425 22.531 1.00 75.68 C +ATOM 926 N7 G A 43 46.978 69.231 23.326 1.00 76.53 N +ATOM 927 C5 G A 43 47.014 67.856 23.511 1.00 76.40 C +ATOM 928 C6 G A 43 47.904 67.046 24.278 1.00 77.11 C +ATOM 929 O6 G A 43 48.872 67.395 24.964 1.00 77.75 O +ATOM 930 N1 G A 43 47.576 65.697 24.188 1.00 77.74 N +ATOM 931 C2 G A 43 46.535 65.187 23.456 1.00 77.07 C +ATOM 932 N2 G A 43 46.377 63.863 23.507 1.00 75.92 N +ATOM 933 N3 G A 43 45.705 65.927 22.731 1.00 77.52 N +ATOM 934 C4 G A 43 46.002 67.244 22.807 1.00 76.21 C +ATOM 935 P C A 44 40.195 67.977 23.797 1.00 69.28 P +ATOM 936 OP1 C A 44 38.714 67.902 23.774 1.00 70.40 O +ATOM 937 OP2 C A 44 40.874 68.768 24.857 1.00 71.31 O +ATOM 938 O5' C A 44 40.754 66.488 23.872 1.00 68.86 O +ATOM 939 C5' C A 44 40.391 65.506 22.905 1.00 66.43 C +ATOM 940 C4' C A 44 41.060 64.188 23.236 1.00 63.86 C +ATOM 941 O4' C A 44 42.501 64.360 23.212 1.00 61.55 O +ATOM 942 C3' C A 44 40.764 63.664 24.631 1.00 62.52 C +ATOM 943 O3' C A 44 39.610 62.844 24.610 1.00 63.93 O +ATOM 944 C2' C A 44 41.970 62.790 24.921 1.00 61.24 C +ATOM 945 O2' C A 44 41.822 61.512 24.348 1.00 60.87 O +ATOM 946 C1' C A 44 43.089 63.572 24.232 1.00 60.02 C +ATOM 947 N1 C A 44 43.846 64.470 25.117 1.00 57.66 N +ATOM 948 C2 C A 44 44.654 63.921 26.119 1.00 56.64 C +ATOM 949 O2 C A 44 44.654 62.698 26.294 1.00 55.06 O +ATOM 950 N3 C A 44 45.410 64.740 26.872 1.00 56.82 N +ATOM 951 C4 C A 44 45.372 66.056 26.665 1.00 57.91 C +ATOM 952 N4 C A 44 46.153 66.830 27.420 1.00 58.97 N +ATOM 953 C5 C A 44 44.533 66.641 25.676 1.00 57.75 C +ATOM 954 C6 C A 44 43.788 65.821 24.938 1.00 57.21 C +ATOM 955 P A A 45 38.915 62.435 25.990 1.00 67.24 P +ATOM 956 OP1 A A 45 37.920 61.357 25.739 1.00 66.87 O +ATOM 957 OP2 A A 45 38.473 63.720 26.574 1.00 68.09 O +ATOM 958 O5' A A 45 40.101 61.855 26.886 1.00 64.88 O +ATOM 959 C5' A A 45 40.493 60.486 26.806 1.00 61.73 C +ATOM 960 C4' A A 45 41.533 60.188 27.856 1.00 60.43 C +ATOM 961 O4' A A 45 42.672 61.053 27.651 1.00 58.62 O +ATOM 962 C3' A A 45 41.106 60.425 29.294 1.00 60.22 C +ATOM 963 O3' A A 45 40.583 59.206 29.787 1.00 62.36 O +ATOM 964 C2' A A 45 42.432 60.692 29.984 1.00 58.55 C +ATOM 965 O2' A A 45 43.085 59.476 30.257 1.00 60.38 O +ATOM 966 C1' A A 45 43.194 61.456 28.902 1.00 57.88 C +ATOM 967 N9 A A 45 43.076 62.911 28.943 1.00 57.39 N +ATOM 968 C8 A A 45 42.160 63.673 28.261 1.00 56.72 C +ATOM 969 N7 A A 45 42.351 64.962 28.378 1.00 55.38 N +ATOM 970 C5 A A 45 43.445 65.058 29.218 1.00 55.87 C +ATOM 971 C6 A A 45 44.141 66.154 29.716 1.00 56.96 C +ATOM 972 N6 A A 45 43.820 67.421 29.438 1.00 57.41 N +ATOM 973 N1 A A 45 45.196 65.909 30.525 1.00 57.38 N +ATOM 974 C2 A A 45 45.510 64.636 30.807 1.00 56.39 C +ATOM 975 N3 A A 45 44.925 63.522 30.402 1.00 56.23 N +ATOM 976 C4 A A 45 43.888 63.803 29.596 1.00 56.50 C +ATOM 977 P A A 46 39.689 59.199 31.111 1.00 66.16 P +ATOM 978 OP1 A A 46 39.133 57.830 31.270 1.00 64.50 O +ATOM 979 OP2 A A 46 38.779 60.365 30.994 1.00 65.42 O +ATOM 980 O5' A A 46 40.701 59.506 32.306 1.00 67.24 O +ATOM 981 C5' A A 46 41.462 58.484 32.965 1.00 66.66 C +ATOM 982 C4' A A 46 42.341 59.140 34.004 1.00 66.99 C +ATOM 983 O4' A A 46 43.028 60.224 33.349 1.00 67.35 O +ATOM 984 C3' A A 46 41.625 59.765 35.195 1.00 67.72 C +ATOM 985 O3' A A 46 41.669 58.959 36.376 1.00 68.21 O +ATOM 986 C2' A A 46 42.564 60.890 35.577 1.00 69.03 C +ATOM 987 O2' A A 46 43.607 60.394 36.401 1.00 72.13 O +ATOM 988 C1' A A 46 43.082 61.336 34.209 1.00 66.39 C +ATOM 989 N9 A A 46 42.276 62.348 33.564 1.00 62.89 N +ATOM 990 C8 A A 46 41.084 62.169 32.918 1.00 62.52 C +ATOM 991 N7 A A 46 40.653 63.243 32.308 1.00 62.67 N +ATOM 992 C5 A A 46 41.614 64.200 32.605 1.00 62.01 C +ATOM 993 C6 A A 46 41.747 65.544 32.251 1.00 61.96 C +ATOM 994 N6 A A 46 40.877 66.192 31.482 1.00 64.57 N +ATOM 995 N1 A A 46 42.823 66.214 32.714 1.00 62.07 N +ATOM 996 C2 A A 46 43.697 65.565 33.480 1.00 62.26 C +ATOM 997 N3 A A 46 43.684 64.298 33.881 1.00 63.14 N +ATOM 998 C4 A A 46 42.603 63.665 33.400 1.00 62.84 C +ATOM 999 P C A 47 42.413 57.528 36.388 1.00 67.72 P +ATOM 1000 OP1 C A 47 42.629 56.988 35.028 1.00 70.69 O +ATOM 1001 OP2 C A 47 41.663 56.714 37.372 1.00 70.77 O +ATOM 1002 O5' C A 47 43.856 57.748 37.034 1.00 64.73 O +ATOM 1003 C5' C A 47 44.558 56.596 37.540 1.00 62.38 C +ATOM 1004 C4' C A 47 46.022 56.881 37.836 1.00 60.75 C +ATOM 1005 O4' C A 47 46.726 57.283 36.632 1.00 57.34 O +ATOM 1006 C3' C A 47 46.301 58.002 38.819 1.00 61.65 C +ATOM 1007 O3' C A 47 46.215 57.517 40.147 1.00 66.33 O +ATOM 1008 C2' C A 47 47.730 58.398 38.472 1.00 58.98 C +ATOM 1009 O2' C A 47 48.710 57.539 39.015 1.00 59.79 O +ATOM 1010 C1' C A 47 47.729 58.226 36.961 1.00 56.15 C +ATOM 1011 N1 C A 47 47.460 59.483 36.270 1.00 52.42 N +ATOM 1012 C2 C A 47 48.401 60.504 36.371 1.00 52.13 C +ATOM 1013 O2 C A 47 49.423 60.304 37.044 1.00 51.95 O +ATOM 1014 N3 C A 47 48.179 61.672 35.738 1.00 50.89 N +ATOM 1015 C4 C A 47 47.062 61.832 35.031 1.00 51.44 C +ATOM 1016 N4 C A 47 46.861 62.994 34.431 1.00 52.10 N +ATOM 1017 C5 C A 47 46.091 60.804 34.911 1.00 51.28 C +ATOM 1018 C6 C A 47 46.326 59.658 35.541 1.00 51.11 C +ATOM 1019 P C A 48 45.766 58.513 41.317 1.00 69.35 P +ATOM 1020 OP1 C A 48 45.485 57.695 42.529 1.00 67.22 O +ATOM 1021 OP2 C A 48 44.703 59.395 40.751 1.00 67.82 O +ATOM 1022 O5' C A 48 47.058 59.411 41.569 1.00 67.80 O +ATOM 1023 C5' C A 48 48.244 58.859 42.135 1.00 66.18 C +ATOM 1024 C4' C A 48 49.242 59.962 42.373 1.00 65.53 C +ATOM 1025 O4' C A 48 49.635 60.527 41.099 1.00 62.77 O +ATOM 1026 C3' C A 48 48.679 61.145 43.136 1.00 66.13 C +ATOM 1027 O3' C A 48 48.741 60.923 44.527 1.00 71.49 O +ATOM 1028 C2' C A 48 49.582 62.286 42.698 1.00 63.22 C +ATOM 1029 O2' C A 48 50.818 62.332 43.383 1.00 63.14 O +ATOM 1030 C1' C A 48 49.807 61.927 41.231 1.00 60.44 C +ATOM 1031 N1 C A 48 48.843 62.587 40.347 1.00 55.14 N +ATOM 1032 C2 C A 48 49.088 63.893 39.966 1.00 54.49 C +ATOM 1033 O2 C A 48 50.090 64.465 40.414 1.00 55.34 O +ATOM 1034 N3 C A 48 48.233 64.509 39.125 1.00 52.59 N +ATOM 1035 C4 C A 48 47.161 63.865 38.679 1.00 51.17 C +ATOM 1036 N4 C A 48 46.362 64.510 37.843 1.00 50.44 N +ATOM 1037 C5 C A 48 46.871 62.531 39.070 1.00 52.11 C +ATOM 1038 C6 C A 48 47.732 61.933 39.898 1.00 54.08 C +ATOM 1039 P A A 49 47.654 61.613 45.471 1.00 74.04 P +ATOM 1040 OP1 A A 49 47.893 61.129 46.859 1.00 75.80 O +ATOM 1041 OP2 A A 49 46.338 61.389 44.821 1.00 75.26 O +ATOM 1042 O5' A A 49 48.017 63.156 45.395 1.00 72.61 O +ATOM 1043 C5' A A 49 49.222 63.621 45.964 1.00 73.43 C +ATOM 1044 C4' A A 49 49.383 65.087 45.696 1.00 74.37 C +ATOM 1045 O4' A A 49 49.425 65.301 44.263 1.00 73.83 O +ATOM 1046 C3' A A 49 48.229 65.975 46.115 1.00 76.55 C +ATOM 1047 O3' A A 49 48.233 66.240 47.513 1.00 80.22 O +ATOM 1048 C2' A A 49 48.525 67.223 45.299 1.00 75.25 C +ATOM 1049 O2' A A 49 49.601 67.966 45.824 1.00 76.33 O +ATOM 1050 C1' A A 49 48.953 66.608 43.969 1.00 73.01 C +ATOM 1051 N9 A A 49 47.835 66.511 43.031 1.00 71.22 N +ATOM 1052 C8 A A 49 47.031 65.426 42.781 1.00 71.73 C +ATOM 1053 N7 A A 49 46.081 65.663 41.907 1.00 70.51 N +ATOM 1054 C5 A A 49 46.280 66.989 41.550 1.00 69.33 C +ATOM 1055 C6 A A 49 45.599 67.839 40.664 1.00 69.09 C +ATOM 1056 N6 A A 49 44.545 67.453 39.944 1.00 69.34 N +ATOM 1057 N1 A A 49 46.044 69.110 40.540 1.00 69.39 N +ATOM 1058 C2 A A 49 47.106 69.484 41.260 1.00 70.23 C +ATOM 1059 N3 A A 49 47.833 68.775 42.123 1.00 70.98 N +ATOM 1060 C4 A A 49 47.360 67.522 42.226 1.00 69.91 C +ATOM 1061 P G A 50 46.846 66.209 48.339 1.00 82.72 P +ATOM 1062 OP1 G A 50 47.164 66.087 49.785 1.00 82.86 O +ATOM 1063 OP2 G A 50 45.964 65.198 47.703 1.00 81.94 O +ATOM 1064 O5' G A 50 46.219 67.654 48.091 1.00 81.41 O +ATOM 1065 C5' G A 50 45.935 68.105 46.777 1.00 84.37 C +ATOM 1066 C4' G A 50 45.652 69.584 46.784 1.00 86.37 C +ATOM 1067 O4' G A 50 45.672 70.042 45.399 1.00 85.92 O +ATOM 1068 C3' G A 50 44.276 69.971 47.302 1.00 88.18 C +ATOM 1069 O3' G A 50 43.942 70.325 48.632 1.00 92.03 O +ATOM 1070 C2' G A 50 43.367 70.206 46.117 1.00 86.73 C +ATOM 1071 O2' G A 50 42.687 71.428 46.274 1.00 86.89 O +ATOM 1072 C1' G A 50 44.351 70.323 44.948 1.00 84.88 C +ATOM 1073 N9 G A 50 43.925 69.272 44.029 1.00 81.15 N +ATOM 1074 C8 G A 50 44.114 67.917 44.173 1.00 79.88 C +ATOM 1075 N7 G A 50 43.441 67.213 43.306 1.00 79.00 N +ATOM 1076 C5 G A 50 42.810 68.160 42.516 1.00 78.27 C +ATOM 1077 C6 G A 50 41.925 67.995 41.442 1.00 78.52 C +ATOM 1078 O6 G A 50 41.491 66.941 40.959 1.00 78.22 O +ATOM 1079 N1 G A 50 41.521 69.220 40.921 1.00 78.77 N +ATOM 1080 C2 G A 50 41.922 70.445 41.387 1.00 78.84 C +ATOM 1081 N2 G A 50 41.425 71.512 40.756 1.00 79.59 N +ATOM 1082 N3 G A 50 42.748 70.610 42.398 1.00 78.54 N +ATOM 1083 C4 G A 50 43.143 69.435 42.917 1.00 78.68 C +ATOM 1084 P A A 51 42.880 69.415 49.453 1.00 96.02 P +ATOM 1085 OP1 A A 51 42.446 70.195 50.660 1.00 95.76 O +ATOM 1086 OP2 A A 51 43.467 68.046 49.625 1.00 96.17 O +ATOM 1087 O5' A A 51 41.609 69.253 48.500 1.00 94.71 O +ATOM 1088 C5' A A 51 40.743 68.118 48.626 1.00 93.44 C +ATOM 1089 C4' A A 51 39.313 68.526 48.358 1.00 92.36 C +ATOM 1090 O4' A A 51 38.931 69.502 49.358 1.00 90.16 O +ATOM 1091 C3' A A 51 39.090 69.216 47.018 1.00 92.54 C +ATOM 1092 O3' A A 51 38.742 68.280 46.002 1.00 96.31 O +ATOM 1093 C2' A A 51 37.939 70.159 47.316 1.00 90.20 C +ATOM 1094 O2' A A 51 36.698 69.487 47.304 1.00 89.63 O +ATOM 1095 C1' A A 51 38.293 70.602 48.737 1.00 86.88 C +ATOM 1096 N9 A A 51 39.245 71.707 48.758 1.00 82.36 N +ATOM 1097 C8 A A 51 40.528 71.680 49.247 1.00 80.40 C +ATOM 1098 N7 A A 51 41.164 72.817 49.124 1.00 78.33 N +ATOM 1099 C5 A A 51 40.236 73.652 48.517 1.00 77.49 C +ATOM 1100 C6 A A 51 40.296 74.995 48.117 1.00 75.83 C +ATOM 1101 N6 A A 51 41.375 75.764 48.279 1.00 75.08 N +ATOM 1102 N1 A A 51 39.199 75.530 47.539 1.00 76.02 N +ATOM 1103 C2 A A 51 38.118 74.757 47.382 1.00 77.71 C +ATOM 1104 N3 A A 51 37.939 73.479 47.718 1.00 78.31 N +ATOM 1105 C4 A A 51 39.049 72.981 48.287 1.00 79.42 C +ATOM 1106 P A A 52 39.515 68.317 44.596 1.00 97.90 P +ATOM 1107 OP1 A A 52 39.960 66.929 44.294 1.00 98.51 O +ATOM 1108 OP2 A A 52 40.520 69.410 44.687 1.00 97.41 O +ATOM 1109 O5' A A 52 38.395 68.749 43.546 1.00 98.75 O +ATOM 1110 C5' A A 52 38.737 69.495 42.378 1.00100.86 C +ATOM 1111 C4' A A 52 37.985 70.804 42.367 1.00101.84 C +ATOM 1112 O4' A A 52 38.002 71.359 43.705 1.00100.72 O +ATOM 1113 C3' A A 52 38.535 71.905 41.465 1.00102.80 C +ATOM 1114 O3' A A 52 37.991 71.808 40.147 1.00105.83 O +ATOM 1115 C2' A A 52 38.020 73.163 42.155 1.00101.22 C +ATOM 1116 O2' A A 52 36.680 73.455 41.831 1.00102.17 O +ATOM 1117 C1' A A 52 38.111 72.767 43.631 1.00 99.83 C +ATOM 1118 N9 A A 52 39.367 73.140 44.269 1.00 97.90 N +ATOM 1119 C8 A A 52 40.197 72.318 44.981 1.00 96.81 C +ATOM 1120 N7 A A 52 41.251 72.923 45.460 1.00 96.75 N +ATOM 1121 C5 A A 52 41.110 74.232 45.031 1.00 96.25 C +ATOM 1122 C6 A A 52 41.900 75.370 45.216 1.00 95.31 C +ATOM 1123 N6 A A 52 43.037 75.365 45.910 1.00 94.72 N +ATOM 1124 N1 A A 52 41.481 76.527 44.657 1.00 95.37 N +ATOM 1125 C2 A A 52 40.338 76.521 43.962 1.00 96.12 C +ATOM 1126 N3 A A 52 39.505 75.511 43.719 1.00 96.85 N +ATOM 1127 C4 A A 52 39.955 74.381 44.291 1.00 97.01 C +ATOM 1128 P A A 53 38.666 72.624 38.930 1.00108.87 P +ATOM 1129 OP1 A A 53 37.810 72.491 37.721 1.00108.36 O +ATOM 1130 OP2 A A 53 40.093 72.223 38.866 1.00109.37 O +ATOM 1131 O5' A A 53 38.606 74.150 39.369 1.00107.46 O +ATOM 1132 C5' A A 53 38.058 75.137 38.499 1.00107.85 C +ATOM 1133 C4' A A 53 38.929 76.365 38.509 1.00108.27 C +ATOM 1134 O4' A A 53 39.209 76.699 39.891 1.00108.81 O +ATOM 1135 C3' A A 53 40.298 76.243 37.854 1.00108.40 C +ATOM 1136 O3' A A 53 40.239 76.517 36.456 1.00107.76 O +ATOM 1137 C2' A A 53 41.086 77.317 38.590 1.00108.67 C +ATOM 1138 O2' A A 53 40.806 78.618 38.112 1.00108.67 O +ATOM 1139 C1' A A 53 40.542 77.152 40.011 1.00109.27 C +ATOM 1140 N9 A A 53 41.277 76.108 40.718 1.00109.89 N +ATOM 1141 C8 A A 53 41.033 74.758 40.673 1.00110.42 C +ATOM 1142 N7 A A 53 41.870 74.045 41.382 1.00110.63 N +ATOM 1143 C5 A A 53 42.720 74.990 41.938 1.00110.94 C +ATOM 1144 C6 A A 53 43.826 74.875 42.795 1.00111.51 C +ATOM 1145 N6 A A 53 44.285 73.710 43.257 1.00112.10 N +ATOM 1146 N1 A A 53 44.452 76.014 43.167 1.00111.76 N +ATOM 1147 C2 A A 53 43.988 77.184 42.703 1.00111.34 C +ATOM 1148 N3 A A 53 42.958 77.419 41.892 1.00110.90 N +ATOM 1149 C4 A A 53 42.361 76.266 41.542 1.00110.47 C +ATOM 1150 P U A 54 40.720 75.399 35.403 1.00107.30 P +ATOM 1151 OP1 U A 54 40.655 75.985 34.040 1.00107.24 O +ATOM 1152 OP2 U A 54 39.952 74.165 35.708 1.00107.10 O +ATOM 1153 O5' U A 54 42.250 75.138 35.772 1.00104.79 O +ATOM 1154 C5' U A 54 43.228 76.148 35.560 1.00101.43 C +ATOM 1155 C4' U A 54 44.377 75.983 36.522 1.00 99.06 C +ATOM 1156 O4' U A 54 43.865 75.376 37.739 1.00 98.18 O +ATOM 1157 C3' U A 54 45.481 75.031 36.092 1.00 98.11 C +ATOM 1158 O3' U A 54 46.453 75.676 35.281 1.00 97.57 O +ATOM 1159 C2' U A 54 46.093 74.631 37.424 1.00 97.54 C +ATOM 1160 O2' U A 54 46.934 75.633 37.945 1.00 98.55 O +ATOM 1161 C1' U A 54 44.850 74.523 38.300 1.00 96.75 C +ATOM 1162 N1 U A 54 44.348 73.146 38.309 1.00 95.04 N +ATOM 1163 C2 U A 54 44.996 72.251 39.131 1.00 93.99 C +ATOM 1164 O2 U A 54 45.921 72.575 39.851 1.00 94.77 O +ATOM 1165 N3 U A 54 44.524 70.966 39.077 1.00 92.33 N +ATOM 1166 C4 U A 54 43.489 70.502 38.302 1.00 92.24 C +ATOM 1167 O4 U A 54 43.181 69.316 38.357 1.00 90.91 O +ATOM 1168 C5 U A 54 42.859 71.495 37.488 1.00 93.43 C +ATOM 1169 C6 U A 54 43.298 72.754 37.521 1.00 94.21 C +ATOM 1170 P G A 55 47.525 74.791 34.471 1.00 97.86 P +ATOM 1171 OP1 G A 55 48.367 75.702 33.647 1.00 97.40 O +ATOM 1172 OP2 G A 55 46.754 73.696 33.816 1.00 97.86 O +ATOM 1173 O5' G A 55 48.459 74.154 35.595 1.00 93.42 O +ATOM 1174 C5' G A 55 49.390 74.964 36.297 1.00 88.24 C +ATOM 1175 C4' G A 55 50.177 74.134 37.278 1.00 84.14 C +ATOM 1176 O4' G A 55 49.264 73.510 38.217 1.00 83.46 O +ATOM 1177 C3' G A 55 50.899 72.957 36.664 1.00 82.28 C +ATOM 1178 O3' G A 55 52.132 73.333 36.107 1.00 79.65 O +ATOM 1179 C2' G A 55 51.068 72.020 37.846 1.00 82.45 C +ATOM 1180 O2' G A 55 52.130 72.351 38.713 1.00 84.02 O +ATOM 1181 C1' G A 55 49.743 72.224 38.567 1.00 82.65 C +ATOM 1182 N9 G A 55 48.800 71.227 38.088 1.00 81.63 N +ATOM 1183 C8 G A 55 47.779 71.396 37.188 1.00 81.42 C +ATOM 1184 N7 G A 55 47.143 70.286 36.929 1.00 81.40 N +ATOM 1185 C5 G A 55 47.781 69.334 37.714 1.00 79.68 C +ATOM 1186 C6 G A 55 47.541 67.944 37.855 1.00 79.26 C +ATOM 1187 O6 G A 55 46.695 67.247 37.288 1.00 77.42 O +ATOM 1188 N1 G A 55 48.419 67.366 38.763 1.00 79.31 N +ATOM 1189 C2 G A 55 49.404 68.036 39.442 1.00 79.67 C +ATOM 1190 N2 G A 55 50.148 67.311 40.283 1.00 79.56 N +ATOM 1191 N3 G A 55 49.642 69.324 39.310 1.00 79.52 N +ATOM 1192 C4 G A 55 48.797 69.905 38.440 1.00 80.03 C +ATOM 1193 P G A 56 52.789 72.392 35.004 1.00 78.55 P +ATOM 1194 OP1 G A 56 54.080 72.967 34.550 1.00 77.49 O +ATOM 1195 OP2 G A 56 51.707 72.125 34.021 1.00 80.25 O +ATOM 1196 O5' G A 56 53.090 71.050 35.801 1.00 75.12 O +ATOM 1197 C5' G A 56 54.067 71.039 36.829 1.00 69.26 C +ATOM 1198 C4' G A 56 54.371 69.628 37.263 1.00 65.32 C +ATOM 1199 O4' G A 56 53.188 69.046 37.881 1.00 62.82 O +ATOM 1200 C3' G A 56 54.686 68.665 36.136 1.00 63.79 C +ATOM 1201 O3' G A 56 56.038 68.731 35.713 1.00 65.54 O +ATOM 1202 C2' G A 56 54.375 67.320 36.769 1.00 62.66 C +ATOM 1203 O2' G A 56 55.428 66.873 37.601 1.00 62.67 O +ATOM 1204 C1' G A 56 53.141 67.657 37.609 1.00 60.08 C +ATOM 1205 N9 G A 56 51.901 67.352 36.905 1.00 55.37 N +ATOM 1206 C8 G A 56 51.122 68.217 36.174 1.00 55.74 C +ATOM 1207 N7 G A 56 50.106 67.629 35.599 1.00 52.72 N +ATOM 1208 C5 G A 56 50.214 66.302 35.990 1.00 50.91 C +ATOM 1209 C6 G A 56 49.406 65.204 35.675 1.00 49.97 C +ATOM 1210 O6 G A 56 48.416 65.180 34.958 1.00 50.77 O +ATOM 1211 N1 G A 56 49.854 64.038 36.284 1.00 48.77 N +ATOM 1212 C2 G A 56 50.958 63.951 37.093 1.00 50.36 C +ATOM 1213 N2 G A 56 51.234 62.732 37.591 1.00 48.97 N +ATOM 1214 N3 G A 56 51.734 64.983 37.392 1.00 51.51 N +ATOM 1215 C4 G A 56 51.304 66.118 36.809 1.00 51.89 C +ATOM 1216 P U A 57 56.393 68.380 34.188 1.00 68.18 P +ATOM 1217 OP1 U A 57 57.633 67.563 34.126 1.00 68.19 O +ATOM 1218 OP2 U A 57 56.289 69.634 33.385 1.00 68.11 O +ATOM 1219 O5' U A 57 55.175 67.458 33.751 1.00 66.24 O +ATOM 1220 C5' U A 57 55.324 66.486 32.736 1.00 62.03 C +ATOM 1221 C4' U A 57 55.340 65.129 33.360 1.00 59.74 C +ATOM 1222 O4' U A 57 54.232 65.038 34.289 1.00 57.88 O +ATOM 1223 C3' U A 57 55.156 63.959 32.420 1.00 58.61 C +ATOM 1224 O3' U A 57 56.382 63.599 31.803 1.00 58.26 O +ATOM 1225 C2' U A 57 54.620 62.895 33.370 1.00 58.38 C +ATOM 1226 O2' U A 57 55.622 62.306 34.173 1.00 58.99 O +ATOM 1227 C1' U A 57 53.699 63.732 34.261 1.00 56.63 C +ATOM 1228 N1 U A 57 52.361 63.811 33.672 1.00 55.20 N +ATOM 1229 C2 U A 57 51.624 62.655 33.644 1.00 55.04 C +ATOM 1230 O2 U A 57 52.044 61.605 34.100 1.00 55.79 O +ATOM 1231 N3 U A 57 50.387 62.767 33.057 1.00 53.93 N +ATOM 1232 C4 U A 57 49.831 63.906 32.503 1.00 53.12 C +ATOM 1233 O4 U A 57 48.707 63.850 32.010 1.00 53.57 O +ATOM 1234 C5 U A 57 50.660 65.073 32.575 1.00 52.60 C +ATOM 1235 C6 U A 57 51.868 64.988 33.148 1.00 54.55 C +ATOM 1236 P G A 58 56.449 63.448 30.205 1.00 60.26 P +ATOM 1237 OP1 G A 58 57.754 62.807 29.877 1.00 60.58 O +ATOM 1238 OP2 G A 58 56.111 64.754 29.597 1.00 58.54 O +ATOM 1239 O5' G A 58 55.268 62.426 29.875 1.00 57.10 O +ATOM 1240 C5' G A 58 55.312 61.107 30.387 1.00 55.69 C +ATOM 1241 C4' G A 58 54.029 60.369 30.093 1.00 55.43 C +ATOM 1242 O4' G A 58 52.921 61.007 30.791 1.00 55.24 O +ATOM 1243 C3' G A 58 53.589 60.368 28.636 1.00 54.18 C +ATOM 1244 O3' G A 58 54.246 59.338 27.923 1.00 53.96 O +ATOM 1245 C2' G A 58 52.097 60.092 28.757 1.00 54.41 C +ATOM 1246 O2' G A 58 51.846 58.731 29.012 1.00 57.23 O +ATOM 1247 C1' G A 58 51.737 60.887 30.012 1.00 53.85 C +ATOM 1248 N9 G A 58 51.267 62.217 29.656 1.00 53.03 N +ATOM 1249 C8 G A 58 51.950 63.400 29.767 1.00 52.08 C +ATOM 1250 N7 G A 58 51.278 64.419 29.308 1.00 51.44 N +ATOM 1251 C5 G A 58 50.074 63.877 28.879 1.00 50.05 C +ATOM 1252 C6 G A 58 48.951 64.496 28.292 1.00 50.75 C +ATOM 1253 O6 G A 58 48.794 65.685 28.008 1.00 53.29 O +ATOM 1254 N1 G A 58 47.939 63.583 28.022 1.00 50.16 N +ATOM 1255 C2 G A 58 48.003 62.239 28.270 1.00 51.00 C +ATOM 1256 N2 G A 58 46.914 61.522 27.924 1.00 50.63 N +ATOM 1257 N3 G A 58 49.053 61.641 28.814 1.00 52.48 N +ATOM 1258 C4 G A 58 50.045 62.521 29.095 1.00 51.88 C +ATOM 1259 P C A 59 54.759 59.607 26.431 1.00 53.17 P +ATOM 1260 OP1 C A 59 55.673 58.491 26.089 1.00 55.70 O +ATOM 1261 OP2 C A 59 55.228 61.001 26.296 1.00 53.99 O +ATOM 1262 O5' C A 59 53.445 59.435 25.560 1.00 54.08 O +ATOM 1263 C5' C A 59 52.793 58.183 25.522 1.00 52.32 C +ATOM 1264 C4' C A 59 51.386 58.359 25.064 1.00 52.96 C +ATOM 1265 O4' C A 59 50.695 59.217 26.007 1.00 53.34 O +ATOM 1266 C3' C A 59 51.248 59.093 23.746 1.00 54.55 C +ATOM 1267 O3' C A 59 51.430 58.198 22.670 1.00 56.10 O +ATOM 1268 C2' C A 59 49.826 59.625 23.841 1.00 54.97 C +ATOM 1269 O2' C A 59 48.860 58.610 23.649 1.00 56.71 O +ATOM 1270 C1' C A 59 49.766 60.033 25.310 1.00 55.15 C +ATOM 1271 N1 C A 59 50.164 61.434 25.444 1.00 55.90 N +ATOM 1272 C2 C A 59 49.218 62.407 25.156 1.00 56.55 C +ATOM 1273 O2 C A 59 48.077 62.055 24.858 1.00 59.12 O +ATOM 1274 N3 C A 59 49.563 63.702 25.209 1.00 56.90 N +ATOM 1275 C4 C A 59 50.800 64.045 25.557 1.00 56.99 C +ATOM 1276 N4 C A 59 51.083 65.348 25.606 1.00 57.32 N +ATOM 1277 C5 C A 59 51.793 63.071 25.874 1.00 56.89 C +ATOM 1278 C6 C A 59 51.433 61.787 25.809 1.00 56.91 C +ATOM 1279 P C A 60 52.117 58.708 21.315 1.00 58.55 P +ATOM 1280 OP1 C A 60 52.566 57.477 20.623 1.00 60.10 O +ATOM 1281 OP2 C A 60 53.091 59.805 21.572 1.00 59.59 O +ATOM 1282 O5' C A 60 50.930 59.382 20.504 1.00 58.02 O +ATOM 1283 C5' C A 60 49.699 58.712 20.311 1.00 58.31 C +ATOM 1284 C4' C A 60 48.692 59.668 19.729 1.00 60.59 C +ATOM 1285 O4' C A 60 48.367 60.687 20.711 1.00 61.17 O +ATOM 1286 C3' C A 60 49.215 60.451 18.536 1.00 61.75 C +ATOM 1287 O3' C A 60 48.977 59.710 17.353 1.00 62.05 O +ATOM 1288 C2' C A 60 48.336 61.689 18.549 1.00 62.65 C +ATOM 1289 O2' C A 60 47.085 61.451 17.947 1.00 65.68 O +ATOM 1290 C1' C A 60 48.151 61.920 20.050 1.00 62.43 C +ATOM 1291 N1 C A 60 49.075 62.919 20.594 1.00 63.39 N +ATOM 1292 C2 C A 60 48.741 64.252 20.458 1.00 63.93 C +ATOM 1293 O2 C A 60 47.699 64.537 19.859 1.00 66.02 O +ATOM 1294 N3 C A 60 49.552 65.196 20.975 1.00 64.43 N +ATOM 1295 C4 C A 60 50.669 64.837 21.602 1.00 64.08 C +ATOM 1296 N4 C A 60 51.437 65.800 22.106 1.00 64.35 N +ATOM 1297 C5 C A 60 51.045 63.476 21.743 1.00 63.45 C +ATOM 1298 C6 C A 60 50.228 62.556 21.229 1.00 63.91 C +ATOM 1299 P A A 61 50.069 59.698 16.181 1.00 61.03 P +ATOM 1300 OP1 A A 61 51.287 59.065 16.739 1.00 62.45 O +ATOM 1301 OP2 A A 61 50.159 61.053 15.587 1.00 61.91 O +ATOM 1302 O5' A A 61 49.427 58.698 15.124 1.00 60.51 O +ATOM 1303 C5' A A 61 49.093 57.375 15.519 1.00 59.15 C +ATOM 1304 C4' A A 61 48.325 56.663 14.432 1.00 57.25 C +ATOM 1305 O4' A A 61 49.094 56.675 13.204 1.00 57.46 O +ATOM 1306 C3' A A 61 48.113 55.187 14.715 1.00 56.35 C +ATOM 1307 O3' A A 61 46.952 54.985 15.510 1.00 54.37 O +ATOM 1308 C2' A A 61 47.924 54.610 13.325 1.00 56.77 C +ATOM 1309 O2' A A 61 46.606 54.782 12.860 1.00 58.82 O +ATOM 1310 C1' A A 61 48.893 55.462 12.506 1.00 56.45 C +ATOM 1311 N9 A A 61 50.194 54.840 12.299 1.00 55.64 N +ATOM 1312 C8 A A 61 51.375 55.127 12.934 1.00 56.06 C +ATOM 1313 N7 A A 61 52.390 54.419 12.503 1.00 56.16 N +ATOM 1314 C5 A A 61 51.836 53.608 11.524 1.00 55.20 C +ATOM 1315 C6 A A 61 52.389 52.642 10.683 1.00 53.69 C +ATOM 1316 N6 A A 61 53.685 52.311 10.692 1.00 53.61 N +ATOM 1317 N1 A A 61 51.563 52.015 9.819 1.00 52.98 N +ATOM 1318 C2 A A 61 50.275 52.347 9.811 1.00 52.85 C +ATOM 1319 N3 A A 61 49.634 53.243 10.552 1.00 53.34 N +ATOM 1320 C4 A A 61 50.484 53.847 11.397 1.00 55.08 C +ATOM 1321 P A A 62 46.873 53.710 16.473 1.00 53.92 P +ATOM 1322 OP1 A A 62 45.603 53.723 17.227 1.00 56.55 O +ATOM 1323 OP2 A A 62 48.168 53.615 17.202 1.00 53.63 O +ATOM 1324 O5' A A 62 46.816 52.489 15.470 1.00 54.86 O +ATOM 1325 C5' A A 62 45.702 52.292 14.626 1.00 53.89 C +ATOM 1326 C4' A A 62 45.976 51.126 13.735 1.00 54.46 C +ATOM 1327 O4' A A 62 47.097 51.468 12.878 1.00 54.59 O +ATOM 1328 C3' A A 62 46.438 49.885 14.479 1.00 53.52 C +ATOM 1329 O3' A A 62 45.316 49.126 14.908 1.00 51.33 O +ATOM 1330 C2' A A 62 47.214 49.158 13.396 1.00 54.74 C +ATOM 1331 O2' A A 62 46.297 48.519 12.537 1.00 56.57 O +ATOM 1332 C1' A A 62 47.893 50.323 12.664 1.00 54.85 C +ATOM 1333 N9 A A 62 49.247 50.628 13.130 1.00 55.09 N +ATOM 1334 C8 A A 62 49.610 51.419 14.192 1.00 55.06 C +ATOM 1335 N7 A A 62 50.908 51.497 14.377 1.00 55.94 N +ATOM 1336 C5 A A 62 51.434 50.706 13.369 1.00 54.99 C +ATOM 1337 C6 A A 62 52.743 50.373 13.029 1.00 53.85 C +ATOM 1338 N6 A A 62 53.812 50.830 13.683 1.00 52.77 N +ATOM 1339 N1 A A 62 52.928 49.550 11.980 1.00 53.74 N +ATOM 1340 C2 A A 62 51.858 49.111 11.318 1.00 54.27 C +ATOM 1341 N3 A A 62 50.576 49.358 11.532 1.00 53.66 N +ATOM 1342 C4 A A 62 50.426 50.169 12.589 1.00 55.03 C +ATOM 1343 P U A 63 45.533 47.735 15.702 1.00 53.62 P +ATOM 1344 OP1 U A 63 46.808 47.065 15.295 1.00 52.97 O +ATOM 1345 OP2 U A 63 44.239 46.994 15.593 1.00 51.06 O +ATOM 1346 O5' U A 63 45.691 48.165 17.223 1.00 51.23 O +ATOM 1347 C5' U A 63 44.669 48.915 17.849 1.00 53.41 C +ATOM 1348 C4' U A 63 44.630 48.623 19.322 1.00 54.01 C +ATOM 1349 O4' U A 63 44.185 47.260 19.517 1.00 55.92 O +ATOM 1350 C3' U A 63 46.012 48.682 19.940 1.00 54.73 C +ATOM 1351 O3' U A 63 46.420 49.839 20.679 1.00 51.79 O +ATOM 1352 C2' U A 63 46.533 47.253 20.033 1.00 54.94 C +ATOM 1353 O2' U A 63 47.210 46.942 21.223 1.00 56.33 O +ATOM 1354 C1' U A 63 45.234 46.451 20.007 1.00 57.13 C +ATOM 1355 N1 U A 63 45.287 45.226 19.207 1.00 60.34 N +ATOM 1356 C2 U A 63 45.138 44.028 19.869 1.00 61.56 C +ATOM 1357 O2 U A 63 44.930 43.959 21.059 1.00 61.71 O +ATOM 1358 N3 U A 63 45.231 42.914 19.079 1.00 64.02 N +ATOM 1359 C4 U A 63 45.442 42.883 17.712 1.00 64.85 C +ATOM 1360 O4 U A 63 45.492 41.795 17.125 1.00 65.14 O +ATOM 1361 C5 U A 63 45.570 44.173 17.102 1.00 64.42 C +ATOM 1362 C6 U A 63 45.489 45.272 17.855 1.00 62.18 C +ATOM 1363 P U A 64 46.459 49.804 22.269 1.00 47.09 P +ATOM 1364 OP1 U A 64 45.474 48.814 22.740 1.00 49.72 O +ATOM 1365 OP2 U A 64 46.277 51.213 22.644 1.00 53.47 O +ATOM 1366 O5' U A 64 47.944 49.291 22.621 1.00 48.05 O +ATOM 1367 C5' U A 64 49.095 50.077 22.297 1.00 47.89 C +ATOM 1368 C4' U A 64 50.371 49.234 22.232 1.00 47.96 C +ATOM 1369 O4' U A 64 50.790 48.792 23.553 1.00 49.48 O +ATOM 1370 C3' U A 64 50.175 47.926 21.478 1.00 49.78 C +ATOM 1371 O3' U A 64 50.580 48.044 20.115 1.00 52.62 O +ATOM 1372 C2' U A 64 51.262 47.014 22.015 1.00 48.66 C +ATOM 1373 O2' U A 64 52.403 47.113 21.200 1.00 52.21 O +ATOM 1374 C1' U A 64 51.487 47.568 23.418 1.00 47.24 C +ATOM 1375 N1 U A 64 51.309 46.702 24.587 1.00 44.75 N +ATOM 1376 C2 U A 64 52.389 45.900 24.918 1.00 43.26 C +ATOM 1377 O2 U A 64 53.425 45.886 24.269 1.00 39.02 O +ATOM 1378 N3 U A 64 52.214 45.120 26.034 1.00 42.01 N +ATOM 1379 C4 U A 64 51.096 45.064 26.839 1.00 44.23 C +ATOM 1380 O4 U A 64 51.140 44.403 27.873 1.00 46.83 O +ATOM 1381 C5 U A 64 50.012 45.904 26.423 1.00 44.86 C +ATOM 1382 C6 U A 64 50.152 46.679 25.333 1.00 46.40 C +ATOM 1383 P C A 65 51.326 49.377 19.562 1.00 51.71 P +ATOM 1384 OP1 C A 65 52.793 49.248 19.702 1.00 52.59 O +ATOM 1385 OP2 C A 65 50.663 50.616 20.021 1.00 54.65 O +ATOM 1386 O5' C A 65 50.956 49.256 18.023 1.00 51.76 O +ATOM 1387 C5' C A 65 49.594 49.033 17.666 1.00 51.17 C +ATOM 1388 C4' C A 65 49.473 47.942 16.630 1.00 50.61 C +ATOM 1389 O4' C A 65 50.228 48.336 15.457 1.00 51.33 O +ATOM 1390 C3' C A 65 50.034 46.584 17.008 1.00 50.04 C +ATOM 1391 O3' C A 65 49.065 45.811 17.703 1.00 50.23 O +ATOM 1392 C2' C A 65 50.312 45.974 15.645 1.00 50.59 C +ATOM 1393 O2' C A 65 49.128 45.495 15.051 1.00 52.19 O +ATOM 1394 C1' C A 65 50.793 47.192 14.856 1.00 50.72 C +ATOM 1395 N1 C A 65 52.250 47.341 14.829 1.00 49.53 N +ATOM 1396 C2 C A 65 52.951 46.590 13.916 1.00 49.03 C +ATOM 1397 O2 C A 65 52.317 45.825 13.179 1.00 48.88 O +ATOM 1398 N3 C A 65 54.296 46.704 13.849 1.00 49.20 N +ATOM 1399 C4 C A 65 54.933 47.538 14.661 1.00 49.64 C +ATOM 1400 N4 C A 65 56.250 47.644 14.526 1.00 48.30 N +ATOM 1401 C5 C A 65 54.241 48.311 15.632 1.00 50.78 C +ATOM 1402 C6 C A 65 52.905 48.188 15.676 1.00 49.60 C +ATOM 1403 P C A 66 49.544 44.611 18.663 1.00 48.93 P +ATOM 1404 OP1 C A 66 48.423 44.178 19.537 1.00 48.42 O +ATOM 1405 OP2 C A 66 50.819 45.058 19.272 1.00 50.19 O +ATOM 1406 O5' C A 66 49.908 43.433 17.666 1.00 49.16 O +ATOM 1407 C5' C A 66 48.903 42.780 16.909 1.00 49.92 C +ATOM 1408 C4' C A 66 49.538 41.774 15.989 1.00 50.54 C +ATOM 1409 O4' C A 66 50.440 42.461 15.091 1.00 50.00 O +ATOM 1410 C3' C A 66 50.440 40.788 16.695 1.00 51.95 C +ATOM 1411 O3' C A 66 49.688 39.704 17.173 1.00 55.18 O +ATOM 1412 C2' C A 66 51.380 40.343 15.597 1.00 51.22 C +ATOM 1413 O2' C A 66 50.802 39.365 14.770 1.00 54.36 O +ATOM 1414 C1' C A 66 51.558 41.640 14.822 1.00 49.83 C +ATOM 1415 N1 C A 66 52.765 42.358 15.216 1.00 49.69 N +ATOM 1416 C2 C A 66 53.962 41.892 14.740 1.00 49.58 C +ATOM 1417 O2 C A 66 53.950 40.868 14.055 1.00 52.02 O +ATOM 1418 N3 C A 66 55.105 42.549 15.034 1.00 48.70 N +ATOM 1419 C4 C A 66 55.067 43.641 15.795 1.00 49.07 C +ATOM 1420 N4 C A 66 56.224 44.276 16.032 1.00 50.40 N +ATOM 1421 C5 C A 66 53.843 44.135 16.335 1.00 50.89 C +ATOM 1422 C6 C A 66 52.720 43.464 16.021 1.00 49.92 C +ATOM 1423 P U A 67 50.160 38.971 18.505 1.00 60.57 P +ATOM 1424 OP1 U A 67 49.141 37.934 18.832 1.00 59.64 O +ATOM 1425 OP2 U A 67 50.501 40.029 19.500 1.00 60.62 O +ATOM 1426 O5' U A 67 51.540 38.286 18.096 1.00 58.02 O +ATOM 1427 C5' U A 67 51.590 37.228 17.156 1.00 57.98 C +ATOM 1428 C4' U A 67 53.024 36.859 16.894 1.00 60.31 C +ATOM 1429 O4' U A 67 53.725 38.007 16.350 1.00 60.03 O +ATOM 1430 C3' U A 67 53.814 36.475 18.130 1.00 62.18 C +ATOM 1431 O3' U A 67 53.645 35.077 18.330 1.00 67.36 O +ATOM 1432 C2' U A 67 55.243 36.786 17.716 1.00 60.43 C +ATOM 1433 O2' U A 67 55.790 35.730 16.969 1.00 60.29 O +ATOM 1434 C1' U A 67 55.052 38.027 16.836 1.00 59.24 C +ATOM 1435 N1 U A 67 55.230 39.310 17.518 1.00 58.88 N +ATOM 1436 C2 U A 67 56.440 39.956 17.379 1.00 58.64 C +ATOM 1437 O2 U A 67 57.395 39.461 16.803 1.00 60.38 O +ATOM 1438 N3 U A 67 56.493 41.205 17.945 1.00 57.00 N +ATOM 1439 C4 U A 67 55.490 41.839 18.634 1.00 56.08 C +ATOM 1440 O4 U A 67 55.624 43.017 18.919 1.00 57.14 O +ATOM 1441 C5 U A 67 54.299 41.077 18.794 1.00 56.32 C +ATOM 1442 C6 U A 67 54.210 39.869 18.243 1.00 58.50 C +ATOM 1443 P G A 68 54.230 34.371 19.646 1.00 71.64 P +ATOM 1444 OP1 G A 68 53.897 32.933 19.519 1.00 71.19 O +ATOM 1445 OP2 G A 68 53.751 35.126 20.834 1.00 71.67 O +ATOM 1446 O5' G A 68 55.806 34.568 19.513 1.00 71.77 O +ATOM 1447 C5' G A 68 56.659 33.491 19.142 1.00 75.69 C +ATOM 1448 C4' G A 68 58.091 33.830 19.491 1.00 79.27 C +ATOM 1449 O4' G A 68 58.380 35.132 18.918 1.00 79.57 O +ATOM 1450 C3' G A 68 58.385 34.004 20.980 1.00 81.28 C +ATOM 1451 O3' G A 68 58.787 32.812 21.679 1.00 83.11 O +ATOM 1452 C2' G A 68 59.584 34.943 20.956 1.00 82.22 C +ATOM 1453 O2' G A 68 60.802 34.283 20.671 1.00 84.89 O +ATOM 1454 C1' G A 68 59.236 35.853 19.782 1.00 81.50 C +ATOM 1455 N9 G A 68 58.575 37.093 20.173 1.00 81.29 N +ATOM 1456 C8 G A 68 57.250 37.289 20.478 1.00 81.20 C +ATOM 1457 N7 G A 68 56.970 38.535 20.755 1.00 80.75 N +ATOM 1458 C5 G A 68 58.186 39.194 20.627 1.00 80.02 C +ATOM 1459 C6 G A 68 58.516 40.567 20.783 1.00 80.22 C +ATOM 1460 O6 G A 68 57.767 41.520 21.044 1.00 80.59 O +ATOM 1461 N1 G A 68 59.875 40.791 20.584 1.00 80.75 N +ATOM 1462 C2 G A 68 60.798 39.828 20.258 1.00 80.78 C +ATOM 1463 N2 G A 68 62.075 40.236 20.108 1.00 79.89 N +ATOM 1464 N3 G A 68 60.496 38.555 20.089 1.00 80.70 N +ATOM 1465 C4 G A 68 59.185 38.312 20.288 1.00 80.39 C +ATOM 1466 P C A 69 59.229 31.475 20.876 1.00 84.26 P +ATOM 1467 OP1 C A 69 60.580 31.681 20.282 1.00 80.96 O +ATOM 1468 OP2 C A 69 58.112 30.992 20.017 1.00 83.67 O +ATOM 1469 O5' C A 69 59.373 30.393 22.036 1.00 81.95 O +ATOM 1470 C5' C A 69 60.304 30.567 23.099 1.00 78.18 C +ATOM 1471 C4' C A 69 59.612 30.374 24.428 1.00 76.05 C +ATOM 1472 O4' C A 69 58.981 31.619 24.844 1.00 74.44 O +ATOM 1473 C3' C A 69 58.468 29.372 24.406 1.00 75.69 C +ATOM 1474 O3' C A 69 58.908 28.028 24.532 1.00 76.59 O +ATOM 1475 C2' C A 69 57.624 29.805 25.597 1.00 74.75 C +ATOM 1476 O2' C A 69 58.123 29.297 26.823 1.00 74.80 O +ATOM 1477 C1' C A 69 57.768 31.329 25.529 1.00 73.22 C +ATOM 1478 N1 C A 69 56.654 31.993 24.829 1.00 70.35 N +ATOM 1479 C2 C A 69 55.423 32.067 25.471 1.00 69.49 C +ATOM 1480 O2 C A 69 55.308 31.549 26.584 1.00 69.27 O +ATOM 1481 N3 C A 69 54.392 32.698 24.862 1.00 67.72 N +ATOM 1482 C4 C A 69 54.563 33.232 23.651 1.00 68.13 C +ATOM 1483 N4 C A 69 53.526 33.851 23.091 1.00 69.40 N +ATOM 1484 C5 C A 69 55.807 33.158 22.964 1.00 66.89 C +ATOM 1485 C6 C A 69 56.816 32.536 23.584 1.00 68.40 C +ATOM 1486 P A A 70 57.971 26.841 23.990 1.00 76.83 P +ATOM 1487 OP1 A A 70 58.699 25.566 24.172 1.00 76.97 O +ATOM 1488 OP2 A A 70 57.496 27.236 22.638 1.00 78.32 O +ATOM 1489 O5' A A 70 56.735 26.838 24.986 1.00 73.56 O +ATOM 1490 C5' A A 70 56.921 26.420 26.317 1.00 71.88 C +ATOM 1491 C4' A A 70 55.660 26.599 27.107 1.00 70.52 C +ATOM 1492 O4' A A 70 55.305 28.006 27.120 1.00 70.13 O +ATOM 1493 C3' A A 70 54.435 25.933 26.512 1.00 70.69 C +ATOM 1494 O3' A A 70 54.363 24.549 26.820 1.00 72.81 O +ATOM 1495 C2' A A 70 53.305 26.731 27.143 1.00 69.29 C +ATOM 1496 O2' A A 70 53.075 26.359 28.482 1.00 69.16 O +ATOM 1497 C1' A A 70 53.893 28.138 27.128 1.00 68.11 C +ATOM 1498 N9 A A 70 53.470 28.894 25.952 1.00 64.00 N +ATOM 1499 C8 A A 70 54.178 29.247 24.834 1.00 62.02 C +ATOM 1500 N7 A A 70 53.474 29.925 23.959 1.00 60.61 N +ATOM 1501 C5 A A 70 52.220 30.021 24.544 1.00 60.84 C +ATOM 1502 C6 A A 70 51.013 30.616 24.123 1.00 60.96 C +ATOM 1503 N6 A A 70 50.866 31.271 22.968 1.00 61.70 N +ATOM 1504 N1 A A 70 49.944 30.517 24.947 1.00 58.65 N +ATOM 1505 C2 A A 70 50.089 29.880 26.111 1.00 58.26 C +ATOM 1506 N3 A A 70 51.171 29.287 26.616 1.00 60.01 N +ATOM 1507 C4 A A 70 52.208 29.393 25.770 1.00 61.17 C +ATOM 1508 P G A 71 53.262 23.639 26.088 1.00 73.21 P +ATOM 1509 OP1 G A 71 53.410 22.249 26.575 1.00 75.65 O +ATOM 1510 OP2 G A 71 53.327 23.913 24.628 1.00 74.68 O +ATOM 1511 O5' G A 71 51.889 24.194 26.658 1.00 73.13 O +ATOM 1512 C5' G A 71 51.545 23.948 28.006 1.00 73.66 C +ATOM 1513 C4' G A 71 50.085 24.200 28.222 1.00 74.68 C +ATOM 1514 O4' G A 71 49.834 25.619 28.061 1.00 74.96 O +ATOM 1515 C3' G A 71 49.168 23.560 27.196 1.00 74.87 C +ATOM 1516 O3' G A 71 48.900 22.193 27.431 1.00 77.06 O +ATOM 1517 C2' G A 71 47.926 24.423 27.302 1.00 74.74 C +ATOM 1518 O2' G A 71 47.160 24.095 28.450 1.00 73.45 O +ATOM 1519 C1' G A 71 48.557 25.807 27.466 1.00 74.47 C +ATOM 1520 N9 G A 71 48.732 26.500 26.190 1.00 73.18 N +ATOM 1521 C8 G A 71 49.893 26.651 25.465 1.00 72.22 C +ATOM 1522 N7 G A 71 49.730 27.362 24.379 1.00 71.34 N +ATOM 1523 C5 G A 71 48.381 27.690 24.382 1.00 70.99 C +ATOM 1524 C6 G A 71 47.614 28.457 23.459 1.00 70.89 C +ATOM 1525 O6 G A 71 47.990 29.025 22.425 1.00 70.62 O +ATOM 1526 N1 G A 71 46.279 28.535 23.845 1.00 70.13 N +ATOM 1527 C2 G A 71 45.746 27.955 24.973 1.00 71.44 C +ATOM 1528 N2 G A 71 44.437 28.147 25.177 1.00 71.27 N +ATOM 1529 N3 G A 71 46.448 27.240 25.840 1.00 70.99 N +ATOM 1530 C4 G A 71 47.749 27.153 25.486 1.00 71.48 C +ATOM 1531 P C A 72 48.570 21.242 26.182 1.00 78.06 P +ATOM 1532 OP1 C A 72 48.427 19.843 26.654 1.00 79.10 O +ATOM 1533 OP2 C A 72 49.597 21.571 25.154 1.00 77.70 O +ATOM 1534 O5' C A 72 47.129 21.735 25.716 1.00 76.34 O +ATOM 1535 C5' C A 72 46.020 21.583 26.588 1.00 74.73 C +ATOM 1536 C4' C A 72 44.789 22.243 26.020 1.00 74.94 C +ATOM 1537 O4' C A 72 44.999 23.681 25.940 1.00 74.18 O +ATOM 1538 C3' C A 72 44.435 21.873 24.594 1.00 74.74 C +ATOM 1539 O3' C A 72 43.818 20.614 24.463 1.00 77.63 O +ATOM 1540 C2' C A 72 43.573 23.046 24.163 1.00 72.71 C +ATOM 1541 O2' C A 72 42.275 23.012 24.727 1.00 72.93 O +ATOM 1542 C1' C A 72 44.345 24.199 24.789 1.00 70.56 C +ATOM 1543 N1 C A 72 45.366 24.656 23.839 1.00 65.60 N +ATOM 1544 C2 C A 72 44.983 25.549 22.825 1.00 62.36 C +ATOM 1545 O2 C A 72 43.796 25.935 22.781 1.00 60.28 O +ATOM 1546 N3 C A 72 45.908 25.962 21.926 1.00 58.47 N +ATOM 1547 C4 C A 72 47.160 25.518 22.012 1.00 58.31 C +ATOM 1548 N4 C A 72 48.035 25.941 21.095 1.00 57.64 N +ATOM 1549 C5 C A 72 47.575 24.616 23.042 1.00 58.81 C +ATOM 1550 C6 C A 72 46.656 24.215 23.923 1.00 61.58 C +ATOM 1551 P G A 73 44.246 19.681 23.238 1.00 79.51 P +ATOM 1552 OP1 G A 73 43.644 18.340 23.446 1.00 79.13 O +ATOM 1553 OP2 G A 73 45.725 19.817 23.084 1.00 78.76 O +ATOM 1554 O5' G A 73 43.539 20.372 21.992 1.00 77.35 O +ATOM 1555 C5' G A 73 42.142 20.629 22.020 1.00 74.33 C +ATOM 1556 C4' G A 73 41.738 21.509 20.863 1.00 72.37 C +ATOM 1557 O4' G A 73 42.458 22.769 20.932 1.00 70.30 O +ATOM 1558 C3' G A 73 42.087 21.020 19.470 1.00 72.08 C +ATOM 1559 O3' G A 73 41.194 20.013 19.012 1.00 72.84 O +ATOM 1560 C2' G A 73 41.929 22.305 18.670 1.00 70.65 C +ATOM 1561 O2' G A 73 40.567 22.611 18.440 1.00 71.39 O +ATOM 1562 C1' G A 73 42.536 23.329 19.632 1.00 67.90 C +ATOM 1563 N9 G A 73 43.929 23.628 19.311 1.00 64.50 N +ATOM 1564 C8 G A 73 45.070 23.161 19.922 1.00 62.79 C +ATOM 1565 N7 G A 73 46.169 23.599 19.359 1.00 61.48 N +ATOM 1566 C5 G A 73 45.722 24.411 18.322 1.00 61.69 C +ATOM 1567 C6 G A 73 46.448 25.169 17.342 1.00 59.71 C +ATOM 1568 O6 G A 73 47.679 25.276 17.188 1.00 57.76 O +ATOM 1569 N1 G A 73 45.588 25.842 16.485 1.00 59.01 N +ATOM 1570 C2 G A 73 44.216 25.798 16.549 1.00 61.75 C +ATOM 1571 N2 G A 73 43.552 26.506 15.635 1.00 62.68 N +ATOM 1572 N3 G A 73 43.537 25.106 17.443 1.00 62.36 N +ATOM 1573 C4 G A 73 44.344 24.442 18.288 1.00 62.76 C +ATOM 1574 P G A 74 41.787 18.637 18.416 1.00 74.17 P +ATOM 1575 OP1 G A 74 40.716 17.600 18.506 1.00 74.30 O +ATOM 1576 OP2 G A 74 43.117 18.392 19.042 1.00 71.62 O +ATOM 1577 O5' G A 74 42.045 18.934 16.875 1.00 72.80 O +ATOM 1578 C5' G A 74 42.905 19.983 16.477 1.00 71.35 C +ATOM 1579 C4' G A 74 42.600 20.383 15.067 1.00 68.80 C +ATOM 1580 O4' G A 74 43.028 21.760 14.917 1.00 69.15 O +ATOM 1581 C3' G A 74 43.339 19.614 13.992 1.00 68.58 C +ATOM 1582 O3' G A 74 42.846 18.468 13.299 1.00 71.01 O +ATOM 1583 C2' G A 74 44.522 20.455 13.553 1.00 67.98 C +ATOM 1584 O2' G A 74 44.576 20.558 12.143 1.00 68.13 O +ATOM 1585 C1' G A 74 44.203 21.839 14.136 1.00 66.63 C +ATOM 1586 N9 G A 74 45.323 22.134 15.022 1.00 63.24 N +ATOM 1587 C8 G A 74 45.492 21.692 16.311 1.00 60.66 C +ATOM 1588 N7 G A 74 46.701 21.882 16.760 1.00 60.19 N +ATOM 1589 C5 G A 74 47.349 22.547 15.729 1.00 60.81 C +ATOM 1590 C6 G A 74 48.677 23.004 15.635 1.00 61.76 C +ATOM 1591 O6 G A 74 49.584 22.902 16.473 1.00 65.71 O +ATOM 1592 N1 G A 74 48.918 23.642 14.418 1.00 60.45 N +ATOM 1593 C2 G A 74 47.989 23.822 13.425 1.00 58.92 C +ATOM 1594 N2 G A 74 48.406 24.479 12.330 1.00 58.54 N +ATOM 1595 N3 G A 74 46.741 23.391 13.503 1.00 58.36 N +ATOM 1596 C4 G A 74 46.494 22.764 14.674 1.00 60.52 C +ATOM 1597 P A A 75 43.733 17.113 13.257 1.00 71.98 P +ATOM 1598 OP1 A A 75 43.102 16.200 12.276 1.00 73.52 O +ATOM 1599 OP2 A A 75 43.955 16.648 14.649 1.00 72.26 O +ATOM 1600 O5' A A 75 45.151 17.547 12.672 1.00 68.58 O +ATOM 1601 C5' A A 75 46.255 16.653 12.710 1.00 65.94 C +ATOM 1602 C4' A A 75 47.133 16.874 11.504 1.00 65.49 C +ATOM 1603 O4' A A 75 46.434 16.429 10.319 1.00 66.68 O +ATOM 1604 C3' A A 75 47.472 18.333 11.260 1.00 65.46 C +ATOM 1605 O3' A A 75 48.720 18.628 11.864 1.00 64.21 O +ATOM 1606 C2' A A 75 47.592 18.420 9.750 1.00 64.16 C +ATOM 1607 O2' A A 75 48.875 18.031 9.336 1.00 65.40 O +ATOM 1608 C1' A A 75 46.555 17.396 9.295 1.00 64.67 C +ATOM 1609 N9 A A 75 45.227 17.950 9.094 1.00 64.06 N +ATOM 1610 C8 A A 75 44.138 17.744 9.898 1.00 64.00 C +ATOM 1611 N7 A A 75 43.056 18.349 9.486 1.00 66.17 N +ATOM 1612 C5 A A 75 43.463 19.001 8.332 1.00 65.71 C +ATOM 1613 C6 A A 75 42.781 19.821 7.424 1.00 65.96 C +ATOM 1614 N6 A A 75 41.490 20.141 7.546 1.00 67.52 N +ATOM 1615 N1 A A 75 43.476 20.311 6.375 1.00 66.21 N +ATOM 1616 C2 A A 75 44.770 19.991 6.260 1.00 66.15 C +ATOM 1617 N3 A A 75 45.520 19.231 7.050 1.00 66.38 N +ATOM 1618 C4 A A 75 44.799 18.763 8.080 1.00 64.69 C +ATOM 1619 P A A 76 48.870 19.950 12.740 1.00 62.82 P +ATOM 1620 OP1 A A 76 50.069 19.832 13.600 1.00 63.15 O +ATOM 1621 OP2 A A 76 47.539 20.165 13.362 1.00 59.79 O +ATOM 1622 O5' A A 76 49.159 21.073 11.650 1.00 60.99 O +ATOM 1623 C5' A A 76 50.435 21.172 11.023 1.00 58.74 C +ATOM 1624 C4' A A 76 50.317 21.995 9.775 1.00 57.81 C +ATOM 1625 O4' A A 76 49.237 21.437 8.991 1.00 57.97 O +ATOM 1626 C3' A A 76 49.940 23.455 9.967 1.00 56.91 C +ATOM 1627 O3' A A 76 51.121 24.238 10.118 1.00 57.19 O +ATOM 1628 C2' A A 76 49.263 23.779 8.643 1.00 56.44 C +ATOM 1629 O2' A A 76 50.201 24.001 7.608 1.00 54.76 O +ATOM 1630 C1' A A 76 48.515 22.475 8.363 1.00 55.29 C +ATOM 1631 N9 A A 76 47.162 22.417 8.897 1.00 53.64 N +ATOM 1632 C8 A A 76 46.775 21.938 10.128 1.00 53.02 C +ATOM 1633 N7 A A 76 45.476 21.937 10.309 1.00 53.29 N +ATOM 1634 C5 A A 76 44.974 22.466 9.127 1.00 53.22 C +ATOM 1635 C6 A A 76 43.668 22.715 8.684 1.00 53.02 C +ATOM 1636 N6 A A 76 42.582 22.451 9.400 1.00 52.94 N +ATOM 1637 N1 A A 76 43.513 23.251 7.456 1.00 54.02 N +ATOM 1638 C2 A A 76 44.606 23.509 6.723 1.00 53.06 C +ATOM 1639 N3 A A 76 45.885 23.312 7.024 1.00 53.73 N +ATOM 1640 C4 A A 76 46.004 22.782 8.255 1.00 54.00 C +ATOM 1641 P A A 77 51.041 25.690 10.808 1.00 57.22 P +ATOM 1642 OP1 A A 77 52.362 26.338 10.668 1.00 56.31 O +ATOM 1643 OP2 A A 77 50.451 25.502 12.167 1.00 57.57 O +ATOM 1644 O5' A A 77 50.023 26.495 9.880 1.00 57.05 O +ATOM 1645 C5' A A 77 50.484 27.150 8.697 1.00 55.43 C +ATOM 1646 C4' A A 77 49.318 27.660 7.869 1.00 55.21 C +ATOM 1647 O4' A A 77 48.395 26.566 7.621 1.00 55.90 O +ATOM 1648 C3' A A 77 48.457 28.764 8.470 1.00 54.93 C +ATOM 1649 O3' A A 77 48.994 30.044 8.166 1.00 55.04 O +ATOM 1650 C2' A A 77 47.149 28.572 7.719 1.00 55.16 C +ATOM 1651 O2' A A 77 47.237 29.094 6.409 1.00 54.30 O +ATOM 1652 C1' A A 77 47.068 27.048 7.639 1.00 54.33 C +ATOM 1653 N9 A A 77 46.406 26.464 8.801 1.00 53.13 N +ATOM 1654 C8 A A 77 46.987 26.001 9.955 1.00 52.87 C +ATOM 1655 N7 A A 77 46.127 25.506 10.817 1.00 53.79 N +ATOM 1656 C5 A A 77 44.899 25.658 10.187 1.00 52.32 C +ATOM 1657 C6 A A 77 43.586 25.329 10.578 1.00 52.60 C +ATOM 1658 N6 A A 77 43.286 24.748 11.739 1.00 55.40 N +ATOM 1659 N1 A A 77 42.580 25.618 9.722 1.00 52.52 N +ATOM 1660 C2 A A 77 42.887 26.202 8.552 1.00 52.91 C +ATOM 1661 N3 A A 77 44.085 26.561 8.072 1.00 52.18 N +ATOM 1662 C4 A A 77 45.056 26.256 8.949 1.00 52.16 C +ATOM 1663 P C A 78 49.484 31.004 9.354 1.00 55.69 P +ATOM 1664 OP1 C A 78 49.843 32.325 8.764 1.00 54.67 O +ATOM 1665 OP2 C A 78 50.489 30.262 10.161 1.00 56.60 O +ATOM 1666 O5' C A 78 48.186 31.175 10.259 1.00 54.42 O +ATOM 1667 C5' C A 78 47.035 31.822 9.746 1.00 53.71 C +ATOM 1668 C4' C A 78 45.790 31.247 10.370 1.00 53.69 C +ATOM 1669 O4' C A 78 45.943 29.803 10.457 1.00 54.25 O +ATOM 1670 C3' C A 78 45.529 31.646 11.808 1.00 53.72 C +ATOM 1671 O3' C A 78 44.893 32.906 11.911 1.00 53.94 O +ATOM 1672 C2' C A 78 44.636 30.518 12.292 1.00 53.88 C +ATOM 1673 O2' C A 78 43.308 30.647 11.805 1.00 54.27 O +ATOM 1674 C1' C A 78 45.305 29.325 11.623 1.00 52.32 C +ATOM 1675 N1 C A 78 46.318 28.721 12.494 1.00 50.20 N +ATOM 1676 C2 C A 78 45.883 27.995 13.596 1.00 48.56 C +ATOM 1677 O2 C A 78 44.666 27.900 13.787 1.00 47.16 O +ATOM 1678 N3 C A 78 46.789 27.419 14.418 1.00 48.57 N +ATOM 1679 C4 C A 78 48.092 27.546 14.162 1.00 50.34 C +ATOM 1680 N4 C A 78 48.958 26.946 14.992 1.00 49.92 N +ATOM 1681 C5 C A 78 48.571 28.290 13.040 1.00 51.43 C +ATOM 1682 C6 C A 78 47.654 28.859 12.238 1.00 49.99 C +ATOM 1683 P G A 79 45.068 33.757 13.257 1.00 52.92 P +ATOM 1684 OP1 G A 79 44.602 35.126 12.971 1.00 55.12 O +ATOM 1685 OP2 G A 79 46.464 33.538 13.738 1.00 54.61 O +ATOM 1686 O5' G A 79 44.053 33.066 14.268 1.00 52.03 O +ATOM 1687 C5' G A 79 42.681 32.970 13.939 1.00 52.92 C +ATOM 1688 C4' G A 79 41.965 32.101 14.936 1.00 53.20 C +ATOM 1689 O4' G A 79 42.600 30.794 14.948 1.00 54.24 O +ATOM 1690 C3' G A 79 42.120 32.560 16.371 1.00 54.77 C +ATOM 1691 O3' G A 79 41.208 33.586 16.721 1.00 56.81 O +ATOM 1692 C2' G A 79 41.863 31.284 17.147 1.00 54.49 C +ATOM 1693 O2' G A 79 40.484 31.015 17.176 1.00 56.96 O +ATOM 1694 C1' G A 79 42.546 30.252 16.255 1.00 53.50 C +ATOM 1695 N9 G A 79 43.889 29.889 16.704 1.00 51.11 N +ATOM 1696 C8 G A 79 45.106 30.274 16.195 1.00 50.11 C +ATOM 1697 N7 G A 79 46.120 29.761 16.851 1.00 48.60 N +ATOM 1698 C5 G A 79 45.529 28.995 17.849 1.00 47.30 C +ATOM 1699 C6 G A 79 46.111 28.202 18.879 1.00 46.07 C +ATOM 1700 O6 G A 79 47.321 28.008 19.130 1.00 45.96 O +ATOM 1701 N1 G A 79 45.139 27.600 19.665 1.00 43.73 N +ATOM 1702 C2 G A 79 43.785 27.738 19.492 1.00 48.40 C +ATOM 1703 N2 G A 79 42.983 27.078 20.352 1.00 51.24 N +ATOM 1704 N3 G A 79 43.236 28.469 18.544 1.00 49.81 N +ATOM 1705 C4 G A 79 44.158 29.064 17.767 1.00 49.45 C +ATOM 1706 P U A 80 41.696 34.744 17.718 1.00 57.91 P +ATOM 1707 OP1 U A 80 40.668 35.811 17.699 1.00 58.33 O +ATOM 1708 OP2 U A 80 43.105 35.066 17.387 1.00 55.86 O +ATOM 1709 O5' U A 80 41.666 34.031 19.139 1.00 59.76 O +ATOM 1710 C5' U A 80 40.441 33.510 19.646 1.00 60.84 C +ATOM 1711 C4' U A 80 40.693 32.611 20.834 1.00 61.61 C +ATOM 1712 O4' U A 80 41.480 31.465 20.405 1.00 61.05 O +ATOM 1713 C3' U A 80 41.535 33.217 21.943 1.00 62.84 C +ATOM 1714 O3' U A 80 40.767 34.025 22.818 1.00 67.34 O +ATOM 1715 C2' U A 80 42.082 31.983 22.640 1.00 61.11 C +ATOM 1716 O2' U A 80 41.107 31.381 23.464 1.00 61.83 O +ATOM 1717 C1' U A 80 42.354 31.067 21.450 1.00 58.89 C +ATOM 1718 N1 U A 80 43.737 31.189 20.978 1.00 55.50 N +ATOM 1719 C2 U A 80 44.688 30.431 21.622 1.00 53.56 C +ATOM 1720 O2 U A 80 44.415 29.688 22.539 1.00 54.05 O +ATOM 1721 N3 U A 80 45.971 30.581 21.159 1.00 50.66 N +ATOM 1722 C4 U A 80 46.386 31.399 20.140 1.00 50.72 C +ATOM 1723 O4 U A 80 47.579 31.424 19.832 1.00 49.30 O +ATOM 1724 C5 U A 80 45.339 32.157 19.520 1.00 52.21 C +ATOM 1725 C6 U A 80 44.078 32.027 19.950 1.00 54.00 C +ATOM 1726 P U A 81 41.512 35.096 23.759 1.00 69.99 P +ATOM 1727 OP1 U A 81 40.440 35.890 24.422 1.00 70.01 O +ATOM 1728 OP2 U A 81 42.570 35.792 22.973 1.00 68.74 O +ATOM 1729 O5' U A 81 42.243 34.197 24.853 1.00 69.66 O +ATOM 1730 C5' U A 81 41.492 33.546 25.869 1.00 69.69 C +ATOM 1731 C4' U A 81 42.411 32.874 26.858 1.00 70.12 C +ATOM 1732 O4' U A 81 43.154 31.827 26.185 1.00 70.30 O +ATOM 1733 C3' U A 81 43.492 33.765 27.442 1.00 71.48 C +ATOM 1734 O3' U A 81 43.008 34.521 28.543 1.00 73.23 O +ATOM 1735 C2' U A 81 44.548 32.755 27.868 1.00 71.16 C +ATOM 1736 O2' U A 81 44.243 32.119 29.088 1.00 72.71 O +ATOM 1737 C1' U A 81 44.455 31.733 26.740 1.00 69.65 C +ATOM 1738 N1 U A 81 45.445 32.005 25.694 1.00 67.60 N +ATOM 1739 C2 U A 81 46.694 31.456 25.857 1.00 67.36 C +ATOM 1740 O2 U A 81 46.984 30.751 26.806 1.00 69.28 O +ATOM 1741 N3 U A 81 47.595 31.762 24.873 1.00 65.88 N +ATOM 1742 C4 U A 81 47.377 32.543 23.770 1.00 64.36 C +ATOM 1743 O4 U A 81 48.298 32.741 22.977 1.00 63.94 O +ATOM 1744 C5 U A 81 46.053 33.070 23.668 1.00 66.08 C +ATOM 1745 C6 U A 81 45.152 32.786 24.610 1.00 67.30 C +ATOM 1746 P G A 82 43.833 35.803 29.047 1.00 74.81 P +ATOM 1747 OP1 G A 82 43.043 36.432 30.132 1.00 76.99 O +ATOM 1748 OP2 G A 82 44.213 36.612 27.861 1.00 76.87 O +ATOM 1749 O5' G A 82 45.157 35.176 29.671 1.00 72.53 O +ATOM 1750 C5' G A 82 45.067 34.297 30.782 1.00 72.61 C +ATOM 1751 C4' G A 82 46.398 33.635 31.056 1.00 73.05 C +ATOM 1752 O4' G A 82 46.808 32.836 29.908 1.00 72.32 O +ATOM 1753 C3' G A 82 47.550 34.606 31.244 1.00 73.03 C +ATOM 1754 O3' G A 82 47.600 35.046 32.591 1.00 73.81 O +ATOM 1755 C2' G A 82 48.762 33.750 30.917 1.00 71.15 C +ATOM 1756 O2' G A 82 49.183 32.982 32.016 1.00 71.55 O +ATOM 1757 C1' G A 82 48.219 32.851 29.809 1.00 70.45 C +ATOM 1758 N9 G A 82 48.606 33.304 28.483 1.00 69.22 N +ATOM 1759 C8 G A 82 47.862 34.024 27.586 1.00 68.93 C +ATOM 1760 N7 G A 82 48.523 34.307 26.494 1.00 68.74 N +ATOM 1761 C5 G A 82 49.772 33.732 26.686 1.00 66.17 C +ATOM 1762 C6 G A 82 50.914 33.717 25.853 1.00 65.71 C +ATOM 1763 O6 G A 82 51.064 34.234 24.737 1.00 67.39 O +ATOM 1764 N1 G A 82 51.960 33.015 26.437 1.00 65.06 N +ATOM 1765 C2 G A 82 51.910 32.409 27.667 1.00 65.49 C +ATOM 1766 N2 G A 82 53.019 31.776 28.066 1.00 66.07 N +ATOM 1767 N3 G A 82 50.854 32.422 28.450 1.00 65.40 N +ATOM 1768 C4 G A 82 49.832 33.098 27.902 1.00 67.06 C +ATOM 1769 P A A 83 48.714 36.110 33.037 1.00 75.74 P +ATOM 1770 OP1 A A 83 48.454 36.457 34.461 1.00 76.19 O +ATOM 1771 OP2 A A 83 48.787 37.192 32.017 1.00 75.92 O +ATOM 1772 O5' A A 83 50.084 35.306 32.950 1.00 73.07 O +ATOM 1773 C5' A A 83 51.311 35.996 32.798 1.00 71.48 C +ATOM 1774 C4' A A 83 52.389 35.042 32.352 1.00 72.32 C +ATOM 1775 O4' A A 83 52.006 34.431 31.092 1.00 71.90 O +ATOM 1776 C3' A A 83 53.717 35.706 32.044 1.00 72.39 C +ATOM 1777 O3' A A 83 54.479 35.854 33.223 1.00 73.75 O +ATOM 1778 C2' A A 83 54.367 34.722 31.088 1.00 71.88 C +ATOM 1779 O2' A A 83 55.011 33.652 31.742 1.00 73.47 O +ATOM 1780 C1' A A 83 53.158 34.234 30.289 1.00 70.66 C +ATOM 1781 N9 A A 83 52.993 34.981 29.046 1.00 68.56 N +ATOM 1782 C8 A A 83 51.908 35.688 28.594 1.00 67.12 C +ATOM 1783 N7 A A 83 52.100 36.253 27.425 1.00 66.12 N +ATOM 1784 C5 A A 83 53.397 35.888 27.088 1.00 66.03 C +ATOM 1785 C6 A A 83 54.198 36.164 25.971 1.00 66.42 C +ATOM 1786 N6 A A 83 53.795 36.897 24.937 1.00 66.62 N +ATOM 1787 N1 A A 83 55.448 35.651 25.951 1.00 66.47 N +ATOM 1788 C2 A A 83 55.854 34.913 26.993 1.00 65.81 C +ATOM 1789 N3 A A 83 55.194 34.582 28.094 1.00 66.02 N +ATOM 1790 C4 A A 83 53.956 35.106 28.078 1.00 66.63 C +ATOM 1791 P A A 84 55.352 37.173 33.429 1.00 74.69 P +ATOM 1792 OP1 A A 84 56.069 37.043 34.725 1.00 74.75 O +ATOM 1793 OP2 A A 84 54.440 38.322 33.207 1.00 72.53 O +ATOM 1794 O5' A A 84 56.405 37.108 32.237 1.00 72.08 O +ATOM 1795 C5' A A 84 57.422 36.109 32.201 1.00 70.69 C +ATOM 1796 C4' A A 84 58.311 36.343 31.007 1.00 69.31 C +ATOM 1797 O4' A A 84 57.606 35.966 29.799 1.00 68.54 O +ATOM 1798 C3' A A 84 58.703 37.790 30.786 1.00 69.05 C +ATOM 1799 O3' A A 84 59.818 38.159 31.581 1.00 71.70 O +ATOM 1800 C2' A A 84 58.992 37.827 29.289 1.00 67.78 C +ATOM 1801 O2' A A 84 60.283 37.385 28.923 1.00 68.74 O +ATOM 1802 C1' A A 84 57.912 36.881 28.759 1.00 66.10 C +ATOM 1803 N9 A A 84 56.685 37.615 28.467 1.00 62.63 N +ATOM 1804 C8 A A 84 55.570 37.709 29.260 1.00 60.97 C +ATOM 1805 N7 A A 84 54.624 38.454 28.752 1.00 60.47 N +ATOM 1806 C5 A A 84 55.149 38.877 27.539 1.00 58.77 C +ATOM 1807 C6 A A 84 54.633 39.693 26.524 1.00 57.48 C +ATOM 1808 N6 A A 84 53.422 40.254 26.573 1.00 58.08 N +ATOM 1809 N1 A A 84 55.411 39.919 25.444 1.00 57.00 N +ATOM 1810 C2 A A 84 56.628 39.354 25.400 1.00 57.46 C +ATOM 1811 N3 A A 84 57.223 38.568 26.295 1.00 58.36 N +ATOM 1812 C4 A A 84 56.419 38.367 27.352 1.00 59.63 C +ATOM 1813 P A A 85 60.045 39.705 31.960 1.00 72.98 P +ATOM 1814 OP1 A A 85 61.385 39.797 32.591 1.00 74.48 O +ATOM 1815 OP2 A A 85 58.855 40.226 32.685 1.00 72.40 O +ATOM 1816 O5' A A 85 60.110 40.435 30.548 1.00 70.44 O +ATOM 1817 C5' A A 85 61.253 40.307 29.714 1.00 66.23 C +ATOM 1818 C4' A A 85 61.044 41.084 28.441 1.00 64.90 C +ATOM 1819 O4' A A 85 59.882 40.545 27.748 1.00 62.64 O +ATOM 1820 C3' A A 85 60.699 42.549 28.626 1.00 62.94 C +ATOM 1821 O3' A A 85 61.844 43.363 28.835 1.00 63.23 O +ATOM 1822 C2' A A 85 59.984 42.868 27.322 1.00 61.52 C +ATOM 1823 O2' A A 85 60.881 43.020 26.246 1.00 61.55 O +ATOM 1824 C1' A A 85 59.174 41.592 27.113 1.00 58.58 C +ATOM 1825 N9 A A 85 57.869 41.712 27.755 1.00 55.06 N +ATOM 1826 C8 A A 85 57.468 41.210 28.962 1.00 53.46 C +ATOM 1827 N7 A A 85 56.235 41.526 29.280 1.00 53.24 N +ATOM 1828 C5 A A 85 55.794 42.281 28.202 1.00 51.20 C +ATOM 1829 C6 A A 85 54.571 42.927 27.926 1.00 51.15 C +ATOM 1830 N6 A A 85 53.514 42.908 28.743 1.00 50.33 N +ATOM 1831 N1 A A 85 54.469 43.605 26.763 1.00 51.08 N +ATOM 1832 C2 A A 85 55.521 43.623 25.939 1.00 49.66 C +ATOM 1833 N3 A A 85 56.712 43.057 26.085 1.00 51.02 N +ATOM 1834 C4 A A 85 56.787 42.396 27.253 1.00 52.63 C +ATOM 1835 P G A 86 61.717 44.687 29.747 1.00 63.01 P +ATOM 1836 OP1 G A 86 63.080 45.233 29.962 1.00 63.49 O +ATOM 1837 OP2 G A 86 60.860 44.331 30.912 1.00 62.23 O +ATOM 1838 O5' G A 86 60.926 45.717 28.830 1.00 60.62 O +ATOM 1839 C5' G A 86 61.397 46.003 27.524 1.00 57.16 C +ATOM 1840 C4' G A 86 60.338 46.713 26.717 1.00 54.53 C +ATOM 1841 O4' G A 86 59.166 45.857 26.587 1.00 53.07 O +ATOM 1842 C3' G A 86 59.774 47.960 27.371 1.00 53.14 C +ATOM 1843 O3' G A 86 60.618 49.084 27.216 1.00 51.63 O +ATOM 1844 C2' G A 86 58.432 48.112 26.672 1.00 52.73 C +ATOM 1845 O2' G A 86 58.570 48.629 25.368 1.00 50.58 O +ATOM 1846 C1' G A 86 57.994 46.657 26.559 1.00 51.72 C +ATOM 1847 N9 G A 86 57.100 46.230 27.628 1.00 50.07 N +ATOM 1848 C8 G A 86 57.353 45.289 28.594 1.00 50.13 C +ATOM 1849 N7 G A 86 56.333 45.083 29.386 1.00 49.23 N +ATOM 1850 C5 G A 86 55.355 45.948 28.923 1.00 48.44 C +ATOM 1851 C6 G A 86 54.036 46.158 29.377 1.00 50.00 C +ATOM 1852 O6 G A 86 53.447 45.603 30.304 1.00 52.45 O +ATOM 1853 N1 G A 86 53.379 47.127 28.628 1.00 49.28 N +ATOM 1854 C2 G A 86 53.924 47.806 27.575 1.00 48.05 C +ATOM 1855 N2 G A 86 53.121 48.698 27.001 1.00 46.91 N +ATOM 1856 N3 G A 86 55.161 47.618 27.128 1.00 47.93 N +ATOM 1857 C4 G A 86 55.814 46.677 27.847 1.00 48.84 C +ATOM 1858 P A A 87 60.528 50.278 28.276 1.00 48.22 P +ATOM 1859 OP1 A A 87 61.493 51.324 27.903 1.00 50.47 O +ATOM 1860 OP2 A A 87 60.599 49.663 29.612 1.00 48.71 O +ATOM 1861 O5' A A 87 59.072 50.870 28.036 1.00 47.96 O +ATOM 1862 C5' A A 87 58.810 51.665 26.888 1.00 45.52 C +ATOM 1863 C4' A A 87 57.420 52.245 26.944 1.00 45.17 C +ATOM 1864 O4' A A 87 56.474 51.163 27.023 1.00 44.86 O +ATOM 1865 C3' A A 87 57.104 53.065 28.183 1.00 47.55 C +ATOM 1866 O3' A A 87 57.553 54.398 28.043 1.00 48.74 O +ATOM 1867 C2' A A 87 55.590 52.985 28.257 1.00 45.69 C +ATOM 1868 O2' A A 87 54.966 53.829 27.315 1.00 46.31 O +ATOM 1869 C1' A A 87 55.363 51.547 27.819 1.00 43.13 C +ATOM 1870 N9 A A 87 55.242 50.601 28.918 1.00 40.51 N +ATOM 1871 C8 A A 87 56.174 49.711 29.374 1.00 40.58 C +ATOM 1872 N7 A A 87 55.738 48.948 30.344 1.00 41.86 N +ATOM 1873 C5 A A 87 54.439 49.376 30.546 1.00 38.70 C +ATOM 1874 C6 A A 87 53.436 48.953 31.422 1.00 38.67 C +ATOM 1875 N6 A A 87 53.591 47.957 32.293 1.00 38.56 N +ATOM 1876 N1 A A 87 52.246 49.589 31.368 1.00 40.88 N +ATOM 1877 C2 A A 87 52.088 50.575 30.477 1.00 41.68 C +ATOM 1878 N3 A A 87 52.958 51.054 29.589 1.00 40.58 N +ATOM 1879 C4 A A 87 54.126 50.402 29.681 1.00 39.79 C +ATOM 1880 P U A 88 58.198 55.136 29.302 1.00 48.29 P +ATOM 1881 OP1 U A 88 58.993 56.266 28.738 1.00 47.03 O +ATOM 1882 OP2 U A 88 58.870 54.083 30.122 1.00 47.21 O +ATOM 1883 O5' U A 88 56.917 55.689 30.075 1.00 47.92 O +ATOM 1884 C5' U A 88 56.127 56.707 29.482 1.00 47.38 C +ATOM 1885 C4' U A 88 54.808 56.850 30.197 1.00 47.01 C +ATOM 1886 O4' U A 88 54.078 55.598 30.095 1.00 47.37 O +ATOM 1887 C3' U A 88 54.903 57.067 31.692 1.00 47.34 C +ATOM 1888 O3' U A 88 55.161 58.407 32.052 1.00 47.14 O +ATOM 1889 C2' U A 88 53.536 56.615 32.152 1.00 46.01 C +ATOM 1890 O2' U A 88 52.617 57.604 31.753 1.00 46.16 O +ATOM 1891 C1' U A 88 53.334 55.384 31.278 1.00 44.84 C +ATOM 1892 N1 U A 88 53.835 54.171 31.938 1.00 43.85 N +ATOM 1893 C2 U A 88 53.089 53.677 32.974 1.00 44.35 C +ATOM 1894 O2 U A 88 52.073 54.213 33.349 1.00 47.48 O +ATOM 1895 N3 U A 88 53.572 52.538 33.563 1.00 42.79 N +ATOM 1896 C4 U A 88 54.705 51.864 33.226 1.00 43.22 C +ATOM 1897 O4 U A 88 55.018 50.851 33.858 1.00 44.99 O +ATOM 1898 C5 U A 88 55.436 52.443 32.140 1.00 43.46 C +ATOM 1899 C6 U A 88 54.985 53.554 31.549 1.00 43.73 C +ATOM 1900 P G A 89 56.009 58.702 33.383 1.00 46.16 P +ATOM 1901 OP1 G A 89 56.494 60.099 33.290 1.00 45.41 O +ATOM 1902 OP2 G A 89 56.980 57.592 33.512 1.00 42.04 O +ATOM 1903 O5' G A 89 54.938 58.588 34.557 1.00 45.55 O +ATOM 1904 C5' G A 89 53.772 59.397 34.546 1.00 45.93 C +ATOM 1905 C4' G A 89 52.792 58.945 35.610 1.00 47.23 C +ATOM 1906 O4' G A 89 52.385 57.568 35.369 1.00 48.15 O +ATOM 1907 C3' G A 89 53.329 58.926 37.034 1.00 47.10 C +ATOM 1908 O3' G A 89 53.245 60.232 37.593 1.00 48.88 O +ATOM 1909 C2' G A 89 52.396 57.933 37.723 1.00 46.50 C +ATOM 1910 O2' G A 89 51.145 58.503 38.102 1.00 44.07 O +ATOM 1911 C1' G A 89 52.178 56.906 36.608 1.00 45.89 C +ATOM 1912 N9 G A 89 53.064 55.750 36.658 1.00 43.74 N +ATOM 1913 C8 G A 89 54.217 55.571 35.944 1.00 43.64 C +ATOM 1914 N7 G A 89 54.781 54.412 36.166 1.00 43.02 N +ATOM 1915 C5 G A 89 53.952 53.797 37.091 1.00 41.41 C +ATOM 1916 C6 G A 89 54.056 52.525 37.720 1.00 41.45 C +ATOM 1917 O6 G A 89 54.923 51.659 37.572 1.00 42.99 O +ATOM 1918 N1 G A 89 53.011 52.301 38.601 1.00 40.30 N +ATOM 1919 C2 G A 89 51.997 53.182 38.846 1.00 43.16 C +ATOM 1920 N2 G A 89 51.077 52.782 39.723 1.00 44.32 N +ATOM 1921 N3 G A 89 51.887 54.375 38.271 1.00 43.05 N +ATOM 1922 C4 G A 89 52.893 54.612 37.411 1.00 41.85 C +ATOM 1923 P A A 90 54.261 60.673 38.754 1.00 49.33 P +ATOM 1924 OP1 A A 90 53.796 62.025 39.132 1.00 50.89 O +ATOM 1925 OP2 A A 90 55.663 60.483 38.318 1.00 50.02 O +ATOM 1926 O5' A A 90 53.920 59.654 39.935 1.00 48.11 O +ATOM 1927 C5' A A 90 52.697 59.783 40.661 1.00 46.82 C +ATOM 1928 C4' A A 90 52.547 58.662 41.657 1.00 46.54 C +ATOM 1929 O4' A A 90 52.472 57.405 40.938 1.00 46.05 O +ATOM 1930 C3' A A 90 53.729 58.460 42.584 1.00 48.87 C +ATOM 1931 O3' A A 90 53.706 59.332 43.695 1.00 53.87 O +ATOM 1932 C2' A A 90 53.565 57.013 43.002 1.00 47.31 C +ATOM 1933 O2' A A 90 52.561 56.871 43.985 1.00 50.65 O +ATOM 1934 C1' A A 90 53.097 56.384 41.694 1.00 43.08 C +ATOM 1935 N9 A A 90 54.200 55.832 40.911 1.00 39.20 N +ATOM 1936 C8 A A 90 54.964 56.432 39.942 1.00 37.90 C +ATOM 1937 N7 A A 90 55.882 55.642 39.432 1.00 35.96 N +ATOM 1938 C5 A A 90 55.706 54.448 40.111 1.00 34.77 C +ATOM 1939 C6 A A 90 56.367 53.206 40.038 1.00 37.49 C +ATOM 1940 N6 A A 90 57.370 52.939 39.203 1.00 40.40 N +ATOM 1941 N1 A A 90 55.950 52.227 40.865 1.00 37.63 N +ATOM 1942 C2 A A 90 54.933 52.484 41.695 1.00 37.37 C +ATOM 1943 N3 A A 90 54.233 53.606 41.850 1.00 35.09 N +ATOM 1944 C4 A A 90 54.677 54.554 41.023 1.00 35.63 C +ATOM 1945 P G A 91 55.092 59.795 44.359 1.00 56.70 P +ATOM 1946 OP1 G A 91 54.771 60.922 45.270 1.00 57.70 O +ATOM 1947 OP2 G A 91 56.117 59.995 43.298 1.00 55.05 O +ATOM 1948 O5' G A 91 55.497 58.514 45.213 1.00 54.40 O +ATOM 1949 C5' G A 91 54.652 58.066 46.257 1.00 55.05 C +ATOM 1950 C4' G A 91 55.146 56.755 46.819 1.00 57.40 C +ATOM 1951 O4' G A 91 54.959 55.689 45.845 1.00 57.63 O +ATOM 1952 C3' G A 91 56.630 56.703 47.121 1.00 58.60 C +ATOM 1953 O3' G A 91 56.928 57.302 48.366 1.00 62.00 O +ATOM 1954 C2' G A 91 56.905 55.208 47.110 1.00 57.65 C +ATOM 1955 O2' G A 91 56.449 54.586 48.296 1.00 61.81 O +ATOM 1956 C1' G A 91 56.021 54.752 45.950 1.00 56.16 C +ATOM 1957 N9 G A 91 56.782 54.738 44.704 1.00 51.72 N +ATOM 1958 C8 G A 91 56.926 55.756 43.791 1.00 49.57 C +ATOM 1959 N7 G A 91 57.738 55.451 42.813 1.00 47.94 N +ATOM 1960 C5 G A 91 58.138 54.151 43.090 1.00 47.47 C +ATOM 1961 C6 G A 91 59.021 53.291 42.388 1.00 48.13 C +ATOM 1962 O6 G A 91 59.639 53.516 41.342 1.00 49.59 O +ATOM 1963 N1 G A 91 59.152 52.056 43.022 1.00 46.53 N +ATOM 1964 C2 G A 91 58.509 51.695 44.184 1.00 45.93 C +ATOM 1965 N2 G A 91 58.759 50.457 44.657 1.00 43.94 N +ATOM 1966 N3 G A 91 57.678 52.491 44.842 1.00 46.16 N +ATOM 1967 C4 G A 91 57.544 53.693 44.244 1.00 48.37 C +ATOM 1968 P C A 92 58.460 57.535 48.781 1.00 65.24 P +ATOM 1969 OP1 C A 92 58.483 58.295 50.060 1.00 65.63 O +ATOM 1970 OP2 C A 92 59.219 58.050 47.604 1.00 65.80 O +ATOM 1971 O5' C A 92 58.959 56.063 49.081 1.00 61.36 O +ATOM 1972 C5' C A 92 60.332 55.789 49.189 1.00 58.00 C +ATOM 1973 C4' C A 92 60.583 54.344 48.883 1.00 54.97 C +ATOM 1974 O4' C A 92 59.894 53.989 47.667 1.00 54.29 O +ATOM 1975 C3' C A 92 62.029 54.026 48.617 1.00 55.01 C +ATOM 1976 O3' C A 92 62.681 53.819 49.854 1.00 55.30 O +ATOM 1977 C2' C A 92 61.934 52.781 47.754 1.00 53.19 C +ATOM 1978 O2' C A 92 61.752 51.585 48.477 1.00 54.48 O +ATOM 1979 C1' C A 92 60.689 53.090 46.926 1.00 52.53 C +ATOM 1980 N1 C A 92 61.028 53.742 45.664 1.00 49.85 N +ATOM 1981 C2 C A 92 61.710 53.010 44.726 1.00 49.42 C +ATOM 1982 O2 C A 92 61.987 51.826 44.989 1.00 51.77 O +ATOM 1983 N3 C A 92 62.054 53.592 43.561 1.00 49.14 N +ATOM 1984 C4 C A 92 61.722 54.858 43.328 1.00 49.22 C +ATOM 1985 N4 C A 92 62.086 55.389 42.166 1.00 49.50 N +ATOM 1986 C5 C A 92 61.004 55.632 44.276 1.00 49.21 C +ATOM 1987 C6 C A 92 60.683 55.041 45.421 1.00 49.19 C +ATOM 1988 P C A 93 64.095 54.516 50.109 1.00 55.71 P +ATOM 1989 OP1 C A 93 64.369 54.474 51.568 1.00 57.76 O +ATOM 1990 OP2 C A 93 64.088 55.822 49.397 1.00 55.38 O +ATOM 1991 O5' C A 93 65.104 53.533 49.376 1.00 55.30 O +ATOM 1992 C5' C A 93 65.215 52.186 49.814 1.00 55.96 C +ATOM 1993 C4' C A 93 66.119 51.421 48.893 1.00 57.33 C +ATOM 1994 O4' C A 93 65.506 51.340 47.586 1.00 56.23 O +ATOM 1995 C3' C A 93 67.453 52.093 48.646 1.00 58.35 C +ATOM 1996 O3' C A 93 68.358 51.720 49.676 1.00 60.91 O +ATOM 1997 C2' C A 93 67.859 51.519 47.295 1.00 56.28 C +ATOM 1998 O2' C A 93 68.444 50.245 47.419 1.00 56.69 O +ATOM 1999 C1' C A 93 66.505 51.408 46.587 1.00 53.87 C +ATOM 2000 N1 C A 93 66.164 52.519 45.689 1.00 50.29 N +ATOM 2001 C2 C A 93 66.553 52.449 44.357 1.00 48.90 C +ATOM 2002 O2 C A 93 67.196 51.459 43.974 1.00 49.47 O +ATOM 2003 N3 C A 93 66.219 53.459 43.516 1.00 47.11 N +ATOM 2004 C4 C A 93 65.528 54.508 43.973 1.00 45.79 C +ATOM 2005 N4 C A 93 65.205 55.474 43.112 1.00 47.26 N +ATOM 2006 C5 C A 93 65.134 54.610 45.330 1.00 45.95 C +ATOM 2007 C6 C A 93 65.467 53.599 46.149 1.00 48.81 C +ATOM 2008 P A A 94 69.700 52.565 49.893 1.00 63.26 P +ATOM 2009 OP1 A A 94 70.472 51.929 51.000 1.00 63.03 O +ATOM 2010 OP2 A A 94 69.311 54.001 49.989 1.00 63.37 O +ATOM 2011 O5' A A 94 70.490 52.381 48.519 1.00 61.77 O +ATOM 2012 C5' A A 94 71.326 51.253 48.283 1.00 61.29 C +ATOM 2013 C4' A A 94 72.146 51.475 47.027 1.00 62.44 C +ATOM 2014 O4' A A 94 71.241 51.538 45.895 1.00 61.92 O +ATOM 2015 C3' A A 94 72.937 52.778 46.954 1.00 63.29 C +ATOM 2016 O3' A A 94 74.230 52.643 47.539 1.00 63.03 O +ATOM 2017 C2' A A 94 73.070 52.992 45.454 1.00 63.82 C +ATOM 2018 O2' A A 94 74.136 52.237 44.902 1.00 65.97 O +ATOM 2019 C1' A A 94 71.721 52.471 44.948 1.00 62.06 C +ATOM 2020 N9 A A 94 70.717 53.521 44.818 1.00 60.30 N +ATOM 2021 C8 A A 94 69.962 54.073 45.821 1.00 60.55 C +ATOM 2022 N7 A A 94 69.162 55.030 45.415 1.00 59.61 N +ATOM 2023 C5 A A 94 69.401 55.106 44.053 1.00 59.00 C +ATOM 2024 C6 A A 94 68.872 55.924 43.063 1.00 58.81 C +ATOM 2025 N6 A A 94 67.974 56.874 43.310 1.00 59.79 N +ATOM 2026 N1 A A 94 69.307 55.745 41.796 1.00 58.99 N +ATOM 2027 C2 A A 94 70.230 54.798 41.564 1.00 59.88 C +ATOM 2028 N3 A A 94 70.812 53.965 42.421 1.00 59.48 N +ATOM 2029 C4 A A 94 70.348 54.174 43.666 1.00 59.71 C +TER 2030 A A 94 +HETATM 2031 MG MG A 205 44.673 52.089 21.066 1.00 52.79 MG +HETATM 2032 MG MG A 206 57.959 37.961 33.008 1.00 75.51 MG +HETATM 2033 IR IRI A 201 53.885 56.740 -0.635 1.00 98.98 IR +HETATM 2034 N1 IRI A 201 52.485 58.054 -1.822 1.00 97.67 N +HETATM 2035 N2 IRI A 201 54.266 58.382 0.816 1.00 98.55 N +HETATM 2036 N3 IRI A 201 55.233 55.348 0.506 1.00 98.59 N +HETATM 2037 N4 IRI A 201 53.497 55.076 -2.135 1.00 99.01 N +HETATM 2038 N5 IRI A 201 52.127 56.049 0.598 1.00 98.22 N +HETATM 2039 N6 IRI A 201 55.669 57.413 -1.820 1.00 99.00 N +HETATM 2040 IR IRI A 202 53.580 69.128 10.808 1.00 85.21 IR +HETATM 2041 N1 IRI A 202 51.863 70.294 9.931 1.00 85.46 N +HETATM 2042 N2 IRI A 202 53.979 70.743 12.294 1.00 85.76 N +HETATM 2043 N3 IRI A 202 55.263 67.867 11.657 1.00 84.55 N +HETATM 2044 N4 IRI A 202 53.191 67.483 9.307 1.00 85.84 N +HETATM 2045 N5 IRI A 202 52.135 68.142 12.244 1.00 85.61 N +HETATM 2046 N6 IRI A 202 55.040 70.069 9.391 1.00 85.28 N +HETATM 2047 IR IRI A 203 61.715 45.974 13.576 1.00 89.54 IR +HETATM 2048 N1 IRI A 203 60.528 47.751 14.317 1.00 90.96 N +HETATM 2049 N2 IRI A 203 60.570 44.590 14.901 1.00 90.31 N +HETATM 2050 N3 IRI A 203 62.943 44.257 12.747 1.00 91.15 N +HETATM 2051 N4 IRI A 203 62.898 47.359 12.224 1.00 90.58 N +HETATM 2052 N5 IRI A 203 60.217 45.694 11.915 1.00 90.65 N +HETATM 2053 N6 IRI A 203 63.229 46.280 15.197 1.00 90.26 N +HETATM 2054 IR IRI A 204 58.679 49.493 35.312 1.00 49.00 IR +HETATM 2055 N1 IRI A 204 57.796 50.488 33.496 1.00 51.75 N +HETATM 2056 N2 IRI A 204 56.792 49.834 36.443 1.00 50.76 N +HETATM 2057 N3 IRI A 204 59.668 48.489 37.085 1.00 53.82 N +HETATM 2058 N4 IRI A 204 60.576 49.136 34.184 1.00 51.33 N +HETATM 2059 N5 IRI A 204 57.947 47.503 34.598 1.00 53.62 N +HETATM 2060 N6 IRI A 204 59.488 51.435 36.079 1.00 53.26 N +HETATM 2061 N SAM A 301 48.661 58.442 29.234 1.00 71.76 N +HETATM 2062 CA SAM A 301 48.892 57.767 27.953 1.00 71.83 C +HETATM 2063 C SAM A 301 47.728 58.043 27.018 1.00 73.09 C +HETATM 2064 O SAM A 301 47.747 57.608 25.870 1.00 74.98 O +HETATM 2065 OXT SAM A 301 46.793 58.755 27.385 1.00 73.14 O +HETATM 2066 CB SAM A 301 49.051 56.247 28.156 1.00 70.42 C +HETATM 2067 CG SAM A 301 49.924 55.993 29.384 1.00 68.18 C +HETATM 2068 SD SAM A 301 50.180 54.222 29.811 1.00 68.57 S +HETATM 2069 CE SAM A 301 49.547 53.321 28.362 1.00 68.16 C +HETATM 2070 C5' SAM A 301 48.781 54.097 30.945 1.00 63.51 C +HETATM 2071 C4' SAM A 301 49.142 54.393 32.411 1.00 61.14 C +HETATM 2072 O4' SAM A 301 49.826 55.679 32.483 1.00 59.00 O +HETATM 2073 C3' SAM A 301 47.793 54.604 33.049 1.00 59.63 C +HETATM 2074 O3' SAM A 301 47.357 53.395 33.671 1.00 61.69 O +HETATM 2075 C2' SAM A 301 48.045 55.680 34.098 1.00 58.07 C +HETATM 2076 O2' SAM A 301 48.258 55.128 35.392 1.00 60.89 O +HETATM 2077 C1' SAM A 301 49.315 56.473 33.618 1.00 56.29 C +HETATM 2078 N9 SAM A 301 49.019 57.807 33.055 1.00 52.35 N +HETATM 2079 C8 SAM A 301 49.941 58.804 32.897 1.00 49.96 C +HETATM 2080 N7 SAM A 301 49.391 59.863 32.379 1.00 49.17 N +HETATM 2081 C5 SAM A 301 48.084 59.618 32.158 1.00 49.87 C +HETATM 2082 C6 SAM A 301 47.000 60.356 31.619 1.00 49.12 C +HETATM 2083 N6 SAM A 301 47.179 61.649 31.181 1.00 49.12 N +HETATM 2084 N1 SAM A 301 45.794 59.770 31.541 1.00 48.62 N +HETATM 2085 C2 SAM A 301 45.596 58.512 31.950 1.00 48.26 C +HETATM 2086 N3 SAM A 301 46.578 57.797 32.476 1.00 48.84 N +HETATM 2087 C4 SAM A 301 47.821 58.293 32.591 1.00 50.12 C +HETATM 2088 O HOH A 401 57.434 67.701 5.730 1.00 62.83 O +HETATM 2089 O HOH A 402 66.189 60.895 3.390 1.00102.86 O +HETATM 2090 O HOH A 403 41.692 28.822 12.775 1.00 79.78 O +HETATM 2091 O HOH A 404 58.520 32.372 29.001 1.00 87.70 O +HETATM 2092 O HOH A 405 41.683 78.187 34.648 1.00 90.77 O +HETATM 2093 O HOH A 406 39.116 52.800 26.854 1.00 47.35 O +HETATM 2094 O HOH A 407 60.473 27.307 22.789 1.00 55.76 O +HETATM 2095 O HOH A 408 66.992 61.289 13.604 1.00 74.35 O +HETATM 2096 O HOH A 409 54.344 44.338 21.904 1.00 44.49 O +HETATM 2097 O HOH A 410 44.691 72.338 12.049 1.00 50.99 O +HETATM 2098 O HOH A 411 40.751 63.603 43.590 1.00 89.83 O +HETATM 2099 O HOH A 412 53.645 41.356 9.844 1.00 90.63 O +HETATM 2100 O HOH A 413 59.949 37.796 24.955 1.00 70.80 O +HETATM 2101 O HOH A 415 51.339 54.431 20.373 1.00 76.96 O +HETATM 2102 O HOH A 416 37.653 77.331 42.105 1.00104.47 O +HETATM 2103 O HOH A 417 52.864 38.162 12.617 1.00 80.23 O +HETATM 2104 O HOH A 418 70.042 75.630 9.251 1.00 96.14 O +HETATM 2105 O HOH A 419 57.849 36.827 16.245 1.00 55.25 O +HETATM 2106 O HOH A 420 51.199 53.647 16.824 1.00 68.61 O +HETATM 2107 O HOH A 421 46.270 42.361 39.422 1.00 86.08 O +HETATM 2108 O HOH A 422 39.748 46.501 33.723 1.00 90.52 O +HETATM 2109 O HOH A 423 55.402 30.310 22.335 1.00153.77 O +HETATM 2110 O HOH A 424 62.850 37.633 36.622 1.00 93.90 O +HETATM 2111 O HOH A 425 52.620 28.934 10.172 1.00 66.53 O +HETATM 2112 O HOH A 426 46.043 72.059 15.009 1.00 81.11 O +HETATM 2113 O HOH A 427 44.504 24.559 13.975 1.00 95.67 O +HETATM 2114 O HOH A 428 64.390 51.541 8.357 1.00 96.89 O +HETATM 2115 O HOH A 429 62.387 43.098 34.217 1.00 62.96 O +HETATM 2116 O HOH A 430 40.781 42.498 19.177 1.00 95.04 O +HETATM 2117 O HOH A 431 51.714 28.135 30.983 1.00 99.10 O +HETATM 2118 O HOH A 432 56.277 41.684 42.172 1.00 76.07 O +HETATM 2119 O HOH A 433 71.383 70.114 4.691 1.00115.24 O +HETATM 2120 O HOH A 434 43.954 36.036 19.243 1.00 60.36 O +HETATM 2121 O HOH A 435 42.927 80.090 37.718 1.00 93.62 O +HETATM 2122 O HOH A 436 57.157 36.207 23.849 1.00 66.99 O +HETATM 2123 O HOH A 437 50.487 54.395 35.797 1.00115.03 O +HETATM 2124 O HOH A 438 42.557 37.639 16.483 1.00104.97 O +HETATM 2125 O HOH A 439 52.517 25.349 8.099 1.00 83.24 O +HETATM 2126 O HOH A 440 43.812 69.893 17.618 1.00 74.07 O +HETATM 2127 O HOH A 441 42.386 49.215 25.612 1.00 87.62 O +HETATM 2128 O HOH A 442 43.738 47.793 12.611 1.00 97.20 O +HETATM 2129 O HOH A 443 56.851 56.881 11.453 1.00 65.45 O +HETATM 2130 O HOH A 444 41.494 28.883 24.574 1.00 68.68 O +HETATM 2131 O HOH A 445 66.299 67.845 11.185 1.00119.36 O +HETATM 2132 O HOH A 446 44.327 43.962 37.114 1.00 59.00 O +HETATM 2133 O HOH A 447 55.964 29.615 20.081 1.00 95.39 O +HETATM 2134 O HOH A 448 57.973 59.050 -2.009 1.00109.16 O +HETATM 2135 O HOH A 449 59.402 59.312 31.449 1.00 68.84 O +HETATM 2136 O HOH A 450 43.007 16.103 21.017 1.00106.73 O +HETATM 2137 O HOH A 451 42.422 49.150 15.212 1.00 78.44 O +HETATM 2138 O HOH A 452 70.835 47.923 38.230 1.00 80.61 O +HETATM 2139 O HOH A 453 61.705 64.436 22.275 1.00 84.32 O +HETATM 2140 O HOH A 454 46.943 51.613 25.671 1.00 73.11 O +HETATM 2141 O HOH A 455 54.648 46.163 19.618 1.00 62.24 O +HETATM 2142 O HOH A 456 38.484 46.751 20.701 1.00 56.54 O +HETATM 2143 O HOH A 457 60.794 35.462 31.358 1.00109.99 O +HETATM 2144 O HOH A 458 44.895 54.912 35.019 1.00 81.53 O +HETATM 2145 O HOH A 459 60.469 54.509 19.865 1.00 78.35 O +HETATM 2146 O HOH A 460 40.557 49.152 31.709 1.00 94.98 O +HETATM 2147 O HOH A 461 49.564 72.961 7.126 1.00127.46 O +HETATM 2148 O HOH A 462 38.911 32.924 24.206 1.00 94.52 O +HETATM 2149 O HOH A 463 44.840 67.115 17.805 1.00 64.28 O +HETATM 2150 O HOH A 464 59.959 60.408 29.152 1.00 87.28 O +HETATM 2151 O HOH A 465 47.480 63.127 48.379 1.00106.79 O +HETATM 2152 O HOH A 466 41.379 47.530 27.555 1.00 63.18 O +HETATM 2153 O HOH A 467 55.256 41.519 33.323 1.00 88.02 O +HETATM 2154 O HOH A 468 46.278 35.257 34.883 1.00103.21 O +HETATM 2155 O HOH A 469 50.168 44.685 11.400 1.00 84.54 O +HETATM 2156 O HOH A 470 55.140 23.817 9.150 1.00 80.25 O +HETATM 2157 O HOH A 471 59.853 74.716 4.618 1.00 98.69 O +HETATM 2158 O HOH A 472 50.122 40.345 41.076 1.00 96.48 O +HETATM 2159 O HOH A 473 65.972 41.974 36.431 1.00117.24 O +HETATM 2160 O HOH A 474 55.172 63.267 37.006 1.00103.99 O +HETATM 2161 O HOH A 475 57.260 52.484 35.826 1.00 36.48 O +HETATM 2162 O HOH A 476 47.778 19.952 7.533 1.00 98.79 O +HETATM 2163 O HOH A 477 61.467 73.402 3.421 1.00 91.53 O +HETATM 2164 O HOH A 478 58.411 68.300 -1.259 1.00 79.23 O +HETATM 2165 O HOH A 479 41.220 45.034 19.654 1.00104.86 O +HETATM 2166 O HOH A 480 55.599 58.758 22.542 1.00 99.09 O +HETATM 2167 O HOH A 481 53.744 43.835 45.686 1.00120.41 O +HETATM 2168 O HOH A 482 59.195 65.528 18.099 1.00 79.51 O +HETATM 2169 O HOH A 483 61.286 41.409 39.993 1.00 90.87 O +HETATM 2170 O HOH A 484 49.047 34.291 16.948 1.00101.95 O +HETATM 2171 O HOH A 485 51.730 71.388 25.674 1.00 52.14 O +HETATM 2172 O HOH A 486 49.629 29.507 20.165 1.00 58.18 O +HETATM 2173 O HOH A 487 39.919 50.462 26.232 1.00 67.53 O +HETATM 2174 O HOH A 488 64.965 67.977 4.650 1.00 80.20 O +HETATM 2175 O HOH A 489 48.890 37.269 24.529 1.00 49.39 O +CONECT 194 2031 +CONECT 1351 2031 +CONECT 1365 2031 +CONECT 1792 2032 +CONECT 1794 2032 +CONECT 1799 2032 +CONECT 1815 2032 +CONECT 2031 194 1351 1365 +CONECT 2032 1792 1794 1799 1815 +CONECT 2033 2034 2035 2036 2037 +CONECT 2033 2038 2039 +CONECT 2034 2033 +CONECT 2035 2033 +CONECT 2036 2033 +CONECT 2037 2033 +CONECT 2038 2033 +CONECT 2039 2033 +CONECT 2040 2041 2042 2043 2044 +CONECT 2040 2045 2046 +CONECT 2041 2040 +CONECT 2042 2040 +CONECT 2043 2040 +CONECT 2044 2040 +CONECT 2045 2040 +CONECT 2046 2040 +CONECT 2047 2048 2049 2050 2051 +CONECT 2047 2052 2053 +CONECT 2048 2047 +CONECT 2049 2047 +CONECT 2050 2047 +CONECT 2051 2047 +CONECT 2052 2047 +CONECT 2053 2047 +CONECT 2054 2055 2056 2057 2058 +CONECT 2054 2059 2060 +CONECT 2055 2054 +CONECT 2056 2054 +CONECT 2057 2054 +CONECT 2058 2054 +CONECT 2059 2054 +CONECT 2060 2054 +CONECT 2061 2062 +CONECT 2062 2061 2063 2066 +CONECT 2063 2062 2064 2065 +CONECT 2064 2063 +CONECT 2065 2063 +CONECT 2066 2062 2067 +CONECT 2067 2066 2068 +CONECT 2068 2067 2069 2070 +CONECT 2069 2068 +CONECT 2070 2068 2071 +CONECT 2071 2070 2072 2073 +CONECT 2072 2071 2077 +CONECT 2073 2071 2074 2075 +CONECT 2074 2073 +CONECT 2075 2073 2076 2077 +CONECT 2076 2075 +CONECT 2077 2072 2075 2078 +CONECT 2078 2077 2079 2087 +CONECT 2079 2078 2080 +CONECT 2080 2079 2081 +CONECT 2081 2080 2082 2087 +CONECT 2082 2081 2083 2084 +CONECT 2083 2082 +CONECT 2084 2082 2085 +CONECT 2085 2084 2086 +CONECT 2086 2085 2087 +CONECT 2087 2078 2081 2086 +MASTER 373 0 7 0 0 0 13 6 2174 1 68 8 +END diff --git a/utils/jalviewjs/site-resources/examples/3W5V.pdb b/utils/jalviewjs/site-resources/examples/3W5V.pdb new file mode 100644 index 0000000..8af59d9 --- /dev/null +++ b/utils/jalviewjs/site-resources/examples/3W5V.pdb @@ -0,0 +1,7088 @@ +HEADER ELECTRON TRANSPORT 06-FEB-13 3W5V +TITLE CROSS-LINKED COMPLEX BETWEEN FERREDOXIN AND FERREDOXIN-NADP+ REDUCTASE +COMPND MOL_ID: 1; +COMPND 2 MOLECULE: FERREDOXIN; +COMPND 3 CHAIN: A, C; +COMPND 4 FRAGMENT: UNP RESIDUES 42-355; +COMPND 5 SYNONYM: FERREDOXIN--NADP REDUCTASE, LEAF ISOZYME, +COMPND 6 FERREDOXINFERREDOXIN--NADP REDUCTASE, LEAF ISOZYME, UNCHARACTERIZED +COMPND 7 PROTEIN; +COMPND 8 ENGINEERED: YES; +COMPND 9 MUTATION: YES; +COMPND 10 MOL_ID: 2; +COMPND 11 MOLECULE: FERREDOXIN-1, CHLOROPLASTIC; +COMPND 12 CHAIN: B, D; +COMPND 13 FRAGMENT: UNP RESIDUES 53-150; +COMPND 14 SYNONYM: FERREDOXIN I, FD I; +COMPND 15 ENGINEERED: YES; +COMPND 16 MUTATION: YES +SOURCE MOL_ID: 1; +SOURCE 2 ORGANISM_SCIENTIFIC: ZEA MAYS; +SOURCE 3 ORGANISM_COMMON: MAIZE; +SOURCE 4 ORGANISM_TAXID: 4577; +SOURCE 5 GENE: L-FNRI, ZEAMMB73_343560; +SOURCE 6 EXPRESSION_SYSTEM: ESCHERICHIA COLI; +SOURCE 7 EXPRESSION_SYSTEM_TAXID: 562; +SOURCE 8 EXPRESSION_SYSTEM_VECTOR_TYPE: PLASMID; +SOURCE 9 MOL_ID: 2; +SOURCE 10 ORGANISM_SCIENTIFIC: ZEA MAYS; +SOURCE 11 ORGANISM_COMMON: MAIZE; +SOURCE 12 ORGANISM_TAXID: 4577; +SOURCE 13 GENE: FDX1, PFD1; +SOURCE 14 EXPRESSION_SYSTEM: ESCHERICHIA COLI; +SOURCE 15 EXPRESSION_SYSTEM_TAXID: 562; +SOURCE 16 EXPRESSION_SYSTEM_VECTOR_TYPE: PLASMID +KEYWDS ELECTRON TRANSFER COMPLEX, ELECTRON TRANSPORT +EXPDTA X-RAY DIFFRACTION +AUTHOR Y.KIMATA-ARIGA,H.KUBOTA-KAWAI,N.MURAKI,T.HASE,G.KURISU +REVDAT 1 19-JUN-13 3W5V 0 +JRNL AUTH Y.KIMATA-ARIGA,H.KUBOTA-KAWAI,Y.-H.LEE,N.MURAKI,T.IKEGAMI, +JRNL AUTH 2 G.KURISU,T.HASE +JRNL TITL CONCENTRATION-DEPENDENT OLIGOMERIZATION OF CROSS-LINKED +JRNL TITL 2 COMPLEXES BETWEEN FERREDOXIN AND FERREDOXIN-NADP(+) +JRNL TITL 3 REDUCTASE +JRNL REF BIOCHEM.BIOPHYS.RES.COMMUN. V. 434 867 2013 +JRNL REFN ISSN 0006-291X +JRNL PMID 23618857 +JRNL DOI 10.1016/J.BBRC.2013.04.033 +REMARK 2 +REMARK 2 RESOLUTION. 3.81 ANGSTROMS. +REMARK 3 +REMARK 3 REFINEMENT. +REMARK 3 PROGRAM : REFMAC 5.6.0117 +REMARK 3 AUTHORS : MURSHUDOV,VAGIN,DODSON +REMARK 3 +REMARK 3 REFINEMENT TARGET : MAXIMUM LIKELIHOOD +REMARK 3 +REMARK 3 DATA USED IN REFINEMENT. +REMARK 3 RESOLUTION RANGE HIGH (ANGSTROMS) : 3.81 +REMARK 3 RESOLUTION RANGE LOW (ANGSTROMS) : 35.67 +REMARK 3 DATA CUTOFF (SIGMA(F)) : NULL +REMARK 3 COMPLETENESS FOR RANGE (%) : 98.3 +REMARK 3 NUMBER OF REFLECTIONS : 13076 +REMARK 3 +REMARK 3 FIT TO DATA USED IN REFINEMENT. +REMARK 3 CROSS-VALIDATION METHOD : THROUGHOUT +REMARK 3 FREE R VALUE TEST SET SELECTION : RANDOM +REMARK 3 R VALUE (WORKING + TEST SET) : 0.279 +REMARK 3 R VALUE (WORKING SET) : 0.277 +REMARK 3 FREE R VALUE : 0.306 +REMARK 3 FREE R VALUE TEST SET SIZE (%) : 5.000 +REMARK 3 FREE R VALUE TEST SET COUNT : 683 +REMARK 3 +REMARK 3 FIT IN THE HIGHEST RESOLUTION BIN. +REMARK 3 TOTAL NUMBER OF BINS USED : 20 +REMARK 3 BIN RESOLUTION RANGE HIGH (A) : 3.81 +REMARK 3 BIN RESOLUTION RANGE LOW (A) : 3.90 +REMARK 3 REFLECTION IN BIN (WORKING SET) : 878 +REMARK 3 BIN COMPLETENESS (WORKING+TEST) (%) : 93.74 +REMARK 3 BIN R VALUE (WORKING SET) : 0.5870 +REMARK 3 BIN FREE R VALUE SET COUNT : 51 +REMARK 3 BIN FREE R VALUE : 0.6500 +REMARK 3 +REMARK 3 NUMBER OF NON-HYDROGEN ATOMS USED IN REFINEMENT. +REMARK 3 PROTEIN ATOMS : 6176 +REMARK 3 NUCLEIC ACID ATOMS : 0 +REMARK 3 HETEROGEN ATOMS : 114 +REMARK 3 SOLVENT ATOMS : 0 +REMARK 3 +REMARK 3 B VALUES. +REMARK 3 FROM WILSON PLOT (A**2) : NULL +REMARK 3 MEAN B VALUE (OVERALL, A**2) : 39.99 +REMARK 3 OVERALL ANISOTROPIC B VALUE. +REMARK 3 B11 (A**2) : -0.01000 +REMARK 3 B22 (A**2) : 0.12000 +REMARK 3 B33 (A**2) : -0.07000 +REMARK 3 B12 (A**2) : -0.00000 +REMARK 3 B13 (A**2) : 0.07000 +REMARK 3 B23 (A**2) : -0.00000 +REMARK 3 +REMARK 3 ESTIMATED OVERALL COORDINATE ERROR. +REMARK 3 ESU BASED ON R VALUE (A): NULL +REMARK 3 ESU BASED ON FREE R VALUE (A): 0.827 +REMARK 3 ESU BASED ON MAXIMUM LIKELIHOOD (A): 0.920 +REMARK 3 ESU FOR B VALUES BASED ON MAXIMUM LIKELIHOOD (A**2): 73.326 +REMARK 3 +REMARK 3 CORRELATION COEFFICIENTS. +REMARK 3 CORRELATION COEFFICIENT FO-FC : 0.949 +REMARK 3 CORRELATION COEFFICIENT FO-FC FREE : 0.942 +REMARK 3 +REMARK 3 RMS DEVIATIONS FROM IDEAL VALUES COUNT RMS WEIGHT +REMARK 3 BOND LENGTHS REFINED ATOMS (A): 6430 ; 0.010 ; 0.020 +REMARK 3 BOND LENGTHS OTHERS (A): NULL ; NULL ; NULL +REMARK 3 BOND ANGLES REFINED ATOMS (DEGREES): 8708 ; 1.361 ; 1.989 +REMARK 3 BOND ANGLES OTHERS (DEGREES): NULL ; NULL ; NULL +REMARK 3 TORSION ANGLES, PERIOD 1 (DEGREES): 782 ; 6.280 ; 5.000 +REMARK 3 TORSION ANGLES, PERIOD 2 (DEGREES): 286 ;37.739 ;25.315 +REMARK 3 TORSION ANGLES, PERIOD 3 (DEGREES): 1124 ;17.100 ;15.000 +REMARK 3 TORSION ANGLES, PERIOD 4 (DEGREES): 24 ;13.428 ;15.000 +REMARK 3 CHIRAL-CENTER RESTRAINTS (A**3): 932 ; 0.084 ; 0.200 +REMARK 3 GENERAL PLANES REFINED ATOMS (A): 4820 ; 0.005 ; 0.021 +REMARK 3 GENERAL PLANES OTHERS (A): NULL ; NULL ; NULL +REMARK 3 NON-BONDED CONTACTS REFINED ATOMS (A): NULL ; NULL ; NULL +REMARK 3 NON-BONDED CONTACTS OTHERS (A): NULL ; NULL ; NULL +REMARK 3 NON-BONDED TORSION REFINED ATOMS (A): NULL ; NULL ; NULL +REMARK 3 NON-BONDED TORSION OTHERS (A): NULL ; NULL ; NULL +REMARK 3 H-BOND (X...Y) REFINED ATOMS (A): NULL ; NULL ; NULL +REMARK 3 H-BOND (X...Y) OTHERS (A): NULL ; NULL ; NULL +REMARK 3 POTENTIAL METAL-ION REFINED ATOMS (A): NULL ; NULL ; NULL +REMARK 3 POTENTIAL METAL-ION OTHERS (A): NULL ; NULL ; NULL +REMARK 3 SYMMETRY VDW REFINED ATOMS (A): NULL ; NULL ; NULL +REMARK 3 SYMMETRY VDW OTHERS (A): NULL ; NULL ; NULL +REMARK 3 SYMMETRY H-BOND REFINED ATOMS (A): NULL ; NULL ; NULL +REMARK 3 SYMMETRY H-BOND OTHERS (A): NULL ; NULL ; NULL +REMARK 3 SYMMETRY METAL-ION REFINED ATOMS (A): NULL ; NULL ; NULL +REMARK 3 SYMMETRY METAL-ION OTHERS (A): NULL ; NULL ; NULL +REMARK 3 +REMARK 3 ISOTROPIC THERMAL FACTOR RESTRAINTS. COUNT RMS WEIGHT +REMARK 3 MAIN-CHAIN BOND REFINED ATOMS (A**2): NULL ; NULL ; NULL +REMARK 3 MAIN-CHAIN BOND OTHER ATOMS (A**2): NULL ; NULL ; NULL +REMARK 3 MAIN-CHAIN ANGLE REFINED ATOMS (A**2): NULL ; NULL ; NULL +REMARK 3 SIDE-CHAIN BOND REFINED ATOMS (A**2): NULL ; NULL ; NULL +REMARK 3 SIDE-CHAIN ANGLE REFINED ATOMS (A**2): NULL ; NULL ; NULL +REMARK 3 +REMARK 3 ANISOTROPIC THERMAL FACTOR RESTRAINTS. COUNT RMS WEIGHT +REMARK 3 RIGID-BOND RESTRAINTS (A**2): NULL ; NULL ; NULL +REMARK 3 SPHERICITY; FREE ATOMS (A**2): NULL ; NULL ; NULL +REMARK 3 SPHERICITY; BONDED ATOMS (A**2): NULL ; NULL ; NULL +REMARK 3 +REMARK 3 NCS RESTRAINTS STATISTICS +REMARK 3 NUMBER OF DIFFERENT NCS GROUPS : NULL +REMARK 3 +REMARK 3 TLS DETAILS +REMARK 3 NUMBER OF TLS GROUPS : NULL +REMARK 3 +REMARK 3 BULK SOLVENT MODELLING. +REMARK 3 METHOD USED : MASK +REMARK 3 PARAMETERS FOR MASK CALCULATION +REMARK 3 VDW PROBE RADIUS : 1.20 +REMARK 3 ION PROBE RADIUS : 0.80 +REMARK 3 SHRINKAGE RADIUS : 0.80 +REMARK 3 +REMARK 3 OTHER REFINEMENT REMARKS: HYDROGENS HAVE BEEN USED IF PRESENT IN +REMARK 3 THE INPUT +REMARK 4 +REMARK 4 3W5V COMPLIES WITH FORMAT V. 3.30, 13-JUL-11 +REMARK 100 +REMARK 100 THIS ENTRY HAS BEEN PROCESSED BY PDBJ ON 15-FEB-13. +REMARK 100 THE RCSB ID CODE IS RCSB095924. +REMARK 200 +REMARK 200 EXPERIMENTAL DETAILS +REMARK 200 EXPERIMENT TYPE : X-RAY DIFFRACTION +REMARK 200 DATE OF DATA COLLECTION : 24-JUL-11 +REMARK 200 TEMPERATURE (KELVIN) : 100 +REMARK 200 PH : 7.5 +REMARK 200 NUMBER OF CRYSTALS USED : 1 +REMARK 200 +REMARK 200 SYNCHROTRON (Y/N) : Y +REMARK 200 RADIATION SOURCE : SPRING-8 +REMARK 200 BEAMLINE : BL44XU +REMARK 200 X-RAY GENERATOR MODEL : NULL +REMARK 200 MONOCHROMATIC OR LAUE (M/L) : M +REMARK 200 WAVELENGTH OR RANGE (A) : 0.90000 +REMARK 200 MONOCHROMATOR : NULL +REMARK 200 OPTICS : NULL +REMARK 200 +REMARK 200 DETECTOR TYPE : CCD +REMARK 200 DETECTOR MANUFACTURER : RAYONIX MX225HE +REMARK 200 INTENSITY-INTEGRATION SOFTWARE : HKL-2000 +REMARK 200 DATA SCALING SOFTWARE : HKL-2000 +REMARK 200 +REMARK 200 NUMBER OF UNIQUE REFLECTIONS : 13803 +REMARK 200 RESOLUTION RANGE HIGH (A) : 3.800 +REMARK 200 RESOLUTION RANGE LOW (A) : 50.000 +REMARK 200 REJECTION CRITERIA (SIGMA(I)) : NULL +REMARK 200 +REMARK 200 OVERALL. +REMARK 200 COMPLETENESS FOR RANGE (%) : NULL +REMARK 200 DATA REDUNDANCY : NULL +REMARK 200 R MERGE (I) : NULL +REMARK 200 R SYM (I) : NULL +REMARK 200 FOR THE DATA SET : NULL +REMARK 200 +REMARK 200 IN THE HIGHEST RESOLUTION SHELL. +REMARK 200 HIGHEST RESOLUTION SHELL, RANGE HIGH (A) : NULL +REMARK 200 HIGHEST RESOLUTION SHELL, RANGE LOW (A) : NULL +REMARK 200 COMPLETENESS FOR SHELL (%) : NULL +REMARK 200 DATA REDUNDANCY IN SHELL : NULL +REMARK 200 R MERGE FOR SHELL (I) : NULL +REMARK 200 R SYM FOR SHELL (I) : NULL +REMARK 200 FOR SHELL : NULL +REMARK 200 +REMARK 200 DIFFRACTION PROTOCOL: SINGLE WAVELENGTH +REMARK 200 METHOD USED TO DETERMINE THE STRUCTURE: MOLECULAR REPLACEMENT +REMARK 200 SOFTWARE USED: PHASER +REMARK 200 STARTING MODEL: 1GAW, 3B2F +REMARK 200 +REMARK 200 REMARK: NULL +REMARK 280 +REMARK 280 CRYSTAL +REMARK 280 SOLVENT CONTENT, VS (%): 68.66 +REMARK 280 MATTHEWS COEFFICIENT, VM (ANGSTROMS**3/DA): 3.92 +REMARK 280 +REMARK 280 CRYSTALLIZATION CONDITIONS: 8% PEG 8000, 20% ETHYLENE GLYCOL, +REMARK 280 100MM BIS-TRIS, PH 7.5, VAPOR DIFFUSION, HANGING DROP, +REMARK 280 TEMPERATURE 277K +REMARK 290 +REMARK 290 CRYSTALLOGRAPHIC SYMMETRY +REMARK 290 SYMMETRY OPERATORS FOR SPACE GROUP: P 1 21 1 +REMARK 290 +REMARK 290 SYMOP SYMMETRY +REMARK 290 NNNMMM OPERATOR +REMARK 290 1555 X,Y,Z +REMARK 290 2555 -X,Y+1/2,-Z +REMARK 290 +REMARK 290 WHERE NNN -> OPERATOR NUMBER +REMARK 290 MMM -> TRANSLATION VECTOR +REMARK 290 +REMARK 290 CRYSTALLOGRAPHIC SYMMETRY TRANSFORMATIONS +REMARK 290 THE FOLLOWING TRANSFORMATIONS OPERATE ON THE ATOM/HETATM +REMARK 290 RECORDS IN THIS ENTRY TO PRODUCE CRYSTALLOGRAPHICALLY +REMARK 290 RELATED MOLECULES. +REMARK 290 SMTRY1 1 1.000000 0.000000 0.000000 0.00000 +REMARK 290 SMTRY2 1 0.000000 1.000000 0.000000 0.00000 +REMARK 290 SMTRY3 1 0.000000 0.000000 1.000000 0.00000 +REMARK 290 SMTRY1 2 -1.000000 0.000000 0.000000 0.00000 +REMARK 290 SMTRY2 2 0.000000 1.000000 0.000000 60.17250 +REMARK 290 SMTRY3 2 0.000000 0.000000 -1.000000 0.00000 +REMARK 290 +REMARK 290 REMARK: NULL +REMARK 300 +REMARK 300 BIOMOLECULE: 1, 2 +REMARK 300 SEE REMARK 350 FOR THE AUTHOR PROVIDED AND/OR PROGRAM +REMARK 300 GENERATED ASSEMBLY INFORMATION FOR THE STRUCTURE IN +REMARK 300 THIS ENTRY. THE REMARK MAY ALSO PROVIDE INFORMATION ON +REMARK 300 BURIED SURFACE AREA. +REMARK 350 +REMARK 350 COORDINATES FOR A COMPLETE MULTIMER REPRESENTING THE KNOWN +REMARK 350 BIOLOGICALLY SIGNIFICANT OLIGOMERIZATION STATE OF THE +REMARK 350 MOLECULE CAN BE GENERATED BY APPLYING BIOMT TRANSFORMATIONS +REMARK 350 GIVEN BELOW. BOTH NON-CRYSTALLOGRAPHIC AND +REMARK 350 CRYSTALLOGRAPHIC OPERATIONS ARE GIVEN. +REMARK 350 +REMARK 350 BIOMOLECULE: 1 +REMARK 350 AUTHOR DETERMINED BIOLOGICAL UNIT: DIMERIC +REMARK 350 SOFTWARE DETERMINED QUATERNARY STRUCTURE: DIMERIC +REMARK 350 SOFTWARE USED: PISA +REMARK 350 TOTAL BURIED SURFACE AREA: 1370 ANGSTROM**2 +REMARK 350 SURFACE AREA OF THE COMPLEX: 19220 ANGSTROM**2 +REMARK 350 CHANGE IN SOLVENT FREE ENERGY: -28.0 KCAL/MOL +REMARK 350 APPLY THE FOLLOWING TO CHAINS: A, D +REMARK 350 BIOMT1 1 1.000000 0.000000 0.000000 0.00000 +REMARK 350 BIOMT2 1 0.000000 1.000000 0.000000 0.00000 +REMARK 350 BIOMT3 1 0.000000 0.000000 1.000000 0.00000 +REMARK 350 +REMARK 350 BIOMOLECULE: 2 +REMARK 350 AUTHOR DETERMINED BIOLOGICAL UNIT: DIMERIC +REMARK 350 SOFTWARE DETERMINED QUATERNARY STRUCTURE: DIMERIC +REMARK 350 SOFTWARE USED: PISA +REMARK 350 TOTAL BURIED SURFACE AREA: 1640 ANGSTROM**2 +REMARK 350 SURFACE AREA OF THE COMPLEX: 18950 ANGSTROM**2 +REMARK 350 CHANGE IN SOLVENT FREE ENERGY: -28.0 KCAL/MOL +REMARK 350 APPLY THE FOLLOWING TO CHAINS: C, B +REMARK 350 BIOMT1 1 1.000000 0.000000 0.000000 0.00000 +REMARK 350 BIOMT2 1 0.000000 1.000000 0.000000 0.00000 +REMARK 350 BIOMT3 1 0.000000 0.000000 1.000000 0.00000 +REMARK 465 +REMARK 465 MISSING RESIDUES +REMARK 465 THE FOLLOWING RESIDUES WERE NOT LOCATED IN THE +REMARK 465 EXPERIMENT. (M=MODEL NUMBER; RES=RESIDUE NAME; C=CHAIN +REMARK 465 IDENTIFIER; SSSEQ=SEQUENCE NUMBER; I=INSERTION CODE.) +REMARK 465 +REMARK 465 M RES C SSSEQI +REMARK 465 ILE A 1 +REMARK 465 ARG A 2 +REMARK 465 ALA A 3 +REMARK 465 GLN A 4 +REMARK 465 ALA A 5 +REMARK 465 SER A 6 +REMARK 465 ALA A 7 +REMARK 465 VAL A 8 +REMARK 465 GLU A 9 +REMARK 465 ALA A 10 +REMARK 465 PRO A 11 +REMARK 465 ALA A 12 +REMARK 465 THR A 13 +REMARK 465 ALA A 14 +REMARK 465 LYS A 15 +REMARK 465 ALA A 16 +REMARK 465 LYS A 17 +REMARK 465 GLY B 97 +REMARK 465 ALA B 98 +REMARK 465 ILE C 1 +REMARK 465 ARG C 2 +REMARK 465 ALA C 3 +REMARK 465 GLN C 4 +REMARK 465 ALA C 5 +REMARK 465 SER C 6 +REMARK 465 ALA C 7 +REMARK 465 VAL C 8 +REMARK 465 GLU C 9 +REMARK 465 ALA C 10 +REMARK 465 PRO C 11 +REMARK 465 ALA C 12 +REMARK 465 THR C 13 +REMARK 465 ALA C 14 +REMARK 465 LYS C 15 +REMARK 465 ALA C 16 +REMARK 465 LYS C 17 +REMARK 465 GLY D 97 +REMARK 465 ALA D 98 +REMARK 500 +REMARK 500 GEOMETRY AND STEREOCHEMISTRY +REMARK 500 SUBTOPIC: CLOSE CONTACTS IN SAME ASYMMETRIC UNIT +REMARK 500 +REMARK 500 THE FOLLOWING ATOMS ARE IN CLOSE CONTACT. +REMARK 500 +REMARK 500 ATM1 RES C SSEQI ATM2 RES C SSEQI DISTANCE +REMARK 500 SG CYS B 47 FE1 FES B 101 1.79 +REMARK 500 SG CYS B 44 FE2 FES B 101 1.83 +REMARK 500 O LEU C 94 C9A FAD C 401 2.17 +REMARK 500 +REMARK 500 REMARK: NULL +REMARK 500 +REMARK 500 GEOMETRY AND STEREOCHEMISTRY +REMARK 500 SUBTOPIC: COVALENT BOND ANGLES +REMARK 500 +REMARK 500 THE STEREOCHEMICAL PARAMETERS OF THE FOLLOWING RESIDUES +REMARK 500 HAVE VALUES WHICH DEVIATE FROM EXPECTED VALUES BY MORE +REMARK 500 THAN 6*RMSD (M=MODEL NUMBER; RES=RESIDUE NAME; C=CHAIN +REMARK 500 IDENTIFIER; SSEQ=SEQUENCE NUMBER; I=INSERTION CODE). +REMARK 500 +REMARK 500 STANDARD TABLE: +REMARK 500 FORMAT: (10X,I3,1X,A3,1X,A1,I4,A1,3(1X,A4,2X),12X,F5.1) +REMARK 500 +REMARK 500 EXPECTED VALUES PROTEIN: ENGH AND HUBER, 1999 +REMARK 500 EXPECTED VALUES NUCLEIC ACID: CLOWNEY ET AL 1996 +REMARK 500 +REMARK 500 M RES CSSEQI ATM1 ATM2 ATM3 +REMARK 500 CYS C 19 CA - CB - SG ANGL. DEV. = 8.7 DEGREES +REMARK 500 +REMARK 500 REMARK: NULL +REMARK 500 +REMARK 500 GEOMETRY AND STEREOCHEMISTRY +REMARK 500 SUBTOPIC: TORSION ANGLES +REMARK 500 +REMARK 500 TORSION ANGLES OUTSIDE THE EXPECTED RAMACHANDRAN REGIONS: +REMARK 500 (M=MODEL NUMBER; RES=RESIDUE NAME; C=CHAIN IDENTIFIER; +REMARK 500 SSEQ=SEQUENCE NUMBER; I=INSERTION CODE). +REMARK 500 +REMARK 500 STANDARD TABLE: +REMARK 500 FORMAT:(10X,I3,1X,A3,1X,A1,I4,A1,4X,F7.2,3X,F7.2) +REMARK 500 +REMARK 500 EXPECTED VALUES: GJ KLEYWEGT AND TA JONES (1996). PHI/PSI- +REMARK 500 CHOLOGY: RAMACHANDRAN REVISITED. STRUCTURE 4, 1395 - 1400 +REMARK 500 +REMARK 500 M RES CSSEQI PSI PHI +REMARK 500 GLN A 23 109.52 -58.82 +REMARK 500 ASN A 45 92.65 172.03 +REMARK 500 GLU A 56 115.31 72.23 +REMARK 500 PRO A 69 74.20 -68.96 +REMARK 500 GLU A 72 109.91 -44.80 +REMARK 500 THR A 172 20.52 -73.87 +REMARK 500 ASN A 195 42.91 -167.55 +REMARK 500 TYR A 212 12.59 54.24 +REMARK 500 GLU A 236 5.02 -155.90 +REMARK 500 LYS A 255 -16.18 -46.64 +REMARK 500 GLU A 256 -80.11 -72.63 +REMARK 500 LYS A 300 -71.41 -59.56 +REMARK 500 LYS A 301 -58.26 -27.03 +REMARK 500 ASP A 307 19.54 53.46 +REMARK 500 ILE B 8 79.93 -101.73 +REMARK 500 ASP B 20 4.98 -66.21 +REMARK 500 SER B 38 -78.01 -148.14 +REMARK 500 ALA B 41 19.26 -151.32 +REMARK 500 ASP B 60 15.91 96.95 +REMARK 500 SER B 62 -6.27 -143.09 +REMARK 500 GLN C 23 105.40 -59.16 +REMARK 500 ASN C 45 93.14 173.52 +REMARK 500 GLU C 56 118.79 69.25 +REMARK 500 GLN C 74 -173.82 -67.66 +REMARK 500 ILE C 127 102.10 -59.16 +REMARK 500 VAL C 131 -72.25 -48.59 +REMARK 500 ASN C 195 41.36 -161.84 +REMARK 500 TYR C 212 11.89 53.93 +REMARK 500 GLU C 236 1.48 -151.37 +REMARK 500 LYS C 255 -11.94 -45.29 +REMARK 500 GLU C 256 -78.15 -77.12 +REMARK 500 LYS C 301 -58.19 -29.78 +REMARK 500 ASP C 307 17.60 52.66 +REMARK 500 LEU D 16 162.38 179.37 +REMARK 500 ASP D 20 3.82 -67.10 +REMARK 500 SER D 38 -81.95 -149.47 +REMARK 500 ALA D 41 17.72 -150.42 +REMARK 500 ASP D 60 12.76 97.38 +REMARK 500 SER D 62 -9.08 -144.78 +REMARK 500 +REMARK 500 REMARK: NULL +REMARK 620 +REMARK 620 METAL COORDINATION +REMARK 620 (M=MODEL NUMBER; RES=RESIDUE NAME; C=CHAIN IDENTIFIER; +REMARK 620 SSEQ=SEQUENCE NUMBER; I=INSERTION CODE): +REMARK 620 +REMARK 620 COORDINATION ANGLES FOR: M RES CSSEQI METAL +REMARK 620 FES D 101 FE2 +REMARK 620 N RES CSSEQI ATOM +REMARK 620 1 CYS D 44 SG +REMARK 620 2 FES D 101 S1 125.9 +REMARK 620 3 FES D 101 S2 95.5 93.6 +REMARK 620 4 CYS D 39 SG 140.2 77.5 116.4 +REMARK 620 N 1 2 3 +REMARK 620 +REMARK 620 COORDINATION ANGLES FOR: M RES CSSEQI METAL +REMARK 620 FES D 101 FE1 +REMARK 620 N RES CSSEQI ATOM +REMARK 620 1 CYS D 47 SG +REMARK 620 2 FES D 101 S1 126.0 +REMARK 620 3 FES D 101 S2 106.4 93.2 +REMARK 620 4 CYS D 77 SG 126.8 80.4 118.3 +REMARK 620 N 1 2 3 +REMARK 620 +REMARK 620 COORDINATION ANGLES FOR: M RES CSSEQI METAL +REMARK 620 FES B 101 FE2 +REMARK 620 N RES CSSEQI ATOM +REMARK 620 1 CYS B 39 SG +REMARK 620 2 FES B 101 S1 86.8 +REMARK 620 3 FES B 101 S2 116.1 91.6 +REMARK 620 N 1 2 +REMARK 620 +REMARK 620 COORDINATION ANGLES FOR: M RES CSSEQI METAL +REMARK 620 FES B 101 FE1 +REMARK 620 N RES CSSEQI ATOM +REMARK 620 1 CYS B 77 SG +REMARK 620 2 FES B 101 S1 88.1 +REMARK 620 3 FES B 101 S2 109.5 92.2 +REMARK 620 N 1 2 +REMARK 800 +REMARK 800 SITE +REMARK 800 SITE_IDENTIFIER: AC1 +REMARK 800 EVIDENCE_CODE: SOFTWARE +REMARK 800 SITE_DESCRIPTION: BINDING SITE FOR RESIDUE FAD A 401 +REMARK 800 +REMARK 800 SITE_IDENTIFIER: AC2 +REMARK 800 EVIDENCE_CODE: SOFTWARE +REMARK 800 SITE_DESCRIPTION: BINDING SITE FOR RESIDUE FES B 101 +REMARK 800 +REMARK 800 SITE_IDENTIFIER: AC3 +REMARK 800 EVIDENCE_CODE: SOFTWARE +REMARK 800 SITE_DESCRIPTION: BINDING SITE FOR RESIDUE FAD C 401 +REMARK 800 +REMARK 800 SITE_IDENTIFIER: AC4 +REMARK 800 EVIDENCE_CODE: SOFTWARE +REMARK 800 SITE_DESCRIPTION: BINDING SITE FOR RESIDUE FES D 101 +REMARK 900 +REMARK 900 RELATED ENTRIES +REMARK 900 RELATED ID: 3W5U RELATED DB: PDB +REMARK 900 SIMILAR COMPLEX WITH A DISTINCT CROSS-LINKAGE +REMARK 900 RELATED ID: 1GAW RELATED DB: PDB +REMARK 900 FERREDOXIN-NADP+ REDUCTASE +REMARK 900 RELATED ID: 3B2F RELATED DB: PDB +REMARK 900 FERREDOXIN +DBREF 3W5V A 1 314 UNP Q9SLP6 Q9SLP6_MAIZE 42 355 +DBREF 3W5V B 1 98 UNP P27787 FER1_MAIZE 53 150 +DBREF 3W5V C 1 314 UNP Q9SLP6 Q9SLP6_MAIZE 42 355 +DBREF 3W5V D 1 98 UNP P27787 FER1_MAIZE 53 150 +SEQADV 3W5V CYS A 19 UNP Q9SLP6 GLU 60 ENGINEERED MUTATION +SEQADV 3W5V CYS B 70 UNP P27787 ALA 122 ENGINEERED MUTATION +SEQADV 3W5V CYS C 19 UNP Q9SLP6 GLU 60 ENGINEERED MUTATION +SEQADV 3W5V CYS D 70 UNP P27787 ALA 122 ENGINEERED MUTATION +SEQRES 1 A 314 ILE ARG ALA GLN ALA SER ALA VAL GLU ALA PRO ALA THR +SEQRES 2 A 314 ALA LYS ALA LYS LYS CYS SER LYS LYS GLN GLU GLU GLY +SEQRES 3 A 314 VAL VAL THR ASN LEU TYR LYS PRO LYS GLU PRO TYR VAL +SEQRES 4 A 314 GLY ARG CYS LEU LEU ASN THR LYS ILE THR GLY ASP ASP +SEQRES 5 A 314 ALA PRO GLY GLU THR TRP HIS MET VAL PHE SER THR GLU +SEQRES 6 A 314 GLY LYS ILE PRO TYR ARG GLU GLY GLN SER ILE GLY VAL +SEQRES 7 A 314 ILE ALA ASP GLY VAL ASP LYS ASN GLY LYS PRO HIS LYS +SEQRES 8 A 314 VAL ARG LEU TYR SER ILE ALA SER SER ALA ILE GLY ASP +SEQRES 9 A 314 PHE GLY ASP SER LYS THR VAL SER LEU CYS VAL LYS ARG +SEQRES 10 A 314 LEU ILE TYR THR ASN ASP ALA GLY GLU ILE VAL LYS GLY +SEQRES 11 A 314 VAL CYS SER ASN PHE LEU CYS ASP LEU GLN PRO GLY ASP +SEQRES 12 A 314 ASN VAL GLN ILE THR GLY PRO VAL GLY LYS GLU MET LEU +SEQRES 13 A 314 MET PRO LYS ASP PRO ASN ALA THR ILE ILE MET LEU ALA +SEQRES 14 A 314 THR GLY THR GLY ILE ALA PRO PHE ARG SER PHE LEU TRP +SEQRES 15 A 314 LYS MET PHE PHE GLU LYS HIS ASP ASP TYR LYS PHE ASN +SEQRES 16 A 314 GLY LEU GLY TRP LEU PHE LEU GLY VAL PRO THR SER SER +SEQRES 17 A 314 SER LEU LEU TYR LYS GLU GLU PHE GLY LYS MET LYS GLU +SEQRES 18 A 314 ARG ALA PRO GLU ASN PHE ARG VAL ASP TYR ALA VAL SER +SEQRES 19 A 314 ARG GLU GLN THR ASN ALA ALA GLY GLU ARG MET TYR ILE +SEQRES 20 A 314 GLN THR ARG MET ALA GLU TYR LYS GLU GLU LEU TRP GLU +SEQRES 21 A 314 LEU LEU LYS LYS ASP ASN THR TYR VAL TYR MET CYS GLY +SEQRES 22 A 314 LEU LYS GLY MET GLU LYS GLY ILE ASP ASP ILE MET VAL +SEQRES 23 A 314 SER LEU ALA GLU LYS ASP GLY ILE ASP TRP PHE ASP TYR +SEQRES 24 A 314 LYS LYS GLN LEU LYS ARG GLY ASP GLN TRP ASN VAL GLU +SEQRES 25 A 314 VAL TYR +SEQRES 1 B 98 ALA THR TYR ASN VAL LYS LEU ILE THR PRO GLU GLY GLU +SEQRES 2 B 98 VAL GLU LEU GLN VAL PRO ASP ASP VAL TYR ILE LEU ASP +SEQRES 3 B 98 GLN ALA GLU GLU ASP GLY ILE ASP LEU PRO TYR SER CYS +SEQRES 4 B 98 ARG ALA GLY SER CYS SER SER CYS ALA GLY LYS VAL VAL +SEQRES 5 B 98 SER GLY SER VAL ASP GLN SER ASP GLN SER TYR LEU ASP +SEQRES 6 B 98 ASP GLY GLN ILE CYS ASP GLY TRP VAL LEU THR CYS HIS +SEQRES 7 B 98 ALA TYR PRO THR SER ASP VAL VAL ILE GLU THR HIS LYS +SEQRES 8 B 98 GLU GLU GLU LEU THR GLY ALA +SEQRES 1 C 314 ILE ARG ALA GLN ALA SER ALA VAL GLU ALA PRO ALA THR +SEQRES 2 C 314 ALA LYS ALA LYS LYS CYS SER LYS LYS GLN GLU GLU GLY +SEQRES 3 C 314 VAL VAL THR ASN LEU TYR LYS PRO LYS GLU PRO TYR VAL +SEQRES 4 C 314 GLY ARG CYS LEU LEU ASN THR LYS ILE THR GLY ASP ASP +SEQRES 5 C 314 ALA PRO GLY GLU THR TRP HIS MET VAL PHE SER THR GLU +SEQRES 6 C 314 GLY LYS ILE PRO TYR ARG GLU GLY GLN SER ILE GLY VAL +SEQRES 7 C 314 ILE ALA ASP GLY VAL ASP LYS ASN GLY LYS PRO HIS LYS +SEQRES 8 C 314 VAL ARG LEU TYR SER ILE ALA SER SER ALA ILE GLY ASP +SEQRES 9 C 314 PHE GLY ASP SER LYS THR VAL SER LEU CYS VAL LYS ARG +SEQRES 10 C 314 LEU ILE TYR THR ASN ASP ALA GLY GLU ILE VAL LYS GLY +SEQRES 11 C 314 VAL CYS SER ASN PHE LEU CYS ASP LEU GLN PRO GLY ASP +SEQRES 12 C 314 ASN VAL GLN ILE THR GLY PRO VAL GLY LYS GLU MET LEU +SEQRES 13 C 314 MET PRO LYS ASP PRO ASN ALA THR ILE ILE MET LEU ALA +SEQRES 14 C 314 THR GLY THR GLY ILE ALA PRO PHE ARG SER PHE LEU TRP +SEQRES 15 C 314 LYS MET PHE PHE GLU LYS HIS ASP ASP TYR LYS PHE ASN +SEQRES 16 C 314 GLY LEU GLY TRP LEU PHE LEU GLY VAL PRO THR SER SER +SEQRES 17 C 314 SER LEU LEU TYR LYS GLU GLU PHE GLY LYS MET LYS GLU +SEQRES 18 C 314 ARG ALA PRO GLU ASN PHE ARG VAL ASP TYR ALA VAL SER +SEQRES 19 C 314 ARG GLU GLN THR ASN ALA ALA GLY GLU ARG MET TYR ILE +SEQRES 20 C 314 GLN THR ARG MET ALA GLU TYR LYS GLU GLU LEU TRP GLU +SEQRES 21 C 314 LEU LEU LYS LYS ASP ASN THR TYR VAL TYR MET CYS GLY +SEQRES 22 C 314 LEU LYS GLY MET GLU LYS GLY ILE ASP ASP ILE MET VAL +SEQRES 23 C 314 SER LEU ALA GLU LYS ASP GLY ILE ASP TRP PHE ASP TYR +SEQRES 24 C 314 LYS LYS GLN LEU LYS ARG GLY ASP GLN TRP ASN VAL GLU +SEQRES 25 C 314 VAL TYR +SEQRES 1 D 98 ALA THR TYR ASN VAL LYS LEU ILE THR PRO GLU GLY GLU +SEQRES 2 D 98 VAL GLU LEU GLN VAL PRO ASP ASP VAL TYR ILE LEU ASP +SEQRES 3 D 98 GLN ALA GLU GLU ASP GLY ILE ASP LEU PRO TYR SER CYS +SEQRES 4 D 98 ARG ALA GLY SER CYS SER SER CYS ALA GLY LYS VAL VAL +SEQRES 5 D 98 SER GLY SER VAL ASP GLN SER ASP GLN SER TYR LEU ASP +SEQRES 6 D 98 ASP GLY GLN ILE CYS ASP GLY TRP VAL LEU THR CYS HIS +SEQRES 7 D 98 ALA TYR PRO THR SER ASP VAL VAL ILE GLU THR HIS LYS +SEQRES 8 D 98 GLU GLU GLU LEU THR GLY ALA +HET FAD A 401 53 +HET FES B 101 4 +HET FAD C 401 53 +HET FES D 101 4 +HETNAM FAD FLAVIN-ADENINE DINUCLEOTIDE +HETNAM FES FE2/S2 (INORGANIC) CLUSTER +FORMUL 5 FAD 2(C27 H33 N9 O15 P2) +FORMUL 6 FES 2(FE2 S2) +HELIX 1 1 GLY A 130 ASP A 138 1 9 +HELIX 2 2 ILE A 174 PHE A 186 1 13 +HELIX 3 3 TYR A 212 ALA A 223 1 12 +HELIX 4 4 TYR A 246 GLU A 253 1 8 +HELIX 5 5 TYR A 254 LEU A 262 1 9 +HELIX 6 6 GLY A 276 GLU A 290 1 15 +HELIX 7 7 ASP A 295 GLY A 306 1 12 +HELIX 8 8 TYR B 23 ASP B 31 1 9 +HELIX 9 9 ASP B 65 CYS B 70 1 6 +HELIX 10 10 CYS B 77 ALA B 79 5 3 +HELIX 11 11 LYS B 91 THR B 96 1 6 +HELIX 12 12 GLY C 130 ASP C 138 1 9 +HELIX 13 13 ILE C 174 PHE C 186 1 13 +HELIX 14 14 TYR C 212 ALA C 223 1 12 +HELIX 15 15 TYR C 246 GLU C 253 1 8 +HELIX 16 16 TYR C 254 LEU C 262 1 9 +HELIX 17 17 GLY C 276 GLU C 290 1 15 +HELIX 18 18 ASP C 295 GLY C 306 1 12 +HELIX 19 19 TYR D 23 ASP D 31 1 9 +HELIX 20 20 ASP D 65 ASP D 71 1 7 +HELIX 21 21 CYS D 77 ALA D 79 5 3 +HELIX 22 22 LYS D 91 THR D 96 1 6 +SHEET 1 A 6 THR A 46 LYS A 47 0 +SHEET 2 A 6 THR A 57 SER A 63 -1 O HIS A 59 N THR A 46 +SHEET 3 A 6 TYR A 38 CYS A 42 -1 N ARG A 41 O SER A 63 +SHEET 4 A 6 ASN A 144 VAL A 151 -1 O ILE A 147 N TYR A 38 +SHEET 5 A 6 SER A 75 ILE A 79 -1 N GLY A 77 O THR A 148 +SHEET 6 A 6 ARG A 93 SER A 96 -1 O TYR A 95 N ILE A 76 +SHEET 1 B 3 THR A 46 LYS A 47 0 +SHEET 2 B 3 THR A 57 SER A 63 -1 O HIS A 59 N THR A 46 +SHEET 3 B 3 THR A 110 LYS A 116 -1 O LEU A 113 N MET A 60 +SHEET 1 C 2 ILE A 119 THR A 121 0 +SHEET 2 C 2 ILE A 127 LYS A 129 -1 O VAL A 128 N TYR A 120 +SHEET 1 D 5 PHE A 227 VAL A 233 0 +SHEET 2 D 5 LEU A 197 VAL A 204 1 N GLY A 198 O ARG A 228 +SHEET 3 D 5 THR A 164 THR A 170 1 N MET A 167 O PHE A 201 +SHEET 4 D 5 THR A 267 LEU A 274 1 O TYR A 270 N ILE A 166 +SHEET 5 D 5 TRP A 309 TYR A 314 1 O ASN A 310 N MET A 271 +SHEET 1 E 5 GLY B 12 PRO B 19 0 +SHEET 2 E 5 THR B 2 THR B 9 -1 N LEU B 7 O VAL B 14 +SHEET 3 E 5 VAL B 85 GLU B 88 1 O ILE B 87 N ILE B 8 +SHEET 4 E 5 ALA B 48 SER B 53 -1 N VAL B 52 O VAL B 86 +SHEET 5 E 5 TRP B 73 LEU B 75 -1 O VAL B 74 N GLY B 49 +SHEET 1 F 2 VAL B 56 ASP B 57 0 +SHEET 2 F 2 TYR B 80 PRO B 81 -1 O TYR B 80 N ASP B 57 +SHEET 1 G 6 THR C 46 LYS C 47 0 +SHEET 2 G 6 THR C 57 SER C 63 -1 O HIS C 59 N THR C 46 +SHEET 3 G 6 TYR C 38 CYS C 42 -1 N ARG C 41 O SER C 63 +SHEET 4 G 6 ASN C 144 VAL C 151 -1 O VAL C 145 N GLY C 40 +SHEET 5 G 6 SER C 75 ILE C 79 -1 N GLY C 77 O THR C 148 +SHEET 6 G 6 ARG C 93 SER C 96 -1 O TYR C 95 N ILE C 76 +SHEET 1 H 3 THR C 46 LYS C 47 0 +SHEET 2 H 3 THR C 57 SER C 63 -1 O HIS C 59 N THR C 46 +SHEET 3 H 3 THR C 110 LYS C 116 -1 O VAL C 111 N PHE C 62 +SHEET 1 I 2 ILE C 119 THR C 121 0 +SHEET 2 I 2 ILE C 127 LYS C 129 -1 O VAL C 128 N TYR C 120 +SHEET 1 J 5 PHE C 227 VAL C 233 0 +SHEET 2 J 5 LEU C 197 VAL C 204 1 N GLY C 198 O ARG C 228 +SHEET 3 J 5 THR C 164 THR C 170 1 N MET C 167 O PHE C 201 +SHEET 4 J 5 THR C 267 LEU C 274 1 O TYR C 268 N THR C 164 +SHEET 5 J 5 TRP C 309 TYR C 314 1 O ASN C 310 N MET C 271 +SHEET 1 K 5 GLY D 12 PRO D 19 0 +SHEET 2 K 5 THR D 2 THR D 9 -1 N LEU D 7 O VAL D 14 +SHEET 3 K 5 VAL D 85 THR D 89 1 O ILE D 87 N ILE D 8 +SHEET 4 K 5 ALA D 48 SER D 53 -1 N VAL D 52 O VAL D 86 +SHEET 5 K 5 TRP D 73 LEU D 75 -1 O VAL D 74 N GLY D 49 +SHEET 1 L 2 VAL D 56 ASP D 57 0 +SHEET 2 L 2 TYR D 80 PRO D 81 -1 O TYR D 80 N ASP D 57 +SSBOND 1 CYS A 19 CYS D 70 1555 1555 2.02 +SSBOND 2 CYS B 70 CYS C 19 1555 1555 2.03 +LINK SG CYS D 44 FE2 FES D 101 1555 1555 1.91 +LINK SG CYS D 47 FE1 FES D 101 1555 1555 1.95 +LINK SG CYS B 39 FE2 FES B 101 1555 1555 1.96 +LINK SG CYS D 39 FE2 FES D 101 1555 1555 2.15 +LINK SG CYS B 77 FE1 FES B 101 1555 1555 2.35 +LINK SG CYS D 77 FE1 FES D 101 1555 1555 2.61 +CISPEP 1 GLY A 149 PRO A 150 0 -1.95 +CISPEP 2 GLY C 149 PRO C 150 0 -1.62 +SITE 1 AC1 15 ARG A 93 LEU A 94 TYR A 95 SER A 96 +SITE 2 AC1 15 CYS A 114 LYS A 116 LEU A 118 TYR A 120 +SITE 3 AC1 15 GLY A 130 VAL A 131 CYS A 132 SER A 133 +SITE 4 AC1 15 THR A 172 TYR A 314 SER B 38 +SITE 1 AC2 9 SER B 38 CYS B 39 ARG B 40 GLY B 42 +SITE 2 AC2 9 SER B 43 CYS B 44 CYS B 47 LEU B 75 +SITE 3 AC2 9 CYS B 77 +SITE 1 AC3 17 GLY A 242 ARG A 244 ARG C 93 LEU C 94 +SITE 2 AC3 17 TYR C 95 SER C 96 CYS C 114 VAL C 115 +SITE 3 AC3 17 LYS C 116 LEU C 118 TYR C 120 GLY C 130 +SITE 4 AC3 17 VAL C 131 CYS C 132 SER C 133 THR C 172 +SITE 5 AC3 17 TYR C 314 +SITE 1 AC4 9 SER D 38 CYS D 39 ARG D 40 GLY D 42 +SITE 2 AC4 9 SER D 43 CYS D 44 CYS D 47 LEU D 75 +SITE 3 AC4 9 CYS D 77 +CRYST1 75.170 120.345 84.577 90.00 109.70 90.00 P 1 21 1 4 +ORIGX1 1.000000 0.000000 0.000000 0.00000 +ORIGX2 0.000000 1.000000 0.000000 0.00000 +ORIGX3 0.000000 0.000000 1.000000 0.00000 +SCALE1 0.013303 0.000000 0.004764 0.00000 +SCALE2 0.000000 0.008309 0.000000 0.00000 +SCALE3 0.000000 0.000000 0.012559 0.00000 +MTRIX1 1 1.000000 0.000000 0.000000 0.00000 1 +MTRIX2 1 0.000000 1.000000 0.000000 0.00000 1 +MTRIX3 1 0.000000 0.000000 1.000000 0.00000 1 +MTRIX1 2 -0.900585 -0.360692 0.242586 -93.40076 1 +MTRIX2 2 -0.323557 0.183576 -0.928230 33.09570 1 +MTRIX3 2 0.290273 -0.914440 -0.282030 74.35553 1 +ATOM 1 N LYS A 18 -28.790 -18.357 17.844 1.00 40.00 N +ATOM 2 CA LYS A 18 -27.990 -18.527 19.103 1.00 40.00 C +ATOM 3 C LYS A 18 -28.888 -18.264 20.328 1.00 40.00 C +ATOM 4 O LYS A 18 -29.482 -17.177 20.452 1.00 40.00 O +ATOM 5 CB LYS A 18 -26.767 -17.582 19.138 1.00 40.00 C +ATOM 6 CG LYS A 18 -26.359 -16.919 17.814 1.00 40.00 C +ATOM 7 CD LYS A 18 -27.280 -15.776 17.366 1.00 40.00 C +ATOM 8 CE LYS A 18 -27.659 -14.804 18.485 1.00 40.00 C +ATOM 9 NZ LYS A 18 -26.567 -13.860 18.840 1.00 40.00 N +ATOM 10 N CYS A 19 -29.018 -19.251 21.219 1.00 40.00 N +ATOM 11 CA CYS A 19 -29.736 -19.000 22.469 1.00 40.00 C +ATOM 12 C CYS A 19 -28.765 -18.475 23.517 1.00 40.00 C +ATOM 13 O CYS A 19 -27.614 -18.928 23.642 1.00 40.00 O +ATOM 14 CB CYS A 19 -30.569 -20.193 22.949 1.00 40.00 C +ATOM 15 SG CYS A 19 -29.784 -21.807 22.816 1.00 40.00 S +ATOM 16 N SER A 20 -29.241 -17.468 24.227 1.00 40.00 N +ATOM 17 CA SER A 20 -28.405 -16.691 25.110 1.00 40.00 C +ATOM 18 C SER A 20 -28.651 -17.107 26.557 1.00 40.00 C +ATOM 19 O SER A 20 -29.707 -17.666 26.874 1.00 40.00 O +ATOM 20 CB SER A 20 -28.692 -15.201 24.887 1.00 40.00 C +ATOM 21 OG SER A 20 -28.226 -14.386 25.948 1.00 40.00 O +ATOM 22 N LYS A 21 -27.671 -16.835 27.422 1.00 40.00 N +ATOM 23 CA LYS A 21 -27.776 -17.131 28.847 1.00 40.00 C +ATOM 24 C LYS A 21 -28.469 -16.016 29.608 1.00 40.00 C +ATOM 25 O LYS A 21 -28.576 -16.083 30.831 1.00 40.00 O +ATOM 26 CB LYS A 21 -26.396 -17.388 29.438 1.00 40.00 C +ATOM 27 CG LYS A 21 -25.693 -18.583 28.818 1.00 40.00 C +ATOM 28 CD LYS A 21 -24.275 -18.744 29.338 1.00 40.00 C +ATOM 29 CE LYS A 21 -23.428 -19.521 28.345 1.00 40.00 C +ATOM 30 NZ LYS A 21 -22.039 -19.714 28.839 1.00 40.00 N +ATOM 31 N LYS A 22 -28.949 -15.011 28.867 1.00 40.00 N +ATOM 32 CA LYS A 22 -29.640 -13.820 29.400 1.00 40.00 C +ATOM 33 C LYS A 22 -31.095 -13.782 28.970 1.00 40.00 C +ATOM 34 O LYS A 22 -31.378 -13.969 27.792 1.00 40.00 O +ATOM 35 CB LYS A 22 -28.976 -12.554 28.871 1.00 40.00 C +ATOM 36 CG LYS A 22 -27.457 -12.569 28.929 1.00 40.00 C +ATOM 37 CD LYS A 22 -26.889 -11.294 28.334 1.00 40.00 C +ATOM 38 CE LYS A 22 -25.393 -11.184 28.564 1.00 40.00 C +ATOM 39 NZ LYS A 22 -24.847 -9.966 27.905 1.00 40.00 N +ATOM 40 N GLN A 23 -32.010 -13.517 29.901 1.00 40.00 N +ATOM 41 CA GLN A 23 -33.443 -13.632 29.609 1.00 40.00 C +ATOM 42 C GLN A 23 -33.847 -12.730 28.472 1.00 40.00 C +ATOM 43 O GLN A 23 -33.873 -11.517 28.638 1.00 40.00 O +ATOM 44 CB GLN A 23 -34.285 -13.288 30.821 1.00 40.00 C +ATOM 45 CG GLN A 23 -34.161 -14.283 31.949 1.00 40.00 C +ATOM 46 CD GLN A 23 -34.707 -13.739 33.250 1.00 40.00 C +ATOM 47 OE1 GLN A 23 -35.821 -13.197 33.293 1.00 40.00 O +ATOM 48 NE2 GLN A 23 -33.926 -13.876 34.327 1.00 40.00 N +ATOM 49 N GLU A 24 -34.168 -13.327 27.322 1.00 40.00 N +ATOM 50 CA GLU A 24 -34.463 -12.550 26.110 1.00 40.00 C +ATOM 51 C GLU A 24 -35.961 -12.512 25.779 1.00 40.00 C +ATOM 52 O GLU A 24 -36.399 -11.866 24.824 1.00 40.00 O +ATOM 53 CB GLU A 24 -33.599 -13.030 24.929 1.00 40.00 C +ATOM 54 CG GLU A 24 -32.098 -12.852 25.188 1.00 40.00 C +ATOM 55 CD GLU A 24 -31.292 -12.380 23.983 1.00 40.00 C +ATOM 56 OE1 GLU A 24 -31.884 -11.756 23.060 1.00 40.00 O +ATOM 57 OE2 GLU A 24 -30.056 -12.619 23.976 1.00 40.00 O +ATOM 58 N GLU A 25 -36.735 -13.170 26.630 1.00 40.00 N +ATOM 59 CA GLU A 25 -38.162 -13.331 26.437 1.00 40.00 C +ATOM 60 C GLU A 25 -38.996 -12.123 26.887 1.00 40.00 C +ATOM 61 O GLU A 25 -39.035 -11.786 28.066 1.00 40.00 O +ATOM 62 CB GLU A 25 -38.616 -14.588 27.179 1.00 40.00 C +ATOM 63 CG GLU A 25 -40.121 -14.836 27.137 1.00 40.00 C +ATOM 64 CD GLU A 25 -40.633 -15.707 28.283 1.00 40.00 C +ATOM 65 OE1 GLU A 25 -41.875 -15.854 28.414 1.00 40.00 O +ATOM 66 OE2 GLU A 25 -39.806 -16.243 29.060 1.00 40.00 O +ATOM 67 N GLY A 26 -39.692 -11.503 25.943 1.00 40.00 N +ATOM 68 CA GLY A 26 -40.566 -10.364 26.242 1.00 40.00 C +ATOM 69 C GLY A 26 -39.886 -9.008 26.056 1.00 40.00 C +ATOM 70 O GLY A 26 -40.544 -7.959 25.948 1.00 40.00 O +ATOM 71 N VAL A 27 -38.559 -9.036 26.018 1.00 40.00 N +ATOM 72 CA VAL A 27 -37.749 -7.848 25.849 1.00 40.00 C +ATOM 73 C VAL A 27 -38.078 -7.122 24.552 1.00 40.00 C +ATOM 74 O VAL A 27 -37.933 -7.683 23.480 1.00 40.00 O +ATOM 75 CB VAL A 27 -36.277 -8.254 25.799 1.00 40.00 C +ATOM 76 CG1 VAL A 27 -35.391 -7.024 25.762 1.00 40.00 C +ATOM 77 CG2 VAL A 27 -35.947 -9.134 26.990 1.00 40.00 C +ATOM 78 N VAL A 28 -38.508 -5.874 24.640 1.00 40.00 N +ATOM 79 CA VAL A 28 -38.799 -5.109 23.432 1.00 40.00 C +ATOM 80 C VAL A 28 -37.718 -4.048 23.188 1.00 40.00 C +ATOM 81 O VAL A 28 -37.091 -3.598 24.138 1.00 40.00 O +ATOM 82 CB VAL A 28 -40.218 -4.495 23.498 1.00 40.00 C +ATOM 83 CG1 VAL A 28 -41.217 -5.521 24.018 1.00 40.00 C +ATOM 84 CG2 VAL A 28 -40.254 -3.255 24.379 1.00 40.00 C +ATOM 85 N THR A 29 -37.477 -3.665 21.934 1.00 40.00 N +ATOM 86 CA THR A 29 -36.574 -2.537 21.657 1.00 40.00 C +ATOM 87 C THR A 29 -37.134 -1.489 20.708 1.00 40.00 C +ATOM 88 O THR A 29 -38.044 -1.749 19.930 1.00 40.00 O +ATOM 89 CB THR A 29 -35.197 -2.967 21.126 1.00 40.00 C +ATOM 90 OG1 THR A 29 -35.354 -4.108 20.293 1.00 40.00 O +ATOM 91 CG2 THR A 29 -34.287 -3.330 22.251 1.00 40.00 C +ATOM 92 N ASN A 30 -36.557 -0.296 20.803 1.00 40.00 N +ATOM 93 CA ASN A 30 -36.905 0.869 19.986 1.00 40.00 C +ATOM 94 C ASN A 30 -38.395 1.116 19.727 1.00 40.00 C +ATOM 95 O ASN A 30 -38.775 1.572 18.647 1.00 40.00 O +ATOM 96 CB ASN A 30 -36.064 0.893 18.710 1.00 40.00 C +ATOM 97 CG ASN A 30 -34.598 1.154 19.000 1.00 40.00 C +ATOM 98 OD1 ASN A 30 -34.152 2.307 19.007 1.00 40.00 O +ATOM 99 ND2 ASN A 30 -33.841 0.081 19.259 1.00 40.00 N +ATOM 100 N LEU A 31 -39.213 0.838 20.749 1.00 40.00 N +ATOM 101 CA LEU A 31 -40.649 1.101 20.729 1.00 40.00 C +ATOM 102 C LEU A 31 -40.994 2.576 20.443 1.00 40.00 C +ATOM 103 O LEU A 31 -41.929 2.844 19.702 1.00 40.00 O +ATOM 104 CB LEU A 31 -41.297 0.630 22.027 1.00 40.00 C +ATOM 105 CG LEU A 31 -42.459 -0.352 21.899 1.00 40.00 C +ATOM 106 CD1 LEU A 31 -43.174 -0.478 23.228 1.00 40.00 C +ATOM 107 CD2 LEU A 31 -43.458 0.073 20.839 1.00 40.00 C +ATOM 108 N TYR A 32 -40.253 3.522 21.021 1.00 40.00 N +ATOM 109 CA TYR A 32 -40.294 4.924 20.569 1.00 40.00 C +ATOM 110 C TYR A 32 -38.899 5.382 20.108 1.00 40.00 C +ATOM 111 O TYR A 32 -37.879 5.020 20.708 1.00 40.00 O +ATOM 112 CB TYR A 32 -40.812 5.870 21.655 1.00 40.00 C +ATOM 113 CG TYR A 32 -42.199 5.587 22.193 1.00 40.00 C +ATOM 114 CD1 TYR A 32 -42.442 4.480 23.014 1.00 40.00 C +ATOM 115 CD2 TYR A 32 -43.259 6.450 21.924 1.00 40.00 C +ATOM 116 CE1 TYR A 32 -43.703 4.225 23.533 1.00 40.00 C +ATOM 117 CE2 TYR A 32 -44.528 6.205 22.437 1.00 40.00 C +ATOM 118 CZ TYR A 32 -44.743 5.091 23.246 1.00 40.00 C +ATOM 119 OH TYR A 32 -45.992 4.821 23.773 1.00 40.00 O +ATOM 120 N LYS A 33 -38.867 6.178 19.039 1.00 40.00 N +ATOM 121 CA LYS A 33 -37.616 6.691 18.445 1.00 40.00 C +ATOM 122 C LYS A 33 -37.626 8.235 18.464 1.00 40.00 C +ATOM 123 O LYS A 33 -38.688 8.830 18.665 1.00 40.00 O +ATOM 124 CB LYS A 33 -37.440 6.174 16.999 1.00 40.00 C +ATOM 125 CG LYS A 33 -37.289 4.652 16.831 1.00 40.00 C +ATOM 126 CD LYS A 33 -37.474 4.221 15.363 1.00 40.00 C +ATOM 127 CE LYS A 33 -37.663 2.713 15.168 1.00 40.00 C +ATOM 128 NZ LYS A 33 -39.025 2.239 15.551 1.00 40.00 N +ATOM 129 N PRO A 34 -36.447 8.887 18.267 1.00 40.00 N +ATOM 130 CA PRO A 34 -36.280 10.366 18.253 1.00 40.00 C +ATOM 131 C PRO A 34 -37.264 11.186 17.397 1.00 40.00 C +ATOM 132 O PRO A 34 -37.515 12.357 17.704 1.00 40.00 O +ATOM 133 CB PRO A 34 -34.857 10.543 17.725 1.00 40.00 C +ATOM 134 CG PRO A 34 -34.140 9.335 18.228 1.00 40.00 C +ATOM 135 CD PRO A 34 -35.135 8.203 18.237 1.00 40.00 C +ATOM 136 N LYS A 35 -37.800 10.578 16.340 1.00 40.00 N +ATOM 137 CA LYS A 35 -38.849 11.199 15.530 1.00 40.00 C +ATOM 138 C LYS A 35 -40.211 11.280 16.256 1.00 40.00 C +ATOM 139 O LYS A 35 -40.899 12.304 16.167 1.00 40.00 O +ATOM 140 CB LYS A 35 -39.004 10.472 14.188 1.00 40.00 C +ATOM 141 CG LYS A 35 -39.985 9.302 14.206 1.00 40.00 C +ATOM 142 CD LYS A 35 -39.803 8.387 13.013 1.00 40.00 C +ATOM 143 CE LYS A 35 -38.570 7.518 13.187 1.00 40.00 C +ATOM 144 NZ LYS A 35 -38.127 6.952 11.883 1.00 40.00 N +ATOM 145 N GLU A 36 -40.605 10.205 16.950 1.00 40.00 N +ATOM 146 CA GLU A 36 -41.873 10.179 17.706 1.00 40.00 C +ATOM 147 C GLU A 36 -41.734 9.676 19.153 1.00 40.00 C +ATOM 148 O GLU A 36 -42.177 8.560 19.475 1.00 40.00 O +ATOM 149 CB GLU A 36 -42.958 9.405 16.952 1.00 40.00 C +ATOM 150 CG GLU A 36 -43.620 10.221 15.850 1.00 40.00 C +ATOM 151 CD GLU A 36 -44.885 9.573 15.306 1.00 40.00 C +ATOM 152 OE1 GLU A 36 -44.957 9.388 14.068 1.00 40.00 O +ATOM 153 OE2 GLU A 36 -45.805 9.247 16.103 1.00 40.00 O +ATOM 154 N PRO A 37 -41.128 10.514 20.032 1.00 40.00 N +ATOM 155 CA PRO A 37 -40.925 10.163 21.443 1.00 40.00 C +ATOM 156 C PRO A 37 -42.210 10.182 22.254 1.00 40.00 C +ATOM 157 O PRO A 37 -43.074 11.034 22.044 1.00 40.00 O +ATOM 158 CB PRO A 37 -39.998 11.277 21.952 1.00 40.00 C +ATOM 159 CG PRO A 37 -40.282 12.447 21.069 1.00 40.00 C +ATOM 160 CD PRO A 37 -40.593 11.860 19.720 1.00 40.00 C +ATOM 161 N TYR A 38 -42.330 9.250 23.186 1.00 40.00 N +ATOM 162 CA TYR A 38 -43.392 9.337 24.168 1.00 40.00 C +ATOM 163 C TYR A 38 -43.159 10.548 25.084 1.00 40.00 C +ATOM 164 O TYR A 38 -42.049 10.781 25.576 1.00 40.00 O +ATOM 165 CB TYR A 38 -43.482 8.045 24.982 1.00 40.00 C +ATOM 166 CG TYR A 38 -44.433 8.147 26.140 1.00 40.00 C +ATOM 167 CD1 TYR A 38 -45.807 7.979 25.963 1.00 40.00 C +ATOM 168 CD2 TYR A 38 -43.956 8.434 27.413 1.00 40.00 C +ATOM 169 CE1 TYR A 38 -46.677 8.086 27.029 1.00 40.00 C +ATOM 170 CE2 TYR A 38 -44.811 8.535 28.486 1.00 40.00 C +ATOM 171 CZ TYR A 38 -46.164 8.366 28.293 1.00 40.00 C +ATOM 172 OH TYR A 38 -46.982 8.477 29.393 1.00 40.00 O +ATOM 173 N VAL A 39 -44.201 11.331 25.306 1.00 40.00 N +ATOM 174 CA VAL A 39 -44.064 12.412 26.249 1.00 40.00 C +ATOM 175 C VAL A 39 -44.601 11.918 27.577 1.00 40.00 C +ATOM 176 O VAL A 39 -45.771 11.562 27.697 1.00 40.00 O +ATOM 177 CB VAL A 39 -44.717 13.720 25.754 1.00 40.00 C +ATOM 178 CG1 VAL A 39 -44.727 14.770 26.847 1.00 40.00 C +ATOM 179 CG2 VAL A 39 -43.955 14.261 24.551 1.00 40.00 C +ATOM 180 N GLY A 40 -43.702 11.848 28.551 1.00 40.00 N +ATOM 181 CA GLY A 40 -44.030 11.417 29.907 1.00 40.00 C +ATOM 182 C GLY A 40 -44.064 12.579 30.875 1.00 40.00 C +ATOM 183 O GLY A 40 -44.082 13.734 30.467 1.00 40.00 O +ATOM 184 N ARG A 41 -44.072 12.288 32.167 1.00 40.00 N +ATOM 185 CA ARG A 41 -44.154 13.375 33.120 1.00 40.00 C +ATOM 186 C ARG A 41 -43.387 13.136 34.402 1.00 40.00 C +ATOM 187 O ARG A 41 -43.339 12.001 34.897 1.00 40.00 O +ATOM 188 CB ARG A 41 -45.603 13.674 33.447 1.00 40.00 C +ATOM 189 CG ARG A 41 -45.807 15.073 33.989 1.00 40.00 C +ATOM 190 CD ARG A 41 -47.283 15.412 34.094 1.00 40.00 C +ATOM 191 NE ARG A 41 -47.922 15.509 32.782 1.00 40.00 N +ATOM 192 CZ ARG A 41 -48.022 16.630 32.072 1.00 40.00 C +ATOM 193 NH1 ARG A 41 -47.520 17.772 32.542 1.00 40.00 N +ATOM 194 NH2 ARG A 41 -48.619 16.605 30.883 1.00 40.00 N +ATOM 195 N CYS A 42 -42.816 14.228 34.934 1.00 40.00 N +ATOM 196 CA CYS A 42 -41.958 14.215 36.133 1.00 40.00 C +ATOM 197 C CYS A 42 -42.762 14.117 37.430 1.00 40.00 C +ATOM 198 O CYS A 42 -43.594 14.964 37.730 1.00 40.00 O +ATOM 199 CB CYS A 42 -41.034 15.446 36.156 1.00 40.00 C +ATOM 200 SG CYS A 42 -39.841 15.488 37.524 1.00 40.00 S +ATOM 201 N LEU A 43 -42.502 13.070 38.196 1.00 40.00 N +ATOM 202 CA LEU A 43 -43.235 12.832 39.417 1.00 40.00 C +ATOM 203 C LEU A 43 -42.380 13.251 40.604 1.00 40.00 C +ATOM 204 O LEU A 43 -42.809 14.064 41.421 1.00 40.00 O +ATOM 205 CB LEU A 43 -43.630 11.351 39.513 1.00 40.00 C +ATOM 206 CG LEU A 43 -44.789 10.752 38.693 1.00 40.00 C +ATOM 207 CD1 LEU A 43 -45.023 11.410 37.337 1.00 40.00 C +ATOM 208 CD2 LEU A 43 -44.591 9.248 38.532 1.00 40.00 C +ATOM 209 N LEU A 44 -41.174 12.687 40.682 1.00 40.00 N +ATOM 210 CA LEU A 44 -40.198 13.000 41.731 1.00 40.00 C +ATOM 211 C LEU A 44 -38.964 13.607 41.105 1.00 40.00 C +ATOM 212 O LEU A 44 -38.890 13.762 39.886 1.00 40.00 O +ATOM 213 CB LEU A 44 -39.783 11.741 42.516 1.00 40.00 C +ATOM 214 CG LEU A 44 -40.797 11.112 43.474 1.00 40.00 C +ATOM 215 CD1 LEU A 44 -40.100 10.077 44.349 1.00 40.00 C +ATOM 216 CD2 LEU A 44 -41.502 12.174 44.316 1.00 40.00 C +ATOM 217 N ASN A 45 -38.003 13.943 41.960 1.00 40.00 N +ATOM 218 CA ASN A 45 -36.712 14.492 41.563 1.00 40.00 C +ATOM 219 C ASN A 45 -36.006 14.916 42.840 1.00 40.00 C +ATOM 220 O ASN A 45 -36.197 16.022 43.330 1.00 40.00 O +ATOM 221 CB ASN A 45 -36.854 15.678 40.576 1.00 40.00 C +ATOM 222 CG ASN A 45 -35.547 16.018 39.854 1.00 40.00 C +ATOM 223 OD1 ASN A 45 -34.512 15.390 40.083 1.00 40.00 O +ATOM 224 ND2 ASN A 45 -35.596 17.017 38.969 1.00 40.00 N +ATOM 225 N THR A 46 -35.206 14.016 43.389 1.00 40.00 N +ATOM 226 CA THR A 46 -34.545 14.249 44.664 1.00 40.00 C +ATOM 227 C THR A 46 -33.023 14.198 44.497 1.00 40.00 C +ATOM 228 O THR A 46 -32.503 13.253 43.909 1.00 40.00 O +ATOM 229 CB THR A 46 -34.994 13.176 45.676 1.00 40.00 C +ATOM 230 OG1 THR A 46 -36.415 13.026 45.596 1.00 40.00 O +ATOM 231 CG2 THR A 46 -34.581 13.531 47.102 1.00 40.00 C +ATOM 232 N LYS A 47 -32.302 15.202 44.993 1.00 40.00 N +ATOM 233 CA LYS A 47 -30.850 15.085 45.060 1.00 40.00 C +ATOM 234 C LYS A 47 -30.584 13.942 46.019 1.00 40.00 C +ATOM 235 O LYS A 47 -31.277 13.796 47.022 1.00 40.00 O +ATOM 236 CB LYS A 47 -30.183 16.378 45.549 1.00 40.00 C +ATOM 237 CG LYS A 47 -28.695 16.463 45.219 1.00 40.00 C +ATOM 238 CD LYS A 47 -28.118 17.866 45.326 1.00 40.00 C +ATOM 239 CE LYS A 47 -27.205 17.999 46.525 1.00 40.00 C +ATOM 240 NZ LYS A 47 -26.233 19.097 46.295 1.00 40.00 N +ATOM 241 N ILE A 48 -29.610 13.108 45.687 1.00 40.00 N +ATOM 242 CA ILE A 48 -29.268 11.956 46.527 1.00 40.00 C +ATOM 243 C ILE A 48 -27.803 11.960 47.021 1.00 40.00 C +ATOM 244 O ILE A 48 -27.420 11.140 47.860 1.00 40.00 O +ATOM 245 CB ILE A 48 -29.630 10.625 45.839 1.00 40.00 C +ATOM 246 CG1 ILE A 48 -29.110 10.621 44.405 1.00 40.00 C +ATOM 247 CG2 ILE A 48 -31.138 10.426 45.842 1.00 40.00 C +ATOM 248 CD1 ILE A 48 -28.765 9.252 43.880 1.00 40.00 C +ATOM 249 N THR A 49 -26.995 12.881 46.488 1.00 40.00 N +ATOM 250 CA THR A 49 -25.672 13.207 47.045 1.00 40.00 C +ATOM 251 C THR A 49 -25.827 14.275 48.159 1.00 40.00 C +ATOM 252 O THR A 49 -26.760 15.104 48.119 1.00 40.00 O +ATOM 253 CB THR A 49 -24.658 13.706 45.963 1.00 40.00 C +ATOM 254 OG1 THR A 49 -25.212 14.791 45.208 1.00 40.00 O +ATOM 255 CG2 THR A 49 -24.258 12.608 45.001 1.00 40.00 C +ATOM 256 N GLY A 50 -24.925 14.246 49.150 1.00 40.00 N +ATOM 257 CA GLY A 50 -24.826 15.302 50.191 1.00 40.00 C +ATOM 258 C GLY A 50 -24.474 16.671 49.608 1.00 40.00 C +ATOM 259 O GLY A 50 -24.331 16.813 48.387 1.00 40.00 O +ATOM 260 N ASP A 51 -24.336 17.692 50.450 1.00 40.00 N +ATOM 261 CA ASP A 51 -24.119 19.048 49.917 1.00 40.00 C +ATOM 262 C ASP A 51 -22.654 19.324 49.611 1.00 40.00 C +ATOM 263 O ASP A 51 -22.311 20.122 48.725 1.00 40.00 O +ATOM 264 CB ASP A 51 -24.703 20.088 50.863 1.00 40.00 C +ATOM 265 CG ASP A 51 -26.211 20.175 50.759 1.00 40.00 C +ATOM 266 OD1 ASP A 51 -26.905 19.754 51.714 1.00 40.00 O +ATOM 267 OD2 ASP A 51 -26.699 20.651 49.706 1.00 40.00 O +ATOM 268 N ASP A 52 -21.808 18.624 50.357 1.00 40.00 N +ATOM 269 CA ASP A 52 -20.368 18.673 50.201 1.00 40.00 C +ATOM 270 C ASP A 52 -19.892 17.891 48.971 1.00 40.00 C +ATOM 271 O ASP A 52 -18.757 18.073 48.514 1.00 40.00 O +ATOM 272 CB ASP A 52 -19.698 18.150 51.478 1.00 40.00 C +ATOM 273 CG ASP A 52 -20.384 16.909 52.048 1.00 40.00 C +ATOM 274 OD1 ASP A 52 -21.637 16.813 52.034 1.00 40.00 O +ATOM 275 OD2 ASP A 52 -19.648 16.030 52.535 1.00 40.00 O +ATOM 276 N ALA A 53 -20.771 17.037 48.439 1.00 40.00 N +ATOM 277 CA ALA A 53 -20.493 16.213 47.250 1.00 40.00 C +ATOM 278 C ALA A 53 -19.982 16.975 46.023 1.00 40.00 C +ATOM 279 O ALA A 53 -20.568 17.984 45.608 1.00 40.00 O +ATOM 280 CB ALA A 53 -21.718 15.397 46.877 1.00 40.00 C +ATOM 281 N PRO A 54 -18.885 16.478 45.434 1.00 40.00 N +ATOM 282 CA PRO A 54 -18.259 17.121 44.284 1.00 40.00 C +ATOM 283 C PRO A 54 -19.181 17.402 43.079 1.00 40.00 C +ATOM 284 O PRO A 54 -19.044 18.441 42.428 1.00 40.00 O +ATOM 285 CB PRO A 54 -17.130 16.140 43.902 1.00 40.00 C +ATOM 286 CG PRO A 54 -17.359 14.899 44.711 1.00 40.00 C +ATOM 287 CD PRO A 54 -18.076 15.354 45.938 1.00 40.00 C +ATOM 288 N GLY A 55 -20.116 16.500 42.796 1.00 40.00 N +ATOM 289 CA GLY A 55 -20.763 16.496 41.487 1.00 40.00 C +ATOM 290 C GLY A 55 -22.252 16.748 41.411 1.00 40.00 C +ATOM 291 O GLY A 55 -22.731 17.305 40.418 1.00 40.00 O +ATOM 292 N GLU A 56 -22.985 16.328 42.443 1.00 40.00 N +ATOM 293 CA GLU A 56 -24.454 16.432 42.468 1.00 40.00 C +ATOM 294 C GLU A 56 -25.172 15.432 41.517 1.00 40.00 C +ATOM 295 O GLU A 56 -25.052 15.505 40.284 1.00 40.00 O +ATOM 296 CB GLU A 56 -24.912 17.888 42.236 1.00 40.00 C +ATOM 297 CG GLU A 56 -26.414 18.093 42.298 1.00 40.00 C +ATOM 298 CD GLU A 56 -26.820 19.539 42.179 1.00 40.00 C +ATOM 299 OE1 GLU A 56 -26.457 20.334 43.065 1.00 40.00 O +ATOM 300 OE2 GLU A 56 -27.520 19.867 41.207 1.00 40.00 O +ATOM 301 N THR A 57 -25.931 14.515 42.119 1.00 40.00 N +ATOM 302 CA THR A 57 -26.616 13.446 41.399 1.00 40.00 C +ATOM 303 C THR A 57 -28.043 13.255 41.921 1.00 40.00 C +ATOM 304 O THR A 57 -28.260 13.062 43.114 1.00 40.00 O +ATOM 305 CB THR A 57 -25.803 12.142 41.502 1.00 40.00 C +ATOM 306 OG1 THR A 57 -24.613 12.272 40.718 1.00 40.00 O +ATOM 307 CG2 THR A 57 -26.590 10.956 41.008 1.00 40.00 C +ATOM 308 N TRP A 58 -29.004 13.307 41.004 1.00 40.00 N +ATOM 309 CA TRP A 58 -30.434 13.245 41.326 1.00 40.00 C +ATOM 310 C TRP A 58 -31.092 11.933 40.947 1.00 40.00 C +ATOM 311 O TRP A 58 -30.743 11.335 39.923 1.00 40.00 O +ATOM 312 CB TRP A 58 -31.155 14.372 40.595 1.00 40.00 C +ATOM 313 CG TRP A 58 -30.775 15.755 41.046 1.00 40.00 C +ATOM 314 CD1 TRP A 58 -29.567 16.415 40.844 1.00 40.00 C +ATOM 315 CD2 TRP A 58 -31.608 16.703 41.794 1.00 40.00 C +ATOM 316 NE1 TRP A 58 -29.598 17.670 41.396 1.00 40.00 N +ATOM 317 CE2 TRP A 58 -30.791 17.903 41.983 1.00 40.00 C +ATOM 318 CE3 TRP A 58 -32.898 16.677 42.304 1.00 40.00 C +ATOM 319 CZ2 TRP A 58 -31.266 19.011 42.654 1.00 40.00 C +ATOM 320 CZ3 TRP A 58 -33.366 17.799 42.984 1.00 40.00 C +ATOM 321 CH2 TRP A 58 -32.571 18.939 43.153 1.00 40.00 C +ATOM 322 N HIS A 59 -32.068 11.481 41.743 1.00 40.00 N +ATOM 323 CA HIS A 59 -32.878 10.310 41.378 1.00 40.00 C +ATOM 324 C HIS A 59 -34.281 10.627 40.983 1.00 40.00 C +ATOM 325 O HIS A 59 -35.088 11.090 41.798 1.00 40.00 O +ATOM 326 CB HIS A 59 -32.942 9.314 42.493 1.00 40.00 C +ATOM 327 CG HIS A 59 -33.793 8.133 42.160 1.00 40.00 C +ATOM 328 ND1 HIS A 59 -33.340 7.113 41.424 1.00 40.00 N +ATOM 329 CD2 HIS A 59 -35.113 7.849 42.457 1.00 40.00 C +ATOM 330 CE1 HIS A 59 -34.306 6.200 41.283 1.00 40.00 C +ATOM 331 NE2 HIS A 59 -35.393 6.652 41.913 1.00 40.00 N +ATOM 332 N MET A 60 -34.603 10.320 39.737 1.00 40.00 N +ATOM 333 CA MET A 60 -35.849 10.782 39.170 1.00 40.00 C +ATOM 334 C MET A 60 -36.703 9.667 38.610 1.00 40.00 C +ATOM 335 O MET A 60 -36.186 8.702 38.054 1.00 40.00 O +ATOM 336 CB MET A 60 -35.592 11.852 38.110 1.00 40.00 C +ATOM 337 CG MET A 60 -34.631 11.461 37.002 1.00 40.00 C +ATOM 338 SD MET A 60 -34.024 12.965 36.220 1.00 40.00 S +ATOM 339 CE MET A 60 -32.764 13.417 37.401 1.00 40.00 C +ATOM 340 N VAL A 61 -38.018 9.838 38.761 1.00 40.00 N +ATOM 341 CA VAL A 61 -39.025 8.875 38.324 1.00 40.00 C +ATOM 342 C VAL A 61 -40.008 9.534 37.337 1.00 40.00 C +ATOM 343 O VAL A 61 -40.361 10.707 37.491 1.00 40.00 O +ATOM 344 CB VAL A 61 -39.796 8.278 39.531 1.00 40.00 C +ATOM 345 CG1 VAL A 61 -40.247 6.862 39.218 1.00 40.00 C +ATOM 346 CG2 VAL A 61 -38.928 8.259 40.786 1.00 40.00 C +ATOM 347 N PHE A 62 -40.438 8.783 36.322 1.00 40.00 N +ATOM 348 CA PHE A 62 -41.399 9.295 35.336 1.00 40.00 C +ATOM 349 C PHE A 62 -42.632 8.416 35.114 1.00 40.00 C +ATOM 350 O PHE A 62 -42.584 7.179 35.279 1.00 40.00 O +ATOM 351 CB PHE A 62 -40.738 9.530 33.976 1.00 40.00 C +ATOM 352 CG PHE A 62 -39.466 10.322 34.031 1.00 40.00 C +ATOM 353 CD1 PHE A 62 -39.434 11.591 34.586 1.00 40.00 C +ATOM 354 CD2 PHE A 62 -38.298 9.804 33.482 1.00 40.00 C +ATOM 355 CE1 PHE A 62 -38.251 12.320 34.613 1.00 40.00 C +ATOM 356 CE2 PHE A 62 -37.111 10.527 33.504 1.00 40.00 C +ATOM 357 CZ PHE A 62 -37.087 11.788 34.071 1.00 40.00 C +ATOM 358 N SER A 63 -43.720 9.080 34.713 1.00 40.00 N +ATOM 359 CA SER A 63 -44.963 8.426 34.328 1.00 40.00 C +ATOM 360 C SER A 63 -44.881 7.967 32.874 1.00 40.00 C +ATOM 361 O SER A 63 -44.475 8.728 31.981 1.00 40.00 O +ATOM 362 CB SER A 63 -46.127 9.389 34.494 1.00 40.00 C +ATOM 363 OG SER A 63 -45.875 10.568 33.749 1.00 40.00 O +ATOM 364 N THR A 64 -45.292 6.714 32.667 1.00 40.00 N +ATOM 365 CA THR A 64 -45.090 5.974 31.416 1.00 40.00 C +ATOM 366 C THR A 64 -46.394 5.421 30.855 1.00 40.00 C +ATOM 367 O THR A 64 -46.471 5.081 29.676 1.00 40.00 O +ATOM 368 CB THR A 64 -44.178 4.749 31.645 1.00 40.00 C +ATOM 369 OG1 THR A 64 -44.864 3.776 32.443 1.00 40.00 O +ATOM 370 CG2 THR A 64 -42.914 5.139 32.379 1.00 40.00 C +ATOM 371 N GLU A 65 -47.399 5.326 31.730 1.00 40.00 N +ATOM 372 CA GLU A 65 -48.696 4.680 31.462 1.00 40.00 C +ATOM 373 C GLU A 65 -48.599 3.163 31.192 1.00 40.00 C +ATOM 374 O GLU A 65 -49.466 2.597 30.527 1.00 40.00 O +ATOM 375 CB GLU A 65 -49.451 5.382 30.329 1.00 40.00 C +ATOM 376 CG GLU A 65 -49.692 6.869 30.531 1.00 40.00 C +ATOM 377 CD GLU A 65 -50.340 7.504 29.309 1.00 40.00 C +ATOM 378 OE1 GLU A 65 -51.537 7.226 29.062 1.00 40.00 O +ATOM 379 OE2 GLU A 65 -49.658 8.276 28.588 1.00 40.00 O +ATOM 380 N GLY A 66 -47.560 2.510 31.719 1.00 40.00 N +ATOM 381 CA GLY A 66 -47.309 1.087 31.443 1.00 40.00 C +ATOM 382 C GLY A 66 -46.930 0.849 29.990 1.00 40.00 C +ATOM 383 O GLY A 66 -46.709 -0.298 29.569 1.00 40.00 O +ATOM 384 N LYS A 67 -46.842 1.958 29.244 1.00 40.00 N +ATOM 385 CA LYS A 67 -46.648 1.973 27.779 1.00 40.00 C +ATOM 386 C LYS A 67 -45.213 1.614 27.318 1.00 40.00 C +ATOM 387 O LYS A 67 -44.925 1.554 26.100 1.00 40.00 O +ATOM 388 CB LYS A 67 -47.116 3.324 27.173 1.00 40.00 C +ATOM 389 CG LYS A 67 -48.639 3.472 27.026 1.00 40.00 C +ATOM 390 CD LYS A 67 -49.052 4.687 26.184 1.00 40.00 C +ATOM 391 CE LYS A 67 -50.562 4.731 25.952 1.00 40.00 C +ATOM 392 NZ LYS A 67 -50.995 5.959 25.222 1.00 40.00 N +ATOM 393 N ILE A 68 -44.325 1.383 28.289 1.00 40.00 N +ATOM 394 CA ILE A 68 -42.946 1.039 27.993 1.00 40.00 C +ATOM 395 C ILE A 68 -42.532 -0.130 28.856 1.00 40.00 C +ATOM 396 O ILE A 68 -41.862 0.072 29.858 1.00 40.00 O +ATOM 397 CB ILE A 68 -41.987 2.225 28.214 1.00 40.00 C +ATOM 398 CG1 ILE A 68 -42.425 3.445 27.375 1.00 40.00 C +ATOM 399 CG2 ILE A 68 -40.573 1.789 27.864 1.00 40.00 C +ATOM 400 CD1 ILE A 68 -41.767 4.769 27.724 1.00 40.00 C +ATOM 401 N PRO A 69 -42.935 -1.360 28.467 1.00 40.00 N +ATOM 402 CA PRO A 69 -42.637 -2.574 29.235 1.00 40.00 C +ATOM 403 C PRO A 69 -41.153 -2.886 29.178 1.00 40.00 C +ATOM 404 O PRO A 69 -40.732 -3.803 28.469 1.00 40.00 O +ATOM 405 CB PRO A 69 -43.440 -3.661 28.513 1.00 40.00 C +ATOM 406 CG PRO A 69 -43.521 -3.179 27.109 1.00 40.00 C +ATOM 407 CD PRO A 69 -43.632 -1.679 27.205 1.00 40.00 C +ATOM 408 N TYR A 70 -40.374 -2.099 29.916 1.00 40.00 N +ATOM 409 CA TYR A 70 -38.932 -2.248 29.950 1.00 40.00 C +ATOM 410 C TYR A 70 -38.521 -3.405 30.817 1.00 40.00 C +ATOM 411 O TYR A 70 -39.291 -3.900 31.639 1.00 40.00 O +ATOM 412 CB TYR A 70 -38.248 -0.961 30.424 1.00 40.00 C +ATOM 413 CG TYR A 70 -38.543 -0.511 31.851 1.00 40.00 C +ATOM 414 CD1 TYR A 70 -37.698 -0.855 32.907 1.00 40.00 C +ATOM 415 CD2 TYR A 70 -39.644 0.302 32.135 1.00 40.00 C +ATOM 416 CE1 TYR A 70 -37.958 -0.421 34.204 1.00 40.00 C +ATOM 417 CE2 TYR A 70 -39.911 0.739 33.428 1.00 40.00 C +ATOM 418 CZ TYR A 70 -39.067 0.380 34.456 1.00 40.00 C +ATOM 419 OH TYR A 70 -39.345 0.822 35.732 1.00 40.00 O +ATOM 420 N ARG A 71 -37.290 -3.834 30.622 1.00 40.00 N +ATOM 421 CA ARG A 71 -36.788 -4.906 31.416 1.00 40.00 C +ATOM 422 C ARG A 71 -35.400 -4.586 31.972 1.00 40.00 C +ATOM 423 O ARG A 71 -34.612 -3.855 31.350 1.00 40.00 O +ATOM 424 CB ARG A 71 -36.835 -6.212 30.626 1.00 40.00 C +ATOM 425 CG ARG A 71 -37.151 -7.440 31.477 1.00 40.00 C +ATOM 426 CD ARG A 71 -38.593 -7.499 31.989 1.00 40.00 C +ATOM 427 NE ARG A 71 -39.564 -7.907 30.961 1.00 40.00 N +ATOM 428 CZ ARG A 71 -39.833 -9.170 30.595 1.00 40.00 C +ATOM 429 NH1 ARG A 71 -39.198 -10.204 31.151 1.00 40.00 N +ATOM 430 NH2 ARG A 71 -40.742 -9.409 29.646 1.00 40.00 N +ATOM 431 N GLU A 72 -35.148 -5.133 33.167 1.00 40.00 N +ATOM 432 CA GLU A 72 -33.984 -4.850 34.010 1.00 40.00 C +ATOM 433 C GLU A 72 -32.664 -4.822 33.253 1.00 40.00 C +ATOM 434 O GLU A 72 -32.184 -5.860 32.796 1.00 40.00 O +ATOM 435 CB GLU A 72 -33.909 -5.874 35.151 1.00 40.00 C +ATOM 436 CG GLU A 72 -34.974 -5.723 36.237 1.00 40.00 C +ATOM 437 CD GLU A 72 -36.307 -6.390 35.907 1.00 40.00 C +ATOM 438 OE1 GLU A 72 -36.381 -7.150 34.918 1.00 40.00 O +ATOM 439 OE2 GLU A 72 -37.294 -6.163 36.649 1.00 40.00 O +ATOM 440 N GLY A 73 -32.090 -3.628 33.120 1.00 40.00 N +ATOM 441 CA GLY A 73 -30.760 -3.483 32.542 1.00 40.00 C +ATOM 442 C GLY A 73 -30.753 -2.563 31.359 1.00 40.00 C +ATOM 443 O GLY A 73 -29.710 -2.106 30.888 1.00 40.00 O +ATOM 444 N GLN A 74 -31.942 -2.286 30.878 1.00 40.00 N +ATOM 445 CA GLN A 74 -32.066 -1.431 29.740 1.00 40.00 C +ATOM 446 C GLN A 74 -31.752 0.006 30.134 1.00 40.00 C +ATOM 447 O GLN A 74 -31.291 0.275 31.245 1.00 40.00 O +ATOM 448 CB GLN A 74 -33.454 -1.578 29.124 1.00 40.00 C +ATOM 449 CG GLN A 74 -33.702 -2.957 28.517 1.00 40.00 C +ATOM 450 CD GLN A 74 -35.029 -3.062 27.790 1.00 40.00 C +ATOM 451 OE1 GLN A 74 -36.094 -3.173 28.407 1.00 40.00 O +ATOM 452 NE2 GLN A 74 -34.968 -3.039 26.464 1.00 40.00 N +ATOM 453 N SER A 75 -31.998 0.921 29.208 1.00 40.00 N +ATOM 454 CA SER A 75 -31.564 2.287 29.334 1.00 40.00 C +ATOM 455 C SER A 75 -32.503 3.069 28.459 1.00 40.00 C +ATOM 456 O SER A 75 -33.016 2.531 27.491 1.00 40.00 O +ATOM 457 CB SER A 75 -30.145 2.404 28.774 1.00 40.00 C +ATOM 458 OG SER A 75 -29.446 1.152 28.823 1.00 40.00 O +ATOM 459 N ILE A 76 -32.737 4.333 28.764 1.00 40.00 N +ATOM 460 CA ILE A 76 -33.582 5.116 27.866 1.00 40.00 C +ATOM 461 C ILE A 76 -32.987 6.420 27.366 1.00 40.00 C +ATOM 462 O ILE A 76 -31.976 6.922 27.874 1.00 40.00 O +ATOM 463 CB ILE A 76 -34.985 5.384 28.439 1.00 40.00 C +ATOM 464 CG1 ILE A 76 -34.904 6.188 29.731 1.00 40.00 C +ATOM 465 CG2 ILE A 76 -35.734 4.084 28.648 1.00 40.00 C +ATOM 466 CD1 ILE A 76 -36.182 6.935 30.059 1.00 40.00 C +ATOM 467 N GLY A 77 -33.654 6.959 26.356 1.00 40.00 N +ATOM 468 CA GLY A 77 -33.234 8.179 25.712 1.00 40.00 C +ATOM 469 C GLY A 77 -34.017 9.371 26.197 1.00 40.00 C +ATOM 470 O GLY A 77 -35.193 9.273 26.550 1.00 40.00 O +ATOM 471 N VAL A 78 -33.335 10.505 26.214 1.00 40.00 N +ATOM 472 CA VAL A 78 -33.906 11.744 26.675 1.00 40.00 C +ATOM 473 C VAL A 78 -33.591 12.832 25.662 1.00 40.00 C +ATOM 474 O VAL A 78 -32.420 13.150 25.391 1.00 40.00 O +ATOM 475 CB VAL A 78 -33.358 12.145 28.065 1.00 40.00 C +ATOM 476 CG1 VAL A 78 -33.909 13.507 28.478 1.00 40.00 C +ATOM 477 CG2 VAL A 78 -33.709 11.096 29.116 1.00 40.00 C +ATOM 478 N ILE A 79 -34.661 13.376 25.091 1.00 40.00 N +ATOM 479 CA ILE A 79 -34.580 14.580 24.271 1.00 40.00 C +ATOM 480 C ILE A 79 -34.788 15.791 25.173 1.00 40.00 C +ATOM 481 O ILE A 79 -35.906 16.045 25.671 1.00 40.00 O +ATOM 482 CB ILE A 79 -35.621 14.597 23.124 1.00 40.00 C +ATOM 483 CG1 ILE A 79 -35.448 13.361 22.215 1.00 40.00 C +ATOM 484 CG2 ILE A 79 -35.524 15.914 22.347 1.00 40.00 C +ATOM 485 CD1 ILE A 79 -36.684 12.946 21.435 1.00 40.00 C +ATOM 486 N ALA A 80 -33.687 16.513 25.384 1.00 40.00 N +ATOM 487 CA ALA A 80 -33.678 17.749 26.175 1.00 40.00 C +ATOM 488 C ALA A 80 -34.479 18.867 25.493 1.00 40.00 C +ATOM 489 O ALA A 80 -34.510 18.977 24.250 1.00 40.00 O +ATOM 490 CB ALA A 80 -32.243 18.203 26.469 1.00 40.00 C +ATOM 491 N ASP A 81 -35.138 19.677 26.321 1.00 40.00 N +ATOM 492 CA ASP A 81 -35.970 20.754 25.819 1.00 40.00 C +ATOM 493 C ASP A 81 -35.108 21.891 25.296 1.00 40.00 C +ATOM 494 O ASP A 81 -34.049 22.214 25.866 1.00 40.00 O +ATOM 495 CB ASP A 81 -36.970 21.232 26.880 1.00 40.00 C +ATOM 496 CG ASP A 81 -38.255 20.401 26.888 1.00 40.00 C +ATOM 497 OD1 ASP A 81 -38.262 19.276 26.330 1.00 40.00 O +ATOM 498 OD2 ASP A 81 -39.267 20.875 27.451 1.00 40.00 O +ATOM 499 N GLY A 82 -35.569 22.472 24.190 1.00 40.00 N +ATOM 500 CA GLY A 82 -34.833 23.508 23.487 1.00 40.00 C +ATOM 501 C GLY A 82 -34.290 22.996 22.171 1.00 40.00 C +ATOM 502 O GLY A 82 -34.594 21.870 21.739 1.00 40.00 O +ATOM 503 N VAL A 83 -33.485 23.839 21.535 1.00 40.00 N +ATOM 504 CA VAL A 83 -32.905 23.536 20.227 1.00 40.00 C +ATOM 505 C VAL A 83 -31.386 23.798 20.223 1.00 40.00 C +ATOM 506 O VAL A 83 -30.876 24.560 21.064 1.00 40.00 O +ATOM 507 CB VAL A 83 -33.655 24.261 19.053 1.00 40.00 C +ATOM 508 CG1 VAL A 83 -35.043 23.648 18.824 1.00 40.00 C +ATOM 509 CG2 VAL A 83 -33.746 25.777 19.262 1.00 40.00 C +ATOM 510 N ASP A 84 -30.668 23.138 19.307 1.00 40.00 N +ATOM 511 CA ASP A 84 -29.243 23.408 19.089 1.00 40.00 C +ATOM 512 C ASP A 84 -29.095 24.738 18.338 1.00 40.00 C +ATOM 513 O ASP A 84 -30.096 25.440 18.107 1.00 40.00 O +ATOM 514 CB ASP A 84 -28.555 22.244 18.344 1.00 40.00 C +ATOM 515 CG ASP A 84 -29.096 22.025 16.935 1.00 40.00 C +ATOM 516 OD1 ASP A 84 -28.631 21.099 16.258 1.00 40.00 O +ATOM 517 OD2 ASP A 84 -29.980 22.766 16.487 1.00 40.00 O +ATOM 518 N LYS A 85 -27.864 25.084 17.957 1.00 40.00 N +ATOM 519 CA LYS A 85 -27.621 26.282 17.146 1.00 40.00 C +ATOM 520 C LYS A 85 -28.473 26.388 15.855 1.00 40.00 C +ATOM 521 O LYS A 85 -28.785 27.511 15.407 1.00 40.00 O +ATOM 522 CB LYS A 85 -26.147 26.380 16.790 1.00 40.00 C +ATOM 523 CG LYS A 85 -25.591 25.135 16.115 1.00 40.00 C +ATOM 524 CD LYS A 85 -24.194 25.391 15.588 1.00 40.00 C +ATOM 525 CE LYS A 85 -23.360 26.152 16.612 1.00 40.00 C +ATOM 526 NZ LYS A 85 -23.672 25.752 18.019 1.00 40.00 N +ATOM 527 N ASN A 86 -28.851 25.228 15.287 1.00 40.00 N +ATOM 528 CA ASN A 86 -29.528 25.119 13.963 1.00 40.00 C +ATOM 529 C ASN A 86 -31.074 25.049 13.961 1.00 40.00 C +ATOM 530 O ASN A 86 -31.683 24.652 12.947 1.00 40.00 O +ATOM 531 CB ASN A 86 -28.973 23.914 13.184 1.00 40.00 C +ATOM 532 CG ASN A 86 -27.496 24.057 12.830 1.00 40.00 C +ATOM 533 OD1 ASN A 86 -26.940 23.182 12.170 1.00 40.00 O +ATOM 534 ND2 ASN A 86 -26.856 25.147 13.257 1.00 40.00 N +ATOM 535 N GLY A 87 -31.690 25.441 15.086 1.00 40.00 N +ATOM 536 CA GLY A 87 -33.138 25.295 15.311 1.00 40.00 C +ATOM 537 C GLY A 87 -33.572 23.838 15.505 1.00 40.00 C +ATOM 538 O GLY A 87 -34.777 23.552 15.696 1.00 40.00 O +ATOM 539 N LYS A 88 -32.582 22.927 15.467 1.00 40.00 N +ATOM 540 CA LYS A 88 -32.770 21.461 15.542 1.00 40.00 C +ATOM 541 C LYS A 88 -32.750 20.935 16.979 1.00 40.00 C +ATOM 542 O LYS A 88 -32.002 21.463 17.816 1.00 40.00 O +ATOM 543 CB LYS A 88 -31.682 20.740 14.738 1.00 40.00 C +ATOM 544 CG LYS A 88 -31.854 20.847 13.238 1.00 40.00 C +ATOM 545 CD LYS A 88 -30.580 20.423 12.547 1.00 40.00 C +ATOM 546 CE LYS A 88 -30.614 20.780 11.076 1.00 40.00 C +ATOM 547 NZ LYS A 88 -29.401 20.226 10.412 1.00 40.00 N +ATOM 548 N PRO A 89 -33.551 19.873 17.265 1.00 40.00 N +ATOM 549 CA PRO A 89 -33.560 19.337 18.638 1.00 40.00 C +ATOM 550 C PRO A 89 -32.130 19.033 19.111 1.00 40.00 C +ATOM 551 O PRO A 89 -31.192 18.976 18.297 1.00 40.00 O +ATOM 552 CB PRO A 89 -34.381 18.036 18.523 1.00 40.00 C +ATOM 553 CG PRO A 89 -35.116 18.116 17.223 1.00 40.00 C +ATOM 554 CD PRO A 89 -34.361 19.059 16.327 1.00 40.00 C +ATOM 555 N HIS A 90 -31.957 18.865 20.417 1.00 40.00 N +ATOM 556 CA HIS A 90 -30.689 18.342 20.936 1.00 40.00 C +ATOM 557 C HIS A 90 -30.642 16.854 20.637 1.00 40.00 C +ATOM 558 O HIS A 90 -31.658 16.255 20.244 1.00 40.00 O +ATOM 559 CB HIS A 90 -30.518 18.644 22.437 1.00 40.00 C +ATOM 560 CG HIS A 90 -30.581 20.127 22.779 1.00 40.00 C +ATOM 561 ND1 HIS A 90 -29.625 21.003 22.399 1.00 40.00 N +ATOM 562 CD2 HIS A 90 -31.538 20.873 23.483 1.00 40.00 C +ATOM 563 CE1 HIS A 90 -29.949 22.245 22.831 1.00 40.00 C +ATOM 564 NE2 HIS A 90 -31.120 22.165 23.493 1.00 40.00 N +ATOM 565 N LYS A 91 -29.473 16.234 20.796 1.00 40.00 N +ATOM 566 CA LYS A 91 -29.331 14.806 20.482 1.00 40.00 C +ATOM 567 C LYS A 91 -29.667 13.918 21.692 1.00 40.00 C +ATOM 568 O LYS A 91 -29.379 14.267 22.838 1.00 40.00 O +ATOM 569 CB LYS A 91 -27.929 14.515 19.914 1.00 40.00 C +ATOM 570 CG LYS A 91 -27.882 13.452 18.813 1.00 40.00 C +ATOM 571 CD LYS A 91 -28.185 13.974 17.411 1.00 40.00 C +ATOM 572 CE LYS A 91 -26.907 14.289 16.635 1.00 40.00 C +ATOM 573 NZ LYS A 91 -27.166 15.339 15.604 1.00 40.00 N +ATOM 574 N VAL A 92 -30.307 12.786 21.416 1.00 40.00 N +ATOM 575 CA VAL A 92 -30.689 11.803 22.429 1.00 40.00 C +ATOM 576 C VAL A 92 -29.541 11.474 23.366 1.00 40.00 C +ATOM 577 O VAL A 92 -28.484 11.042 22.928 1.00 40.00 O +ATOM 578 CB VAL A 92 -31.156 10.494 21.760 1.00 40.00 C +ATOM 579 CG1 VAL A 92 -31.308 9.366 22.770 1.00 40.00 C +ATOM 580 CG2 VAL A 92 -32.464 10.722 21.036 1.00 40.00 C +ATOM 581 N ARG A 93 -29.736 11.689 24.656 1.00 40.00 N +ATOM 582 CA ARG A 93 -28.787 11.168 25.618 1.00 40.00 C +ATOM 583 C ARG A 93 -29.381 9.936 26.265 1.00 40.00 C +ATOM 584 O ARG A 93 -30.591 9.826 26.421 1.00 40.00 O +ATOM 585 CB ARG A 93 -28.426 12.213 26.668 1.00 40.00 C +ATOM 586 CG ARG A 93 -27.177 13.021 26.352 1.00 40.00 C +ATOM 587 CD ARG A 93 -27.400 13.906 25.150 1.00 40.00 C +ATOM 588 NE ARG A 93 -26.626 15.133 25.226 1.00 40.00 N +ATOM 589 CZ ARG A 93 -26.703 16.119 24.338 1.00 40.00 C +ATOM 590 NH1 ARG A 93 -27.517 16.021 23.289 1.00 40.00 N +ATOM 591 NH2 ARG A 93 -25.963 17.211 24.499 1.00 40.00 N +ATOM 592 N LEU A 94 -28.529 9.001 26.643 1.00 40.00 N +ATOM 593 CA LEU A 94 -29.027 7.768 27.204 1.00 40.00 C +ATOM 594 C LEU A 94 -28.708 7.629 28.673 1.00 40.00 C +ATOM 595 O LEU A 94 -27.617 7.998 29.129 1.00 40.00 O +ATOM 596 CB LEU A 94 -28.463 6.587 26.439 1.00 40.00 C +ATOM 597 CG LEU A 94 -28.893 6.493 24.976 1.00 40.00 C +ATOM 598 CD1 LEU A 94 -28.234 5.277 24.332 1.00 40.00 C +ATOM 599 CD2 LEU A 94 -30.406 6.428 24.827 1.00 40.00 C +ATOM 600 N TYR A 95 -29.680 7.099 29.409 1.00 40.00 N +ATOM 601 CA TYR A 95 -29.533 6.926 30.843 1.00 40.00 C +ATOM 602 C TYR A 95 -30.029 5.551 31.267 1.00 40.00 C +ATOM 603 O TYR A 95 -31.121 5.129 30.892 1.00 40.00 O +ATOM 604 CB TYR A 95 -30.274 8.062 31.574 1.00 40.00 C +ATOM 605 CG TYR A 95 -29.678 9.428 31.276 1.00 40.00 C +ATOM 606 CD1 TYR A 95 -28.523 9.869 31.947 1.00 40.00 C +ATOM 607 CD2 TYR A 95 -30.238 10.261 30.301 1.00 40.00 C +ATOM 608 CE1 TYR A 95 -27.957 11.108 31.666 1.00 40.00 C +ATOM 609 CE2 TYR A 95 -29.678 11.501 30.017 1.00 40.00 C +ATOM 610 CZ TYR A 95 -28.536 11.915 30.700 1.00 40.00 C +ATOM 611 OH TYR A 95 -27.951 13.132 30.436 1.00 40.00 O +ATOM 612 N SER A 96 -29.188 4.852 32.030 1.00 40.00 N +ATOM 613 CA SER A 96 -29.441 3.478 32.434 1.00 40.00 C +ATOM 614 C SER A 96 -30.620 3.475 33.347 1.00 40.00 C +ATOM 615 O SER A 96 -30.680 4.268 34.269 1.00 40.00 O +ATOM 616 CB SER A 96 -28.242 2.913 33.186 1.00 40.00 C +ATOM 617 OG SER A 96 -27.015 3.360 32.632 1.00 40.00 O +ATOM 618 N ILE A 97 -31.561 2.578 33.097 1.00 40.00 N +ATOM 619 CA ILE A 97 -32.782 2.575 33.869 1.00 40.00 C +ATOM 620 C ILE A 97 -32.546 2.089 35.280 1.00 40.00 C +ATOM 621 O ILE A 97 -32.032 0.990 35.500 1.00 40.00 O +ATOM 622 CB ILE A 97 -33.883 1.756 33.198 1.00 40.00 C +ATOM 623 CG1 ILE A 97 -34.219 2.376 31.841 1.00 40.00 C +ATOM 624 CG2 ILE A 97 -35.114 1.715 34.091 1.00 40.00 C +ATOM 625 CD1 ILE A 97 -34.996 1.463 30.933 1.00 40.00 C +ATOM 626 N ALA A 98 -32.951 2.928 36.224 1.00 40.00 N +ATOM 627 CA ALA A 98 -32.674 2.712 37.625 1.00 40.00 C +ATOM 628 C ALA A 98 -33.733 1.884 38.321 1.00 40.00 C +ATOM 629 O ALA A 98 -33.386 1.093 39.192 1.00 40.00 O +ATOM 630 CB ALA A 98 -32.493 4.042 38.330 1.00 40.00 C +ATOM 631 N SER A 99 -35.009 2.059 37.957 1.00 40.00 N +ATOM 632 CA SER A 99 -36.078 1.250 38.572 1.00 40.00 C +ATOM 633 C SER A 99 -36.173 -0.154 37.983 1.00 40.00 C +ATOM 634 O SER A 99 -35.708 -0.389 36.876 1.00 40.00 O +ATOM 635 CB SER A 99 -37.439 1.950 38.506 1.00 40.00 C +ATOM 636 OG SER A 99 -37.670 2.505 37.233 1.00 40.00 O +ATOM 637 N SER A 100 -36.767 -1.084 38.728 1.00 40.00 N +ATOM 638 CA SER A 100 -37.017 -2.428 38.218 1.00 40.00 C +ATOM 639 C SER A 100 -38.166 -2.382 37.222 1.00 40.00 C +ATOM 640 O SER A 100 -38.791 -1.351 37.052 1.00 40.00 O +ATOM 641 CB SER A 100 -37.387 -3.366 39.357 1.00 40.00 C +ATOM 642 OG SER A 100 -38.731 -3.151 39.748 1.00 40.00 O +ATOM 643 N ALA A 101 -38.464 -3.506 36.587 1.00 40.00 N +ATOM 644 CA ALA A 101 -39.560 -3.574 35.631 1.00 40.00 C +ATOM 645 C ALA A 101 -40.817 -2.937 36.207 1.00 40.00 C +ATOM 646 O ALA A 101 -41.525 -2.174 35.545 1.00 40.00 O +ATOM 647 CB ALA A 101 -39.829 -5.026 35.256 1.00 40.00 C +ATOM 648 N ILE A 102 -41.054 -3.239 37.472 1.00 40.00 N +ATOM 649 CA ILE A 102 -42.299 -2.917 38.129 1.00 40.00 C +ATOM 650 C ILE A 102 -42.355 -1.438 38.499 1.00 40.00 C +ATOM 651 O ILE A 102 -43.403 -0.918 38.896 1.00 40.00 O +ATOM 652 CB ILE A 102 -42.472 -3.800 39.381 1.00 40.00 C +ATOM 653 CG1 ILE A 102 -41.786 -5.167 39.177 1.00 40.00 C +ATOM 654 CG2 ILE A 102 -43.949 -3.957 39.721 1.00 40.00 C +ATOM 655 CD1 ILE A 102 -42.319 -6.004 38.026 1.00 40.00 C +ATOM 656 N GLY A 103 -41.219 -0.764 38.345 1.00 40.00 N +ATOM 657 CA GLY A 103 -41.067 0.630 38.746 1.00 40.00 C +ATOM 658 C GLY A 103 -40.758 0.734 40.222 1.00 40.00 C +ATOM 659 O GLY A 103 -40.701 -0.274 40.947 1.00 40.00 O +ATOM 660 N ASP A 104 -40.554 1.962 40.672 1.00 40.00 N +ATOM 661 CA ASP A 104 -40.362 2.218 42.095 1.00 40.00 C +ATOM 662 C ASP A 104 -41.646 2.044 42.909 1.00 40.00 C +ATOM 663 O ASP A 104 -41.615 1.767 44.112 1.00 40.00 O +ATOM 664 CB ASP A 104 -39.807 3.623 42.301 1.00 40.00 C +ATOM 665 CG ASP A 104 -38.379 3.741 41.857 1.00 40.00 C +ATOM 666 OD1 ASP A 104 -37.629 2.735 41.974 1.00 40.00 O +ATOM 667 OD2 ASP A 104 -38.015 4.846 41.398 1.00 40.00 O +ATOM 668 N PHE A 105 -42.782 2.210 42.251 1.00 40.00 N +ATOM 669 CA PHE A 105 -44.036 2.109 42.953 1.00 40.00 C +ATOM 670 C PHE A 105 -44.558 0.697 42.851 1.00 40.00 C +ATOM 671 O PHE A 105 -45.513 0.355 43.526 1.00 40.00 O +ATOM 672 CB PHE A 105 -45.046 3.121 42.414 1.00 40.00 C +ATOM 673 CG PHE A 105 -44.503 4.518 42.311 1.00 40.00 C +ATOM 674 CD1 PHE A 105 -43.559 4.986 43.233 1.00 40.00 C +ATOM 675 CD2 PHE A 105 -44.938 5.379 41.303 1.00 40.00 C +ATOM 676 CE1 PHE A 105 -43.049 6.280 43.137 1.00 40.00 C +ATOM 677 CE2 PHE A 105 -44.437 6.676 41.201 1.00 40.00 C +ATOM 678 CZ PHE A 105 -43.492 7.130 42.118 1.00 40.00 C +ATOM 679 N GLY A 106 -43.925 -0.126 42.018 1.00 40.00 N +ATOM 680 CA GLY A 106 -44.315 -1.525 41.884 1.00 40.00 C +ATOM 681 C GLY A 106 -45.626 -1.729 41.145 1.00 40.00 C +ATOM 682 O GLY A 106 -46.351 -2.689 41.409 1.00 40.00 O +ATOM 683 N ASP A 107 -45.917 -0.836 40.205 1.00 40.00 N +ATOM 684 CA ASP A 107 -47.158 -0.895 39.444 1.00 40.00 C +ATOM 685 C ASP A 107 -46.914 -0.878 37.932 1.00 40.00 C +ATOM 686 O ASP A 107 -47.855 -0.914 37.157 1.00 40.00 O +ATOM 687 CB ASP A 107 -48.078 0.264 39.848 1.00 40.00 C +ATOM 688 CG ASP A 107 -47.636 1.607 39.256 1.00 40.00 C +ATOM 689 OD1 ASP A 107 -46.415 1.871 39.206 1.00 40.00 O +ATOM 690 OD2 ASP A 107 -48.511 2.401 38.839 1.00 40.00 O +ATOM 691 N SER A 108 -45.649 -0.801 37.530 1.00 40.00 N +ATOM 692 CA SER A 108 -45.237 -0.830 36.119 1.00 40.00 C +ATOM 693 C SER A 108 -45.753 0.328 35.243 1.00 40.00 C +ATOM 694 O SER A 108 -45.887 0.174 34.033 1.00 40.00 O +ATOM 695 CB SER A 108 -45.573 -2.184 35.491 1.00 40.00 C +ATOM 696 OG SER A 108 -44.964 -3.235 36.213 1.00 40.00 O +ATOM 697 N LYS A 109 -46.022 1.480 35.858 1.00 40.00 N +ATOM 698 CA LYS A 109 -46.450 2.704 35.149 1.00 40.00 C +ATOM 699 C LYS A 109 -45.403 3.816 35.304 1.00 40.00 C +ATOM 700 O LYS A 109 -45.703 5.018 35.218 1.00 40.00 O +ATOM 701 CB LYS A 109 -47.790 3.192 35.709 1.00 40.00 C +ATOM 702 CG LYS A 109 -48.906 2.154 35.719 1.00 40.00 C +ATOM 703 CD LYS A 109 -49.242 1.651 34.318 1.00 40.00 C +ATOM 704 CE LYS A 109 -50.562 0.893 34.262 1.00 40.00 C +ATOM 705 NZ LYS A 109 -51.743 1.801 34.275 1.00 40.00 N +ATOM 706 N THR A 110 -44.164 3.378 35.520 1.00 40.00 N +ATOM 707 CA THR A 110 -43.132 4.200 36.133 1.00 40.00 C +ATOM 708 C THR A 110 -41.740 3.770 35.740 1.00 40.00 C +ATOM 709 O THR A 110 -41.391 2.581 35.825 1.00 40.00 O +ATOM 710 CB THR A 110 -43.176 4.086 37.673 1.00 40.00 C +ATOM 711 OG1 THR A 110 -42.773 2.762 38.086 1.00 40.00 O +ATOM 712 CG2 THR A 110 -44.582 4.402 38.198 1.00 40.00 C +ATOM 713 N VAL A 111 -40.942 4.758 35.352 1.00 40.00 N +ATOM 714 CA VAL A 111 -39.539 4.547 35.046 1.00 40.00 C +ATOM 715 C VAL A 111 -38.681 5.464 35.922 1.00 40.00 C +ATOM 716 O VAL A 111 -39.092 6.584 36.201 1.00 40.00 O +ATOM 717 CB VAL A 111 -39.270 4.819 33.558 1.00 40.00 C +ATOM 718 CG1 VAL A 111 -39.332 6.304 33.259 1.00 40.00 C +ATOM 719 CG2 VAL A 111 -37.935 4.229 33.131 1.00 40.00 C +ATOM 720 N SER A 112 -37.500 4.993 36.344 1.00 40.00 N +ATOM 721 CA SER A 112 -36.612 5.768 37.210 1.00 40.00 C +ATOM 722 C SER A 112 -35.195 5.904 36.669 1.00 40.00 C +ATOM 723 O SER A 112 -34.578 4.915 36.265 1.00 40.00 O +ATOM 724 CB SER A 112 -36.581 5.142 38.589 1.00 40.00 C +ATOM 725 OG SER A 112 -37.902 4.802 38.978 1.00 40.00 O +ATOM 726 N LEU A 113 -34.700 7.146 36.678 1.00 40.00 N +ATOM 727 CA LEU A 113 -33.350 7.495 36.226 1.00 40.00 C +ATOM 728 C LEU A 113 -32.426 7.979 37.334 1.00 40.00 C +ATOM 729 O LEU A 113 -32.875 8.519 38.340 1.00 40.00 O +ATOM 730 CB LEU A 113 -33.423 8.601 35.188 1.00 40.00 C +ATOM 731 CG LEU A 113 -33.742 8.182 33.763 1.00 40.00 C +ATOM 732 CD1 LEU A 113 -33.598 9.386 32.853 1.00 40.00 C +ATOM 733 CD2 LEU A 113 -32.802 7.078 33.325 1.00 40.00 C +ATOM 734 N CYS A 114 -31.127 7.812 37.125 1.00 40.00 N +ATOM 735 CA CYS A 114 -30.134 8.284 38.069 1.00 40.00 C +ATOM 736 C CYS A 114 -29.172 9.188 37.325 1.00 40.00 C +ATOM 737 O CYS A 114 -28.409 8.728 36.475 1.00 40.00 O +ATOM 738 CB CYS A 114 -29.409 7.100 38.680 1.00 40.00 C +ATOM 739 SG CYS A 114 -28.053 7.523 39.784 1.00 40.00 S +ATOM 740 N VAL A 115 -29.225 10.479 37.626 1.00 40.00 N +ATOM 741 CA VAL A 115 -28.500 11.460 36.823 1.00 40.00 C +ATOM 742 C VAL A 115 -27.558 12.344 37.630 1.00 40.00 C +ATOM 743 O VAL A 115 -27.969 13.010 38.587 1.00 40.00 O +ATOM 744 CB VAL A 115 -29.450 12.373 36.020 1.00 40.00 C +ATOM 745 CG1 VAL A 115 -28.696 13.063 34.888 1.00 40.00 C +ATOM 746 CG2 VAL A 115 -30.614 11.582 35.463 1.00 40.00 C +ATOM 747 N LYS A 116 -26.291 12.354 37.219 1.00 40.00 N +ATOM 748 CA LYS A 116 -25.312 13.297 37.734 1.00 40.00 C +ATOM 749 C LYS A 116 -25.303 14.521 36.826 1.00 40.00 C +ATOM 750 O LYS A 116 -25.272 14.409 35.591 1.00 40.00 O +ATOM 751 CB LYS A 116 -23.925 12.667 37.794 1.00 40.00 C +ATOM 752 CG LYS A 116 -22.913 13.470 38.580 1.00 40.00 C +ATOM 753 CD LYS A 116 -21.544 13.277 37.972 1.00 40.00 C +ATOM 754 CE LYS A 116 -20.591 14.385 38.372 1.00 40.00 C +ATOM 755 NZ LYS A 116 -19.921 14.036 39.646 1.00 40.00 N +ATOM 756 N ARG A 117 -25.360 15.685 37.466 1.00 40.00 N +ATOM 757 CA ARG A 117 -25.310 16.981 36.805 1.00 40.00 C +ATOM 758 C ARG A 117 -23.893 17.241 36.254 1.00 40.00 C +ATOM 759 O ARG A 117 -22.926 17.397 37.016 1.00 40.00 O +ATOM 760 CB ARG A 117 -25.724 18.062 37.817 1.00 40.00 C +ATOM 761 CG ARG A 117 -26.222 19.356 37.206 1.00 40.00 C +ATOM 762 CD ARG A 117 -26.411 20.435 38.260 1.00 40.00 C +ATOM 763 NE ARG A 117 -27.721 20.374 38.908 1.00 40.00 N +ATOM 764 CZ ARG A 117 -28.829 20.947 38.438 1.00 40.00 C +ATOM 765 NH1 ARG A 117 -28.806 21.629 37.299 1.00 40.00 N +ATOM 766 NH2 ARG A 117 -29.968 20.835 39.110 1.00 40.00 N +ATOM 767 N LEU A 118 -23.767 17.254 34.928 1.00 40.00 N +ATOM 768 CA LEU A 118 -22.479 17.524 34.289 1.00 40.00 C +ATOM 769 C LEU A 118 -22.130 19.002 34.438 1.00 40.00 C +ATOM 770 O LEU A 118 -22.697 19.844 33.730 1.00 40.00 O +ATOM 771 CB LEU A 118 -22.512 17.118 32.798 1.00 40.00 C +ATOM 772 CG LEU A 118 -21.355 17.468 31.845 1.00 40.00 C +ATOM 773 CD1 LEU A 118 -20.050 16.822 32.286 1.00 40.00 C +ATOM 774 CD2 LEU A 118 -21.666 17.083 30.406 1.00 40.00 C +ATOM 775 N ILE A 119 -21.237 19.320 35.381 1.00 40.00 N +ATOM 776 CA ILE A 119 -20.637 20.668 35.454 1.00 40.00 C +ATOM 777 C ILE A 119 -19.129 20.613 35.733 1.00 40.00 C +ATOM 778 O ILE A 119 -18.690 20.060 36.746 1.00 40.00 O +ATOM 779 CB ILE A 119 -21.336 21.634 36.455 1.00 40.00 C +ATOM 780 CG1 ILE A 119 -22.827 21.824 36.124 1.00 40.00 C +ATOM 781 CG2 ILE A 119 -20.641 22.992 36.423 1.00 40.00 C +ATOM 782 CD1 ILE A 119 -23.622 22.615 37.146 1.00 40.00 C +ATOM 783 N TYR A 120 -18.358 21.178 34.803 1.00 40.00 N +ATOM 784 CA TYR A 120 -16.898 21.312 34.919 1.00 40.00 C +ATOM 785 C TYR A 120 -16.486 22.749 34.631 1.00 40.00 C +ATOM 786 O TYR A 120 -17.273 23.525 34.095 1.00 40.00 O +ATOM 787 CB TYR A 120 -16.127 20.328 33.992 1.00 40.00 C +ATOM 788 CG TYR A 120 -16.482 20.331 32.489 1.00 40.00 C +ATOM 789 CD1 TYR A 120 -17.665 19.724 32.018 1.00 40.00 C +ATOM 790 CD2 TYR A 120 -15.617 20.891 31.532 1.00 40.00 C +ATOM 791 CE1 TYR A 120 -17.991 19.699 30.659 1.00 40.00 C +ATOM 792 CE2 TYR A 120 -15.940 20.867 30.164 1.00 40.00 C +ATOM 793 CZ TYR A 120 -17.128 20.265 29.732 1.00 40.00 C +ATOM 794 OH TYR A 120 -17.481 20.224 28.390 1.00 40.00 O +ATOM 795 N THR A 121 -15.264 23.097 35.025 1.00 40.00 N +ATOM 796 CA THR A 121 -14.608 24.343 34.610 1.00 40.00 C +ATOM 797 C THR A 121 -13.546 23.922 33.568 1.00 40.00 C +ATOM 798 O THR A 121 -12.801 22.960 33.812 1.00 40.00 O +ATOM 799 CB THR A 121 -14.024 25.127 35.848 1.00 40.00 C +ATOM 800 OG1 THR A 121 -15.065 25.870 36.507 1.00 40.00 O +ATOM 801 CG2 THR A 121 -12.909 26.121 35.477 1.00 40.00 C +ATOM 802 N ASN A 122 -13.515 24.577 32.397 1.00 40.00 N +ATOM 803 CA ASN A 122 -12.383 24.390 31.444 1.00 40.00 C +ATOM 804 C ASN A 122 -11.133 25.248 31.785 1.00 40.00 C +ATOM 805 O ASN A 122 -11.107 25.916 32.834 1.00 40.00 O +ATOM 806 CB ASN A 122 -12.798 24.456 29.939 1.00 40.00 C +ATOM 807 CG ASN A 122 -13.401 25.803 29.513 1.00 40.00 C +ATOM 808 OD1 ASN A 122 -12.796 26.869 29.669 1.00 40.00 O +ATOM 809 ND2 ASN A 122 -14.586 25.741 28.912 1.00 40.00 N +ATOM 810 N ASP A 123 -10.105 25.215 30.925 1.00 40.00 N +ATOM 811 CA ASP A 123 -8.842 25.962 31.178 1.00 40.00 C +ATOM 812 C ASP A 123 -8.906 27.528 31.050 1.00 40.00 C +ATOM 813 O ASP A 123 -7.963 28.247 31.453 1.00 40.00 O +ATOM 814 CB ASP A 123 -7.632 25.339 30.423 1.00 40.00 C +ATOM 815 CG ASP A 123 -7.922 25.017 28.942 1.00 40.00 C +ATOM 816 OD1 ASP A 123 -8.986 25.411 28.394 1.00 40.00 O +ATOM 817 OD2 ASP A 123 -7.046 24.360 28.326 1.00 40.00 O +ATOM 818 N ALA A 124 -10.021 28.041 30.517 1.00 40.00 N +ATOM 819 CA ALA A 124 -10.295 29.487 30.481 1.00 40.00 C +ATOM 820 C ALA A 124 -11.108 30.011 31.708 1.00 40.00 C +ATOM 821 O ALA A 124 -11.480 31.195 31.749 1.00 40.00 O +ATOM 822 CB ALA A 124 -10.959 29.865 29.155 1.00 40.00 C +ATOM 823 N GLY A 125 -11.349 29.135 32.700 1.00 40.00 N +ATOM 824 CA GLY A 125 -12.114 29.457 33.926 1.00 40.00 C +ATOM 825 C GLY A 125 -13.628 29.297 33.788 1.00 40.00 C +ATOM 826 O GLY A 125 -14.375 29.486 34.768 1.00 40.00 O +ATOM 827 N GLU A 126 -14.052 28.912 32.574 1.00 40.00 N +ATOM 828 CA GLU A 126 -15.458 28.920 32.097 1.00 40.00 C +ATOM 829 C GLU A 126 -16.289 27.700 32.509 1.00 40.00 C +ATOM 830 O GLU A 126 -16.063 26.596 32.002 1.00 40.00 O +ATOM 831 CB GLU A 126 -15.495 29.041 30.559 1.00 40.00 C +ATOM 832 CG GLU A 126 -14.751 30.247 29.999 1.00 40.00 C +ATOM 833 CD GLU A 126 -14.203 30.032 28.593 1.00 40.00 C +ATOM 834 OE1 GLU A 126 -13.985 28.867 28.172 1.00 40.00 O +ATOM 835 OE2 GLU A 126 -13.960 31.055 27.912 1.00 40.00 O +ATOM 836 N ILE A 127 -17.258 27.922 33.406 1.00 40.00 N +ATOM 837 CA ILE A 127 -18.194 26.882 33.880 1.00 40.00 C +ATOM 838 C ILE A 127 -19.071 26.318 32.736 1.00 40.00 C +ATOM 839 O ILE A 127 -19.987 26.998 32.234 1.00 40.00 O +ATOM 840 CB ILE A 127 -19.036 27.368 35.107 1.00 40.00 C +ATOM 841 CG1 ILE A 127 -18.186 27.333 36.389 1.00 40.00 C +ATOM 842 CG2 ILE A 127 -20.310 26.546 35.298 1.00 40.00 C +ATOM 843 CD1 ILE A 127 -18.945 27.614 37.674 1.00 40.00 C +ATOM 844 N VAL A 128 -18.751 25.079 32.330 1.00 40.00 N +ATOM 845 CA VAL A 128 -19.491 24.319 31.302 1.00 40.00 C +ATOM 846 C VAL A 128 -20.505 23.383 31.972 1.00 40.00 C +ATOM 847 O VAL A 128 -20.198 22.706 32.961 1.00 40.00 O +ATOM 848 CB VAL A 128 -18.553 23.472 30.397 1.00 40.00 C +ATOM 849 CG1 VAL A 128 -19.304 22.932 29.185 1.00 40.00 C +ATOM 850 CG2 VAL A 128 -17.339 24.274 29.947 1.00 40.00 C +ATOM 851 N LYS A 129 -21.714 23.361 31.421 1.00 40.00 N +ATOM 852 CA LYS A 129 -22.788 22.508 31.928 1.00 40.00 C +ATOM 853 C LYS A 129 -23.339 21.556 30.837 1.00 40.00 C +ATOM 854 O LYS A 129 -23.557 21.965 29.685 1.00 40.00 O +ATOM 855 CB LYS A 129 -23.926 23.366 32.503 1.00 40.00 C +ATOM 856 CG LYS A 129 -23.519 24.435 33.513 1.00 40.00 C +ATOM 857 CD LYS A 129 -24.732 25.009 34.254 1.00 40.00 C +ATOM 858 CE LYS A 129 -25.698 25.765 33.340 1.00 40.00 C +ATOM 859 NZ LYS A 129 -26.987 26.080 34.018 1.00 40.00 N +ATOM 860 N GLY A 130 -23.569 20.295 31.204 1.00 40.00 N +ATOM 861 CA GLY A 130 -24.160 19.319 30.286 1.00 40.00 C +ATOM 862 C GLY A 130 -25.624 19.575 29.974 1.00 40.00 C +ATOM 863 O GLY A 130 -26.442 19.695 30.883 1.00 40.00 O +ATOM 864 N VAL A 131 -25.944 19.649 28.682 1.00 40.00 N +ATOM 865 CA VAL A 131 -27.308 19.894 28.208 1.00 40.00 C +ATOM 866 C VAL A 131 -28.322 18.985 28.914 1.00 40.00 C +ATOM 867 O VAL A 131 -29.124 19.445 29.733 1.00 40.00 O +ATOM 868 CB VAL A 131 -27.416 19.720 26.667 1.00 40.00 C +ATOM 869 CG1 VAL A 131 -28.848 19.929 26.179 1.00 40.00 C +ATOM 870 CG2 VAL A 131 -26.471 20.671 25.946 1.00 40.00 C +ATOM 871 N CYS A 132 -28.266 17.694 28.612 1.00 40.00 N +ATOM 872 CA CYS A 132 -29.274 16.755 29.085 1.00 40.00 C +ATOM 873 C CYS A 132 -29.195 16.559 30.596 1.00 40.00 C +ATOM 874 O CYS A 132 -30.220 16.564 31.274 1.00 40.00 O +ATOM 875 CB CYS A 132 -29.141 15.419 28.356 1.00 40.00 C +ATOM 876 SG CYS A 132 -30.708 14.639 27.945 1.00 40.00 S +ATOM 877 N SER A 133 -27.976 16.420 31.119 1.00 40.00 N +ATOM 878 CA SER A 133 -27.757 16.172 32.546 1.00 40.00 C +ATOM 879 C SER A 133 -28.342 17.269 33.407 1.00 40.00 C +ATOM 880 O SER A 133 -28.935 17.008 34.455 1.00 40.00 O +ATOM 881 CB SER A 133 -26.268 16.081 32.842 1.00 40.00 C +ATOM 882 OG SER A 133 -25.647 17.327 32.581 1.00 40.00 O +ATOM 883 N ASN A 134 -28.145 18.502 32.956 1.00 40.00 N +ATOM 884 CA ASN A 134 -28.660 19.668 33.663 1.00 40.00 C +ATOM 885 C ASN A 134 -30.156 19.861 33.442 1.00 40.00 C +ATOM 886 O ASN A 134 -30.871 20.219 34.376 1.00 40.00 O +ATOM 887 CB ASN A 134 -27.860 20.932 33.315 1.00 40.00 C +ATOM 888 CG ASN A 134 -26.510 20.972 34.019 1.00 40.00 C +ATOM 889 OD1 ASN A 134 -26.403 21.436 35.159 1.00 40.00 O +ATOM 890 ND2 ASN A 134 -25.473 20.477 33.345 1.00 40.00 N +ATOM 891 N PHE A 135 -30.627 19.601 32.223 1.00 40.00 N +ATOM 892 CA PHE A 135 -32.054 19.635 31.944 1.00 40.00 C +ATOM 893 C PHE A 135 -32.812 18.734 32.932 1.00 40.00 C +ATOM 894 O PHE A 135 -33.855 19.124 33.475 1.00 40.00 O +ATOM 895 CB PHE A 135 -32.319 19.235 30.486 1.00 40.00 C +ATOM 896 CG PHE A 135 -33.754 18.869 30.201 1.00 40.00 C +ATOM 897 CD1 PHE A 135 -34.766 19.830 30.267 1.00 40.00 C +ATOM 898 CD2 PHE A 135 -34.099 17.554 29.860 1.00 40.00 C +ATOM 899 CE1 PHE A 135 -36.087 19.483 30.009 1.00 40.00 C +ATOM 900 CE2 PHE A 135 -35.420 17.203 29.596 1.00 40.00 C +ATOM 901 CZ PHE A 135 -36.415 18.171 29.669 1.00 40.00 C +ATOM 902 N LEU A 136 -32.253 17.554 33.193 1.00 40.00 N +ATOM 903 CA LEU A 136 -32.944 16.525 33.959 1.00 40.00 C +ATOM 904 C LEU A 136 -32.970 16.775 35.450 1.00 40.00 C +ATOM 905 O LEU A 136 -34.036 16.712 36.064 1.00 40.00 O +ATOM 906 CB LEU A 136 -32.378 15.140 33.650 1.00 40.00 C +ATOM 907 CG LEU A 136 -32.822 14.638 32.268 1.00 40.00 C +ATOM 908 CD1 LEU A 136 -31.982 13.460 31.773 1.00 40.00 C +ATOM 909 CD2 LEU A 136 -34.317 14.322 32.236 1.00 40.00 C +ATOM 910 N CYS A 137 -31.809 17.073 36.032 1.00 40.00 N +ATOM 911 CA CYS A 137 -31.756 17.422 37.449 1.00 40.00 C +ATOM 912 C CYS A 137 -32.649 18.637 37.738 1.00 40.00 C +ATOM 913 O CYS A 137 -33.182 18.764 38.846 1.00 40.00 O +ATOM 914 CB CYS A 137 -30.318 17.712 37.879 1.00 40.00 C +ATOM 915 SG CYS A 137 -29.191 16.300 37.890 1.00 40.00 S +ATOM 916 N ASP A 138 -32.810 19.499 36.720 1.00 40.00 N +ATOM 917 CA ASP A 138 -33.585 20.761 36.787 1.00 40.00 C +ATOM 918 C ASP A 138 -35.098 20.568 36.736 1.00 40.00 C +ATOM 919 O ASP A 138 -35.859 21.534 36.878 1.00 40.00 O +ATOM 920 CB ASP A 138 -33.183 21.726 35.649 1.00 40.00 C +ATOM 921 CG ASP A 138 -31.939 22.562 35.977 1.00 40.00 C +ATOM 922 OD1 ASP A 138 -31.361 22.413 37.082 1.00 40.00 O +ATOM 923 OD2 ASP A 138 -31.532 23.376 35.113 1.00 40.00 O +ATOM 924 N LEU A 139 -35.535 19.333 36.528 1.00 40.00 N +ATOM 925 CA LEU A 139 -36.950 19.092 36.343 1.00 40.00 C +ATOM 926 C LEU A 139 -37.750 19.113 37.634 1.00 40.00 C +ATOM 927 O LEU A 139 -37.335 18.564 38.659 1.00 40.00 O +ATOM 928 CB LEU A 139 -37.195 17.809 35.564 1.00 40.00 C +ATOM 929 CG LEU A 139 -36.862 17.934 34.072 1.00 40.00 C +ATOM 930 CD1 LEU A 139 -37.016 16.572 33.412 1.00 40.00 C +ATOM 931 CD2 LEU A 139 -37.685 18.996 33.341 1.00 40.00 C +ATOM 932 N GLN A 140 -38.901 19.776 37.556 1.00 40.00 N +ATOM 933 CA GLN A 140 -39.833 19.898 38.671 1.00 40.00 C +ATOM 934 C GLN A 140 -40.996 18.939 38.501 1.00 40.00 C +ATOM 935 O GLN A 140 -41.377 18.616 37.362 1.00 40.00 O +ATOM 936 CB GLN A 140 -40.372 21.334 38.787 1.00 40.00 C +ATOM 937 CG GLN A 140 -39.315 22.396 39.072 1.00 40.00 C +ATOM 938 CD GLN A 140 -38.353 22.014 40.195 1.00 40.00 C +ATOM 939 OE1 GLN A 140 -37.207 22.469 40.215 1.00 40.00 O +ATOM 940 NE2 GLN A 140 -38.813 21.174 41.132 1.00 40.00 N +ATOM 941 N PRO A 141 -41.569 18.478 39.630 1.00 40.00 N +ATOM 942 CA PRO A 141 -42.819 17.730 39.510 1.00 40.00 C +ATOM 943 C PRO A 141 -43.761 18.392 38.480 1.00 40.00 C +ATOM 944 O PRO A 141 -44.050 19.592 38.570 1.00 40.00 O +ATOM 945 CB PRO A 141 -43.397 17.789 40.934 1.00 40.00 C +ATOM 946 CG PRO A 141 -42.201 17.931 41.827 1.00 40.00 C +ATOM 947 CD PRO A 141 -41.064 18.512 41.020 1.00 40.00 C +ATOM 948 N GLY A 142 -44.179 17.627 37.477 1.00 40.00 N +ATOM 949 CA GLY A 142 -45.208 18.090 36.557 1.00 40.00 C +ATOM 950 C GLY A 142 -44.722 18.481 35.192 1.00 40.00 C +ATOM 951 O GLY A 142 -45.525 18.641 34.262 1.00 40.00 O +ATOM 952 N ASP A 143 -43.407 18.641 35.072 1.00 40.00 N +ATOM 953 CA ASP A 143 -42.783 18.922 33.783 1.00 40.00 C +ATOM 954 C ASP A 143 -42.959 17.749 32.808 1.00 40.00 C +ATOM 955 O ASP A 143 -43.105 16.583 33.218 1.00 40.00 O +ATOM 956 CB ASP A 143 -41.302 19.261 33.969 1.00 40.00 C +ATOM 957 CG ASP A 143 -41.083 20.453 34.884 1.00 40.00 C +ATOM 958 OD1 ASP A 143 -41.995 20.805 35.670 1.00 40.00 O +ATOM 959 OD2 ASP A 143 -39.979 21.032 34.816 1.00 40.00 O +ATOM 960 N ASN A 144 -42.968 18.072 31.519 1.00 40.00 N +ATOM 961 CA ASN A 144 -42.992 17.047 30.502 1.00 40.00 C +ATOM 962 C ASN A 144 -41.600 16.581 30.099 1.00 40.00 C +ATOM 963 O ASN A 144 -40.657 17.385 30.092 1.00 40.00 O +ATOM 964 CB ASN A 144 -43.770 17.526 29.292 1.00 40.00 C +ATOM 965 CG ASN A 144 -45.229 17.149 29.371 1.00 40.00 C +ATOM 966 OD1 ASN A 144 -46.048 17.607 28.575 1.00 40.00 O +ATOM 967 ND2 ASN A 144 -45.564 16.290 30.331 1.00 40.00 N +ATOM 968 N VAL A 145 -41.487 15.275 29.795 1.00 40.00 N +ATOM 969 CA VAL A 145 -40.241 14.627 29.301 1.00 40.00 C +ATOM 970 C VAL A 145 -40.498 13.830 28.001 1.00 40.00 C +ATOM 971 O VAL A 145 -41.399 12.974 27.938 1.00 40.00 O +ATOM 972 CB VAL A 145 -39.573 13.668 30.343 1.00 40.00 C +ATOM 973 CG1 VAL A 145 -38.104 13.472 30.015 1.00 40.00 C +ATOM 974 CG2 VAL A 145 -39.690 14.179 31.771 1.00 40.00 C +ATOM 975 N GLN A 146 -39.703 14.116 26.970 1.00 40.00 N +ATOM 976 CA GLN A 146 -39.768 13.348 25.725 1.00 40.00 C +ATOM 977 C GLN A 146 -38.863 12.123 25.831 1.00 40.00 C +ATOM 978 O GLN A 146 -37.657 12.249 26.089 1.00 40.00 O +ATOM 979 CB GLN A 146 -39.365 14.214 24.536 1.00 40.00 C +ATOM 980 CG GLN A 146 -40.338 15.340 24.214 1.00 40.00 C +ATOM 981 CD GLN A 146 -39.825 16.229 23.096 1.00 40.00 C +ATOM 982 OE1 GLN A 146 -38.720 16.781 23.178 1.00 40.00 O +ATOM 983 NE2 GLN A 146 -40.625 16.374 22.040 1.00 40.00 N +ATOM 984 N ILE A 147 -39.448 10.942 25.624 1.00 40.00 N +ATOM 985 CA ILE A 147 -38.804 9.665 25.987 1.00 40.00 C +ATOM 986 C ILE A 147 -38.645 8.662 24.828 1.00 40.00 C +ATOM 987 O ILE A 147 -39.631 8.250 24.203 1.00 40.00 O +ATOM 988 CB ILE A 147 -39.548 9.004 27.177 1.00 40.00 C +ATOM 989 CG1 ILE A 147 -39.446 9.898 28.412 1.00 40.00 C +ATOM 990 CG2 ILE A 147 -38.992 7.619 27.480 1.00 40.00 C +ATOM 991 CD1 ILE A 147 -40.486 9.620 29.468 1.00 40.00 C +ATOM 992 N THR A 148 -37.393 8.276 24.564 1.00 40.00 N +ATOM 993 CA THR A 148 -37.063 7.238 23.575 1.00 40.00 C +ATOM 994 C THR A 148 -36.675 5.904 24.234 1.00 40.00 C +ATOM 995 O THR A 148 -36.190 5.870 25.367 1.00 40.00 O +ATOM 996 CB THR A 148 -35.922 7.680 22.625 1.00 40.00 C +ATOM 997 OG1 THR A 148 -34.740 7.978 23.376 1.00 40.00 O +ATOM 998 CG2 THR A 148 -36.321 8.908 21.832 1.00 40.00 C +ATOM 999 N GLY A 149 -36.882 4.803 23.525 1.00 40.00 N +ATOM 1000 CA GLY A 149 -36.491 3.508 24.057 1.00 40.00 C +ATOM 1001 C GLY A 149 -37.626 2.503 24.097 1.00 40.00 C +ATOM 1002 O GLY A 149 -38.636 2.684 23.402 1.00 40.00 O +ATOM 1003 N PRO A 150 -37.462 1.418 24.884 1.00 40.00 N +ATOM 1004 CA PRO A 150 -36.271 1.117 25.663 1.00 40.00 C +ATOM 1005 C PRO A 150 -35.124 0.669 24.768 1.00 40.00 C +ATOM 1006 O PRO A 150 -35.361 0.262 23.629 1.00 40.00 O +ATOM 1007 CB PRO A 150 -36.723 -0.025 26.572 1.00 40.00 C +ATOM 1008 CG PRO A 150 -37.820 -0.691 25.850 1.00 40.00 C +ATOM 1009 CD PRO A 150 -38.472 0.349 24.987 1.00 40.00 C +ATOM 1010 N VAL A 151 -33.896 0.753 25.273 1.00 40.00 N +ATOM 1011 CA VAL A 151 -32.719 0.495 24.458 1.00 40.00 C +ATOM 1012 C VAL A 151 -31.702 -0.353 25.218 1.00 40.00 C +ATOM 1013 O VAL A 151 -31.580 -0.231 26.434 1.00 40.00 O +ATOM 1014 CB VAL A 151 -32.095 1.825 23.975 1.00 40.00 C +ATOM 1015 CG1 VAL A 151 -30.744 1.599 23.326 1.00 40.00 C +ATOM 1016 CG2 VAL A 151 -33.011 2.522 22.981 1.00 40.00 C +ATOM 1017 N GLY A 152 -30.991 -1.217 24.491 1.00 40.00 N +ATOM 1018 CA GLY A 152 -29.925 -2.036 25.060 1.00 40.00 C +ATOM 1019 C GLY A 152 -30.393 -3.446 25.327 1.00 40.00 C +ATOM 1020 O GLY A 152 -31.478 -3.664 25.858 1.00 40.00 O +ATOM 1021 N LYS A 153 -29.577 -4.408 24.934 1.00 40.00 N +ATOM 1022 CA LYS A 153 -29.853 -5.785 25.250 1.00 40.00 C +ATOM 1023 C LYS A 153 -28.638 -6.265 25.976 1.00 40.00 C +ATOM 1024 O LYS A 153 -28.606 -7.381 26.486 1.00 40.00 O +ATOM 1025 CB LYS A 153 -30.011 -6.611 23.978 1.00 40.00 C +ATOM 1026 CG LYS A 153 -31.176 -6.229 23.063 1.00 40.00 C +ATOM 1027 CD LYS A 153 -32.425 -7.104 23.259 1.00 40.00 C +ATOM 1028 CE LYS A 153 -32.369 -8.463 22.555 1.00 40.00 C +ATOM 1029 NZ LYS A 153 -32.662 -8.406 21.096 1.00 40.00 N +ATOM 1030 N GLU A 154 -27.627 -5.406 26.011 1.00 40.00 N +ATOM 1031 CA GLU A 154 -26.322 -5.791 26.493 1.00 40.00 C +ATOM 1032 C GLU A 154 -26.320 -6.129 27.976 1.00 40.00 C +ATOM 1033 O GLU A 154 -25.576 -6.999 28.422 1.00 40.00 O +ATOM 1034 CB GLU A 154 -25.314 -4.692 26.182 1.00 40.00 C +ATOM 1035 CG GLU A 154 -23.885 -5.029 26.586 1.00 40.00 C +ATOM 1036 CD GLU A 154 -23.215 -6.101 25.726 1.00 40.00 C +ATOM 1037 OE1 GLU A 154 -23.919 -6.833 24.987 1.00 40.00 O +ATOM 1038 OE2 GLU A 154 -21.964 -6.212 25.791 1.00 40.00 O +ATOM 1039 N MET A 155 -27.176 -5.468 28.735 1.00 40.00 N +ATOM 1040 CA MET A 155 -27.100 -5.586 30.173 1.00 40.00 C +ATOM 1041 C MET A 155 -28.265 -6.311 30.831 1.00 40.00 C +ATOM 1042 O MET A 155 -28.585 -6.055 31.983 1.00 40.00 O +ATOM 1043 CB MET A 155 -26.916 -4.199 30.767 1.00 40.00 C +ATOM 1044 CG MET A 155 -25.592 -3.569 30.387 1.00 40.00 C +ATOM 1045 SD MET A 155 -24.208 -4.601 30.890 1.00 40.00 S +ATOM 1046 CE MET A 155 -23.855 -3.957 32.519 1.00 40.00 C +ATOM 1047 N LEU A 156 -28.885 -7.236 30.114 1.00 40.00 N +ATOM 1048 CA LEU A 156 -30.019 -7.981 30.657 1.00 40.00 C +ATOM 1049 C LEU A 156 -29.555 -9.015 31.666 1.00 40.00 C +ATOM 1050 O LEU A 156 -28.435 -9.513 31.581 1.00 40.00 O +ATOM 1051 CB LEU A 156 -30.803 -8.666 29.535 1.00 40.00 C +ATOM 1052 CG LEU A 156 -31.392 -7.809 28.402 1.00 40.00 C +ATOM 1053 CD1 LEU A 156 -31.667 -8.655 27.163 1.00 40.00 C +ATOM 1054 CD2 LEU A 156 -32.645 -7.064 28.852 1.00 40.00 C +ATOM 1055 N MET A 157 -30.430 -9.342 32.614 1.00 40.00 N +ATOM 1056 CA MET A 157 -30.103 -10.273 33.701 1.00 40.00 C +ATOM 1057 C MET A 157 -29.798 -11.657 33.171 1.00 40.00 C +ATOM 1058 O MET A 157 -30.134 -11.954 32.028 1.00 40.00 O +ATOM 1059 CB MET A 157 -31.268 -10.385 34.683 1.00 40.00 C +ATOM 1060 CG MET A 157 -31.984 -9.081 34.977 1.00 40.00 C +ATOM 1061 SD MET A 157 -32.949 -9.217 36.492 1.00 40.00 S +ATOM 1062 CE MET A 157 -31.623 -9.401 37.693 1.00 40.00 C +ATOM 1063 N PRO A 158 -29.171 -12.517 33.992 1.00 40.00 N +ATOM 1064 CA PRO A 158 -29.047 -13.891 33.544 1.00 40.00 C +ATOM 1065 C PRO A 158 -30.374 -14.620 33.665 1.00 40.00 C +ATOM 1066 O PRO A 158 -31.252 -14.187 34.424 1.00 40.00 O +ATOM 1067 CB PRO A 158 -28.024 -14.492 34.514 1.00 40.00 C +ATOM 1068 CG PRO A 158 -27.307 -13.324 35.072 1.00 40.00 C +ATOM 1069 CD PRO A 158 -28.378 -12.286 35.202 1.00 40.00 C +ATOM 1070 N LYS A 159 -30.509 -15.703 32.900 1.00 40.00 N +ATOM 1071 CA LYS A 159 -31.654 -16.586 33.000 1.00 40.00 C +ATOM 1072 C LYS A 159 -31.562 -17.326 34.319 1.00 40.00 C +ATOM 1073 O LYS A 159 -32.563 -17.456 35.026 1.00 40.00 O +ATOM 1074 CB LYS A 159 -31.701 -17.558 31.811 1.00 40.00 C +ATOM 1075 CG LYS A 159 -32.395 -16.993 30.569 1.00 40.00 C +ATOM 1076 CD LYS A 159 -32.161 -17.807 29.290 1.00 40.00 C +ATOM 1077 CE LYS A 159 -32.824 -17.144 28.076 1.00 40.00 C +ATOM 1078 NZ LYS A 159 -32.295 -17.566 26.743 1.00 40.00 N +ATOM 1079 N ASP A 160 -30.342 -17.763 34.647 1.00 40.00 N +ATOM 1080 CA ASP A 160 -30.024 -18.511 35.873 1.00 40.00 C +ATOM 1081 C ASP A 160 -30.443 -17.784 37.170 1.00 40.00 C +ATOM 1082 O ASP A 160 -29.834 -16.772 37.527 1.00 40.00 O +ATOM 1083 CB ASP A 160 -28.512 -18.812 35.898 1.00 40.00 C +ATOM 1084 CG ASP A 160 -28.103 -19.795 37.012 1.00 40.00 C +ATOM 1085 OD1 ASP A 160 -28.936 -20.156 37.876 1.00 40.00 O +ATOM 1086 OD2 ASP A 160 -26.923 -20.214 37.018 1.00 40.00 O +ATOM 1087 N PRO A 161 -31.470 -18.301 37.894 1.00 40.00 N +ATOM 1088 CA PRO A 161 -31.816 -17.616 39.142 1.00 40.00 C +ATOM 1089 C PRO A 161 -30.994 -18.138 40.329 1.00 40.00 C +ATOM 1090 O PRO A 161 -31.324 -17.842 41.479 1.00 40.00 O +ATOM 1091 CB PRO A 161 -33.316 -17.925 39.314 1.00 40.00 C +ATOM 1092 CG PRO A 161 -33.562 -19.173 38.515 1.00 40.00 C +ATOM 1093 CD PRO A 161 -32.334 -19.480 37.678 1.00 40.00 C +ATOM 1094 N ASN A 162 -29.946 -18.916 40.039 1.00 40.00 N +ATOM 1095 CA ASN A 162 -28.958 -19.364 41.037 1.00 40.00 C +ATOM 1096 C ASN A 162 -27.577 -18.861 40.649 1.00 40.00 C +ATOM 1097 O ASN A 162 -26.542 -19.424 41.035 1.00 40.00 O +ATOM 1098 CB ASN A 162 -28.957 -20.894 41.175 1.00 40.00 C +ATOM 1099 CG ASN A 162 -30.085 -21.402 42.057 1.00 40.00 C +ATOM 1100 OD1 ASN A 162 -30.552 -22.526 41.897 1.00 40.00 O +ATOM 1101 ND2 ASN A 162 -30.530 -20.573 42.990 1.00 40.00 N +ATOM 1102 N ALA A 163 -27.593 -17.778 39.882 1.00 40.00 N +ATOM 1103 CA ALA A 163 -26.399 -17.218 39.296 1.00 40.00 C +ATOM 1104 C ALA A 163 -25.562 -16.502 40.331 1.00 40.00 C +ATOM 1105 O ALA A 163 -26.089 -15.955 41.293 1.00 40.00 O +ATOM 1106 CB ALA A 163 -26.782 -16.256 38.186 1.00 40.00 C +ATOM 1107 N THR A 164 -24.252 -16.536 40.128 1.00 40.00 N +ATOM 1108 CA THR A 164 -23.336 -15.630 40.792 1.00 40.00 C +ATOM 1109 C THR A 164 -23.306 -14.371 39.923 1.00 40.00 C +ATOM 1110 O THR A 164 -22.897 -14.440 38.765 1.00 40.00 O +ATOM 1111 CB THR A 164 -21.917 -16.230 40.866 1.00 40.00 C +ATOM 1112 OG1 THR A 164 -21.967 -17.553 41.413 1.00 40.00 O +ATOM 1113 CG2 THR A 164 -21.015 -15.375 41.723 1.00 40.00 C +ATOM 1114 N ILE A 165 -23.755 -13.234 40.458 1.00 40.00 N +ATOM 1115 CA ILE A 165 -23.834 -12.001 39.653 1.00 40.00 C +ATOM 1116 C ILE A 165 -22.952 -10.868 40.148 1.00 40.00 C +ATOM 1117 O ILE A 165 -23.278 -10.153 41.097 1.00 40.00 O +ATOM 1118 CB ILE A 165 -25.264 -11.490 39.519 1.00 40.00 C +ATOM 1119 CG1 ILE A 165 -26.149 -12.615 39.020 1.00 40.00 C +ATOM 1120 CG2 ILE A 165 -25.302 -10.323 38.548 1.00 40.00 C +ATOM 1121 CD1 ILE A 165 -27.609 -12.407 39.330 1.00 40.00 C +ATOM 1122 N ILE A 166 -21.843 -10.686 39.461 1.00 40.00 N +ATOM 1123 CA ILE A 166 -20.872 -9.724 39.883 1.00 40.00 C +ATOM 1124 C ILE A 166 -21.085 -8.444 39.139 1.00 40.00 C +ATOM 1125 O ILE A 166 -21.057 -8.407 37.915 1.00 40.00 O +ATOM 1126 CB ILE A 166 -19.470 -10.250 39.643 1.00 40.00 C +ATOM 1127 CG1 ILE A 166 -19.293 -11.513 40.474 1.00 40.00 C +ATOM 1128 CG2 ILE A 166 -18.435 -9.195 40.002 1.00 40.00 C +ATOM 1129 CD1 ILE A 166 -18.232 -12.451 39.951 1.00 40.00 C +ATOM 1130 N MET A 167 -21.278 -7.393 39.915 1.00 40.00 N +ATOM 1131 CA MET A 167 -21.655 -6.109 39.399 1.00 40.00 C +ATOM 1132 C MET A 167 -20.611 -5.075 39.777 1.00 40.00 C +ATOM 1133 O MET A 167 -20.463 -4.734 40.949 1.00 40.00 O +ATOM 1134 CB MET A 167 -22.996 -5.741 39.998 1.00 40.00 C +ATOM 1135 CG MET A 167 -24.031 -6.839 39.870 1.00 40.00 C +ATOM 1136 SD MET A 167 -25.494 -6.488 40.852 1.00 40.00 S +ATOM 1137 CE MET A 167 -25.129 -7.461 42.309 1.00 40.00 C +ATOM 1138 N LEU A 168 -19.872 -4.592 38.788 1.00 40.00 N +ATOM 1139 CA LEU A 168 -18.912 -3.532 39.030 1.00 40.00 C +ATOM 1140 C LEU A 168 -19.503 -2.220 38.588 1.00 40.00 C +ATOM 1141 O LEU A 168 -19.976 -2.106 37.463 1.00 40.00 O +ATOM 1142 CB LEU A 168 -17.610 -3.782 38.279 1.00 40.00 C +ATOM 1143 CG LEU A 168 -16.800 -5.023 38.621 1.00 40.00 C +ATOM 1144 CD1 LEU A 168 -17.060 -5.544 40.029 1.00 40.00 C +ATOM 1145 CD2 LEU A 168 -17.153 -6.076 37.604 1.00 40.00 C +ATOM 1146 N ALA A 169 -19.472 -1.228 39.472 1.00 40.00 N +ATOM 1147 CA ALA A 169 -20.097 0.055 39.185 1.00 40.00 C +ATOM 1148 C ALA A 169 -19.341 1.233 39.745 1.00 40.00 C +ATOM 1149 O ALA A 169 -18.823 1.186 40.846 1.00 40.00 O +ATOM 1150 CB ALA A 169 -21.526 0.070 39.696 1.00 40.00 C +ATOM 1151 N THR A 170 -19.307 2.306 38.977 1.00 40.00 N +ATOM 1152 CA THR A 170 -18.687 3.535 39.415 1.00 40.00 C +ATOM 1153 C THR A 170 -19.607 4.684 39.100 1.00 40.00 C +ATOM 1154 O THR A 170 -19.853 4.979 37.941 1.00 40.00 O +ATOM 1155 CB THR A 170 -17.395 3.797 38.648 1.00 40.00 C +ATOM 1156 OG1 THR A 170 -17.645 3.597 37.251 1.00 40.00 O +ATOM 1157 CG2 THR A 170 -16.275 2.866 39.120 1.00 40.00 C +ATOM 1158 N GLY A 171 -20.112 5.340 40.128 1.00 40.00 N +ATOM 1159 CA GLY A 171 -20.984 6.480 39.922 1.00 40.00 C +ATOM 1160 C GLY A 171 -22.345 6.077 39.397 1.00 40.00 C +ATOM 1161 O GLY A 171 -22.928 5.114 39.882 1.00 40.00 O +ATOM 1162 N THR A 172 -22.840 6.807 38.394 1.00 40.00 N +ATOM 1163 CA THR A 172 -24.168 6.566 37.829 1.00 40.00 C +ATOM 1164 C THR A 172 -24.191 5.311 36.969 1.00 40.00 C +ATOM 1165 O THR A 172 -25.068 5.140 36.114 1.00 40.00 O +ATOM 1166 CB THR A 172 -24.680 7.759 37.003 1.00 40.00 C +ATOM 1167 OG1 THR A 172 -23.932 7.871 35.791 1.00 40.00 O +ATOM 1168 CG2 THR A 172 -24.555 9.031 37.770 1.00 40.00 C +ATOM 1169 N GLY A 173 -23.205 4.441 37.203 1.00 40.00 N +ATOM 1170 CA GLY A 173 -23.184 3.107 36.618 1.00 40.00 C +ATOM 1171 C GLY A 173 -23.761 2.079 37.575 1.00 40.00 C +ATOM 1172 O GLY A 173 -23.717 0.878 37.317 1.00 40.00 O +ATOM 1173 N ILE A 174 -24.298 2.558 38.689 1.00 40.00 N +ATOM 1174 CA ILE A 174 -24.989 1.708 39.623 1.00 40.00 C +ATOM 1175 C ILE A 174 -26.422 1.505 39.155 1.00 40.00 C +ATOM 1176 O ILE A 174 -27.036 0.492 39.469 1.00 40.00 O +ATOM 1177 CB ILE A 174 -25.006 2.340 41.012 1.00 40.00 C +ATOM 1178 CG1 ILE A 174 -25.696 1.427 42.023 1.00 40.00 C +ATOM 1179 CG2 ILE A 174 -25.708 3.687 40.968 1.00 40.00 C +ATOM 1180 CD1 ILE A 174 -24.779 0.452 42.722 1.00 40.00 C +ATOM 1181 N ALA A 175 -26.942 2.467 38.393 1.00 40.00 N +ATOM 1182 CA ALA A 175 -28.350 2.472 37.936 1.00 40.00 C +ATOM 1183 C ALA A 175 -28.978 1.118 37.523 1.00 40.00 C +ATOM 1184 O ALA A 175 -29.980 0.692 38.113 1.00 40.00 O +ATOM 1185 CB ALA A 175 -28.541 3.508 36.834 1.00 40.00 C +ATOM 1186 N PRO A 176 -28.405 0.446 36.506 1.00 40.00 N +ATOM 1187 CA PRO A 176 -28.979 -0.821 36.128 1.00 40.00 C +ATOM 1188 C PRO A 176 -29.001 -1.785 37.302 1.00 40.00 C +ATOM 1189 O PRO A 176 -29.996 -2.462 37.517 1.00 40.00 O +ATOM 1190 CB PRO A 176 -28.018 -1.318 35.053 1.00 40.00 C +ATOM 1191 CG PRO A 176 -26.742 -0.599 35.287 1.00 40.00 C +ATOM 1192 CD PRO A 176 -27.202 0.746 35.710 1.00 40.00 C +ATOM 1193 N PHE A 177 -27.917 -1.824 38.068 1.00 40.00 N +ATOM 1194 CA PHE A 177 -27.815 -2.737 39.188 1.00 40.00 C +ATOM 1195 C PHE A 177 -28.808 -2.421 40.279 1.00 40.00 C +ATOM 1196 O PHE A 177 -29.149 -3.290 41.066 1.00 40.00 O +ATOM 1197 CB PHE A 177 -26.427 -2.711 39.774 1.00 40.00 C +ATOM 1198 CG PHE A 177 -25.363 -3.037 38.795 1.00 40.00 C +ATOM 1199 CD1 PHE A 177 -25.354 -4.253 38.159 1.00 40.00 C +ATOM 1200 CD2 PHE A 177 -24.355 -2.125 38.514 1.00 40.00 C +ATOM 1201 CE1 PHE A 177 -24.357 -4.565 37.253 1.00 40.00 C +ATOM 1202 CE2 PHE A 177 -23.349 -2.428 37.609 1.00 40.00 C +ATOM 1203 CZ PHE A 177 -23.349 -3.655 36.975 1.00 40.00 C +ATOM 1204 N ARG A 178 -29.264 -1.177 40.347 1.00 40.00 N +ATOM 1205 CA ARG A 178 -30.387 -0.878 41.213 1.00 40.00 C +ATOM 1206 C ARG A 178 -31.491 -1.749 40.691 1.00 40.00 C +ATOM 1207 O ARG A 178 -32.012 -2.615 41.393 1.00 40.00 O +ATOM 1208 CB ARG A 178 -30.816 0.584 41.112 1.00 40.00 C +ATOM 1209 CG ARG A 178 -32.073 0.903 41.917 1.00 40.00 C +ATOM 1210 CD ARG A 178 -32.270 2.396 42.117 1.00 40.00 C +ATOM 1211 NE ARG A 178 -33.134 2.685 43.252 1.00 40.00 N +ATOM 1212 CZ ARG A 178 -34.451 2.752 43.177 1.00 40.00 C +ATOM 1213 NH1 ARG A 178 -35.055 2.562 42.031 1.00 40.00 N +ATOM 1214 NH2 ARG A 178 -35.159 3.014 44.244 1.00 40.00 N +ATOM 1215 N SER A 179 -31.796 -1.527 39.418 1.00 40.00 N +ATOM 1216 CA SER A 179 -32.868 -2.202 38.734 1.00 40.00 C +ATOM 1217 C SER A 179 -32.804 -3.698 38.985 1.00 40.00 C +ATOM 1218 O SER A 179 -33.817 -4.321 39.261 1.00 40.00 O +ATOM 1219 CB SER A 179 -32.779 -1.893 37.249 1.00 40.00 C +ATOM 1220 OG SER A 179 -34.041 -2.036 36.652 1.00 40.00 O +ATOM 1221 N PHE A 180 -31.600 -4.253 38.919 1.00 40.00 N +ATOM 1222 CA PHE A 180 -31.374 -5.661 39.180 1.00 40.00 C +ATOM 1223 C PHE A 180 -31.828 -6.057 40.556 1.00 40.00 C +ATOM 1224 O PHE A 180 -32.624 -6.960 40.717 1.00 40.00 O +ATOM 1225 CB PHE A 180 -29.891 -5.973 39.116 1.00 40.00 C +ATOM 1226 CG PHE A 180 -29.360 -6.178 37.735 1.00 40.00 C +ATOM 1227 CD1 PHE A 180 -29.923 -5.529 36.644 1.00 40.00 C +ATOM 1228 CD2 PHE A 180 -28.253 -7.000 37.532 1.00 40.00 C +ATOM 1229 CE1 PHE A 180 -29.410 -5.719 35.370 1.00 40.00 C +ATOM 1230 CE2 PHE A 180 -27.726 -7.189 36.265 1.00 40.00 C +ATOM 1231 CZ PHE A 180 -28.308 -6.546 35.182 1.00 40.00 C +ATOM 1232 N LEU A 181 -31.294 -5.391 41.562 1.00 40.00 N +ATOM 1233 CA LEU A 181 -31.458 -5.874 42.922 1.00 40.00 C +ATOM 1234 C LEU A 181 -32.908 -5.764 43.372 1.00 40.00 C +ATOM 1235 O LEU A 181 -33.454 -6.696 43.972 1.00 40.00 O +ATOM 1236 CB LEU A 181 -30.486 -5.162 43.868 1.00 40.00 C +ATOM 1237 CG LEU A 181 -29.032 -5.571 43.605 1.00 40.00 C +ATOM 1238 CD1 LEU A 181 -28.107 -4.381 43.767 1.00 40.00 C +ATOM 1239 CD2 LEU A 181 -28.590 -6.735 44.482 1.00 40.00 C +ATOM 1240 N TRP A 182 -33.536 -4.639 43.041 1.00 40.00 N +ATOM 1241 CA TRP A 182 -34.936 -4.420 43.360 1.00 40.00 C +ATOM 1242 C TRP A 182 -35.714 -5.656 43.072 1.00 40.00 C +ATOM 1243 O TRP A 182 -36.352 -6.212 43.961 1.00 40.00 O +ATOM 1244 CB TRP A 182 -35.484 -3.251 42.553 1.00 40.00 C +ATOM 1245 CG TRP A 182 -35.496 -1.952 43.315 1.00 40.00 C +ATOM 1246 CD1 TRP A 182 -34.406 -1.225 43.766 1.00 40.00 C +ATOM 1247 CD2 TRP A 182 -36.668 -1.171 43.732 1.00 40.00 C +ATOM 1248 NE1 TRP A 182 -34.811 -0.085 44.416 1.00 40.00 N +ATOM 1249 CE2 TRP A 182 -36.150 0.007 44.432 1.00 40.00 C +ATOM 1250 CE3 TRP A 182 -38.040 -1.323 43.597 1.00 40.00 C +ATOM 1251 CZ2 TRP A 182 -36.983 0.964 44.976 1.00 40.00 C +ATOM 1252 CZ3 TRP A 182 -38.873 -0.346 44.147 1.00 40.00 C +ATOM 1253 CH2 TRP A 182 -38.354 0.768 44.821 1.00 40.00 C +ATOM 1254 N LYS A 183 -35.635 -6.108 41.823 1.00 40.00 N +ATOM 1255 CA LYS A 183 -36.297 -7.331 41.379 1.00 40.00 C +ATOM 1256 C LYS A 183 -35.870 -8.531 42.241 1.00 40.00 C +ATOM 1257 O LYS A 183 -36.711 -9.311 42.690 1.00 40.00 O +ATOM 1258 CB LYS A 183 -35.992 -7.581 39.890 1.00 40.00 C +ATOM 1259 CG LYS A 183 -37.109 -8.256 39.101 1.00 40.00 C +ATOM 1260 CD LYS A 183 -36.589 -9.063 37.907 1.00 40.00 C +ATOM 1261 CE LYS A 183 -37.747 -9.737 37.168 1.00 40.00 C +ATOM 1262 NZ LYS A 183 -37.304 -10.815 36.228 1.00 40.00 N +ATOM 1263 N MET A 184 -34.569 -8.643 42.497 1.00 40.00 N +ATOM 1264 CA MET A 184 -34.015 -9.798 43.171 1.00 40.00 C +ATOM 1265 C MET A 184 -34.423 -9.892 44.607 1.00 40.00 C +ATOM 1266 O MET A 184 -34.765 -10.964 45.071 1.00 40.00 O +ATOM 1267 CB MET A 184 -32.510 -9.758 43.129 1.00 40.00 C +ATOM 1268 CG MET A 184 -31.963 -9.985 41.749 1.00 40.00 C +ATOM 1269 SD MET A 184 -30.327 -9.277 41.642 1.00 40.00 S +ATOM 1270 CE MET A 184 -29.404 -10.476 42.602 1.00 40.00 C +ATOM 1271 N PHE A 185 -34.379 -8.780 45.318 1.00 40.00 N +ATOM 1272 CA PHE A 185 -34.528 -8.853 46.753 1.00 40.00 C +ATOM 1273 C PHE A 185 -35.754 -8.174 47.294 1.00 40.00 C +ATOM 1274 O PHE A 185 -36.326 -8.600 48.295 1.00 40.00 O +ATOM 1275 CB PHE A 185 -33.291 -8.308 47.422 1.00 40.00 C +ATOM 1276 CG PHE A 185 -32.094 -9.156 47.209 1.00 40.00 C +ATOM 1277 CD1 PHE A 185 -32.001 -10.402 47.808 1.00 40.00 C +ATOM 1278 CD2 PHE A 185 -31.062 -8.722 46.401 1.00 40.00 C +ATOM 1279 CE1 PHE A 185 -30.887 -11.204 47.619 1.00 40.00 C +ATOM 1280 CE2 PHE A 185 -29.943 -9.516 46.204 1.00 40.00 C +ATOM 1281 CZ PHE A 185 -29.851 -10.761 46.816 1.00 40.00 C +ATOM 1282 N PHE A 186 -36.165 -7.107 46.642 1.00 40.00 N +ATOM 1283 CA PHE A 186 -37.333 -6.423 47.127 1.00 40.00 C +ATOM 1284 C PHE A 186 -38.630 -7.064 46.639 1.00 40.00 C +ATOM 1285 O PHE A 186 -39.640 -7.017 47.338 1.00 40.00 O +ATOM 1286 CB PHE A 186 -37.274 -4.937 46.782 1.00 40.00 C +ATOM 1287 CG PHE A 186 -36.399 -4.133 47.708 1.00 40.00 C +ATOM 1288 CD1 PHE A 186 -35.872 -4.705 48.872 1.00 40.00 C +ATOM 1289 CD2 PHE A 186 -36.134 -2.790 47.433 1.00 40.00 C +ATOM 1290 CE1 PHE A 186 -35.077 -3.959 49.721 1.00 40.00 C +ATOM 1291 CE2 PHE A 186 -35.348 -2.035 48.284 1.00 40.00 C +ATOM 1292 CZ PHE A 186 -34.818 -2.621 49.427 1.00 40.00 C +ATOM 1293 N GLU A 187 -38.596 -7.695 45.465 1.00 40.00 N +ATOM 1294 CA GLU A 187 -39.835 -8.139 44.812 1.00 40.00 C +ATOM 1295 C GLU A 187 -40.097 -9.663 44.850 1.00 40.00 C +ATOM 1296 O GLU A 187 -39.163 -10.483 44.870 1.00 40.00 O +ATOM 1297 CB GLU A 187 -39.912 -7.568 43.386 1.00 40.00 C +ATOM 1298 CG GLU A 187 -39.751 -6.050 43.341 1.00 40.00 C +ATOM 1299 CD GLU A 187 -39.603 -5.467 41.937 1.00 40.00 C +ATOM 1300 OE1 GLU A 187 -39.112 -6.152 41.010 1.00 40.00 O +ATOM 1301 OE2 GLU A 187 -39.976 -4.287 41.758 1.00 40.00 O +ATOM 1302 N LYS A 188 -41.384 -10.015 44.892 1.00 40.00 N +ATOM 1303 CA LYS A 188 -41.835 -11.410 44.841 1.00 40.00 C +ATOM 1304 C LYS A 188 -42.450 -11.734 43.488 1.00 40.00 C +ATOM 1305 O LYS A 188 -43.497 -11.191 43.111 1.00 40.00 O +ATOM 1306 CB LYS A 188 -42.854 -11.706 45.944 1.00 40.00 C +ATOM 1307 CG LYS A 188 -42.292 -11.621 47.350 1.00 40.00 C +ATOM 1308 CD LYS A 188 -41.264 -12.715 47.616 1.00 40.00 C +ATOM 1309 CE LYS A 188 -40.557 -12.486 48.939 1.00 40.00 C +ATOM 1310 NZ LYS A 188 -41.537 -12.398 50.057 1.00 40.00 N +ATOM 1311 N HIS A 189 -41.783 -12.615 42.756 1.00 40.00 N +ATOM 1312 CA HIS A 189 -42.287 -13.057 41.473 1.00 40.00 C +ATOM 1313 C HIS A 189 -42.439 -14.536 41.503 1.00 40.00 C +ATOM 1314 O HIS A 189 -41.630 -15.261 42.110 1.00 40.00 O +ATOM 1315 CB HIS A 189 -41.360 -12.634 40.347 1.00 40.00 C +ATOM 1316 CG HIS A 189 -41.238 -11.139 40.200 1.00 40.00 C +ATOM 1317 ND1 HIS A 189 -41.884 -10.451 39.237 1.00 40.00 N +ATOM 1318 CD2 HIS A 189 -40.527 -10.197 40.954 1.00 40.00 C +ATOM 1319 CE1 HIS A 189 -41.594 -9.135 39.356 1.00 40.00 C +ATOM 1320 NE2 HIS A 189 -40.765 -8.981 40.410 1.00 40.00 N +ATOM 1321 N ASP A 190 -43.504 -14.989 40.854 1.00 40.00 N +ATOM 1322 CA ASP A 190 -43.826 -16.400 40.798 1.00 40.00 C +ATOM 1323 C ASP A 190 -42.862 -17.081 39.840 1.00 40.00 C +ATOM 1324 O ASP A 190 -42.321 -18.151 40.136 1.00 40.00 O +ATOM 1325 CB ASP A 190 -45.288 -16.569 40.382 1.00 40.00 C +ATOM 1326 CG ASP A 190 -46.225 -15.766 41.267 1.00 40.00 C +ATOM 1327 OD1 ASP A 190 -46.339 -16.128 42.461 1.00 40.00 O +ATOM 1328 OD2 ASP A 190 -46.816 -14.762 40.788 1.00 40.00 O +ATOM 1329 N ASP A 191 -42.616 -16.423 38.711 1.00 40.00 N +ATOM 1330 CA ASP A 191 -41.725 -16.951 37.689 1.00 40.00 C +ATOM 1331 C ASP A 191 -40.269 -16.761 38.047 1.00 40.00 C +ATOM 1332 O ASP A 191 -39.390 -17.377 37.451 1.00 40.00 O +ATOM 1333 CB ASP A 191 -42.020 -16.300 36.337 1.00 40.00 C +ATOM 1334 CG ASP A 191 -42.157 -14.789 36.423 1.00 40.00 C +ATOM 1335 OD1 ASP A 191 -42.994 -14.294 37.216 1.00 40.00 O +ATOM 1336 OD2 ASP A 191 -41.441 -14.097 35.670 1.00 40.00 O +ATOM 1337 N TYR A 192 -40.013 -15.905 39.025 1.00 40.00 N +ATOM 1338 CA TYR A 192 -38.642 -15.551 39.353 1.00 40.00 C +ATOM 1339 C TYR A 192 -38.371 -15.389 40.841 1.00 40.00 C +ATOM 1340 O TYR A 192 -38.819 -14.429 41.479 1.00 40.00 O +ATOM 1341 CB TYR A 192 -38.207 -14.292 38.595 1.00 40.00 C +ATOM 1342 CG TYR A 192 -36.711 -14.097 38.595 1.00 40.00 C +ATOM 1343 CD1 TYR A 192 -35.879 -14.961 37.880 1.00 40.00 C +ATOM 1344 CD2 TYR A 192 -36.126 -13.065 39.314 1.00 40.00 C +ATOM 1345 CE1 TYR A 192 -34.505 -14.793 37.878 1.00 40.00 C +ATOM 1346 CE2 TYR A 192 -34.753 -12.886 39.315 1.00 40.00 C +ATOM 1347 CZ TYR A 192 -33.944 -13.753 38.597 1.00 40.00 C +ATOM 1348 OH TYR A 192 -32.572 -13.589 38.590 1.00 40.00 O +ATOM 1349 N LYS A 193 -37.632 -16.351 41.382 1.00 40.00 N +ATOM 1350 CA LYS A 193 -37.067 -16.235 42.716 1.00 40.00 C +ATOM 1351 C LYS A 193 -35.578 -16.517 42.586 1.00 40.00 C +ATOM 1352 O LYS A 193 -35.160 -17.556 42.064 1.00 40.00 O +ATOM 1353 CB LYS A 193 -37.739 -17.189 43.706 1.00 40.00 C +ATOM 1354 CG LYS A 193 -39.248 -17.018 43.822 1.00 40.00 C +ATOM 1355 CD LYS A 193 -39.896 -18.271 44.398 1.00 40.00 C +ATOM 1356 CE LYS A 193 -39.597 -19.530 43.581 1.00 40.00 C +ATOM 1357 NZ LYS A 193 -40.161 -19.482 42.194 1.00 40.00 N +ATOM 1358 N PHE A 194 -34.786 -15.550 43.027 1.00 40.00 N +ATOM 1359 CA PHE A 194 -33.336 -15.647 43.003 1.00 40.00 C +ATOM 1360 C PHE A 194 -32.839 -16.492 44.187 1.00 40.00 C +ATOM 1361 O PHE A 194 -33.509 -16.589 45.216 1.00 40.00 O +ATOM 1362 CB PHE A 194 -32.735 -14.234 43.027 1.00 40.00 C +ATOM 1363 CG PHE A 194 -31.242 -14.211 42.988 1.00 40.00 C +ATOM 1364 CD1 PHE A 194 -30.561 -14.520 41.815 1.00 40.00 C +ATOM 1365 CD2 PHE A 194 -30.515 -13.886 44.127 1.00 40.00 C +ATOM 1366 CE1 PHE A 194 -29.178 -14.510 41.782 1.00 40.00 C +ATOM 1367 CE2 PHE A 194 -29.131 -13.866 44.103 1.00 40.00 C +ATOM 1368 CZ PHE A 194 -28.461 -14.176 42.926 1.00 40.00 C +ATOM 1369 N ASN A 195 -31.678 -17.121 44.035 1.00 40.00 N +ATOM 1370 CA ASN A 195 -31.084 -17.861 45.126 1.00 40.00 C +ATOM 1371 C ASN A 195 -29.640 -18.233 44.826 1.00 40.00 C +ATOM 1372 O ASN A 195 -29.204 -19.354 45.068 1.00 40.00 O +ATOM 1373 CB ASN A 195 -31.923 -19.099 45.442 1.00 40.00 C +ATOM 1374 CG ASN A 195 -31.707 -19.606 46.855 1.00 40.00 C +ATOM 1375 OD1 ASN A 195 -31.873 -20.802 47.144 1.00 40.00 O +ATOM 1376 ND2 ASN A 195 -31.330 -18.697 47.749 1.00 40.00 N +ATOM 1377 N GLY A 196 -28.901 -17.285 44.273 1.00 40.00 N +ATOM 1378 CA GLY A 196 -27.467 -17.455 44.073 1.00 40.00 C +ATOM 1379 C GLY A 196 -26.718 -16.521 45.006 1.00 40.00 C +ATOM 1380 O GLY A 196 -27.026 -16.439 46.205 1.00 40.00 O +ATOM 1381 N LEU A 197 -25.741 -15.803 44.454 1.00 40.00 N +ATOM 1382 CA LEU A 197 -25.001 -14.805 45.216 1.00 40.00 C +ATOM 1383 C LEU A 197 -24.844 -13.486 44.470 1.00 40.00 C +ATOM 1384 O LEU A 197 -24.182 -13.425 43.430 1.00 40.00 O +ATOM 1385 CB LEU A 197 -23.627 -15.340 45.582 1.00 40.00 C +ATOM 1386 CG LEU A 197 -22.745 -14.288 46.248 1.00 40.00 C +ATOM 1387 CD1 LEU A 197 -23.057 -14.173 47.735 1.00 40.00 C +ATOM 1388 CD2 LEU A 197 -21.284 -14.619 46.015 1.00 40.00 C +ATOM 1389 N GLY A 198 -25.440 -12.432 45.018 1.00 40.00 N +ATOM 1390 CA GLY A 198 -25.305 -11.104 44.440 1.00 40.00 C +ATOM 1391 C GLY A 198 -24.190 -10.298 45.084 1.00 40.00 C +ATOM 1392 O GLY A 198 -24.344 -9.800 46.200 1.00 40.00 O +ATOM 1393 N TRP A 199 -23.064 -10.169 44.385 1.00 40.00 N +ATOM 1394 CA TRP A 199 -21.941 -9.382 44.886 1.00 40.00 C +ATOM 1395 C TRP A 199 -21.843 -8.076 44.161 1.00 40.00 C +ATOM 1396 O TRP A 199 -21.849 -8.043 42.925 1.00 40.00 O +ATOM 1397 CB TRP A 199 -20.639 -10.146 44.725 1.00 40.00 C +ATOM 1398 CG TRP A 199 -19.601 -9.819 45.772 1.00 40.00 C +ATOM 1399 CD1 TRP A 199 -19.549 -8.704 46.601 1.00 40.00 C +ATOM 1400 CD2 TRP A 199 -18.403 -10.606 46.118 1.00 40.00 C +ATOM 1401 NE1 TRP A 199 -18.453 -8.756 47.421 1.00 40.00 N +ATOM 1402 CE2 TRP A 199 -17.724 -9.869 47.178 1.00 40.00 C +ATOM 1403 CE3 TRP A 199 -17.853 -11.811 45.675 1.00 40.00 C +ATOM 1404 CZ2 TRP A 199 -16.549 -10.333 47.755 1.00 40.00 C +ATOM 1405 CZ3 TRP A 199 -16.668 -12.271 46.267 1.00 40.00 C +ATOM 1406 CH2 TRP A 199 -16.033 -11.549 47.282 1.00 40.00 C +ATOM 1407 N LEU A 200 -21.745 -6.989 44.922 1.00 40.00 N +ATOM 1408 CA LEU A 200 -21.708 -5.662 44.342 1.00 40.00 C +ATOM 1409 C LEU A 200 -20.494 -4.892 44.774 1.00 40.00 C +ATOM 1410 O LEU A 200 -20.218 -4.785 45.961 1.00 40.00 O +ATOM 1411 CB LEU A 200 -22.951 -4.868 44.729 1.00 40.00 C +ATOM 1412 CG LEU A 200 -22.899 -3.357 44.467 1.00 40.00 C +ATOM 1413 CD1 LEU A 200 -22.604 -3.017 43.015 1.00 40.00 C +ATOM 1414 CD2 LEU A 200 -24.198 -2.711 44.901 1.00 40.00 C +ATOM 1415 N PHE A 201 -19.795 -4.330 43.796 1.00 40.00 N +ATOM 1416 CA PHE A 201 -18.699 -3.401 44.043 1.00 40.00 C +ATOM 1417 C PHE A 201 -19.060 -2.019 43.493 1.00 40.00 C +ATOM 1418 O PHE A 201 -19.343 -1.874 42.302 1.00 40.00 O +ATOM 1419 CB PHE A 201 -17.404 -3.936 43.412 1.00 40.00 C +ATOM 1420 CG PHE A 201 -16.817 -5.124 44.137 1.00 40.00 C +ATOM 1421 CD1 PHE A 201 -17.472 -6.354 44.161 1.00 40.00 C +ATOM 1422 CD2 PHE A 201 -15.600 -5.011 44.804 1.00 40.00 C +ATOM 1423 CE1 PHE A 201 -16.926 -7.439 44.837 1.00 40.00 C +ATOM 1424 CE2 PHE A 201 -15.049 -6.094 45.481 1.00 40.00 C +ATOM 1425 CZ PHE A 201 -15.712 -7.308 45.495 1.00 40.00 C +ATOM 1426 N LEU A 202 -19.081 -1.012 44.362 1.00 40.00 N +ATOM 1427 CA LEU A 202 -19.356 0.348 43.915 1.00 40.00 C +ATOM 1428 C LEU A 202 -18.323 1.363 44.359 1.00 40.00 C +ATOM 1429 O LEU A 202 -18.145 1.606 45.548 1.00 40.00 O +ATOM 1430 CB LEU A 202 -20.732 0.818 44.351 1.00 40.00 C +ATOM 1431 CG LEU A 202 -20.907 2.333 44.162 1.00 40.00 C +ATOM 1432 CD1 LEU A 202 -21.056 2.749 42.701 1.00 40.00 C +ATOM 1433 CD2 LEU A 202 -22.085 2.826 44.977 1.00 40.00 C +ATOM 1434 N GLY A 203 -17.688 1.989 43.377 1.00 40.00 N +ATOM 1435 CA GLY A 203 -16.596 2.912 43.622 1.00 40.00 C +ATOM 1436 C GLY A 203 -17.015 4.335 43.367 1.00 40.00 C +ATOM 1437 O GLY A 203 -17.647 4.631 42.347 1.00 40.00 O +ATOM 1438 N VAL A 204 -16.654 5.207 44.308 1.00 40.00 N +ATOM 1439 CA VAL A 204 -16.982 6.638 44.261 1.00 40.00 C +ATOM 1440 C VAL A 204 -15.888 7.537 44.858 1.00 40.00 C +ATOM 1441 O VAL A 204 -14.970 7.041 45.526 1.00 40.00 O +ATOM 1442 CB VAL A 204 -18.310 6.950 44.998 1.00 40.00 C +ATOM 1443 CG1 VAL A 204 -19.514 6.676 44.101 1.00 40.00 C +ATOM 1444 CG2 VAL A 204 -18.390 6.202 46.325 1.00 40.00 C +ATOM 1445 N PRO A 205 -15.989 8.866 44.613 1.00 40.00 N +ATOM 1446 CA PRO A 205 -15.120 9.837 45.278 1.00 40.00 C +ATOM 1447 C PRO A 205 -15.268 9.916 46.814 1.00 40.00 C +ATOM 1448 O PRO A 205 -14.289 9.735 47.535 1.00 40.00 O +ATOM 1449 CB PRO A 205 -15.518 11.179 44.617 1.00 40.00 C +ATOM 1450 CG PRO A 205 -16.813 10.933 43.903 1.00 40.00 C +ATOM 1451 CD PRO A 205 -16.745 9.493 43.503 1.00 40.00 C +ATOM 1452 N THR A 206 -16.478 10.178 47.297 1.00 40.00 N +ATOM 1453 CA THR A 206 -16.685 10.568 48.689 1.00 40.00 C +ATOM 1454 C THR A 206 -17.681 9.641 49.358 1.00 40.00 C +ATOM 1455 O THR A 206 -18.304 8.828 48.696 1.00 40.00 O +ATOM 1456 CB THR A 206 -17.222 12.022 48.791 1.00 40.00 C +ATOM 1457 OG1 THR A 206 -18.350 12.190 47.921 1.00 40.00 O +ATOM 1458 CG2 THR A 206 -16.152 13.053 48.412 1.00 40.00 C +ATOM 1459 N SER A 207 -17.823 9.758 50.674 1.00 40.00 N +ATOM 1460 CA SER A 207 -18.925 9.108 51.374 1.00 40.00 C +ATOM 1461 C SER A 207 -20.210 9.890 51.163 1.00 40.00 C +ATOM 1462 O SER A 207 -21.279 9.429 51.552 1.00 40.00 O +ATOM 1463 CB SER A 207 -18.637 8.974 52.868 1.00 40.00 C +ATOM 1464 OG SER A 207 -17.909 7.786 53.146 1.00 40.00 O +ATOM 1465 N SER A 208 -20.089 11.073 50.556 1.00 40.00 N +ATOM 1466 CA SER A 208 -21.235 11.913 50.171 1.00 40.00 C +ATOM 1467 C SER A 208 -21.745 11.619 48.749 1.00 40.00 C +ATOM 1468 O SER A 208 -22.867 12.000 48.396 1.00 40.00 O +ATOM 1469 CB SER A 208 -20.900 13.405 50.313 1.00 40.00 C +ATOM 1470 OG SER A 208 -19.921 13.819 49.373 1.00 40.00 O +ATOM 1471 N SER A 209 -20.916 10.955 47.939 1.00 40.00 N +ATOM 1472 CA SER A 209 -21.310 10.485 46.595 1.00 40.00 C +ATOM 1473 C SER A 209 -21.835 9.021 46.607 1.00 40.00 C +ATOM 1474 O SER A 209 -22.129 8.444 45.554 1.00 40.00 O +ATOM 1475 CB SER A 209 -20.139 10.620 45.597 1.00 40.00 C +ATOM 1476 OG SER A 209 -19.661 11.949 45.489 1.00 40.00 O +ATOM 1477 N LEU A 210 -21.965 8.438 47.797 1.00 40.00 N +ATOM 1478 CA LEU A 210 -22.286 7.027 47.947 1.00 40.00 C +ATOM 1479 C LEU A 210 -23.788 6.758 47.786 1.00 40.00 C +ATOM 1480 O LEU A 210 -24.528 6.776 48.772 1.00 40.00 O +ATOM 1481 CB LEU A 210 -21.807 6.579 49.321 1.00 40.00 C +ATOM 1482 CG LEU A 210 -21.345 5.146 49.534 1.00 40.00 C +ATOM 1483 CD1 LEU A 210 -20.037 4.862 48.806 1.00 40.00 C +ATOM 1484 CD2 LEU A 210 -21.198 4.942 51.035 1.00 40.00 C +ATOM 1485 N LEU A 211 -24.227 6.483 46.555 1.00 40.00 N +ATOM 1486 CA LEU A 211 -25.658 6.410 46.215 1.00 40.00 C +ATOM 1487 C LEU A 211 -26.446 5.237 46.859 1.00 40.00 C +ATOM 1488 O LEU A 211 -25.908 4.160 47.082 1.00 40.00 O +ATOM 1489 CB LEU A 211 -25.823 6.424 44.690 1.00 40.00 C +ATOM 1490 CG LEU A 211 -24.971 7.372 43.831 1.00 40.00 C +ATOM 1491 CD1 LEU A 211 -25.086 6.992 42.370 1.00 40.00 C +ATOM 1492 CD2 LEU A 211 -25.331 8.838 43.997 1.00 40.00 C +ATOM 1493 N TYR A 212 -27.709 5.486 47.194 1.00 40.00 N +ATOM 1494 CA TYR A 212 -28.674 4.449 47.591 1.00 40.00 C +ATOM 1495 C TYR A 212 -28.276 3.519 48.735 1.00 40.00 C +ATOM 1496 O TYR A 212 -28.945 2.514 48.956 1.00 40.00 O +ATOM 1497 CB TYR A 212 -29.064 3.587 46.378 1.00 40.00 C +ATOM 1498 CG TYR A 212 -29.405 4.350 45.104 1.00 40.00 C +ATOM 1499 CD1 TYR A 212 -30.723 4.713 44.807 1.00 40.00 C +ATOM 1500 CD2 TYR A 212 -28.413 4.678 44.180 1.00 40.00 C +ATOM 1501 CE1 TYR A 212 -31.031 5.401 43.643 1.00 40.00 C +ATOM 1502 CE2 TYR A 212 -28.708 5.367 43.015 1.00 40.00 C +ATOM 1503 CZ TYR A 212 -30.013 5.726 42.749 1.00 40.00 C +ATOM 1504 OH TYR A 212 -30.284 6.412 41.582 1.00 40.00 O +ATOM 1505 N LYS A 213 -27.215 3.856 49.463 1.00 40.00 N +ATOM 1506 CA LYS A 213 -26.605 2.952 50.469 1.00 40.00 C +ATOM 1507 C LYS A 213 -27.572 2.268 51.483 1.00 40.00 C +ATOM 1508 O LYS A 213 -27.448 1.060 51.756 1.00 40.00 O +ATOM 1509 CB LYS A 213 -25.441 3.669 51.184 1.00 40.00 C +ATOM 1510 CG LYS A 213 -24.832 2.963 52.398 1.00 40.00 C +ATOM 1511 CD LYS A 213 -24.096 3.974 53.280 1.00 40.00 C +ATOM 1512 CE LYS A 213 -23.843 3.473 54.696 1.00 40.00 C +ATOM 1513 NZ LYS A 213 -22.624 2.627 54.814 1.00 40.00 N +ATOM 1514 N GLU A 214 -28.522 3.039 52.022 1.00 40.00 N +ATOM 1515 CA GLU A 214 -29.479 2.553 53.036 1.00 40.00 C +ATOM 1516 C GLU A 214 -30.404 1.516 52.429 1.00 40.00 C +ATOM 1517 O GLU A 214 -30.997 0.713 53.140 1.00 40.00 O +ATOM 1518 CB GLU A 214 -30.344 3.682 53.632 1.00 40.00 C +ATOM 1519 CG GLU A 214 -29.854 5.109 53.424 1.00 40.00 C +ATOM 1520 CD GLU A 214 -29.645 5.459 51.958 1.00 40.00 C +ATOM 1521 OE1 GLU A 214 -30.340 4.896 51.077 1.00 40.00 O +ATOM 1522 OE2 GLU A 214 -28.759 6.292 51.684 1.00 40.00 O +ATOM 1523 N GLU A 215 -30.550 1.559 51.111 1.00 40.00 N +ATOM 1524 CA GLU A 215 -31.352 0.576 50.425 1.00 40.00 C +ATOM 1525 C GLU A 215 -30.596 -0.732 50.453 1.00 40.00 C +ATOM 1526 O GLU A 215 -31.072 -1.713 51.022 1.00 40.00 O +ATOM 1527 CB GLU A 215 -31.652 1.023 49.002 1.00 40.00 C +ATOM 1528 CG GLU A 215 -32.550 2.247 48.954 1.00 40.00 C +ATOM 1529 CD GLU A 215 -32.960 2.613 47.550 1.00 40.00 C +ATOM 1530 OE1 GLU A 215 -32.902 1.742 46.661 1.00 40.00 O +ATOM 1531 OE2 GLU A 215 -33.349 3.779 47.339 1.00 40.00 O +ATOM 1532 N PHE A 216 -29.393 -0.727 49.887 1.00 40.00 N +ATOM 1533 CA PHE A 216 -28.559 -1.920 49.871 1.00 40.00 C +ATOM 1534 C PHE A 216 -28.381 -2.455 51.277 1.00 40.00 C +ATOM 1535 O PHE A 216 -28.292 -3.665 51.485 1.00 40.00 O +ATOM 1536 CB PHE A 216 -27.200 -1.626 49.257 1.00 40.00 C +ATOM 1537 CG PHE A 216 -27.274 -0.936 47.931 1.00 40.00 C +ATOM 1538 CD1 PHE A 216 -27.761 -1.595 46.814 1.00 40.00 C +ATOM 1539 CD2 PHE A 216 -26.845 0.376 47.794 1.00 40.00 C +ATOM 1540 CE1 PHE A 216 -27.825 -0.955 45.585 1.00 40.00 C +ATOM 1541 CE2 PHE A 216 -26.900 1.019 46.569 1.00 40.00 C +ATOM 1542 CZ PHE A 216 -27.391 0.354 45.461 1.00 40.00 C +ATOM 1543 N GLY A 217 -28.331 -1.544 52.239 1.00 40.00 N +ATOM 1544 CA GLY A 217 -28.376 -1.933 53.630 1.00 40.00 C +ATOM 1545 C GLY A 217 -29.563 -2.849 53.858 1.00 40.00 C +ATOM 1546 O GLY A 217 -29.391 -4.018 54.214 1.00 40.00 O +ATOM 1547 N LYS A 218 -30.765 -2.325 53.612 1.00 40.00 N +ATOM 1548 CA LYS A 218 -32.014 -3.035 53.899 1.00 40.00 C +ATOM 1549 C LYS A 218 -32.033 -4.391 53.233 1.00 40.00 C +ATOM 1550 O LYS A 218 -32.654 -5.320 53.730 1.00 40.00 O +ATOM 1551 CB LYS A 218 -33.234 -2.204 53.484 1.00 40.00 C +ATOM 1552 CG LYS A 218 -33.508 -1.019 54.412 1.00 40.00 C +ATOM 1553 CD LYS A 218 -34.755 -0.213 54.053 1.00 40.00 C +ATOM 1554 CE LYS A 218 -34.466 0.952 53.109 1.00 40.00 C +ATOM 1555 NZ LYS A 218 -35.689 1.772 52.869 1.00 40.00 N +ATOM 1556 N MET A 219 -31.313 -4.501 52.123 1.00 40.00 N +ATOM 1557 CA MET A 219 -31.187 -5.759 51.394 1.00 40.00 C +ATOM 1558 C MET A 219 -30.257 -6.715 52.110 1.00 40.00 C +ATOM 1559 O MET A 219 -30.664 -7.813 52.486 1.00 40.00 O +ATOM 1560 CB MET A 219 -30.666 -5.503 49.986 1.00 40.00 C +ATOM 1561 CG MET A 219 -31.499 -4.500 49.219 1.00 40.00 C +ATOM 1562 SD MET A 219 -31.269 -4.665 47.449 1.00 40.00 S +ATOM 1563 CE MET A 219 -32.434 -3.439 46.849 1.00 40.00 C +ATOM 1564 N LYS A 220 -29.009 -6.278 52.285 1.00 40.00 N +ATOM 1565 CA LYS A 220 -28.010 -7.009 53.056 1.00 40.00 C +ATOM 1566 C LYS A 220 -28.624 -7.451 54.365 1.00 40.00 C +ATOM 1567 O LYS A 220 -28.229 -8.468 54.931 1.00 40.00 O +ATOM 1568 CB LYS A 220 -26.777 -6.133 53.334 1.00 40.00 C +ATOM 1569 CG LYS A 220 -25.688 -6.776 54.193 1.00 40.00 C +ATOM 1570 CD LYS A 220 -25.117 -8.007 53.517 1.00 40.00 C +ATOM 1571 CE LYS A 220 -24.068 -8.675 54.376 1.00 40.00 C +ATOM 1572 NZ LYS A 220 -23.592 -9.900 53.678 1.00 40.00 N +ATOM 1573 N GLU A 221 -29.603 -6.686 54.831 1.00 40.00 N +ATOM 1574 CA GLU A 221 -30.260 -6.993 56.077 1.00 40.00 C +ATOM 1575 C GLU A 221 -31.314 -8.096 55.940 1.00 40.00 C +ATOM 1576 O GLU A 221 -31.514 -8.889 56.875 1.00 40.00 O +ATOM 1577 CB GLU A 221 -30.867 -5.738 56.666 1.00 40.00 C +ATOM 1578 CG GLU A 221 -31.057 -5.839 58.160 1.00 40.00 C +ATOM 1579 CD GLU A 221 -32.118 -4.892 58.654 1.00 40.00 C +ATOM 1580 OE1 GLU A 221 -32.139 -3.737 58.177 1.00 40.00 O +ATOM 1581 OE2 GLU A 221 -32.930 -5.301 59.513 1.00 40.00 O +ATOM 1582 N ARG A 222 -31.983 -8.164 54.791 1.00 40.00 N +ATOM 1583 CA ARG A 222 -32.971 -9.222 54.591 1.00 40.00 C +ATOM 1584 C ARG A 222 -32.480 -10.386 53.733 1.00 40.00 C +ATOM 1585 O ARG A 222 -33.196 -11.366 53.568 1.00 40.00 O +ATOM 1586 CB ARG A 222 -34.301 -8.669 54.090 1.00 40.00 C +ATOM 1587 CG ARG A 222 -34.164 -7.635 53.000 1.00 40.00 C +ATOM 1588 CD ARG A 222 -35.456 -6.860 52.895 1.00 40.00 C +ATOM 1589 NE ARG A 222 -36.524 -7.716 52.387 1.00 40.00 N +ATOM 1590 CZ ARG A 222 -37.757 -7.302 52.097 1.00 40.00 C +ATOM 1591 NH1 ARG A 222 -38.101 -6.025 52.277 1.00 40.00 N +ATOM 1592 NH2 ARG A 222 -38.652 -8.171 51.625 1.00 40.00 N +ATOM 1593 N ALA A 223 -31.262 -10.290 53.204 1.00 40.00 N +ATOM 1594 CA ALA A 223 -30.637 -11.435 52.533 1.00 40.00 C +ATOM 1595 C ALA A 223 -29.128 -11.479 52.745 1.00 40.00 C +ATOM 1596 O ALA A 223 -28.356 -11.283 51.805 1.00 40.00 O +ATOM 1597 CB ALA A 223 -30.966 -11.437 51.056 1.00 40.00 C +ATOM 1598 N PRO A 224 -28.707 -11.758 53.986 1.00 40.00 N +ATOM 1599 CA PRO A 224 -27.305 -11.668 54.373 1.00 40.00 C +ATOM 1600 C PRO A 224 -26.340 -12.503 53.515 1.00 40.00 C +ATOM 1601 O PRO A 224 -25.296 -11.985 53.109 1.00 40.00 O +ATOM 1602 CB PRO A 224 -27.306 -12.142 55.836 1.00 40.00 C +ATOM 1603 CG PRO A 224 -28.593 -12.858 56.024 1.00 40.00 C +ATOM 1604 CD PRO A 224 -29.559 -12.193 55.105 1.00 40.00 C +ATOM 1605 N GLU A 225 -26.681 -13.764 53.235 1.00 40.00 N +ATOM 1606 CA GLU A 225 -25.782 -14.660 52.480 1.00 40.00 C +ATOM 1607 C GLU A 225 -25.941 -14.552 50.960 1.00 40.00 C +ATOM 1608 O GLU A 225 -25.012 -14.894 50.215 1.00 40.00 O +ATOM 1609 CB GLU A 225 -25.928 -16.120 52.927 1.00 40.00 C +ATOM 1610 CG GLU A 225 -27.322 -16.710 52.744 1.00 40.00 C +ATOM 1611 CD GLU A 225 -28.098 -16.815 54.046 1.00 40.00 C +ATOM 1612 OE1 GLU A 225 -28.088 -15.849 54.845 1.00 40.00 O +ATOM 1613 OE2 GLU A 225 -28.725 -17.876 54.269 1.00 40.00 O +ATOM 1614 N ASN A 226 -27.114 -14.073 50.521 1.00 40.00 N +ATOM 1615 CA ASN A 226 -27.470 -13.925 49.090 1.00 40.00 C +ATOM 1616 C ASN A 226 -27.034 -12.602 48.471 1.00 40.00 C +ATOM 1617 O ASN A 226 -27.124 -12.393 47.255 1.00 40.00 O +ATOM 1618 CB ASN A 226 -28.975 -14.084 48.921 1.00 40.00 C +ATOM 1619 CG ASN A 226 -29.481 -15.365 49.527 1.00 40.00 C +ATOM 1620 OD1 ASN A 226 -29.251 -16.453 48.987 1.00 40.00 O +ATOM 1621 ND2 ASN A 226 -30.154 -15.250 50.671 1.00 40.00 N +ATOM 1622 N PHE A 227 -26.562 -11.719 49.340 1.00 40.00 N +ATOM 1623 CA PHE A 227 -26.097 -10.412 48.955 1.00 40.00 C +ATOM 1624 C PHE A 227 -24.800 -10.078 49.674 1.00 40.00 C +ATOM 1625 O PHE A 227 -24.652 -10.328 50.879 1.00 40.00 O +ATOM 1626 CB PHE A 227 -27.157 -9.375 49.295 1.00 40.00 C +ATOM 1627 CG PHE A 227 -26.880 -8.011 48.735 1.00 40.00 C +ATOM 1628 CD1 PHE A 227 -26.245 -7.858 47.498 1.00 40.00 C +ATOM 1629 CD2 PHE A 227 -27.293 -6.875 49.425 1.00 40.00 C +ATOM 1630 CE1 PHE A 227 -26.000 -6.600 46.977 1.00 40.00 C +ATOM 1631 CE2 PHE A 227 -27.062 -5.611 48.905 1.00 40.00 C +ATOM 1632 CZ PHE A 227 -26.413 -5.472 47.680 1.00 40.00 C +ATOM 1633 N ARG A 228 -23.864 -9.522 48.909 1.00 40.00 N +ATOM 1634 CA ARG A 228 -22.584 -9.059 49.423 1.00 40.00 C +ATOM 1635 C ARG A 228 -22.272 -7.732 48.757 1.00 40.00 C +ATOM 1636 O ARG A 228 -22.294 -7.626 47.537 1.00 40.00 O +ATOM 1637 CB ARG A 228 -21.477 -10.086 49.144 1.00 40.00 C +ATOM 1638 CG ARG A 228 -21.620 -11.404 49.909 1.00 40.00 C +ATOM 1639 CD ARG A 228 -20.396 -12.290 49.734 1.00 40.00 C +ATOM 1640 NE ARG A 228 -19.180 -11.627 50.216 1.00 40.00 N +ATOM 1641 CZ ARG A 228 -17.948 -12.142 50.157 1.00 40.00 C +ATOM 1642 NH1 ARG A 228 -17.728 -13.352 49.626 1.00 40.00 N +ATOM 1643 NH2 ARG A 228 -16.925 -11.436 50.633 1.00 40.00 N +ATOM 1644 N VAL A 229 -22.021 -6.708 49.557 1.00 40.00 N +ATOM 1645 CA VAL A 229 -21.687 -5.419 48.996 1.00 40.00 C +ATOM 1646 C VAL A 229 -20.295 -5.054 49.403 1.00 40.00 C +ATOM 1647 O VAL A 229 -19.782 -5.530 50.416 1.00 40.00 O +ATOM 1648 CB VAL A 229 -22.580 -4.289 49.509 1.00 40.00 C +ATOM 1649 CG1 VAL A 229 -22.712 -3.220 48.439 1.00 40.00 C +ATOM 1650 CG2 VAL A 229 -23.938 -4.815 49.931 1.00 40.00 C +ATOM 1651 N ASP A 230 -19.700 -4.188 48.601 1.00 40.00 N +ATOM 1652 CA ASP A 230 -18.407 -3.619 48.879 1.00 40.00 C +ATOM 1653 C ASP A 230 -18.415 -2.248 48.233 1.00 40.00 C +ATOM 1654 O ASP A 230 -18.835 -2.102 47.085 1.00 40.00 O +ATOM 1655 CB ASP A 230 -17.298 -4.490 48.279 1.00 40.00 C +ATOM 1656 CG ASP A 230 -16.973 -5.704 49.136 1.00 40.00 C +ATOM 1657 OD1 ASP A 230 -16.034 -5.598 49.948 1.00 40.00 O +ATOM 1658 OD2 ASP A 230 -17.648 -6.752 49.015 1.00 40.00 O +ATOM 1659 N TYR A 231 -17.982 -1.234 48.966 1.00 40.00 N +ATOM 1660 CA TYR A 231 -17.850 0.083 48.370 1.00 40.00 C +ATOM 1661 C TYR A 231 -16.393 0.463 48.281 1.00 40.00 C +ATOM 1662 O TYR A 231 -15.554 -0.159 48.918 1.00 40.00 O +ATOM 1663 CB TYR A 231 -18.571 1.102 49.200 1.00 40.00 C +ATOM 1664 CG TYR A 231 -19.999 0.764 49.485 1.00 40.00 C +ATOM 1665 CD1 TYR A 231 -20.342 -0.075 50.543 1.00 40.00 C +ATOM 1666 CD2 TYR A 231 -21.017 1.318 48.725 1.00 40.00 C +ATOM 1667 CE1 TYR A 231 -21.667 -0.360 50.825 1.00 40.00 C +ATOM 1668 CE2 TYR A 231 -22.346 1.044 49.000 1.00 40.00 C +ATOM 1669 CZ TYR A 231 -22.666 0.205 50.050 1.00 40.00 C +ATOM 1670 OH TYR A 231 -23.986 -0.065 50.331 1.00 40.00 O +ATOM 1671 N ALA A 232 -16.088 1.480 47.485 1.00 40.00 N +ATOM 1672 CA ALA A 232 -14.719 1.959 47.359 1.00 40.00 C +ATOM 1673 C ALA A 232 -14.712 3.481 47.249 1.00 40.00 C +ATOM 1674 O ALA A 232 -14.956 4.045 46.177 1.00 40.00 O +ATOM 1675 CB ALA A 232 -14.020 1.311 46.171 1.00 40.00 C +ATOM 1676 N VAL A 233 -14.452 4.139 48.375 1.00 40.00 N +ATOM 1677 CA VAL A 233 -14.387 5.593 48.420 1.00 40.00 C +ATOM 1678 C VAL A 233 -12.940 6.018 48.170 1.00 40.00 C +ATOM 1679 O VAL A 233 -12.092 5.940 49.065 1.00 40.00 O +ATOM 1680 CB VAL A 233 -14.890 6.143 49.768 1.00 40.00 C +ATOM 1681 CG1 VAL A 233 -15.344 7.574 49.603 1.00 40.00 C +ATOM 1682 CG2 VAL A 233 -16.033 5.301 50.309 1.00 40.00 C +ATOM 1683 N SER A 234 -12.660 6.453 46.944 1.00 40.00 N +ATOM 1684 CA SER A 234 -11.289 6.780 46.530 1.00 40.00 C +ATOM 1685 C SER A 234 -10.607 7.838 47.424 1.00 40.00 C +ATOM 1686 O SER A 234 -9.396 7.754 47.685 1.00 40.00 O +ATOM 1687 CB SER A 234 -11.255 7.177 45.046 1.00 40.00 C +ATOM 1688 OG SER A 234 -11.900 8.418 44.799 1.00 40.00 O +ATOM 1689 N ARG A 235 -11.404 8.794 47.917 1.00 40.00 N +ATOM 1690 CA ARG A 235 -10.918 9.949 48.687 1.00 40.00 C +ATOM 1691 C ARG A 235 -11.096 9.871 50.200 1.00 40.00 C +ATOM 1692 O ARG A 235 -11.116 10.918 50.862 1.00 40.00 O +ATOM 1693 CB ARG A 235 -11.632 11.209 48.232 1.00 40.00 C +ATOM 1694 CG ARG A 235 -11.318 11.648 46.835 1.00 40.00 C +ATOM 1695 CD ARG A 235 -11.957 12.997 46.690 1.00 40.00 C +ATOM 1696 NE ARG A 235 -11.945 13.453 45.316 1.00 40.00 N +ATOM 1697 CZ ARG A 235 -12.796 14.350 44.829 1.00 40.00 C +ATOM 1698 NH1 ARG A 235 -13.742 14.873 45.610 1.00 40.00 N +ATOM 1699 NH2 ARG A 235 -12.710 14.718 43.556 1.00 40.00 N +ATOM 1700 N GLU A 236 -11.238 8.660 50.746 1.00 40.00 N +ATOM 1701 CA GLU A 236 -11.512 8.488 52.176 1.00 40.00 C +ATOM 1702 C GLU A 236 -11.080 7.147 52.705 1.00 40.00 C +ATOM 1703 O GLU A 236 -11.354 6.799 53.852 1.00 40.00 O +ATOM 1704 CB GLU A 236 -12.993 8.654 52.465 1.00 40.00 C +ATOM 1705 CG GLU A 236 -13.464 10.092 52.463 1.00 40.00 C +ATOM 1706 CD GLU A 236 -14.932 10.191 52.757 1.00 40.00 C +ATOM 1707 OE1 GLU A 236 -15.373 9.527 53.725 1.00 40.00 O +ATOM 1708 OE2 GLU A 236 -15.633 10.922 52.020 1.00 40.00 O +ATOM 1709 N GLN A 237 -10.435 6.375 51.849 1.00 40.00 N +ATOM 1710 CA GLN A 237 -9.888 5.092 52.244 1.00 40.00 C +ATOM 1711 C GLN A 237 -8.631 4.851 51.429 1.00 40.00 C +ATOM 1712 O GLN A 237 -8.480 5.381 50.319 1.00 40.00 O +ATOM 1713 CB GLN A 237 -10.882 3.950 51.988 1.00 40.00 C +ATOM 1714 CG GLN A 237 -12.212 4.036 52.720 1.00 40.00 C +ATOM 1715 CD GLN A 237 -13.285 3.197 52.056 1.00 40.00 C +ATOM 1716 OE1 GLN A 237 -13.250 2.955 50.849 1.00 40.00 O +ATOM 1717 NE2 GLN A 237 -14.249 2.751 52.843 1.00 40.00 N +ATOM 1718 N THR A 238 -7.720 4.075 52.005 1.00 40.00 N +ATOM 1719 CA THR A 238 -6.615 3.488 51.262 1.00 40.00 C +ATOM 1720 C THR A 238 -6.430 2.047 51.743 1.00 40.00 C +ATOM 1721 O THR A 238 -7.001 1.637 52.766 1.00 40.00 O +ATOM 1722 CB THR A 238 -5.293 4.290 51.380 1.00 40.00 C +ATOM 1723 OG1 THR A 238 -4.833 4.265 52.730 1.00 40.00 O +ATOM 1724 CG2 THR A 238 -5.450 5.752 50.914 1.00 40.00 C +ATOM 1725 N ASN A 239 -5.656 1.277 50.983 1.00 40.00 N +ATOM 1726 CA ASN A 239 -5.400 -0.120 51.313 1.00 40.00 C +ATOM 1727 C ASN A 239 -4.243 -0.263 52.295 1.00 40.00 C +ATOM 1728 O ASN A 239 -3.701 0.753 52.772 1.00 40.00 O +ATOM 1729 CB ASN A 239 -5.166 -0.965 50.041 1.00 40.00 C +ATOM 1730 CG ASN A 239 -4.091 -0.390 49.119 1.00 40.00 C +ATOM 1731 OD1 ASN A 239 -3.859 0.815 49.079 1.00 40.00 O +ATOM 1732 ND2 ASN A 239 -3.445 -1.266 48.355 1.00 40.00 N +ATOM 1733 N ALA A 240 -3.885 -1.519 52.600 1.00 40.00 N +ATOM 1734 CA ALA A 240 -2.667 -1.830 53.349 1.00 40.00 C +ATOM 1735 C ALA A 240 -1.430 -1.258 52.637 1.00 40.00 C +ATOM 1736 O ALA A 240 -0.485 -0.809 53.291 1.00 40.00 O +ATOM 1737 CB ALA A 240 -2.531 -3.324 53.563 1.00 40.00 C +ATOM 1738 N ALA A 241 -1.459 -1.237 51.306 1.00 40.00 N +ATOM 1739 CA ALA A 241 -0.391 -0.616 50.521 1.00 40.00 C +ATOM 1740 C ALA A 241 -0.400 0.954 50.457 1.00 40.00 C +ATOM 1741 O ALA A 241 0.414 1.565 49.752 1.00 40.00 O +ATOM 1742 CB ALA A 241 -0.351 -1.244 49.137 1.00 40.00 C +ATOM 1743 N GLY A 242 -1.297 1.597 51.206 1.00 40.00 N +ATOM 1744 CA GLY A 242 -1.349 3.070 51.279 1.00 40.00 C +ATOM 1745 C GLY A 242 -1.703 3.838 49.998 1.00 40.00 C +ATOM 1746 O GLY A 242 -1.227 4.970 49.782 1.00 40.00 O +ATOM 1747 N GLU A 243 -2.551 3.229 49.161 1.00 40.00 N +ATOM 1748 CA GLU A 243 -2.998 3.815 47.882 1.00 40.00 C +ATOM 1749 C GLU A 243 -4.501 4.007 47.915 1.00 40.00 C +ATOM 1750 O GLU A 243 -5.203 3.246 48.595 1.00 40.00 O +ATOM 1751 CB GLU A 243 -2.682 2.876 46.718 1.00 40.00 C +ATOM 1752 CG GLU A 243 -1.593 1.855 47.014 1.00 40.00 C +ATOM 1753 CD GLU A 243 -1.617 0.674 46.063 1.00 40.00 C +ATOM 1754 OE1 GLU A 243 -1.472 0.898 44.843 1.00 40.00 O +ATOM 1755 OE2 GLU A 243 -1.763 -0.479 46.531 1.00 40.00 O +ATOM 1756 N ARG A 244 -4.988 5.000 47.162 1.00 40.00 N +ATOM 1757 CA ARG A 244 -6.425 5.328 47.105 1.00 40.00 C +ATOM 1758 C ARG A 244 -7.339 4.144 46.701 1.00 40.00 C +ATOM 1759 O ARG A 244 -7.059 3.420 45.729 1.00 40.00 O +ATOM 1760 CB ARG A 244 -6.657 6.517 46.186 1.00 40.00 C +ATOM 1761 CG ARG A 244 -6.320 7.850 46.813 1.00 40.00 C +ATOM 1762 CD ARG A 244 -6.601 8.952 45.797 1.00 40.00 C +ATOM 1763 NE ARG A 244 -6.305 10.309 46.284 1.00 40.00 N +ATOM 1764 CZ ARG A 244 -6.022 11.360 45.506 1.00 40.00 C +ATOM 1765 NH1 ARG A 244 -5.966 11.247 44.176 1.00 40.00 N +ATOM 1766 NH2 ARG A 244 -5.768 12.532 46.074 1.00 40.00 N +ATOM 1767 N MET A 245 -8.423 3.953 47.458 1.00 40.00 N +ATOM 1768 CA MET A 245 -9.300 2.807 47.257 1.00 40.00 C +ATOM 1769 C MET A 245 -10.158 2.997 46.025 1.00 40.00 C +ATOM 1770 O MET A 245 -11.228 3.604 46.072 1.00 40.00 O +ATOM 1771 CB MET A 245 -10.171 2.550 48.484 1.00 40.00 C +ATOM 1772 CG MET A 245 -10.926 1.225 48.435 1.00 40.00 C +ATOM 1773 SD MET A 245 -9.869 -0.242 48.406 1.00 40.00 S +ATOM 1774 CE MET A 245 -9.239 -0.262 50.089 1.00 40.00 C +ATOM 1775 N TYR A 246 -9.662 2.489 44.909 1.00 40.00 N +ATOM 1776 CA TYR A 246 -10.440 2.475 43.689 1.00 40.00 C +ATOM 1777 C TYR A 246 -11.153 1.148 43.600 1.00 40.00 C +ATOM 1778 O TYR A 246 -10.849 0.221 44.368 1.00 40.00 O +ATOM 1779 CB TYR A 246 -9.548 2.732 42.479 1.00 40.00 C +ATOM 1780 CG TYR A 246 -8.975 4.122 42.523 1.00 40.00 C +ATOM 1781 CD1 TYR A 246 -9.821 5.240 42.564 1.00 40.00 C +ATOM 1782 CD2 TYR A 246 -7.592 4.333 42.563 1.00 40.00 C +ATOM 1783 CE1 TYR A 246 -9.310 6.528 42.625 1.00 40.00 C +ATOM 1784 CE2 TYR A 246 -7.071 5.626 42.630 1.00 40.00 C +ATOM 1785 CZ TYR A 246 -7.936 6.720 42.659 1.00 40.00 C +ATOM 1786 OH TYR A 246 -7.435 8.007 42.715 1.00 40.00 O +ATOM 1787 N ILE A 247 -12.121 1.060 42.688 1.00 40.00 N +ATOM 1788 CA ILE A 247 -12.915 -0.157 42.544 1.00 40.00 C +ATOM 1789 C ILE A 247 -11.998 -1.369 42.495 1.00 40.00 C +ATOM 1790 O ILE A 247 -12.138 -2.305 43.288 1.00 40.00 O +ATOM 1791 CB ILE A 247 -13.869 -0.105 41.332 1.00 40.00 C +ATOM 1792 CG1 ILE A 247 -14.676 -1.397 41.278 1.00 40.00 C +ATOM 1793 CG2 ILE A 247 -13.127 0.175 40.027 1.00 40.00 C +ATOM 1794 CD1 ILE A 247 -16.070 -1.219 40.729 1.00 40.00 C +ATOM 1795 N GLN A 248 -11.026 -1.297 41.592 1.00 40.00 N +ATOM 1796 CA GLN A 248 -10.024 -2.336 41.429 1.00 40.00 C +ATOM 1797 C GLN A 248 -9.315 -2.681 42.736 1.00 40.00 C +ATOM 1798 O GLN A 248 -9.077 -3.859 43.012 1.00 40.00 O +ATOM 1799 CB GLN A 248 -9.009 -1.953 40.339 1.00 40.00 C +ATOM 1800 CG GLN A 248 -8.233 -0.661 40.564 1.00 40.00 C +ATOM 1801 CD GLN A 248 -8.895 0.546 39.935 1.00 40.00 C +ATOM 1802 OE1 GLN A 248 -10.113 0.687 39.968 1.00 40.00 O +ATOM 1803 NE2 GLN A 248 -8.088 1.429 39.361 1.00 40.00 N +ATOM 1804 N THR A 249 -9.002 -1.650 43.528 1.00 40.00 N +ATOM 1805 CA THR A 249 -8.272 -1.790 44.790 1.00 40.00 C +ATOM 1806 C THR A 249 -9.101 -2.584 45.799 1.00 40.00 C +ATOM 1807 O THR A 249 -8.594 -3.504 46.443 1.00 40.00 O +ATOM 1808 CB THR A 249 -7.877 -0.416 45.391 1.00 40.00 C +ATOM 1809 OG1 THR A 249 -7.721 0.559 44.350 1.00 40.00 O +ATOM 1810 CG2 THR A 249 -6.580 -0.521 46.181 1.00 40.00 C +ATOM 1811 N ARG A 250 -10.379 -2.241 45.919 1.00 40.00 N +ATOM 1812 CA ARG A 250 -11.274 -2.991 46.784 1.00 40.00 C +ATOM 1813 C ARG A 250 -11.442 -4.433 46.302 1.00 40.00 C +ATOM 1814 O ARG A 250 -11.462 -5.370 47.114 1.00 40.00 O +ATOM 1815 CB ARG A 250 -12.637 -2.309 46.868 1.00 40.00 C +ATOM 1816 CG ARG A 250 -13.690 -3.110 47.640 1.00 40.00 C +ATOM 1817 CD ARG A 250 -13.400 -3.138 49.131 1.00 40.00 C +ATOM 1818 NE ARG A 250 -13.244 -1.771 49.632 1.00 40.00 N +ATOM 1819 CZ ARG A 250 -12.578 -1.426 50.734 1.00 40.00 C +ATOM 1820 NH1 ARG A 250 -11.990 -2.350 51.478 1.00 40.00 N +ATOM 1821 NH2 ARG A 250 -12.495 -0.147 51.096 1.00 40.00 N +ATOM 1822 N MET A 251 -11.581 -4.591 44.982 1.00 40.00 N +ATOM 1823 CA MET A 251 -11.716 -5.901 44.350 1.00 40.00 C +ATOM 1824 C MET A 251 -10.500 -6.738 44.665 1.00 40.00 C +ATOM 1825 O MET A 251 -10.630 -7.863 45.142 1.00 40.00 O +ATOM 1826 CB MET A 251 -11.836 -5.759 42.844 1.00 40.00 C +ATOM 1827 CG MET A 251 -13.208 -5.348 42.370 1.00 40.00 C +ATOM 1828 SD MET A 251 -13.105 -4.663 40.713 1.00 40.00 S +ATOM 1829 CE MET A 251 -12.752 -6.110 39.727 1.00 40.00 C +ATOM 1830 N ALA A 252 -9.322 -6.165 44.410 1.00 40.00 N +ATOM 1831 CA ALA A 252 -8.037 -6.812 44.677 1.00 40.00 C +ATOM 1832 C ALA A 252 -8.004 -7.464 46.059 1.00 40.00 C +ATOM 1833 O ALA A 252 -7.259 -8.424 46.283 1.00 40.00 O +ATOM 1834 CB ALA A 252 -6.892 -5.818 44.521 1.00 40.00 C +ATOM 1835 N GLU A 253 -8.829 -6.949 46.971 1.00 40.00 N +ATOM 1836 CA GLU A 253 -8.964 -7.513 48.315 1.00 40.00 C +ATOM 1837 C GLU A 253 -9.618 -8.899 48.324 1.00 40.00 C +ATOM 1838 O GLU A 253 -9.644 -9.574 49.354 1.00 40.00 O +ATOM 1839 CB GLU A 253 -9.750 -6.566 49.219 1.00 40.00 C +ATOM 1840 CG GLU A 253 -9.057 -5.250 49.498 1.00 40.00 C +ATOM 1841 CD GLU A 253 -9.732 -4.479 50.608 1.00 40.00 C +ATOM 1842 OE1 GLU A 253 -9.069 -3.587 51.176 1.00 40.00 O +ATOM 1843 OE2 GLU A 253 -10.913 -4.765 50.917 1.00 40.00 O +ATOM 1844 N TYR A 254 -10.143 -9.320 47.182 1.00 40.00 N +ATOM 1845 CA TYR A 254 -10.752 -10.626 47.082 1.00 40.00 C +ATOM 1846 C TYR A 254 -10.238 -11.339 45.856 1.00 40.00 C +ATOM 1847 O TYR A 254 -10.873 -12.280 45.382 1.00 40.00 O +ATOM 1848 CB TYR A 254 -12.256 -10.492 46.941 1.00 40.00 C +ATOM 1849 CG TYR A 254 -12.975 -9.750 48.035 1.00 40.00 C +ATOM 1850 CD1 TYR A 254 -13.483 -10.434 49.136 1.00 40.00 C +ATOM 1851 CD2 TYR A 254 -13.205 -8.364 47.942 1.00 40.00 C +ATOM 1852 CE1 TYR A 254 -14.183 -9.770 50.131 1.00 40.00 C +ATOM 1853 CE2 TYR A 254 -13.905 -7.684 48.936 1.00 40.00 C +ATOM 1854 CZ TYR A 254 -14.395 -8.397 50.030 1.00 40.00 C +ATOM 1855 OH TYR A 254 -15.099 -7.767 51.034 1.00 40.00 O +ATOM 1856 N LYS A 255 -9.098 -10.893 45.337 1.00 40.00 N +ATOM 1857 CA LYS A 255 -8.579 -11.415 44.072 1.00 40.00 C +ATOM 1858 C LYS A 255 -8.622 -12.944 44.015 1.00 40.00 C +ATOM 1859 O LYS A 255 -8.538 -13.537 42.939 1.00 40.00 O +ATOM 1860 CB LYS A 255 -7.174 -10.866 43.782 1.00 40.00 C +ATOM 1861 CG LYS A 255 -6.121 -11.123 44.859 1.00 40.00 C +ATOM 1862 CD LYS A 255 -4.916 -10.193 44.690 1.00 40.00 C +ATOM 1863 CE LYS A 255 -3.747 -10.562 45.606 1.00 40.00 C +ATOM 1864 NZ LYS A 255 -2.946 -11.712 45.095 1.00 40.00 N +ATOM 1865 N GLU A 256 -8.787 -13.554 45.194 1.00 40.00 N +ATOM 1866 CA GLU A 256 -8.911 -15.009 45.376 1.00 40.00 C +ATOM 1867 C GLU A 256 -10.266 -15.532 44.890 1.00 40.00 C +ATOM 1868 O GLU A 256 -10.347 -16.062 43.771 1.00 40.00 O +ATOM 1869 CB GLU A 256 -8.694 -15.414 46.852 1.00 40.00 C +ATOM 1870 CG GLU A 256 -7.734 -14.537 47.657 1.00 40.00 C +ATOM 1871 CD GLU A 256 -6.288 -14.625 47.185 1.00 40.00 C +ATOM 1872 OE1 GLU A 256 -5.925 -15.636 46.534 1.00 40.00 O +ATOM 1873 OE2 GLU A 256 -5.514 -13.676 47.473 1.00 40.00 O +ATOM 1874 N GLU A 257 -11.317 -15.377 45.719 1.00 40.00 N +ATOM 1875 CA GLU A 257 -12.663 -15.916 45.405 1.00 40.00 C +ATOM 1876 C GLU A 257 -13.055 -15.502 44.012 1.00 40.00 C +ATOM 1877 O GLU A 257 -13.594 -16.294 43.245 1.00 40.00 O +ATOM 1878 CB GLU A 257 -13.785 -15.444 46.349 1.00 40.00 C +ATOM 1879 CG GLU A 257 -13.543 -15.588 47.828 1.00 40.00 C +ATOM 1880 CD GLU A 257 -12.964 -14.318 48.403 1.00 40.00 C +ATOM 1881 OE1 GLU A 257 -11.737 -14.089 48.225 1.00 40.00 O +ATOM 1882 OE2 GLU A 257 -13.746 -13.549 49.018 1.00 40.00 O +ATOM 1883 N LEU A 258 -12.781 -14.241 43.703 1.00 40.00 N +ATOM 1884 CA LEU A 258 -13.121 -13.680 42.415 1.00 40.00 C +ATOM 1885 C LEU A 258 -12.502 -14.525 41.308 1.00 40.00 C +ATOM 1886 O LEU A 258 -13.221 -15.147 40.528 1.00 40.00 O +ATOM 1887 CB LEU A 258 -12.701 -12.204 42.338 1.00 40.00 C +ATOM 1888 CG LEU A 258 -13.248 -11.262 43.435 1.00 40.00 C +ATOM 1889 CD1 LEU A 258 -12.801 -9.832 43.172 1.00 40.00 C +ATOM 1890 CD2 LEU A 258 -14.767 -11.313 43.604 1.00 40.00 C +ATOM 1891 N TRP A 259 -11.178 -14.597 41.274 1.00 40.00 N +ATOM 1892 CA TRP A 259 -10.516 -15.402 40.268 1.00 40.00 C +ATOM 1893 C TRP A 259 -11.031 -16.805 40.217 1.00 40.00 C +ATOM 1894 O TRP A 259 -11.203 -17.390 39.143 1.00 40.00 O +ATOM 1895 CB TRP A 259 -9.031 -15.432 40.503 1.00 40.00 C +ATOM 1896 CG TRP A 259 -8.376 -16.315 39.492 1.00 40.00 C +ATOM 1897 CD1 TRP A 259 -7.599 -17.441 39.725 1.00 40.00 C +ATOM 1898 CD2 TRP A 259 -8.479 -16.208 38.024 1.00 40.00 C +ATOM 1899 NE1 TRP A 259 -7.192 -18.002 38.540 1.00 40.00 N +ATOM 1900 CE2 TRP A 259 -7.690 -17.314 37.478 1.00 40.00 C +ATOM 1901 CE3 TRP A 259 -9.110 -15.325 37.139 1.00 40.00 C +ATOM 1902 CZ2 TRP A 259 -7.554 -17.516 36.100 1.00 40.00 C +ATOM 1903 CZ3 TRP A 259 -8.967 -15.537 35.758 1.00 40.00 C +ATOM 1904 CH2 TRP A 259 -8.207 -16.605 35.252 1.00 40.00 C +ATOM 1905 N GLU A 260 -11.264 -17.352 41.399 1.00 40.00 N +ATOM 1906 CA GLU A 260 -11.913 -18.634 41.538 1.00 40.00 C +ATOM 1907 C GLU A 260 -13.270 -18.638 40.847 1.00 40.00 C +ATOM 1908 O GLU A 260 -13.471 -19.364 39.865 1.00 40.00 O +ATOM 1909 CB GLU A 260 -12.072 -18.983 43.018 1.00 40.00 C +ATOM 1910 CG GLU A 260 -10.772 -19.396 43.679 1.00 40.00 C +ATOM 1911 CD GLU A 260 -10.094 -20.535 42.938 1.00 40.00 C +ATOM 1912 OE1 GLU A 260 -8.957 -20.310 42.443 1.00 40.00 O +ATOM 1913 OE2 GLU A 260 -10.711 -21.636 42.832 1.00 40.00 O +ATOM 1914 N LEU A 261 -14.183 -17.811 41.360 1.00 40.00 N +ATOM 1915 CA LEU A 261 -15.549 -17.695 40.834 1.00 40.00 C +ATOM 1916 C LEU A 261 -15.559 -17.431 39.325 1.00 40.00 C +ATOM 1917 O LEU A 261 -16.569 -17.639 38.647 1.00 40.00 O +ATOM 1918 CB LEU A 261 -16.319 -16.599 41.581 1.00 40.00 C +ATOM 1919 CG LEU A 261 -16.818 -16.923 42.989 1.00 40.00 C +ATOM 1920 CD1 LEU A 261 -16.672 -15.716 43.908 1.00 40.00 C +ATOM 1921 CD2 LEU A 261 -18.251 -17.440 42.951 1.00 40.00 C +ATOM 1922 N LEU A 262 -14.412 -17.000 38.811 1.00 40.00 N +ATOM 1923 CA LEU A 262 -14.270 -16.685 37.403 1.00 40.00 C +ATOM 1924 C LEU A 262 -14.189 -17.905 36.531 1.00 40.00 C +ATOM 1925 O LEU A 262 -14.233 -17.802 35.303 1.00 40.00 O +ATOM 1926 CB LEU A 262 -13.038 -15.823 37.160 1.00 40.00 C +ATOM 1927 CG LEU A 262 -13.352 -14.325 37.180 1.00 40.00 C +ATOM 1928 CD1 LEU A 262 -12.166 -13.531 36.670 1.00 40.00 C +ATOM 1929 CD2 LEU A 262 -14.587 -13.993 36.351 1.00 40.00 C +ATOM 1930 N LYS A 263 -14.059 -19.064 37.157 1.00 40.00 N +ATOM 1931 CA LYS A 263 -13.965 -20.294 36.389 1.00 40.00 C +ATOM 1932 C LYS A 263 -15.279 -21.094 36.432 1.00 40.00 C +ATOM 1933 O LYS A 263 -15.423 -22.083 35.717 1.00 40.00 O +ATOM 1934 CB LYS A 263 -12.705 -21.079 36.792 1.00 40.00 C +ATOM 1935 CG LYS A 263 -11.428 -20.242 36.621 1.00 40.00 C +ATOM 1936 CD LYS A 263 -10.148 -20.962 37.024 1.00 40.00 C +ATOM 1937 CE LYS A 263 -9.915 -20.920 38.534 1.00 40.00 C +ATOM 1938 NZ LYS A 263 -8.674 -21.639 38.953 1.00 40.00 N +ATOM 1939 N LYS A 264 -16.243 -20.627 37.232 1.00 40.00 N +ATOM 1940 CA LYS A 264 -17.583 -21.228 37.295 1.00 40.00 C +ATOM 1941 C LYS A 264 -18.421 -20.900 36.064 1.00 40.00 C +ATOM 1942 O LYS A 264 -18.123 -19.967 35.316 1.00 40.00 O +ATOM 1943 CB LYS A 264 -18.328 -20.819 38.573 1.00 40.00 C +ATOM 1944 CG LYS A 264 -17.896 -21.589 39.813 1.00 40.00 C +ATOM 1945 CD LYS A 264 -18.712 -21.197 41.037 1.00 40.00 C +ATOM 1946 CE LYS A 264 -18.562 -22.206 42.175 1.00 40.00 C +ATOM 1947 NZ LYS A 264 -17.171 -22.350 42.699 1.00 40.00 N +ATOM 1948 N ASP A 265 -19.468 -21.692 35.871 1.00 40.00 N +ATOM 1949 CA ASP A 265 -20.310 -21.614 34.686 1.00 40.00 C +ATOM 1950 C ASP A 265 -21.506 -20.747 34.935 1.00 40.00 C +ATOM 1951 O ASP A 265 -22.216 -20.366 34.006 1.00 40.00 O +ATOM 1952 CB ASP A 265 -20.819 -23.001 34.298 1.00 40.00 C +ATOM 1953 CG ASP A 265 -19.878 -23.728 33.354 1.00 40.00 C +ATOM 1954 OD1 ASP A 265 -19.949 -24.981 33.312 1.00 40.00 O +ATOM 1955 OD2 ASP A 265 -19.075 -23.052 32.654 1.00 40.00 O +ATOM 1956 N ASN A 266 -21.741 -20.454 36.201 1.00 40.00 N +ATOM 1957 CA ASN A 266 -22.913 -19.694 36.580 1.00 40.00 C +ATOM 1958 C ASN A 266 -22.515 -18.385 37.265 1.00 40.00 C +ATOM 1959 O ASN A 266 -23.265 -17.830 38.077 1.00 40.00 O +ATOM 1960 CB ASN A 266 -23.782 -20.546 37.489 1.00 40.00 C +ATOM 1961 CG ASN A 266 -23.079 -20.908 38.782 1.00 40.00 C +ATOM 1962 OD1 ASN A 266 -21.837 -20.970 38.849 1.00 40.00 O +ATOM 1963 ND2 ASN A 266 -23.870 -21.139 39.824 1.00 40.00 N +ATOM 1964 N THR A 267 -21.319 -17.908 36.933 1.00 40.00 N +ATOM 1965 CA THR A 267 -20.837 -16.625 37.409 1.00 40.00 C +ATOM 1966 C THR A 267 -20.857 -15.624 36.240 1.00 40.00 C +ATOM 1967 O THR A 267 -20.141 -15.803 35.259 1.00 40.00 O +ATOM 1968 CB THR A 267 -19.432 -16.772 38.031 1.00 40.00 C +ATOM 1969 OG1 THR A 267 -19.489 -17.674 39.147 1.00 40.00 O +ATOM 1970 CG2 THR A 267 -18.919 -15.445 38.514 1.00 40.00 C +ATOM 1971 N TYR A 268 -21.697 -14.591 36.338 1.00 40.00 N +ATOM 1972 CA TYR A 268 -21.846 -13.602 35.259 1.00 40.00 C +ATOM 1973 C TYR A 268 -21.443 -12.208 35.721 1.00 40.00 C +ATOM 1974 O TYR A 268 -21.956 -11.691 36.713 1.00 40.00 O +ATOM 1975 CB TYR A 268 -23.285 -13.578 34.721 1.00 40.00 C +ATOM 1976 CG TYR A 268 -23.874 -14.943 34.418 1.00 40.00 C +ATOM 1977 CD1 TYR A 268 -24.509 -15.681 35.413 1.00 40.00 C +ATOM 1978 CD2 TYR A 268 -23.801 -15.496 33.136 1.00 40.00 C +ATOM 1979 CE1 TYR A 268 -25.050 -16.931 35.149 1.00 40.00 C +ATOM 1980 CE2 TYR A 268 -24.342 -16.752 32.864 1.00 40.00 C +ATOM 1981 CZ TYR A 268 -24.969 -17.461 33.879 1.00 40.00 C +ATOM 1982 OH TYR A 268 -25.521 -18.700 33.652 1.00 40.00 O +ATOM 1983 N VAL A 269 -20.528 -11.597 34.989 1.00 40.00 N +ATOM 1984 CA VAL A 269 -19.997 -10.311 35.387 1.00 40.00 C +ATOM 1985 C VAL A 269 -20.635 -9.174 34.620 1.00 40.00 C +ATOM 1986 O VAL A 269 -20.812 -9.251 33.404 1.00 40.00 O +ATOM 1987 CB VAL A 269 -18.490 -10.248 35.150 1.00 40.00 C +ATOM 1988 CG1 VAL A 269 -18.001 -8.821 35.268 1.00 40.00 C +ATOM 1989 CG2 VAL A 269 -17.771 -11.126 36.148 1.00 40.00 C +ATOM 1990 N TYR A 270 -20.950 -8.106 35.339 1.00 40.00 N +ATOM 1991 CA TYR A 270 -21.510 -6.931 34.724 1.00 40.00 C +ATOM 1992 C TYR A 270 -20.739 -5.711 35.194 1.00 40.00 C +ATOM 1993 O TYR A 270 -20.550 -5.508 36.386 1.00 40.00 O +ATOM 1994 CB TYR A 270 -22.992 -6.798 35.083 1.00 40.00 C +ATOM 1995 CG TYR A 270 -23.941 -7.857 34.507 1.00 40.00 C +ATOM 1996 CD1 TYR A 270 -24.091 -9.107 35.114 1.00 40.00 C +ATOM 1997 CD2 TYR A 270 -24.726 -7.584 33.383 1.00 40.00 C +ATOM 1998 CE1 TYR A 270 -24.967 -10.059 34.602 1.00 40.00 C +ATOM 1999 CE2 TYR A 270 -25.605 -8.530 32.865 1.00 40.00 C +ATOM 2000 CZ TYR A 270 -25.725 -9.769 33.475 1.00 40.00 C +ATOM 2001 OH TYR A 270 -26.603 -10.714 32.966 1.00 40.00 O +ATOM 2002 N MET A 271 -20.289 -4.908 34.242 1.00 40.00 N +ATOM 2003 CA MET A 271 -19.529 -3.706 34.528 1.00 40.00 C +ATOM 2004 C MET A 271 -20.259 -2.507 33.939 1.00 40.00 C +ATOM 2005 O MET A 271 -20.636 -2.524 32.762 1.00 40.00 O +ATOM 2006 CB MET A 271 -18.133 -3.825 33.920 1.00 40.00 C +ATOM 2007 CG MET A 271 -17.120 -2.855 34.488 1.00 40.00 C +ATOM 2008 SD MET A 271 -15.619 -2.784 33.511 1.00 40.00 S +ATOM 2009 CE MET A 271 -14.777 -4.264 34.022 1.00 40.00 C +ATOM 2010 N CYS A 272 -20.459 -1.475 34.756 1.00 40.00 N +ATOM 2011 CA CYS A 272 -21.139 -0.257 34.306 1.00 40.00 C +ATOM 2012 C CYS A 272 -20.628 1.035 34.944 1.00 40.00 C +ATOM 2013 O CYS A 272 -20.347 1.079 36.137 1.00 40.00 O +ATOM 2014 CB CYS A 272 -22.635 -0.376 34.547 1.00 40.00 C +ATOM 2015 SG CYS A 272 -23.569 0.962 33.788 1.00 40.00 S +ATOM 2016 N GLY A 273 -20.520 2.088 34.140 1.00 40.00 N +ATOM 2017 CA GLY A 273 -20.152 3.397 34.654 1.00 40.00 C +ATOM 2018 C GLY A 273 -19.260 4.248 33.775 1.00 40.00 C +ATOM 2019 O GLY A 273 -19.592 4.570 32.634 1.00 40.00 O +ATOM 2020 N LEU A 274 -18.115 4.613 34.328 1.00 40.00 N +ATOM 2021 CA LEU A 274 -17.276 5.636 33.744 1.00 40.00 C +ATOM 2022 C LEU A 274 -16.165 5.022 32.930 1.00 40.00 C +ATOM 2023 O LEU A 274 -15.307 4.310 33.460 1.00 40.00 O +ATOM 2024 CB LEU A 274 -16.690 6.527 34.846 1.00 40.00 C +ATOM 2025 CG LEU A 274 -17.668 7.296 35.753 1.00 40.00 C +ATOM 2026 CD1 LEU A 274 -17.084 7.563 37.144 1.00 40.00 C +ATOM 2027 CD2 LEU A 274 -18.161 8.582 35.075 1.00 40.00 C +ATOM 2028 N LYS A 275 -16.182 5.308 31.635 1.00 40.00 N +ATOM 2029 CA LYS A 275 -15.110 4.893 30.758 1.00 40.00 C +ATOM 2030 C LYS A 275 -13.784 5.099 31.464 1.00 40.00 C +ATOM 2031 O LYS A 275 -13.462 6.203 31.882 1.00 40.00 O +ATOM 2032 CB LYS A 275 -15.141 5.716 29.481 1.00 40.00 C +ATOM 2033 CG LYS A 275 -14.125 5.272 28.446 1.00 40.00 C +ATOM 2034 CD LYS A 275 -14.314 6.044 27.151 1.00 40.00 C +ATOM 2035 CE LYS A 275 -13.537 5.406 26.012 1.00 40.00 C +ATOM 2036 NZ LYS A 275 -14.084 5.851 24.697 1.00 40.00 N +ATOM 2037 N GLY A 276 -13.027 4.028 31.623 1.00 40.00 N +ATOM 2038 CA GLY A 276 -11.723 4.140 32.245 1.00 40.00 C +ATOM 2039 C GLY A 276 -11.553 3.188 33.402 1.00 40.00 C +ATOM 2040 O GLY A 276 -10.442 2.704 33.659 1.00 40.00 O +ATOM 2041 N MET A 277 -12.651 2.912 34.095 1.00 40.00 N +ATOM 2042 CA MET A 277 -12.606 2.010 35.231 1.00 40.00 C +ATOM 2043 C MET A 277 -11.976 0.674 34.851 1.00 40.00 C +ATOM 2044 O MET A 277 -11.239 0.079 35.648 1.00 40.00 O +ATOM 2045 CB MET A 277 -14.001 1.804 35.806 1.00 40.00 C +ATOM 2046 CG MET A 277 -15.014 1.300 34.800 1.00 40.00 C +ATOM 2047 SD MET A 277 -16.700 1.372 35.412 1.00 40.00 S +ATOM 2048 CE MET A 277 -16.685 0.097 36.673 1.00 40.00 C +ATOM 2049 N GLU A 278 -12.244 0.227 33.622 1.00 40.00 N +ATOM 2050 CA GLU A 278 -11.842 -1.117 33.188 1.00 40.00 C +ATOM 2051 C GLU A 278 -10.357 -1.269 32.888 1.00 40.00 C +ATOM 2052 O GLU A 278 -9.843 -2.390 32.941 1.00 40.00 O +ATOM 2053 CB GLU A 278 -12.694 -1.658 32.018 1.00 40.00 C +ATOM 2054 CG GLU A 278 -12.296 -1.187 30.627 1.00 40.00 C +ATOM 2055 CD GLU A 278 -12.872 0.175 30.297 1.00 40.00 C +ATOM 2056 OE1 GLU A 278 -12.496 1.172 30.967 1.00 40.00 O +ATOM 2057 OE2 GLU A 278 -13.706 0.238 29.366 1.00 40.00 O +ATOM 2058 N LYS A 279 -9.660 -0.177 32.569 1.00 40.00 N +ATOM 2059 CA LYS A 279 -8.212 -0.286 32.558 1.00 40.00 C +ATOM 2060 C LYS A 279 -7.795 -0.758 33.957 1.00 40.00 C +ATOM 2061 O LYS A 279 -7.112 -1.784 34.103 1.00 40.00 O +ATOM 2062 CB LYS A 279 -7.505 1.016 32.187 1.00 40.00 C +ATOM 2063 CG LYS A 279 -6.016 0.777 31.946 1.00 40.00 C +ATOM 2064 CD LYS A 279 -5.170 2.013 32.187 1.00 40.00 C +ATOM 2065 CE LYS A 279 -3.696 1.641 32.262 1.00 40.00 C +ATOM 2066 NZ LYS A 279 -2.802 2.831 32.123 1.00 40.00 N +ATOM 2067 N GLY A 280 -8.255 -0.027 34.977 1.00 40.00 N +ATOM 2068 CA GLY A 280 -8.025 -0.384 36.381 1.00 40.00 C +ATOM 2069 C GLY A 280 -8.230 -1.862 36.659 1.00 40.00 C +ATOM 2070 O GLY A 280 -7.353 -2.528 37.224 1.00 40.00 O +ATOM 2071 N ILE A 281 -9.378 -2.375 36.228 1.00 40.00 N +ATOM 2072 CA ILE A 281 -9.752 -3.760 36.472 1.00 40.00 C +ATOM 2073 C ILE A 281 -8.942 -4.768 35.671 1.00 40.00 C +ATOM 2074 O ILE A 281 -8.450 -5.746 36.224 1.00 40.00 O +ATOM 2075 CB ILE A 281 -11.248 -3.961 36.232 1.00 40.00 C +ATOM 2076 CG1 ILE A 281 -12.034 -3.295 37.373 1.00 40.00 C +ATOM 2077 CG2 ILE A 281 -11.554 -5.443 36.100 1.00 40.00 C +ATOM 2078 CD1 ILE A 281 -13.545 -3.366 37.257 1.00 40.00 C +ATOM 2079 N ASP A 282 -8.808 -4.524 34.373 1.00 40.00 N +ATOM 2080 CA ASP A 282 -8.007 -5.375 33.507 1.00 40.00 C +ATOM 2081 C ASP A 282 -6.603 -5.585 34.080 1.00 40.00 C +ATOM 2082 O ASP A 282 -6.097 -6.705 34.113 1.00 40.00 O +ATOM 2083 CB ASP A 282 -7.920 -4.789 32.087 1.00 40.00 C +ATOM 2084 CG ASP A 282 -9.233 -4.907 31.303 1.00 40.00 C +ATOM 2085 OD1 ASP A 282 -10.134 -5.677 31.712 1.00 40.00 O +ATOM 2086 OD2 ASP A 282 -9.360 -4.225 30.260 1.00 40.00 O +ATOM 2087 N ASP A 283 -5.992 -4.499 34.547 1.00 40.00 N +ATOM 2088 CA ASP A 283 -4.645 -4.522 35.128 1.00 40.00 C +ATOM 2089 C ASP A 283 -4.515 -5.520 36.289 1.00 40.00 C +ATOM 2090 O ASP A 283 -3.503 -6.219 36.422 1.00 40.00 O +ATOM 2091 CB ASP A 283 -4.257 -3.103 35.585 1.00 40.00 C +ATOM 2092 CG ASP A 283 -4.122 -2.106 34.412 1.00 40.00 C +ATOM 2093 OD1 ASP A 283 -3.766 -2.519 33.286 1.00 40.00 O +ATOM 2094 OD2 ASP A 283 -4.365 -0.895 34.618 1.00 40.00 O +ATOM 2095 N ILE A 284 -5.563 -5.575 37.108 1.00 40.00 N +ATOM 2096 CA ILE A 284 -5.652 -6.488 38.241 1.00 40.00 C +ATOM 2097 C ILE A 284 -5.841 -7.940 37.786 1.00 40.00 C +ATOM 2098 O ILE A 284 -5.338 -8.881 38.424 1.00 40.00 O +ATOM 2099 CB ILE A 284 -6.804 -6.068 39.192 1.00 40.00 C +ATOM 2100 CG1 ILE A 284 -6.615 -4.616 39.679 1.00 40.00 C +ATOM 2101 CG2 ILE A 284 -6.982 -7.056 40.351 1.00 40.00 C +ATOM 2102 CD1 ILE A 284 -5.211 -4.234 40.122 1.00 40.00 C +ATOM 2103 N MET A 285 -6.565 -8.110 36.680 1.00 40.00 N +ATOM 2104 CA MET A 285 -6.879 -9.438 36.145 1.00 40.00 C +ATOM 2105 C MET A 285 -5.707 -10.059 35.414 1.00 40.00 C +ATOM 2106 O MET A 285 -5.577 -11.284 35.359 1.00 40.00 O +ATOM 2107 CB MET A 285 -8.084 -9.361 35.213 1.00 40.00 C +ATOM 2108 CG MET A 285 -9.386 -9.147 35.960 1.00 40.00 C +ATOM 2109 SD MET A 285 -9.690 -10.513 37.113 1.00 40.00 S +ATOM 2110 CE MET A 285 -10.320 -9.624 38.535 1.00 40.00 C +ATOM 2111 N VAL A 286 -4.871 -9.188 34.855 1.00 40.00 N +ATOM 2112 CA VAL A 286 -3.674 -9.576 34.127 1.00 40.00 C +ATOM 2113 C VAL A 286 -2.762 -10.434 35.006 1.00 40.00 C +ATOM 2114 O VAL A 286 -2.376 -11.540 34.608 1.00 40.00 O +ATOM 2115 CB VAL A 286 -2.942 -8.318 33.586 1.00 40.00 C +ATOM 2116 CG1 VAL A 286 -1.493 -8.624 33.224 1.00 40.00 C +ATOM 2117 CG2 VAL A 286 -3.685 -7.751 32.382 1.00 40.00 C +ATOM 2118 N SER A 287 -2.455 -9.927 36.203 1.00 40.00 N +ATOM 2119 CA SER A 287 -1.558 -10.603 37.144 1.00 40.00 C +ATOM 2120 C SER A 287 -2.140 -11.898 37.733 1.00 40.00 C +ATOM 2121 O SER A 287 -1.383 -12.821 38.055 1.00 40.00 O +ATOM 2122 CB SER A 287 -1.099 -9.636 38.247 1.00 40.00 C +ATOM 2123 OG SER A 287 -2.195 -9.006 38.890 1.00 40.00 O +ATOM 2124 N LEU A 288 -3.473 -11.953 37.854 1.00 40.00 N +ATOM 2125 CA LEU A 288 -4.223 -13.151 38.296 1.00 40.00 C +ATOM 2126 C LEU A 288 -4.275 -14.282 37.253 1.00 40.00 C +ATOM 2127 O LEU A 288 -4.320 -15.474 37.594 1.00 40.00 O +ATOM 2128 CB LEU A 288 -5.659 -12.768 38.688 1.00 40.00 C +ATOM 2129 CG LEU A 288 -5.948 -12.379 40.139 1.00 40.00 C +ATOM 2130 CD1 LEU A 288 -7.365 -11.839 40.269 1.00 40.00 C +ATOM 2131 CD2 LEU A 288 -5.730 -13.572 41.064 1.00 40.00 C +ATOM 2132 N ALA A 289 -4.287 -13.878 35.985 1.00 40.00 N +ATOM 2133 CA ALA A 289 -4.353 -14.795 34.847 1.00 40.00 C +ATOM 2134 C ALA A 289 -3.032 -15.533 34.634 1.00 40.00 C +ATOM 2135 O ALA A 289 -3.012 -16.760 34.670 1.00 40.00 O +ATOM 2136 CB ALA A 289 -4.777 -14.053 33.578 1.00 40.00 C +ATOM 2137 N GLU A 290 -1.946 -14.781 34.422 1.00 40.00 N +ATOM 2138 CA GLU A 290 -0.595 -15.328 34.234 1.00 40.00 C +ATOM 2139 C GLU A 290 -0.115 -16.168 35.429 1.00 40.00 C +ATOM 2140 O GLU A 290 0.921 -16.827 35.337 1.00 40.00 O +ATOM 2141 CB GLU A 290 0.394 -14.194 33.952 1.00 40.00 C +ATOM 2142 CG GLU A 290 0.355 -13.097 35.020 1.00 40.00 C +ATOM 2143 CD GLU A 290 1.393 -12.002 34.827 1.00 40.00 C +ATOM 2144 OE1 GLU A 290 2.601 -12.325 34.822 1.00 40.00 O +ATOM 2145 OE2 GLU A 290 1.008 -10.814 34.709 1.00 40.00 O +ATOM 2146 N LYS A 291 -0.859 -16.123 36.542 1.00 40.00 N +ATOM 2147 CA LYS A 291 -0.677 -17.060 37.665 1.00 40.00 C +ATOM 2148 C LYS A 291 -0.925 -18.505 37.250 1.00 40.00 C +ATOM 2149 O LYS A 291 -0.148 -19.394 37.604 1.00 40.00 O +ATOM 2150 CB LYS A 291 -1.628 -16.755 38.827 1.00 40.00 C +ATOM 2151 CG LYS A 291 -1.201 -15.620 39.723 1.00 40.00 C +ATOM 2152 CD LYS A 291 0.220 -15.786 40.223 1.00 40.00 C +ATOM 2153 CE LYS A 291 0.657 -14.493 40.875 1.00 40.00 C +ATOM 2154 NZ LYS A 291 -0.456 -13.928 41.697 1.00 40.00 N +ATOM 2155 N ASP A 292 -2.029 -18.726 36.527 1.00 40.00 N +ATOM 2156 CA ASP A 292 -2.407 -20.051 35.993 1.00 40.00 C +ATOM 2157 C ASP A 292 -1.778 -20.331 34.627 1.00 40.00 C +ATOM 2158 O ASP A 292 -2.083 -21.354 33.996 1.00 40.00 O +ATOM 2159 CB ASP A 292 -3.931 -20.169 35.863 1.00 40.00 C +ATOM 2160 CG ASP A 292 -4.652 -19.995 37.185 1.00 40.00 C +ATOM 2161 OD1 ASP A 292 -4.061 -19.435 38.144 1.00 40.00 O +ATOM 2162 OD2 ASP A 292 -5.829 -20.419 37.257 1.00 40.00 O +ATOM 2163 N GLY A 293 -0.909 -19.416 34.185 1.00 40.00 N +ATOM 2164 CA GLY A 293 -0.314 -19.435 32.837 1.00 40.00 C +ATOM 2165 C GLY A 293 -1.218 -18.920 31.714 1.00 40.00 C +ATOM 2166 O GLY A 293 -0.947 -19.171 30.527 1.00 40.00 O +ATOM 2167 N ILE A 294 -2.272 -18.186 32.096 1.00 40.00 N +ATOM 2168 CA ILE A 294 -3.351 -17.744 31.188 1.00 40.00 C +ATOM 2169 C ILE A 294 -3.151 -16.293 30.669 1.00 40.00 C +ATOM 2170 O ILE A 294 -2.731 -15.398 31.425 1.00 40.00 O +ATOM 2171 CB ILE A 294 -4.756 -17.942 31.856 1.00 40.00 C +ATOM 2172 CG1 ILE A 294 -5.002 -19.429 32.192 1.00 40.00 C +ATOM 2173 CG2 ILE A 294 -5.884 -17.397 30.981 1.00 40.00 C +ATOM 2174 CD1 ILE A 294 -6.184 -19.697 33.107 1.00 40.00 C +ATOM 2175 N ASP A 295 -3.411 -16.083 29.373 1.00 40.00 N +ATOM 2176 CA ASP A 295 -3.548 -14.731 28.830 1.00 40.00 C +ATOM 2177 C ASP A 295 -4.981 -14.224 28.989 1.00 40.00 C +ATOM 2178 O ASP A 295 -5.954 -14.825 28.500 1.00 40.00 O +ATOM 2179 CB ASP A 295 -3.102 -14.615 27.370 1.00 40.00 C +ATOM 2180 CG ASP A 295 -3.338 -13.206 26.794 1.00 40.00 C +ATOM 2181 OD1 ASP A 295 -3.307 -13.036 25.556 1.00 40.00 O +ATOM 2182 OD2 ASP A 295 -3.563 -12.257 27.574 1.00 40.00 O +ATOM 2183 N TRP A 296 -5.066 -13.080 29.659 1.00 40.00 N +ATOM 2184 CA TRP A 296 -6.314 -12.498 30.133 1.00 40.00 C +ATOM 2185 C TRP A 296 -7.316 -12.203 29.050 1.00 40.00 C +ATOM 2186 O TRP A 296 -8.456 -12.674 29.108 1.00 40.00 O +ATOM 2187 CB TRP A 296 -6.003 -11.250 30.969 1.00 40.00 C +ATOM 2188 CG TRP A 296 -7.190 -10.364 31.254 1.00 40.00 C +ATOM 2189 CD1 TRP A 296 -7.320 -9.012 30.967 1.00 40.00 C +ATOM 2190 CD2 TRP A 296 -8.467 -10.740 31.884 1.00 40.00 C +ATOM 2191 NE1 TRP A 296 -8.546 -8.541 31.365 1.00 40.00 N +ATOM 2192 CE2 TRP A 296 -9.281 -9.522 31.922 1.00 40.00 C +ATOM 2193 CE3 TRP A 296 -8.994 -11.916 32.396 1.00 40.00 C +ATOM 2194 CZ2 TRP A 296 -10.558 -9.505 32.459 1.00 40.00 C +ATOM 2195 CZ3 TRP A 296 -10.286 -11.887 32.932 1.00 40.00 C +ATOM 2196 CH2 TRP A 296 -11.045 -10.708 32.965 1.00 40.00 C +ATOM 2197 N PHE A 297 -6.896 -11.441 28.045 1.00 40.00 N +ATOM 2198 CA PHE A 297 -7.820 -10.958 27.031 1.00 40.00 C +ATOM 2199 C PHE A 297 -8.493 -12.110 26.298 1.00 40.00 C +ATOM 2200 O PHE A 297 -9.658 -12.006 25.930 1.00 40.00 O +ATOM 2201 CB PHE A 297 -7.132 -9.947 26.112 1.00 40.00 C +ATOM 2202 CG PHE A 297 -6.670 -8.710 26.844 1.00 40.00 C +ATOM 2203 CD1 PHE A 297 -5.410 -8.668 27.455 1.00 40.00 C +ATOM 2204 CD2 PHE A 297 -7.506 -7.596 26.972 1.00 40.00 C +ATOM 2205 CE1 PHE A 297 -4.987 -7.534 28.152 1.00 40.00 C +ATOM 2206 CE2 PHE A 297 -7.085 -6.458 27.667 1.00 40.00 C +ATOM 2207 CZ PHE A 297 -5.824 -6.425 28.256 1.00 40.00 C +ATOM 2208 N ASP A 298 -7.783 -13.229 26.167 1.00 40.00 N +ATOM 2209 CA ASP A 298 -8.319 -14.437 25.529 1.00 40.00 C +ATOM 2210 C ASP A 298 -9.290 -15.176 26.406 1.00 40.00 C +ATOM 2211 O ASP A 298 -10.206 -15.832 25.919 1.00 40.00 O +ATOM 2212 CB ASP A 298 -7.189 -15.366 25.159 1.00 40.00 C +ATOM 2213 CG ASP A 298 -6.196 -14.707 24.252 1.00 40.00 C +ATOM 2214 OD1 ASP A 298 -5.434 -15.452 23.612 1.00 40.00 O +ATOM 2215 OD2 ASP A 298 -6.175 -13.449 24.170 1.00 40.00 O +ATOM 2216 N TYR A 299 -9.069 -15.079 27.707 1.00 40.00 N +ATOM 2217 CA TYR A 299 -10.021 -15.585 28.667 1.00 40.00 C +ATOM 2218 C TYR A 299 -11.202 -14.625 28.747 1.00 40.00 C +ATOM 2219 O TYR A 299 -12.342 -15.051 28.940 1.00 40.00 O +ATOM 2220 CB TYR A 299 -9.351 -15.732 30.026 1.00 40.00 C +ATOM 2221 CG TYR A 299 -10.108 -16.593 31.022 1.00 40.00 C +ATOM 2222 CD1 TYR A 299 -10.252 -17.974 30.834 1.00 40.00 C +ATOM 2223 CD2 TYR A 299 -10.653 -16.032 32.180 1.00 40.00 C +ATOM 2224 CE1 TYR A 299 -10.930 -18.761 31.765 1.00 40.00 C +ATOM 2225 CE2 TYR A 299 -11.332 -16.813 33.117 1.00 40.00 C +ATOM 2226 CZ TYR A 299 -11.470 -18.173 32.905 1.00 40.00 C +ATOM 2227 OH TYR A 299 -12.141 -18.936 33.832 1.00 40.00 O +ATOM 2228 N LYS A 300 -10.915 -13.333 28.578 1.00 40.00 N +ATOM 2229 CA LYS A 300 -11.937 -12.285 28.554 1.00 40.00 C +ATOM 2230 C LYS A 300 -12.916 -12.553 27.430 1.00 40.00 C +ATOM 2231 O LYS A 300 -14.065 -12.931 27.672 1.00 40.00 O +ATOM 2232 CB LYS A 300 -11.297 -10.898 28.377 1.00 40.00 C +ATOM 2233 CG LYS A 300 -12.301 -9.742 28.322 1.00 40.00 C +ATOM 2234 CD LYS A 300 -11.662 -8.388 27.996 1.00 40.00 C +ATOM 2235 CE LYS A 300 -11.327 -7.569 29.245 1.00 40.00 C +ATOM 2236 NZ LYS A 300 -10.991 -6.153 28.917 1.00 40.00 N +ATOM 2237 N LYS A 301 -12.438 -12.354 26.205 1.00 40.00 N +ATOM 2238 CA LYS A 301 -13.154 -12.733 25.006 1.00 40.00 C +ATOM 2239 C LYS A 301 -14.095 -13.901 25.279 1.00 40.00 C +ATOM 2240 O LYS A 301 -15.305 -13.796 25.083 1.00 40.00 O +ATOM 2241 CB LYS A 301 -12.149 -13.165 23.950 1.00 40.00 C +ATOM 2242 CG LYS A 301 -11.372 -12.036 23.309 1.00 40.00 C +ATOM 2243 CD LYS A 301 -10.036 -12.541 22.773 1.00 40.00 C +ATOM 2244 CE LYS A 301 -9.474 -11.659 21.667 1.00 40.00 C +ATOM 2245 NZ LYS A 301 -9.623 -10.192 21.906 1.00 40.00 N +ATOM 2246 N GLN A 302 -13.520 -15.006 25.748 1.00 40.00 N +ATOM 2247 CA GLN A 302 -14.242 -16.259 25.962 1.00 40.00 C +ATOM 2248 C GLN A 302 -15.452 -16.119 26.882 1.00 40.00 C +ATOM 2249 O GLN A 302 -16.534 -16.633 26.591 1.00 40.00 O +ATOM 2250 CB GLN A 302 -13.280 -17.305 26.515 1.00 40.00 C +ATOM 2251 CG GLN A 302 -13.917 -18.647 26.825 1.00 40.00 C +ATOM 2252 CD GLN A 302 -13.017 -19.509 27.674 1.00 40.00 C +ATOM 2253 OE1 GLN A 302 -13.421 -19.966 28.745 1.00 40.00 O +ATOM 2254 NE2 GLN A 302 -11.780 -19.722 27.213 1.00 40.00 N +ATOM 2255 N LEU A 303 -15.262 -15.427 27.996 1.00 40.00 N +ATOM 2256 CA LEU A 303 -16.354 -15.194 28.913 1.00 40.00 C +ATOM 2257 C LEU A 303 -17.409 -14.397 28.201 1.00 40.00 C +ATOM 2258 O LEU A 303 -18.594 -14.648 28.369 1.00 40.00 O +ATOM 2259 CB LEU A 303 -15.872 -14.425 30.129 1.00 40.00 C +ATOM 2260 CG LEU A 303 -14.750 -15.113 30.898 1.00 40.00 C +ATOM 2261 CD1 LEU A 303 -13.966 -14.082 31.692 1.00 40.00 C +ATOM 2262 CD2 LEU A 303 -15.284 -16.233 31.787 1.00 40.00 C +ATOM 2263 N LYS A 304 -16.962 -13.439 27.393 1.00 40.00 N +ATOM 2264 CA LYS A 304 -17.874 -12.588 26.639 1.00 40.00 C +ATOM 2265 C LYS A 304 -18.707 -13.447 25.712 1.00 40.00 C +ATOM 2266 O LYS A 304 -19.932 -13.366 25.752 1.00 40.00 O +ATOM 2267 CB LYS A 304 -17.133 -11.497 25.861 1.00 40.00 C +ATOM 2268 CG LYS A 304 -16.518 -10.423 26.738 1.00 40.00 C +ATOM 2269 CD LYS A 304 -15.816 -9.347 25.930 1.00 40.00 C +ATOM 2270 CE LYS A 304 -16.647 -8.076 25.838 1.00 40.00 C +ATOM 2271 NZ LYS A 304 -15.861 -6.953 25.250 1.00 40.00 N +ATOM 2272 N ARG A 305 -18.052 -14.284 24.903 1.00 40.00 N +ATOM 2273 CA ARG A 305 -18.775 -15.237 24.062 1.00 40.00 C +ATOM 2274 C ARG A 305 -19.781 -15.994 24.912 1.00 40.00 C +ATOM 2275 O ARG A 305 -20.893 -16.262 24.467 1.00 40.00 O +ATOM 2276 CB ARG A 305 -17.836 -16.218 23.361 1.00 40.00 C +ATOM 2277 CG ARG A 305 -17.602 -15.931 21.881 1.00 40.00 C +ATOM 2278 CD ARG A 305 -16.864 -17.080 21.181 1.00 40.00 C +ATOM 2279 NE ARG A 305 -15.444 -17.174 21.566 1.00 40.00 N +ATOM 2280 CZ ARG A 305 -14.917 -18.103 22.373 1.00 40.00 C +ATOM 2281 NH1 ARG A 305 -15.684 -19.064 22.893 1.00 40.00 N +ATOM 2282 NH2 ARG A 305 -13.610 -18.072 22.660 1.00 40.00 N +ATOM 2283 N GLY A 306 -19.403 -16.312 26.147 1.00 40.00 N +ATOM 2284 CA GLY A 306 -20.336 -16.937 27.074 1.00 40.00 C +ATOM 2285 C GLY A 306 -21.323 -15.966 27.709 1.00 40.00 C +ATOM 2286 O GLY A 306 -22.011 -16.332 28.665 1.00 40.00 O +ATOM 2287 N ASP A 307 -21.400 -14.736 27.194 1.00 40.00 N +ATOM 2288 CA ASP A 307 -22.252 -13.696 27.777 1.00 40.00 C +ATOM 2289 C ASP A 307 -21.947 -13.530 29.255 1.00 40.00 C +ATOM 2290 O ASP A 307 -22.772 -13.011 30.004 1.00 40.00 O +ATOM 2291 CB ASP A 307 -23.736 -14.043 27.621 1.00 40.00 C +ATOM 2292 CG ASP A 307 -24.146 -14.239 26.187 1.00 40.00 C +ATOM 2293 OD1 ASP A 307 -23.858 -13.364 25.341 1.00 40.00 O +ATOM 2294 OD2 ASP A 307 -24.781 -15.272 25.913 1.00 40.00 O +ATOM 2295 N GLN A 308 -20.772 -13.995 29.675 1.00 40.00 N +ATOM 2296 CA GLN A 308 -20.417 -14.016 31.090 1.00 40.00 C +ATOM 2297 C GLN A 308 -19.707 -12.733 31.512 1.00 40.00 C +ATOM 2298 O GLN A 308 -19.525 -12.476 32.703 1.00 40.00 O +ATOM 2299 CB GLN A 308 -19.618 -15.288 31.445 1.00 40.00 C +ATOM 2300 CG GLN A 308 -20.503 -16.538 31.592 1.00 40.00 C +ATOM 2301 CD GLN A 308 -19.745 -17.843 31.852 1.00 40.00 C +ATOM 2302 OE1 GLN A 308 -19.205 -18.069 32.936 1.00 40.00 O +ATOM 2303 NE2 GLN A 308 -19.741 -18.725 30.863 1.00 40.00 N +ATOM 2304 N TRP A 309 -19.348 -11.914 30.525 1.00 40.00 N +ATOM 2305 CA TRP A 309 -18.743 -10.606 30.762 1.00 40.00 C +ATOM 2306 C TRP A 309 -19.429 -9.588 29.935 1.00 40.00 C +ATOM 2307 O TRP A 309 -19.490 -9.721 28.708 1.00 40.00 O +ATOM 2308 CB TRP A 309 -17.304 -10.628 30.340 1.00 40.00 C +ATOM 2309 CG TRP A 309 -16.536 -9.401 30.745 1.00 40.00 C +ATOM 2310 CD1 TRP A 309 -16.325 -8.230 30.014 1.00 40.00 C +ATOM 2311 CD2 TRP A 309 -15.808 -9.206 31.991 1.00 40.00 C +ATOM 2312 NE1 TRP A 309 -15.533 -7.348 30.712 1.00 40.00 N +ATOM 2313 CE2 TRP A 309 -15.189 -7.870 31.906 1.00 40.00 C +ATOM 2314 CE3 TRP A 309 -15.602 -9.983 33.132 1.00 40.00 C +ATOM 2315 CZ2 TRP A 309 -14.410 -7.356 32.928 1.00 40.00 C +ATOM 2316 CZ3 TRP A 309 -14.819 -9.453 34.162 1.00 40.00 C +ATOM 2317 CH2 TRP A 309 -14.239 -8.169 34.061 1.00 40.00 C +ATOM 2318 N ASN A 310 -19.928 -8.545 30.598 1.00 40.00 N +ATOM 2319 CA ASN A 310 -20.834 -7.571 29.971 1.00 40.00 C +ATOM 2320 C ASN A 310 -20.569 -6.108 30.408 1.00 40.00 C +ATOM 2321 O ASN A 310 -20.638 -5.790 31.596 1.00 40.00 O +ATOM 2322 CB ASN A 310 -22.298 -7.989 30.218 1.00 40.00 C +ATOM 2323 CG ASN A 310 -22.550 -9.477 29.950 1.00 40.00 C +ATOM 2324 OD1 ASN A 310 -22.310 -9.986 28.847 1.00 40.00 O +ATOM 2325 ND2 ASN A 310 -23.048 -10.178 30.963 1.00 40.00 N +ATOM 2326 N VAL A 311 -20.276 -5.232 29.441 1.00 40.00 N +ATOM 2327 CA VAL A 311 -19.674 -3.910 29.698 1.00 40.00 C +ATOM 2328 C VAL A 311 -20.449 -2.734 29.105 1.00 40.00 C +ATOM 2329 O VAL A 311 -20.713 -2.683 27.917 1.00 40.00 O +ATOM 2330 CB VAL A 311 -18.239 -3.851 29.132 1.00 40.00 C +ATOM 2331 CG1 VAL A 311 -17.594 -2.513 29.430 1.00 40.00 C +ATOM 2332 CG2 VAL A 311 -17.387 -4.978 29.689 1.00 40.00 C +ATOM 2333 N GLU A 312 -20.760 -1.757 29.932 1.00 40.00 N +ATOM 2334 CA GLU A 312 -21.562 -0.642 29.506 1.00 40.00 C +ATOM 2335 C GLU A 312 -20.966 0.609 30.137 1.00 40.00 C +ATOM 2336 O GLU A 312 -21.380 0.997 31.224 1.00 40.00 O +ATOM 2337 CB GLU A 312 -22.976 -0.879 30.028 1.00 40.00 C +ATOM 2338 CG GLU A 312 -24.017 0.174 29.690 1.00 40.00 C +ATOM 2339 CD GLU A 312 -25.082 -0.356 28.756 1.00 40.00 C +ATOM 2340 OE1 GLU A 312 -24.693 -0.818 27.662 1.00 40.00 O +ATOM 2341 OE2 GLU A 312 -26.294 -0.316 29.114 1.00 40.00 O +ATOM 2342 N VAL A 313 -19.977 1.231 29.498 1.00 40.00 N +ATOM 2343 CA VAL A 313 -19.362 2.434 30.091 1.00 40.00 C +ATOM 2344 C VAL A 313 -19.471 3.659 29.212 1.00 40.00 C +ATOM 2345 O VAL A 313 -19.553 3.532 28.011 1.00 40.00 O +ATOM 2346 CB VAL A 313 -17.887 2.230 30.497 1.00 40.00 C +ATOM 2347 CG1 VAL A 313 -17.780 1.254 31.663 1.00 40.00 C +ATOM 2348 CG2 VAL A 313 -17.043 1.778 29.318 1.00 40.00 C +ATOM 2349 N TYR A 314 -19.471 4.843 29.820 1.00 40.00 N +ATOM 2350 CA TYR A 314 -19.621 6.099 29.083 1.00 40.00 C +ATOM 2351 C TYR A 314 -18.769 7.202 29.668 1.00 40.00 C +ATOM 2352 O TYR A 314 -18.195 7.056 30.748 1.00 40.00 O +ATOM 2353 CB TYR A 314 -21.079 6.553 29.038 1.00 40.00 C +ATOM 2354 CG TYR A 314 -21.819 6.413 30.341 1.00 40.00 C +ATOM 2355 CD1 TYR A 314 -21.944 7.475 31.212 1.00 40.00 C +ATOM 2356 CD2 TYR A 314 -22.406 5.212 30.698 1.00 40.00 C +ATOM 2357 CE1 TYR A 314 -22.631 7.340 32.413 1.00 40.00 C +ATOM 2358 CE2 TYR A 314 -23.089 5.064 31.897 1.00 40.00 C +ATOM 2359 CZ TYR A 314 -23.206 6.127 32.753 1.00 40.00 C +ATOM 2360 OH TYR A 314 -23.903 5.960 33.936 1.00 40.00 O +ATOM 2361 OXT TYR A 314 -18.642 8.263 29.059 1.00 40.00 O +TER 2362 TYR A 314 +ATOM 2363 N ALA B 1 -53.291 -14.159 81.934 1.00 40.00 N +ATOM 2364 CA ALA B 1 -52.106 -13.577 81.238 1.00 40.00 C +ATOM 2365 C ALA B 1 -51.069 -13.092 82.240 1.00 40.00 C +ATOM 2366 O ALA B 1 -51.414 -12.674 83.342 1.00 40.00 O +ATOM 2367 CB ALA B 1 -52.535 -12.439 80.327 1.00 40.00 C +ATOM 2368 N THR B 2 -49.799 -13.152 81.850 1.00 40.00 N +ATOM 2369 CA THR B 2 -48.690 -12.696 82.696 1.00 40.00 C +ATOM 2370 C THR B 2 -47.816 -11.746 81.869 1.00 40.00 C +ATOM 2371 O THR B 2 -47.528 -12.035 80.713 1.00 40.00 O +ATOM 2372 CB THR B 2 -47.873 -13.900 83.257 1.00 40.00 C +ATOM 2373 OG1 THR B 2 -48.706 -14.689 84.122 1.00 40.00 O +ATOM 2374 CG2 THR B 2 -46.631 -13.451 84.045 1.00 40.00 C +ATOM 2375 N TYR B 3 -47.415 -10.615 82.456 1.00 40.00 N +ATOM 2376 CA TYR B 3 -46.621 -9.595 81.748 1.00 40.00 C +ATOM 2377 C TYR B 3 -45.389 -9.150 82.549 1.00 40.00 C +ATOM 2378 O TYR B 3 -45.362 -9.266 83.784 1.00 40.00 O +ATOM 2379 CB TYR B 3 -47.468 -8.354 81.437 1.00 40.00 C +ATOM 2380 CG TYR B 3 -48.872 -8.592 80.913 1.00 40.00 C +ATOM 2381 CD1 TYR B 3 -49.920 -8.921 81.780 1.00 40.00 C +ATOM 2382 CD2 TYR B 3 -49.165 -8.435 79.564 1.00 40.00 C +ATOM 2383 CE1 TYR B 3 -51.207 -9.116 81.313 1.00 40.00 C +ATOM 2384 CE2 TYR B 3 -50.454 -8.627 79.090 1.00 40.00 C +ATOM 2385 CZ TYR B 3 -51.469 -8.966 79.974 1.00 40.00 C +ATOM 2386 OH TYR B 3 -52.758 -9.163 79.537 1.00 40.00 O +ATOM 2387 N ASN B 4 -44.382 -8.625 81.843 1.00 40.00 N +ATOM 2388 CA ASN B 4 -43.164 -8.113 82.484 1.00 40.00 C +ATOM 2389 C ASN B 4 -43.332 -6.746 83.138 1.00 40.00 C +ATOM 2390 O ASN B 4 -43.884 -5.810 82.547 1.00 40.00 O +ATOM 2391 CB ASN B 4 -41.967 -8.071 81.519 1.00 40.00 C +ATOM 2392 CG ASN B 4 -40.730 -7.419 82.145 1.00 40.00 C +ATOM 2393 OD1 ASN B 4 -40.209 -7.886 83.170 1.00 40.00 O +ATOM 2394 ND2 ASN B 4 -40.260 -6.329 81.534 1.00 40.00 N +ATOM 2395 N VAL B 5 -42.831 -6.649 84.367 1.00 40.00 N +ATOM 2396 CA VAL B 5 -42.800 -5.390 85.098 1.00 40.00 C +ATOM 2397 C VAL B 5 -41.394 -5.073 85.574 1.00 40.00 C +ATOM 2398 O VAL B 5 -40.709 -5.913 86.165 1.00 40.00 O +ATOM 2399 CB VAL B 5 -43.747 -5.378 86.310 1.00 40.00 C +ATOM 2400 CG1 VAL B 5 -43.828 -3.968 86.876 1.00 40.00 C +ATOM 2401 CG2 VAL B 5 -45.135 -5.889 85.927 1.00 40.00 C +ATOM 2402 N LYS B 6 -40.995 -3.839 85.305 1.00 40.00 N +ATOM 2403 CA LYS B 6 -39.669 -3.343 85.612 1.00 40.00 C +ATOM 2404 C LYS B 6 -39.817 -2.233 86.647 1.00 40.00 C +ATOM 2405 O LYS B 6 -40.451 -1.210 86.383 1.00 40.00 O +ATOM 2406 CB LYS B 6 -39.025 -2.818 84.324 1.00 40.00 C +ATOM 2407 CG LYS B 6 -37.626 -2.237 84.463 1.00 40.00 C +ATOM 2408 CD LYS B 6 -37.094 -1.703 83.132 1.00 40.00 C +ATOM 2409 CE LYS B 6 -36.805 -2.811 82.123 1.00 40.00 C +ATOM 2410 NZ LYS B 6 -35.913 -2.359 81.016 1.00 40.00 N +ATOM 2411 N LEU B 7 -39.244 -2.441 87.827 1.00 40.00 N +ATOM 2412 CA LEU B 7 -39.395 -1.482 88.903 1.00 40.00 C +ATOM 2413 C LEU B 7 -38.138 -0.714 89.101 1.00 40.00 C +ATOM 2414 O LEU B 7 -37.073 -1.294 89.283 1.00 40.00 O +ATOM 2415 CB LEU B 7 -39.777 -2.172 90.199 1.00 40.00 C +ATOM 2416 CG LEU B 7 -41.164 -2.805 90.153 1.00 40.00 C +ATOM 2417 CD1 LEU B 7 -41.447 -3.576 91.437 1.00 40.00 C +ATOM 2418 CD2 LEU B 7 -42.225 -1.744 89.896 1.00 40.00 C +ATOM 2419 N ILE B 8 -38.280 0.604 89.057 1.00 40.00 N +ATOM 2420 CA ILE B 8 -37.173 1.519 89.306 1.00 40.00 C +ATOM 2421 C ILE B 8 -37.271 2.090 90.730 1.00 40.00 C +ATOM 2422 O ILE B 8 -37.755 3.216 90.945 1.00 40.00 O +ATOM 2423 CB ILE B 8 -37.091 2.621 88.231 1.00 40.00 C +ATOM 2424 CG1 ILE B 8 -37.457 2.024 86.867 1.00 40.00 C +ATOM 2425 CG2 ILE B 8 -35.693 3.229 88.217 1.00 40.00 C +ATOM 2426 CD1 ILE B 8 -38.366 2.888 86.025 1.00 40.00 C +ATOM 2427 N THR B 9 -36.822 1.271 91.691 1.00 40.00 N +ATOM 2428 CA THR B 9 -36.771 1.620 93.114 1.00 40.00 C +ATOM 2429 C THR B 9 -35.679 2.687 93.308 1.00 40.00 C +ATOM 2430 O THR B 9 -34.882 2.915 92.387 1.00 40.00 O +ATOM 2431 CB THR B 9 -36.547 0.359 94.011 1.00 40.00 C +ATOM 2432 OG1 THR B 9 -35.149 0.079 94.170 1.00 40.00 O +ATOM 2433 CG2 THR B 9 -37.244 -0.870 93.421 1.00 40.00 C +ATOM 2434 N PRO B 10 -35.640 3.359 94.482 1.00 40.00 N +ATOM 2435 CA PRO B 10 -34.550 4.320 94.721 1.00 40.00 C +ATOM 2436 C PRO B 10 -33.225 3.583 94.929 1.00 40.00 C +ATOM 2437 O PRO B 10 -32.163 4.199 95.046 1.00 40.00 O +ATOM 2438 CB PRO B 10 -34.974 5.029 96.015 1.00 40.00 C +ATOM 2439 CG PRO B 10 -36.379 4.606 96.270 1.00 40.00 C +ATOM 2440 CD PRO B 10 -36.520 3.254 95.654 1.00 40.00 C +ATOM 2441 N GLU B 11 -33.316 2.258 94.969 1.00 40.00 N +ATOM 2442 CA GLU B 11 -32.167 1.388 95.091 1.00 40.00 C +ATOM 2443 C GLU B 11 -32.037 0.467 93.870 1.00 40.00 C +ATOM 2444 O GLU B 11 -31.719 -0.727 93.991 1.00 40.00 O +ATOM 2445 CB GLU B 11 -32.288 0.579 96.370 1.00 40.00 C +ATOM 2446 CG GLU B 11 -32.489 1.441 97.598 1.00 40.00 C +ATOM 2447 CD GLU B 11 -32.233 0.668 98.867 1.00 40.00 C +ATOM 2448 OE1 GLU B 11 -32.989 -0.288 99.140 1.00 40.00 O +ATOM 2449 OE2 GLU B 11 -31.270 1.010 99.586 1.00 40.00 O +ATOM 2450 N GLY B 12 -32.297 1.037 92.694 1.00 40.00 N +ATOM 2451 CA GLY B 12 -32.036 0.361 91.432 1.00 40.00 C +ATOM 2452 C GLY B 12 -33.216 -0.383 90.858 1.00 40.00 C +ATOM 2453 O GLY B 12 -34.280 -0.484 91.484 1.00 40.00 O +ATOM 2454 N GLU B 13 -32.990 -0.919 89.662 1.00 40.00 N +ATOM 2455 CA GLU B 13 -34.008 -1.581 88.856 1.00 40.00 C +ATOM 2456 C GLU B 13 -34.140 -3.063 89.241 1.00 40.00 C +ATOM 2457 O GLU B 13 -33.197 -3.658 89.771 1.00 40.00 O +ATOM 2458 CB GLU B 13 -33.635 -1.411 87.379 1.00 40.00 C +ATOM 2459 CG GLU B 13 -34.758 -1.590 86.382 1.00 40.00 C +ATOM 2460 CD GLU B 13 -34.220 -1.770 84.979 1.00 40.00 C +ATOM 2461 OE1 GLU B 13 -34.314 -2.901 84.452 1.00 40.00 O +ATOM 2462 OE2 GLU B 13 -33.683 -0.790 84.418 1.00 40.00 O +ATOM 2463 N VAL B 14 -35.323 -3.631 89.004 1.00 40.00 N +ATOM 2464 CA VAL B 14 -35.569 -5.071 89.164 1.00 40.00 C +ATOM 2465 C VAL B 14 -36.873 -5.478 88.460 1.00 40.00 C +ATOM 2466 O VAL B 14 -37.894 -4.806 88.585 1.00 40.00 O +ATOM 2467 CB VAL B 14 -35.527 -5.534 90.653 1.00 40.00 C +ATOM 2468 CG1 VAL B 14 -36.541 -4.785 91.514 1.00 40.00 C +ATOM 2469 CG2 VAL B 14 -35.688 -7.049 90.771 1.00 40.00 C +ATOM 2470 N GLU B 15 -36.821 -6.570 87.703 1.00 40.00 N +ATOM 2471 CA GLU B 15 -37.971 -7.037 86.922 1.00 40.00 C +ATOM 2472 C GLU B 15 -38.583 -8.301 87.511 1.00 40.00 C +ATOM 2473 O GLU B 15 -37.996 -8.937 88.391 1.00 40.00 O +ATOM 2474 CB GLU B 15 -37.589 -7.256 85.454 1.00 40.00 C +ATOM 2475 CG GLU B 15 -37.021 -6.013 84.780 1.00 40.00 C +ATOM 2476 CD GLU B 15 -36.490 -6.278 83.382 1.00 40.00 C +ATOM 2477 OE1 GLU B 15 -35.323 -5.908 83.105 1.00 40.00 O +ATOM 2478 OE2 GLU B 15 -37.239 -6.858 82.563 1.00 40.00 O +ATOM 2479 N LEU B 16 -39.773 -8.645 87.025 1.00 40.00 N +ATOM 2480 CA LEU B 16 -40.571 -9.736 87.586 1.00 40.00 C +ATOM 2481 C LEU B 16 -41.869 -9.946 86.818 1.00 40.00 C +ATOM 2482 O LEU B 16 -42.302 -9.087 86.054 1.00 40.00 O +ATOM 2483 CB LEU B 16 -40.907 -9.475 89.050 1.00 40.00 C +ATOM 2484 CG LEU B 16 -41.741 -8.218 89.287 1.00 40.00 C +ATOM 2485 CD1 LEU B 16 -42.715 -8.439 90.428 1.00 40.00 C +ATOM 2486 CD2 LEU B 16 -40.852 -7.006 89.547 1.00 40.00 C +ATOM 2487 N GLN B 17 -42.500 -11.089 87.060 1.00 40.00 N +ATOM 2488 CA GLN B 17 -43.656 -11.522 86.279 1.00 40.00 C +ATOM 2489 C GLN B 17 -44.938 -11.455 87.089 1.00 40.00 C +ATOM 2490 O GLN B 17 -45.044 -12.076 88.148 1.00 40.00 O +ATOM 2491 CB GLN B 17 -43.439 -12.948 85.745 1.00 40.00 C +ATOM 2492 CG GLN B 17 -42.303 -13.069 84.733 1.00 40.00 C +ATOM 2493 CD GLN B 17 -42.375 -12.015 83.633 1.00 40.00 C +ATOM 2494 OE1 GLN B 17 -41.444 -11.226 83.450 1.00 40.00 O +ATOM 2495 NE2 GLN B 17 -43.490 -11.993 82.901 1.00 40.00 N +ATOM 2496 N VAL B 18 -45.914 -10.707 86.585 1.00 40.00 N +ATOM 2497 CA VAL B 18 -47.151 -10.507 87.333 1.00 40.00 C +ATOM 2498 C VAL B 18 -48.420 -10.876 86.580 1.00 40.00 C +ATOM 2499 O VAL B 18 -48.741 -10.271 85.549 1.00 40.00 O +ATOM 2500 CB VAL B 18 -47.303 -9.065 87.838 1.00 40.00 C +ATOM 2501 CG1 VAL B 18 -48.354 -9.017 88.947 1.00 40.00 C +ATOM 2502 CG2 VAL B 18 -45.963 -8.520 88.318 1.00 40.00 C +ATOM 2503 N PRO B 19 -49.154 -11.867 87.111 1.00 40.00 N +ATOM 2504 CA PRO B 19 -50.457 -12.258 86.585 1.00 40.00 C +ATOM 2505 C PRO B 19 -51.437 -11.091 86.617 1.00 40.00 C +ATOM 2506 O PRO B 19 -51.528 -10.413 87.639 1.00 40.00 O +ATOM 2507 CB PRO B 19 -50.897 -13.364 87.551 1.00 40.00 C +ATOM 2508 CG PRO B 19 -49.618 -13.959 88.038 1.00 40.00 C +ATOM 2509 CD PRO B 19 -48.689 -12.788 88.168 1.00 40.00 C +ATOM 2510 N ASP B 20 -52.153 -10.875 85.506 1.00 40.00 N +ATOM 2511 CA ASP B 20 -53.104 -9.750 85.347 1.00 40.00 C +ATOM 2512 C ASP B 20 -54.350 -9.792 86.256 1.00 40.00 C +ATOM 2513 O ASP B 20 -55.247 -8.947 86.131 1.00 40.00 O +ATOM 2514 CB ASP B 20 -53.492 -9.524 83.859 1.00 40.00 C +ATOM 2515 CG ASP B 20 -54.532 -10.535 83.323 1.00 40.00 C +ATOM 2516 OD1 ASP B 20 -54.851 -10.458 82.106 1.00 40.00 O +ATOM 2517 OD2 ASP B 20 -55.033 -11.391 84.093 1.00 40.00 O +ATOM 2518 N ASP B 21 -54.386 -10.777 87.156 1.00 40.00 N +ATOM 2519 CA ASP B 21 -55.429 -10.904 88.175 1.00 40.00 C +ATOM 2520 C ASP B 21 -54.848 -10.740 89.583 1.00 40.00 C +ATOM 2521 O ASP B 21 -55.563 -10.873 90.583 1.00 40.00 O +ATOM 2522 CB ASP B 21 -56.128 -12.257 88.055 1.00 40.00 C +ATOM 2523 CG ASP B 21 -55.154 -13.404 87.801 1.00 40.00 C +ATOM 2524 OD1 ASP B 21 -53.933 -13.251 88.036 1.00 40.00 O +ATOM 2525 OD2 ASP B 21 -55.615 -14.472 87.352 1.00 40.00 O +ATOM 2526 N VAL B 22 -53.548 -10.449 89.643 1.00 40.00 N +ATOM 2527 CA VAL B 22 -52.842 -10.206 90.900 1.00 40.00 C +ATOM 2528 C VAL B 22 -52.370 -8.749 90.938 1.00 40.00 C +ATOM 2529 O VAL B 22 -51.800 -8.251 89.961 1.00 40.00 O +ATOM 2530 CB VAL B 22 -51.640 -11.179 91.062 1.00 40.00 C +ATOM 2531 CG1 VAL B 22 -50.811 -10.856 92.306 1.00 40.00 C +ATOM 2532 CG2 VAL B 22 -52.118 -12.627 91.103 1.00 40.00 C +ATOM 2533 N TYR B 23 -52.630 -8.073 92.059 1.00 40.00 N +ATOM 2534 CA TYR B 23 -52.105 -6.731 92.301 1.00 40.00 C +ATOM 2535 C TYR B 23 -50.579 -6.719 92.270 1.00 40.00 C +ATOM 2536 O TYR B 23 -49.926 -7.702 92.647 1.00 40.00 O +ATOM 2537 CB TYR B 23 -52.572 -6.210 93.649 1.00 40.00 C +ATOM 2538 CG TYR B 23 -54.047 -5.929 93.750 1.00 40.00 C +ATOM 2539 CD1 TYR B 23 -54.864 -6.674 94.605 1.00 40.00 C +ATOM 2540 CD2 TYR B 23 -54.631 -4.906 93.011 1.00 40.00 C +ATOM 2541 CE1 TYR B 23 -56.224 -6.404 94.718 1.00 40.00 C +ATOM 2542 CE2 TYR B 23 -55.990 -4.632 93.110 1.00 40.00 C +ATOM 2543 CZ TYR B 23 -56.784 -5.378 93.966 1.00 40.00 C +ATOM 2544 OH TYR B 23 -58.133 -5.095 94.060 1.00 40.00 O +ATOM 2545 N ILE B 24 -50.015 -5.593 91.839 1.00 40.00 N +ATOM 2546 CA ILE B 24 -48.579 -5.498 91.589 1.00 40.00 C +ATOM 2547 C ILE B 24 -47.747 -5.671 92.847 1.00 40.00 C +ATOM 2548 O ILE B 24 -46.802 -6.457 92.871 1.00 40.00 O +ATOM 2549 CB ILE B 24 -48.221 -4.176 90.903 1.00 40.00 C +ATOM 2550 CG1 ILE B 24 -48.733 -4.196 89.477 1.00 40.00 C +ATOM 2551 CG2 ILE B 24 -46.720 -3.994 90.855 1.00 40.00 C +ATOM 2552 CD1 ILE B 24 -48.951 -2.828 88.881 1.00 40.00 C +ATOM 2553 N LEU B 25 -48.117 -4.932 93.886 1.00 40.00 N +ATOM 2554 CA LEU B 25 -47.412 -4.939 95.166 1.00 40.00 C +ATOM 2555 C LEU B 25 -47.416 -6.321 95.823 1.00 40.00 C +ATOM 2556 O LEU B 25 -46.398 -6.747 96.385 1.00 40.00 O +ATOM 2557 CB LEU B 25 -48.027 -3.896 96.104 1.00 40.00 C +ATOM 2558 CG LEU B 25 -47.376 -3.610 97.455 1.00 40.00 C +ATOM 2559 CD1 LEU B 25 -46.174 -2.689 97.310 1.00 40.00 C +ATOM 2560 CD2 LEU B 25 -48.415 -2.996 98.378 1.00 40.00 C +ATOM 2561 N ASP B 26 -48.557 -7.008 95.745 1.00 40.00 N +ATOM 2562 CA ASP B 26 -48.681 -8.387 96.208 1.00 40.00 C +ATOM 2563 C ASP B 26 -47.572 -9.258 95.659 1.00 40.00 C +ATOM 2564 O ASP B 26 -46.868 -9.932 96.417 1.00 40.00 O +ATOM 2565 CB ASP B 26 -50.022 -8.953 95.790 1.00 40.00 C +ATOM 2566 CG ASP B 26 -51.158 -8.223 96.424 1.00 40.00 C +ATOM 2567 OD1 ASP B 26 -50.891 -7.377 97.298 1.00 40.00 O +ATOM 2568 OD2 ASP B 26 -52.311 -8.486 96.047 1.00 40.00 O +ATOM 2569 N GLN B 27 -47.415 -9.224 94.339 1.00 40.00 N +ATOM 2570 CA GLN B 27 -46.324 -9.919 93.677 1.00 40.00 C +ATOM 2571 C GLN B 27 -44.939 -9.535 94.252 1.00 40.00 C +ATOM 2572 O GLN B 27 -44.220 -10.401 94.777 1.00 40.00 O +ATOM 2573 CB GLN B 27 -46.396 -9.683 92.162 1.00 40.00 C +ATOM 2574 CG GLN B 27 -45.584 -10.675 91.344 1.00 40.00 C +ATOM 2575 CD GLN B 27 -46.015 -12.104 91.588 1.00 40.00 C +ATOM 2576 OE1 GLN B 27 -47.193 -12.437 91.453 1.00 40.00 O +ATOM 2577 NE2 GLN B 27 -45.066 -12.957 91.960 1.00 40.00 N +ATOM 2578 N ALA B 28 -44.597 -8.241 94.176 1.00 40.00 N +ATOM 2579 CA ALA B 28 -43.285 -7.715 94.595 1.00 40.00 C +ATOM 2580 C ALA B 28 -42.860 -8.244 95.952 1.00 40.00 C +ATOM 2581 O ALA B 28 -41.702 -8.605 96.161 1.00 40.00 O +ATOM 2582 CB ALA B 28 -43.304 -6.200 94.614 1.00 40.00 C +ATOM 2583 N GLU B 29 -43.828 -8.302 96.857 1.00 40.00 N +ATOM 2584 CA GLU B 29 -43.632 -8.814 98.204 1.00 40.00 C +ATOM 2585 C GLU B 29 -43.206 -10.302 98.235 1.00 40.00 C +ATOM 2586 O GLU B 29 -42.186 -10.626 98.849 1.00 40.00 O +ATOM 2587 CB GLU B 29 -44.906 -8.571 99.011 1.00 40.00 C +ATOM 2588 CG GLU B 29 -44.782 -8.712 100.514 1.00 40.00 C +ATOM 2589 CD GLU B 29 -46.145 -8.837 101.155 1.00 40.00 C +ATOM 2590 OE1 GLU B 29 -47.150 -8.623 100.449 1.00 40.00 O +ATOM 2591 OE2 GLU B 29 -46.219 -9.153 102.356 1.00 40.00 O +ATOM 2592 N GLU B 30 -43.964 -11.189 97.576 1.00 40.00 N +ATOM 2593 CA GLU B 30 -43.621 -12.625 97.537 1.00 40.00 C +ATOM 2594 C GLU B 30 -42.341 -12.829 96.794 1.00 40.00 C +ATOM 2595 O GLU B 30 -41.678 -13.853 96.954 1.00 40.00 O +ATOM 2596 CB GLU B 30 -44.655 -13.445 96.800 1.00 40.00 C +ATOM 2597 CG GLU B 30 -45.945 -13.677 97.541 1.00 40.00 C +ATOM 2598 CD GLU B 30 -47.013 -14.147 96.584 1.00 40.00 C +ATOM 2599 OE1 GLU B 30 -46.699 -15.067 95.788 1.00 40.00 O +ATOM 2600 OE2 GLU B 30 -48.141 -13.589 96.611 1.00 40.00 O +ATOM 2601 N ASP B 31 -42.030 -11.861 95.944 1.00 40.00 N +ATOM 2602 CA ASP B 31 -40.783 -11.861 95.221 1.00 40.00 C +ATOM 2603 C ASP B 31 -39.734 -11.101 96.003 1.00 40.00 C +ATOM 2604 O ASP B 31 -38.678 -10.767 95.476 1.00 40.00 O +ATOM 2605 CB ASP B 31 -40.975 -11.298 93.816 1.00 40.00 C +ATOM 2606 CG ASP B 31 -41.769 -12.247 92.912 1.00 40.00 C +ATOM 2607 OD1 ASP B 31 -42.290 -13.277 93.423 1.00 40.00 O +ATOM 2608 OD2 ASP B 31 -41.872 -11.964 91.690 1.00 40.00 O +ATOM 2609 N GLY B 32 -40.042 -10.838 97.269 1.00 40.00 N +ATOM 2610 CA GLY B 32 -39.059 -10.364 98.233 1.00 40.00 C +ATOM 2611 C GLY B 32 -38.613 -8.932 98.066 1.00 40.00 C +ATOM 2612 O GLY B 32 -37.513 -8.572 98.493 1.00 40.00 O +ATOM 2613 N ILE B 33 -39.466 -8.115 97.452 1.00 40.00 N +ATOM 2614 CA ILE B 33 -39.151 -6.708 97.222 1.00 40.00 C +ATOM 2615 C ILE B 33 -39.905 -5.807 98.195 1.00 40.00 C +ATOM 2616 O ILE B 33 -41.122 -5.951 98.391 1.00 40.00 O +ATOM 2617 CB ILE B 33 -39.420 -6.274 95.768 1.00 40.00 C +ATOM 2618 CG1 ILE B 33 -38.961 -7.357 94.789 1.00 40.00 C +ATOM 2619 CG2 ILE B 33 -38.694 -4.968 95.473 1.00 40.00 C +ATOM 2620 CD1 ILE B 33 -39.755 -7.404 93.498 1.00 40.00 C +ATOM 2621 N ASP B 34 -39.150 -4.888 98.797 1.00 40.00 N +ATOM 2622 CA ASP B 34 -39.662 -3.966 99.801 1.00 40.00 C +ATOM 2623 C ASP B 34 -40.100 -2.634 99.160 1.00 40.00 C +ATOM 2624 O ASP B 34 -39.283 -1.744 98.864 1.00 40.00 O +ATOM 2625 CB ASP B 34 -38.617 -3.770 100.921 1.00 40.00 C +ATOM 2626 CG ASP B 34 -39.196 -3.111 102.192 1.00 40.00 C +ATOM 2627 OD1 ASP B 34 -40.444 -3.043 102.348 1.00 40.00 O +ATOM 2628 OD2 ASP B 34 -38.385 -2.663 103.046 1.00 40.00 O +ATOM 2629 N LEU B 35 -41.410 -2.530 98.942 1.00 40.00 N +ATOM 2630 CA LEU B 35 -42.039 -1.341 98.380 1.00 40.00 C +ATOM 2631 C LEU B 35 -42.942 -0.709 99.418 1.00 40.00 C +ATOM 2632 O LEU B 35 -43.597 -1.427 100.179 1.00 40.00 O +ATOM 2633 CB LEU B 35 -42.890 -1.709 97.172 1.00 40.00 C +ATOM 2634 CG LEU B 35 -42.232 -2.483 96.042 1.00 40.00 C +ATOM 2635 CD1 LEU B 35 -43.293 -2.924 95.052 1.00 40.00 C +ATOM 2636 CD2 LEU B 35 -41.174 -1.617 95.377 1.00 40.00 C +ATOM 2637 N PRO B 36 -43.009 0.635 99.438 1.00 40.00 N +ATOM 2638 CA PRO B 36 -43.776 1.316 100.485 1.00 40.00 C +ATOM 2639 C PRO B 36 -45.285 1.047 100.366 1.00 40.00 C +ATOM 2640 O PRO B 36 -45.777 0.865 99.251 1.00 40.00 O +ATOM 2641 CB PRO B 36 -43.454 2.798 100.242 1.00 40.00 C +ATOM 2642 CG PRO B 36 -43.158 2.881 98.782 1.00 40.00 C +ATOM 2643 CD PRO B 36 -42.488 1.580 98.430 1.00 40.00 C +ATOM 2644 N TYR B 37 -45.982 0.998 101.512 1.00 40.00 N +ATOM 2645 CA TYR B 37 -47.441 0.776 101.588 1.00 40.00 C +ATOM 2646 C TYR B 37 -48.046 1.211 102.913 1.00 40.00 C +ATOM 2647 O TYR B 37 -47.326 1.506 103.845 1.00 40.00 O +ATOM 2648 CB TYR B 37 -47.817 -0.689 101.297 1.00 40.00 C +ATOM 2649 CG TYR B 37 -47.342 -1.774 102.272 1.00 40.00 C +ATOM 2650 CD1 TYR B 37 -46.012 -2.208 102.285 1.00 40.00 C +ATOM 2651 CD2 TYR B 37 -48.243 -2.419 103.120 1.00 40.00 C +ATOM 2652 CE1 TYR B 37 -45.597 -3.216 103.140 1.00 40.00 C +ATOM 2653 CE2 TYR B 37 -47.834 -3.429 103.971 1.00 40.00 C +ATOM 2654 CZ TYR B 37 -46.515 -3.817 103.973 1.00 40.00 C +ATOM 2655 OH TYR B 37 -46.110 -4.806 104.819 1.00 40.00 O +ATOM 2656 N SER B 38 -49.372 1.265 102.979 1.00 40.00 N +ATOM 2657 CA SER B 38 -50.075 1.532 104.225 1.00 40.00 C +ATOM 2658 C SER B 38 -51.425 0.825 104.285 1.00 40.00 C +ATOM 2659 O SER B 38 -51.560 -0.212 104.937 1.00 40.00 O +ATOM 2660 CB SER B 38 -50.269 3.028 104.435 1.00 40.00 C +ATOM 2661 OG SER B 38 -50.794 3.262 105.728 1.00 40.00 O +ATOM 2662 N CYS B 39 -52.413 1.393 103.593 1.00 40.00 N +ATOM 2663 CA CYS B 39 -53.800 0.917 103.621 1.00 40.00 C +ATOM 2664 C CYS B 39 -53.963 -0.458 102.981 1.00 40.00 C +ATOM 2665 O CYS B 39 -54.596 -1.359 103.552 1.00 40.00 O +ATOM 2666 CB CYS B 39 -54.707 1.920 102.899 1.00 40.00 C +ATOM 2667 SG CYS B 39 -54.499 1.939 101.101 1.00 40.00 S +ATOM 2668 N ARG B 40 -53.382 -0.592 101.788 1.00 40.00 N +ATOM 2669 CA ARG B 40 -53.546 -1.759 100.921 1.00 40.00 C +ATOM 2670 C ARG B 40 -55.000 -1.941 100.498 1.00 40.00 C +ATOM 2671 O ARG B 40 -55.512 -3.053 100.410 1.00 40.00 O +ATOM 2672 CB ARG B 40 -52.964 -3.008 101.573 1.00 40.00 C +ATOM 2673 CG ARG B 40 -51.452 -2.942 101.679 1.00 40.00 C +ATOM 2674 CD ARG B 40 -50.910 -4.052 102.552 1.00 40.00 C +ATOM 2675 NE ARG B 40 -51.013 -5.348 101.896 1.00 40.00 N +ATOM 2676 CZ ARG B 40 -50.055 -5.890 101.150 1.00 40.00 C +ATOM 2677 NH1 ARG B 40 -48.909 -5.250 100.962 1.00 40.00 N +ATOM 2678 NH2 ARG B 40 -50.243 -7.077 100.593 1.00 40.00 N +ATOM 2679 N ALA B 41 -55.654 -0.817 100.242 1.00 40.00 N +ATOM 2680 CA ALA B 41 -57.024 -0.806 99.756 1.00 40.00 C +ATOM 2681 C ALA B 41 -57.257 0.442 98.916 1.00 40.00 C +ATOM 2682 O ALA B 41 -58.393 0.873 98.692 1.00 40.00 O +ATOM 2683 CB ALA B 41 -58.013 -0.902 100.902 1.00 40.00 C +ATOM 2684 N GLY B 42 -56.150 1.021 98.465 1.00 40.00 N +ATOM 2685 CA GLY B 42 -56.171 1.959 97.355 1.00 40.00 C +ATOM 2686 C GLY B 42 -56.852 3.277 97.621 1.00 40.00 C +ATOM 2687 O GLY B 42 -57.432 3.875 96.719 1.00 40.00 O +ATOM 2688 N SER B 43 -56.792 3.734 98.861 1.00 40.00 N +ATOM 2689 CA SER B 43 -57.242 5.077 99.158 1.00 40.00 C +ATOM 2690 C SER B 43 -56.235 5.797 100.032 1.00 40.00 C +ATOM 2691 O SER B 43 -56.621 6.514 100.939 1.00 40.00 O +ATOM 2692 CB SER B 43 -58.644 5.070 99.788 1.00 40.00 C +ATOM 2693 OG SER B 43 -58.642 4.519 101.092 1.00 40.00 O +ATOM 2694 N CYS B 44 -54.948 5.591 99.763 1.00 40.00 N +ATOM 2695 CA CYS B 44 -53.889 6.330 100.446 1.00 40.00 C +ATOM 2696 C CYS B 44 -52.771 6.656 99.469 1.00 40.00 C +ATOM 2697 O CYS B 44 -52.956 6.518 98.273 1.00 40.00 O +ATOM 2698 CB CYS B 44 -53.371 5.569 101.663 1.00 40.00 C +ATOM 2699 SG CYS B 44 -51.997 4.467 101.318 1.00 40.00 S +ATOM 2700 N SER B 45 -51.617 7.080 99.970 1.00 40.00 N +ATOM 2701 CA SER B 45 -50.556 7.583 99.102 1.00 40.00 C +ATOM 2702 C SER B 45 -49.225 6.835 99.209 1.00 40.00 C +ATOM 2703 O SER B 45 -48.283 7.137 98.469 1.00 40.00 O +ATOM 2704 CB SER B 45 -50.326 9.063 99.389 1.00 40.00 C +ATOM 2705 OG SER B 45 -49.974 9.247 100.749 1.00 40.00 O +ATOM 2706 N SER B 46 -49.149 5.863 100.116 1.00 40.00 N +ATOM 2707 CA SER B 46 -47.866 5.238 100.490 1.00 40.00 C +ATOM 2708 C SER B 46 -47.192 4.505 99.341 1.00 40.00 C +ATOM 2709 O SER B 46 -45.993 4.674 99.089 1.00 40.00 O +ATOM 2710 CB SER B 46 -48.044 4.290 101.681 1.00 40.00 C +ATOM 2711 OG SER B 46 -48.247 5.008 102.885 1.00 40.00 O +ATOM 2712 N CYS B 47 -47.992 3.717 98.636 1.00 40.00 N +ATOM 2713 CA CYS B 47 -47.511 2.845 97.579 1.00 40.00 C +ATOM 2714 C CYS B 47 -47.249 3.577 96.267 1.00 40.00 C +ATOM 2715 O CYS B 47 -46.905 2.962 95.257 1.00 40.00 O +ATOM 2716 CB CYS B 47 -48.520 1.725 97.372 1.00 40.00 C +ATOM 2717 SG CYS B 47 -50.226 2.302 97.364 1.00 40.00 S +ATOM 2718 N ALA B 48 -47.386 4.895 96.305 1.00 40.00 N +ATOM 2719 CA ALA B 48 -47.285 5.729 95.124 1.00 40.00 C +ATOM 2720 C ALA B 48 -46.130 5.394 94.200 1.00 40.00 C +ATOM 2721 O ALA B 48 -45.009 5.074 94.628 1.00 40.00 O +ATOM 2722 CB ALA B 48 -47.223 7.190 95.518 1.00 40.00 C +ATOM 2723 N GLY B 49 -46.444 5.497 92.918 1.00 40.00 N +ATOM 2724 CA GLY B 49 -45.484 5.319 91.860 1.00 40.00 C +ATOM 2725 C GLY B 49 -45.930 5.983 90.574 1.00 40.00 C +ATOM 2726 O GLY B 49 -47.069 6.446 90.453 1.00 40.00 O +ATOM 2727 N LYS B 50 -45.023 6.011 89.605 1.00 40.00 N +ATOM 2728 CA LYS B 50 -45.265 6.687 88.348 1.00 40.00 C +ATOM 2729 C LYS B 50 -45.053 5.756 87.174 1.00 40.00 C +ATOM 2730 O LYS B 50 -44.003 5.118 87.063 1.00 40.00 O +ATOM 2731 CB LYS B 50 -44.340 7.894 88.207 1.00 40.00 C +ATOM 2732 CG LYS B 50 -44.715 9.077 89.083 1.00 40.00 C +ATOM 2733 CD LYS B 50 -44.402 10.393 88.395 1.00 40.00 C +ATOM 2734 CE LYS B 50 -45.443 10.704 87.343 1.00 40.00 C +ATOM 2735 NZ LYS B 50 -44.982 11.862 86.547 1.00 40.00 N +ATOM 2736 N VAL B 51 -46.048 5.701 86.293 1.00 40.00 N +ATOM 2737 CA VAL B 51 -45.951 4.910 85.078 1.00 40.00 C +ATOM 2738 C VAL B 51 -45.055 5.596 84.078 1.00 40.00 C +ATOM 2739 O VAL B 51 -45.300 6.734 83.686 1.00 40.00 O +ATOM 2740 CB VAL B 51 -47.317 4.677 84.426 1.00 40.00 C +ATOM 2741 CG1 VAL B 51 -47.169 3.906 83.118 1.00 40.00 C +ATOM 2742 CG2 VAL B 51 -48.209 3.907 85.375 1.00 40.00 C +ATOM 2743 N VAL B 52 -44.014 4.876 83.678 1.00 40.00 N +ATOM 2744 CA VAL B 52 -43.097 5.312 82.635 1.00 40.00 C +ATOM 2745 C VAL B 52 -43.600 4.842 81.260 1.00 40.00 C +ATOM 2746 O VAL B 52 -43.571 5.601 80.283 1.00 40.00 O +ATOM 2747 CB VAL B 52 -41.673 4.776 82.898 1.00 40.00 C +ATOM 2748 CG1 VAL B 52 -40.694 5.304 81.856 1.00 40.00 C +ATOM 2749 CG2 VAL B 52 -41.214 5.144 84.302 1.00 40.00 C +ATOM 2750 N SER B 53 -44.065 3.593 81.202 1.00 40.00 N +ATOM 2751 CA SER B 53 -44.579 2.986 79.974 1.00 40.00 C +ATOM 2752 C SER B 53 -45.525 1.850 80.337 1.00 40.00 C +ATOM 2753 O SER B 53 -45.565 1.422 81.490 1.00 40.00 O +ATOM 2754 CB SER B 53 -43.425 2.431 79.150 1.00 40.00 C +ATOM 2755 OG SER B 53 -42.770 1.398 79.868 1.00 40.00 O +ATOM 2756 N GLY B 54 -46.275 1.359 79.357 1.00 40.00 N +ATOM 2757 CA GLY B 54 -47.226 0.286 79.599 1.00 40.00 C +ATOM 2758 C GLY B 54 -48.460 0.783 80.323 1.00 40.00 C +ATOM 2759 O GLY B 54 -48.523 1.934 80.766 1.00 40.00 O +ATOM 2760 N SER B 55 -49.441 -0.101 80.446 1.00 40.00 N +ATOM 2761 CA SER B 55 -50.738 0.250 81.011 1.00 40.00 C +ATOM 2762 C SER B 55 -51.091 -0.587 82.242 1.00 40.00 C +ATOM 2763 O SER B 55 -50.592 -1.702 82.404 1.00 40.00 O +ATOM 2764 CB SER B 55 -51.824 0.089 79.943 1.00 40.00 C +ATOM 2765 OG SER B 55 -51.783 -1.199 79.348 1.00 40.00 O +ATOM 2766 N VAL B 56 -51.943 -0.042 83.113 1.00 40.00 N +ATOM 2767 CA VAL B 56 -52.496 -0.808 84.248 1.00 40.00 C +ATOM 2768 C VAL B 56 -54.006 -0.595 84.445 1.00 40.00 C +ATOM 2769 O VAL B 56 -54.576 0.406 83.989 1.00 40.00 O +ATOM 2770 CB VAL B 56 -51.773 -0.538 85.591 1.00 40.00 C +ATOM 2771 CG1 VAL B 56 -50.260 -0.576 85.436 1.00 40.00 C +ATOM 2772 CG2 VAL B 56 -52.237 0.769 86.203 1.00 40.00 C +ATOM 2773 N ASP B 57 -54.644 -1.550 85.121 1.00 40.00 N +ATOM 2774 CA ASP B 57 -56.062 -1.456 85.458 1.00 40.00 C +ATOM 2775 C ASP B 57 -56.161 -1.222 86.943 1.00 40.00 C +ATOM 2776 O ASP B 57 -56.246 -2.163 87.742 1.00 40.00 O +ATOM 2777 CB ASP B 57 -56.836 -2.724 85.045 1.00 40.00 C +ATOM 2778 CG ASP B 57 -58.263 -2.785 85.630 1.00 40.00 C +ATOM 2779 OD1 ASP B 57 -58.805 -3.908 85.746 1.00 40.00 O +ATOM 2780 OD2 ASP B 57 -58.842 -1.729 85.972 1.00 40.00 O +ATOM 2781 N GLN B 58 -56.140 0.048 87.312 1.00 40.00 N +ATOM 2782 CA GLN B 58 -56.276 0.405 88.707 1.00 40.00 C +ATOM 2783 C GLN B 58 -57.672 0.898 89.019 1.00 40.00 C +ATOM 2784 O GLN B 58 -57.853 1.781 89.854 1.00 40.00 O +ATOM 2785 CB GLN B 58 -55.238 1.434 89.094 1.00 40.00 C +ATOM 2786 CG GLN B 58 -55.110 2.549 88.089 1.00 40.00 C +ATOM 2787 CD GLN B 58 -54.138 3.605 88.550 1.00 40.00 C +ATOM 2788 OE1 GLN B 58 -53.820 4.544 87.808 1.00 40.00 O +ATOM 2789 NE2 GLN B 58 -53.651 3.462 89.787 1.00 40.00 N +ATOM 2790 N SER B 59 -58.661 0.326 88.335 1.00 40.00 N +ATOM 2791 CA SER B 59 -60.042 0.553 88.715 1.00 40.00 C +ATOM 2792 C SER B 59 -60.224 -0.127 90.066 1.00 40.00 C +ATOM 2793 O SER B 59 -59.732 -1.243 90.307 1.00 40.00 O +ATOM 2794 CB SER B 59 -61.035 0.044 87.660 1.00 40.00 C +ATOM 2795 OG SER B 59 -60.987 -1.366 87.537 1.00 40.00 O +ATOM 2796 N ASP B 60 -60.885 0.601 90.953 1.00 40.00 N +ATOM 2797 CA ASP B 60 -61.073 0.197 92.333 1.00 40.00 C +ATOM 2798 C ASP B 60 -60.060 0.813 93.298 1.00 40.00 C +ATOM 2799 O ASP B 60 -59.903 0.344 94.426 1.00 40.00 O +ATOM 2800 CB ASP B 60 -61.084 -1.318 92.474 1.00 40.00 C +ATOM 2801 CG ASP B 60 -61.974 -1.771 93.586 1.00 40.00 C +ATOM 2802 OD1 ASP B 60 -62.636 -0.922 94.229 1.00 40.00 O +ATOM 2803 OD2 ASP B 60 -62.016 -2.987 93.816 1.00 40.00 O +ATOM 2804 N GLN B 61 -59.372 1.858 92.843 1.00 40.00 N +ATOM 2805 CA GLN B 61 -58.739 2.803 93.757 1.00 40.00 C +ATOM 2806 C GLN B 61 -59.721 3.951 93.954 1.00 40.00 C +ATOM 2807 O GLN B 61 -60.731 4.033 93.253 1.00 40.00 O +ATOM 2808 CB GLN B 61 -57.377 3.298 93.231 1.00 40.00 C +ATOM 2809 CG GLN B 61 -57.399 4.229 92.015 1.00 40.00 C +ATOM 2810 CD GLN B 61 -57.531 5.715 92.352 1.00 40.00 C +ATOM 2811 OE1 GLN B 61 -57.046 6.194 93.382 1.00 40.00 O +ATOM 2812 NE2 GLN B 61 -58.183 6.454 91.463 1.00 40.00 N +ATOM 2813 N SER B 62 -59.431 4.829 94.908 1.00 40.00 N +ATOM 2814 CA SER B 62 -60.283 5.991 95.144 1.00 40.00 C +ATOM 2815 C SER B 62 -59.534 7.281 95.529 1.00 40.00 C +ATOM 2816 O SER B 62 -60.147 8.345 95.598 1.00 40.00 O +ATOM 2817 CB SER B 62 -61.415 5.660 96.142 1.00 40.00 C +ATOM 2818 OG SER B 62 -61.075 4.598 97.021 1.00 40.00 O +ATOM 2819 N TYR B 63 -58.219 7.195 95.736 1.00 40.00 N +ATOM 2820 CA TYR B 63 -57.419 8.334 96.241 1.00 40.00 C +ATOM 2821 C TYR B 63 -57.030 9.406 95.199 1.00 40.00 C +ATOM 2822 O TYR B 63 -57.100 10.615 95.473 1.00 40.00 O +ATOM 2823 CB TYR B 63 -56.161 7.820 96.961 1.00 40.00 C +ATOM 2824 CG TYR B 63 -55.351 8.887 97.685 1.00 40.00 C +ATOM 2825 CD1 TYR B 63 -54.398 9.660 97.010 1.00 40.00 C +ATOM 2826 CD2 TYR B 63 -55.524 9.105 99.046 1.00 40.00 C +ATOM 2827 CE1 TYR B 63 -53.657 10.623 97.676 1.00 40.00 C +ATOM 2828 CE2 TYR B 63 -54.784 10.060 99.719 1.00 40.00 C +ATOM 2829 CZ TYR B 63 -53.858 10.815 99.036 1.00 40.00 C +ATOM 2830 OH TYR B 63 -53.151 11.762 99.735 1.00 40.00 O +ATOM 2831 N LEU B 64 -56.589 8.971 94.025 1.00 40.00 N +ATOM 2832 CA LEU B 64 -56.165 9.908 92.998 1.00 40.00 C +ATOM 2833 C LEU B 64 -57.362 10.478 92.268 1.00 40.00 C +ATOM 2834 O LEU B 64 -58.344 9.770 92.025 1.00 40.00 O +ATOM 2835 CB LEU B 64 -55.273 9.216 91.977 1.00 40.00 C +ATOM 2836 CG LEU B 64 -53.982 8.569 92.452 1.00 40.00 C +ATOM 2837 CD1 LEU B 64 -53.414 7.717 91.333 1.00 40.00 C +ATOM 2838 CD2 LEU B 64 -52.975 9.616 92.886 1.00 40.00 C +ATOM 2839 N ASP B 65 -57.279 11.758 91.912 1.00 40.00 N +ATOM 2840 CA ASP B 65 -58.207 12.327 90.935 1.00 40.00 C +ATOM 2841 C ASP B 65 -57.750 11.942 89.529 1.00 40.00 C +ATOM 2842 O ASP B 65 -56.681 11.346 89.358 1.00 40.00 O +ATOM 2843 CB ASP B 65 -58.299 13.847 91.079 1.00 40.00 C +ATOM 2844 CG ASP B 65 -56.953 14.542 90.909 1.00 40.00 C +ATOM 2845 OD1 ASP B 65 -56.245 14.293 89.902 1.00 40.00 O +ATOM 2846 OD2 ASP B 65 -56.613 15.359 91.789 1.00 40.00 O +ATOM 2847 N ASP B 66 -58.541 12.298 88.524 1.00 40.00 N +ATOM 2848 CA ASP B 66 -58.230 11.914 87.156 1.00 40.00 C +ATOM 2849 C ASP B 66 -56.964 12.516 86.562 1.00 40.00 C +ATOM 2850 O ASP B 66 -56.278 11.862 85.774 1.00 40.00 O +ATOM 2851 CB ASP B 66 -59.426 12.198 86.281 1.00 40.00 C +ATOM 2852 CG ASP B 66 -60.537 11.229 86.533 1.00 40.00 C +ATOM 2853 OD1 ASP B 66 -60.244 10.020 86.681 1.00 40.00 O +ATOM 2854 OD2 ASP B 66 -61.697 11.672 86.597 1.00 40.00 O +ATOM 2855 N GLY B 67 -56.669 13.756 86.954 1.00 40.00 N +ATOM 2856 CA GLY B 67 -55.488 14.493 86.482 1.00 40.00 C +ATOM 2857 C GLY B 67 -54.181 13.907 86.984 1.00 40.00 C +ATOM 2858 O GLY B 67 -53.109 14.125 86.397 1.00 40.00 O +ATOM 2859 N GLN B 68 -54.290 13.175 88.089 1.00 40.00 N +ATOM 2860 CA GLN B 68 -53.198 12.381 88.620 1.00 40.00 C +ATOM 2861 C GLN B 68 -53.087 11.050 87.825 1.00 40.00 C +ATOM 2862 O GLN B 68 -51.976 10.603 87.508 1.00 40.00 O +ATOM 2863 CB GLN B 68 -53.372 12.194 90.149 1.00 40.00 C +ATOM 2864 CG GLN B 68 -53.129 13.483 90.962 1.00 40.00 C +ATOM 2865 CD GLN B 68 -53.590 13.441 92.429 1.00 40.00 C +ATOM 2866 OE1 GLN B 68 -54.676 12.939 92.756 1.00 40.00 O +ATOM 2867 NE2 GLN B 68 -52.769 14.008 93.318 1.00 40.00 N +ATOM 2868 N ILE B 69 -54.234 10.454 87.471 1.00 40.00 N +ATOM 2869 CA ILE B 69 -54.281 9.256 86.609 1.00 40.00 C +ATOM 2870 C ILE B 69 -53.802 9.627 85.218 1.00 40.00 C +ATOM 2871 O ILE B 69 -53.069 8.872 84.570 1.00 40.00 O +ATOM 2872 CB ILE B 69 -55.706 8.649 86.519 1.00 40.00 C +ATOM 2873 CG1 ILE B 69 -56.088 7.980 87.841 1.00 40.00 C +ATOM 2874 CG2 ILE B 69 -55.800 7.632 85.388 1.00 40.00 C +ATOM 2875 CD1 ILE B 69 -57.575 7.899 88.092 1.00 40.00 C +ATOM 2876 N CYS B 70 -54.237 10.804 84.779 1.00 40.00 N +ATOM 2877 CA CYS B 70 -53.785 11.408 83.543 1.00 40.00 C +ATOM 2878 C CYS B 70 -52.291 11.666 83.548 1.00 40.00 C +ATOM 2879 O CYS B 70 -51.654 11.644 82.503 1.00 40.00 O +ATOM 2880 CB CYS B 70 -54.520 12.722 83.331 1.00 20.00 C +ATOM 2881 SG CYS B 70 -55.578 12.751 81.867 1.00 20.00 S +ATOM 2882 N ASP B 71 -51.737 11.908 84.728 1.00 40.00 N +ATOM 2883 CA ASP B 71 -50.317 12.197 84.857 1.00 40.00 C +ATOM 2884 C ASP B 71 -49.482 10.930 85.132 1.00 40.00 C +ATOM 2885 O ASP B 71 -48.294 11.013 85.464 1.00 40.00 O +ATOM 2886 CB ASP B 71 -50.108 13.265 85.942 1.00 40.00 C +ATOM 2887 CG ASP B 71 -49.042 14.308 85.567 1.00 40.00 C +ATOM 2888 OD1 ASP B 71 -48.813 14.563 84.353 1.00 40.00 O +ATOM 2889 OD2 ASP B 71 -48.438 14.886 86.507 1.00 40.00 O +ATOM 2890 N GLY B 72 -50.111 9.763 84.994 1.00 40.00 N +ATOM 2891 CA GLY B 72 -49.407 8.475 85.083 1.00 40.00 C +ATOM 2892 C GLY B 72 -49.042 8.010 86.484 1.00 40.00 C +ATOM 2893 O GLY B 72 -48.242 7.087 86.672 1.00 40.00 O +ATOM 2894 N TRP B 73 -49.628 8.657 87.476 1.00 40.00 N +ATOM 2895 CA TRP B 73 -49.456 8.244 88.846 1.00 40.00 C +ATOM 2896 C TRP B 73 -50.145 6.952 89.065 1.00 40.00 C +ATOM 2897 O TRP B 73 -51.158 6.677 88.426 1.00 40.00 O +ATOM 2898 CB TRP B 73 -50.064 9.283 89.751 1.00 40.00 C +ATOM 2899 CG TRP B 73 -49.131 10.425 89.984 1.00 40.00 C +ATOM 2900 CD1 TRP B 73 -49.193 11.708 89.444 1.00 40.00 C +ATOM 2901 CD2 TRP B 73 -47.934 10.412 90.827 1.00 40.00 C +ATOM 2902 NE1 TRP B 73 -48.150 12.475 89.894 1.00 40.00 N +ATOM 2903 CE2 TRP B 73 -47.352 11.755 90.730 1.00 40.00 C +ATOM 2904 CE3 TRP B 73 -47.313 9.457 91.641 1.00 40.00 C +ATOM 2905 CZ2 TRP B 73 -46.195 12.106 91.426 1.00 40.00 C +ATOM 2906 CZ3 TRP B 73 -46.152 9.822 92.339 1.00 40.00 C +ATOM 2907 CH2 TRP B 73 -45.606 11.113 92.233 1.00 40.00 C +ATOM 2908 N VAL B 74 -49.612 6.148 89.980 1.00 40.00 N +ATOM 2909 CA VAL B 74 -50.226 4.865 90.299 1.00 40.00 C +ATOM 2910 C VAL B 74 -50.107 4.412 91.742 1.00 40.00 C +ATOM 2911 O VAL B 74 -49.065 4.565 92.385 1.00 40.00 O +ATOM 2912 CB VAL B 74 -49.679 3.736 89.414 1.00 40.00 C +ATOM 2913 CG1 VAL B 74 -48.164 3.659 89.517 1.00 40.00 C +ATOM 2914 CG2 VAL B 74 -50.328 2.400 89.772 1.00 40.00 C +ATOM 2915 N LEU B 75 -51.204 3.836 92.221 1.00 40.00 N +ATOM 2916 CA LEU B 75 -51.234 3.157 93.496 1.00 40.00 C +ATOM 2917 C LEU B 75 -50.967 1.692 93.263 1.00 40.00 C +ATOM 2918 O LEU B 75 -51.782 0.978 92.669 1.00 40.00 O +ATOM 2919 CB LEU B 75 -52.572 3.359 94.214 1.00 40.00 C +ATOM 2920 CG LEU B 75 -52.784 4.744 94.839 1.00 40.00 C +ATOM 2921 CD1 LEU B 75 -54.017 4.758 95.737 1.00 40.00 C +ATOM 2922 CD2 LEU B 75 -51.543 5.191 95.605 1.00 40.00 C +ATOM 2923 N THR B 76 -49.804 1.267 93.740 1.00 40.00 N +ATOM 2924 CA THR B 76 -49.308 -0.081 93.537 1.00 40.00 C +ATOM 2925 C THR B 76 -50.151 -1.165 94.245 1.00 40.00 C +ATOM 2926 O THR B 76 -50.355 -2.255 93.695 1.00 40.00 O +ATOM 2927 CB THR B 76 -47.816 -0.170 93.905 1.00 40.00 C +ATOM 2928 OG1 THR B 76 -47.580 0.574 95.097 1.00 40.00 O +ATOM 2929 CG2 THR B 76 -46.984 0.449 92.822 1.00 40.00 C +ATOM 2930 N CYS B 77 -50.674 -0.859 95.430 1.00 40.00 N +ATOM 2931 CA CYS B 77 -51.440 -1.847 96.189 1.00 40.00 C +ATOM 2932 C CYS B 77 -52.763 -2.189 95.539 1.00 40.00 C +ATOM 2933 O CYS B 77 -53.406 -3.150 95.926 1.00 40.00 O +ATOM 2934 CB CYS B 77 -51.647 -1.410 97.646 1.00 40.00 C +ATOM 2935 SG CYS B 77 -52.996 -0.254 98.003 1.00 40.00 S +ATOM 2936 N HIS B 78 -53.165 -1.397 94.555 1.00 40.00 N +ATOM 2937 CA HIS B 78 -54.412 -1.637 93.838 1.00 40.00 C +ATOM 2938 C HIS B 78 -54.288 -1.498 92.345 1.00 40.00 C +ATOM 2939 O HIS B 78 -55.223 -1.052 91.675 1.00 40.00 O +ATOM 2940 CB HIS B 78 -55.541 -0.763 94.383 1.00 40.00 C +ATOM 2941 CG HIS B 78 -56.486 -1.489 95.323 1.00 40.00 C +ATOM 2942 ND1 HIS B 78 -56.058 -2.158 96.412 1.00 40.00 N +ATOM 2943 CD2 HIS B 78 -57.874 -1.612 95.307 1.00 40.00 C +ATOM 2944 CE1 HIS B 78 -57.114 -2.689 97.054 1.00 40.00 C +ATOM 2945 NE2 HIS B 78 -58.225 -2.350 96.379 1.00 40.00 N +ATOM 2946 N ALA B 79 -53.137 -1.892 91.805 1.00 40.00 N +ATOM 2947 CA ALA B 79 -52.937 -1.891 90.359 1.00 40.00 C +ATOM 2948 C ALA B 79 -52.617 -3.296 89.838 1.00 40.00 C +ATOM 2949 O ALA B 79 -51.672 -3.933 90.322 1.00 40.00 O +ATOM 2950 CB ALA B 79 -51.850 -0.898 89.967 1.00 40.00 C +ATOM 2951 N TYR B 80 -53.448 -3.780 88.901 1.00 40.00 N +ATOM 2952 CA TYR B 80 -53.161 -4.957 88.068 1.00 40.00 C +ATOM 2953 C TYR B 80 -52.502 -4.454 86.791 1.00 40.00 C +ATOM 2954 O TYR B 80 -52.779 -3.333 86.363 1.00 40.00 O +ATOM 2955 CB TYR B 80 -54.442 -5.667 87.636 1.00 40.00 C +ATOM 2956 CG TYR B 80 -55.349 -6.145 88.726 1.00 40.00 C +ATOM 2957 CD1 TYR B 80 -56.584 -5.546 88.940 1.00 40.00 C +ATOM 2958 CD2 TYR B 80 -54.992 -7.219 89.519 1.00 40.00 C +ATOM 2959 CE1 TYR B 80 -57.433 -5.995 89.928 1.00 40.00 C +ATOM 2960 CE2 TYR B 80 -55.829 -7.675 90.512 1.00 40.00 C +ATOM 2961 CZ TYR B 80 -57.045 -7.063 90.708 1.00 40.00 C +ATOM 2962 OH TYR B 80 -57.857 -7.538 91.703 1.00 40.00 O +ATOM 2963 N PRO B 81 -51.640 -5.272 86.162 1.00 40.00 N +ATOM 2964 CA PRO B 81 -51.158 -4.848 84.842 1.00 40.00 C +ATOM 2965 C PRO B 81 -52.077 -5.311 83.703 1.00 40.00 C +ATOM 2966 O PRO B 81 -52.777 -6.332 83.835 1.00 40.00 O +ATOM 2967 CB PRO B 81 -49.786 -5.512 84.739 1.00 40.00 C +ATOM 2968 CG PRO B 81 -49.877 -6.723 85.618 1.00 40.00 C +ATOM 2969 CD PRO B 81 -50.941 -6.474 86.657 1.00 40.00 C +ATOM 2970 N THR B 82 -52.097 -4.546 82.612 1.00 40.00 N +ATOM 2971 CA THR B 82 -52.779 -4.970 81.388 1.00 40.00 C +ATOM 2972 C THR B 82 -51.783 -5.006 80.242 1.00 40.00 C +ATOM 2973 O THR B 82 -52.154 -5.251 79.096 1.00 40.00 O +ATOM 2974 CB THR B 82 -53.996 -4.084 81.009 1.00 40.00 C +ATOM 2975 OG1 THR B 82 -53.606 -2.704 80.957 1.00 40.00 O +ATOM 2976 CG2 THR B 82 -55.162 -4.282 81.992 1.00 40.00 C +ATOM 2977 N SER B 83 -50.518 -4.756 80.562 1.00 40.00 N +ATOM 2978 CA SER B 83 -49.452 -4.819 79.581 1.00 40.00 C +ATOM 2979 C SER B 83 -48.129 -4.899 80.301 1.00 40.00 C +ATOM 2980 O SER B 83 -48.077 -4.766 81.521 1.00 40.00 O +ATOM 2981 CB SER B 83 -49.483 -3.593 78.660 1.00 40.00 C +ATOM 2982 OG SER B 83 -48.931 -2.447 79.279 1.00 40.00 O +ATOM 2983 N ASP B 84 -47.068 -5.142 79.536 1.00 40.00 N +ATOM 2984 CA ASP B 84 -45.703 -4.980 80.018 1.00 40.00 C +ATOM 2985 C ASP B 84 -45.536 -3.536 80.460 1.00 40.00 C +ATOM 2986 O ASP B 84 -45.883 -2.609 79.728 1.00 40.00 O +ATOM 2987 CB ASP B 84 -44.694 -5.322 78.916 1.00 40.00 C +ATOM 2988 CG ASP B 84 -44.421 -6.826 78.795 1.00 40.00 C +ATOM 2989 OD1 ASP B 84 -43.315 -7.172 78.325 1.00 40.00 O +ATOM 2990 OD2 ASP B 84 -45.285 -7.660 79.163 1.00 40.00 O +ATOM 2991 N VAL B 85 -45.022 -3.344 81.667 1.00 40.00 N +ATOM 2992 CA VAL B 85 -45.050 -2.015 82.277 1.00 40.00 C +ATOM 2993 C VAL B 85 -43.782 -1.670 83.080 1.00 40.00 C +ATOM 2994 O VAL B 85 -43.272 -2.502 83.838 1.00 40.00 O +ATOM 2995 CB VAL B 85 -46.379 -1.788 83.074 1.00 40.00 C +ATOM 2996 CG1 VAL B 85 -46.649 -2.907 84.077 1.00 40.00 C +ATOM 2997 CG2 VAL B 85 -46.431 -0.413 83.734 1.00 40.00 C +ATOM 2998 N VAL B 86 -43.270 -0.452 82.864 1.00 40.00 N +ATOM 2999 CA VAL B 86 -42.123 0.087 83.605 1.00 40.00 C +ATOM 3000 C VAL B 86 -42.621 1.117 84.624 1.00 40.00 C +ATOM 3001 O VAL B 86 -43.398 2.012 84.259 1.00 40.00 O +ATOM 3002 CB VAL B 86 -41.093 0.764 82.672 1.00 40.00 C +ATOM 3003 CG1 VAL B 86 -39.861 1.197 83.454 1.00 40.00 C +ATOM 3004 CG2 VAL B 86 -40.692 -0.169 81.543 1.00 40.00 C +ATOM 3005 N ILE B 87 -42.168 0.985 85.884 1.00 40.00 N +ATOM 3006 CA ILE B 87 -42.645 1.810 87.037 1.00 40.00 C +ATOM 3007 C ILE B 87 -41.541 2.222 88.056 1.00 40.00 C +ATOM 3008 O ILE B 87 -40.732 1.386 88.491 1.00 40.00 O +ATOM 3009 CB ILE B 87 -43.849 1.135 87.783 1.00 40.00 C +ATOM 3010 CG1 ILE B 87 -45.124 1.190 86.936 1.00 40.00 C +ATOM 3011 CG2 ILE B 87 -44.147 1.820 89.107 1.00 40.00 C +ATOM 3012 CD1 ILE B 87 -46.294 0.426 87.514 1.00 40.00 C +ATOM 3013 N GLU B 88 -41.526 3.515 88.417 1.00 40.00 N +ATOM 3014 CA GLU B 88 -40.719 4.039 89.535 1.00 40.00 C +ATOM 3015 C GLU B 88 -41.498 3.906 90.829 1.00 40.00 C +ATOM 3016 O GLU B 88 -42.676 4.247 90.874 1.00 40.00 O +ATOM 3017 CB GLU B 88 -40.431 5.523 89.345 1.00 40.00 C +ATOM 3018 CG GLU B 88 -39.597 5.883 88.136 1.00 40.00 C +ATOM 3019 CD GLU B 88 -39.866 7.299 87.679 1.00 40.00 C +ATOM 3020 OE1 GLU B 88 -41.040 7.724 87.714 1.00 40.00 O +ATOM 3021 OE2 GLU B 88 -38.906 7.988 87.279 1.00 40.00 O +ATOM 3022 N THR B 89 -40.843 3.455 91.888 1.00 40.00 N +ATOM 3023 CA THR B 89 -41.513 3.322 93.174 1.00 40.00 C +ATOM 3024 C THR B 89 -41.008 4.387 94.145 1.00 40.00 C +ATOM 3025 O THR B 89 -40.146 5.187 93.777 1.00 40.00 O +ATOM 3026 CB THR B 89 -41.315 1.908 93.747 1.00 40.00 C +ATOM 3027 OG1 THR B 89 -39.932 1.689 94.035 1.00 40.00 O +ATOM 3028 CG2 THR B 89 -41.749 0.886 92.737 1.00 40.00 C +ATOM 3029 N HIS B 90 -41.546 4.400 95.370 1.00 40.00 N +ATOM 3030 CA HIS B 90 -41.099 5.306 96.448 1.00 40.00 C +ATOM 3031 C HIS B 90 -41.301 6.726 96.016 1.00 40.00 C +ATOM 3032 O HIS B 90 -40.430 7.584 96.180 1.00 40.00 O +ATOM 3033 CB HIS B 90 -39.628 5.065 96.849 1.00 40.00 C +ATOM 3034 CG HIS B 90 -39.315 3.651 97.354 1.00 40.00 C +ATOM 3035 ND1 HIS B 90 -39.489 2.545 96.596 1.00 40.00 N +ATOM 3036 CD2 HIS B 90 -38.756 3.209 98.560 1.00 40.00 C +ATOM 3037 CE1 HIS B 90 -39.104 1.451 97.292 1.00 40.00 C +ATOM 3038 NE2 HIS B 90 -38.653 1.857 98.490 1.00 40.00 N +ATOM 3039 N LYS B 91 -42.468 6.975 95.445 1.00 40.00 N +ATOM 3040 CA LYS B 91 -42.743 8.249 94.819 1.00 40.00 C +ATOM 3041 C LYS B 91 -43.735 9.073 95.599 1.00 40.00 C +ATOM 3042 O LYS B 91 -44.197 10.119 95.118 1.00 40.00 O +ATOM 3043 CB LYS B 91 -43.286 8.017 93.421 1.00 40.00 C +ATOM 3044 CG LYS B 91 -42.256 7.497 92.443 1.00 40.00 C +ATOM 3045 CD LYS B 91 -41.324 8.600 91.962 1.00 40.00 C +ATOM 3046 CE LYS B 91 -40.129 8.783 92.880 1.00 40.00 C +ATOM 3047 NZ LYS B 91 -39.048 9.476 92.134 1.00 40.00 N +ATOM 3048 N GLU B 92 -44.073 8.601 96.799 1.00 40.00 N +ATOM 3049 CA GLU B 92 -45.069 9.292 97.611 1.00 40.00 C +ATOM 3050 C GLU B 92 -44.666 10.748 97.807 1.00 40.00 C +ATOM 3051 O GLU B 92 -45.444 11.653 97.494 1.00 40.00 O +ATOM 3052 CB GLU B 92 -45.310 8.603 98.958 1.00 40.00 C +ATOM 3053 CG GLU B 92 -46.388 9.303 99.780 1.00 40.00 C +ATOM 3054 CD GLU B 92 -46.585 8.715 101.164 1.00 40.00 C +ATOM 3055 OE1 GLU B 92 -45.715 7.950 101.636 1.00 40.00 O +ATOM 3056 OE2 GLU B 92 -47.617 9.027 101.792 1.00 40.00 O +ATOM 3057 N GLU B 93 -43.442 10.957 98.292 1.00 40.00 N +ATOM 3058 CA GLU B 93 -42.939 12.296 98.561 1.00 40.00 C +ATOM 3059 C GLU B 93 -43.052 13.207 97.342 1.00 40.00 C +ATOM 3060 O GLU B 93 -43.366 14.400 97.471 1.00 40.00 O +ATOM 3061 CB GLU B 93 -41.495 12.244 99.043 1.00 40.00 C +ATOM 3062 CG GLU B 93 -40.877 13.628 99.151 1.00 40.00 C +ATOM 3063 CD GLU B 93 -39.546 13.630 99.873 1.00 40.00 C +ATOM 3064 OE1 GLU B 93 -38.557 13.093 99.313 1.00 40.00 O +ATOM 3065 OE2 GLU B 93 -39.493 14.188 100.998 1.00 40.00 O +ATOM 3066 N GLU B 94 -42.791 12.641 96.165 1.00 40.00 N +ATOM 3067 CA GLU B 94 -42.983 13.381 94.934 1.00 40.00 C +ATOM 3068 C GLU B 94 -44.452 13.784 94.755 1.00 40.00 C +ATOM 3069 O GLU B 94 -44.734 14.907 94.319 1.00 40.00 O +ATOM 3070 CB GLU B 94 -42.458 12.621 93.714 1.00 40.00 C +ATOM 3071 CG GLU B 94 -42.543 13.458 92.442 1.00 40.00 C +ATOM 3072 CD GLU B 94 -41.943 12.792 91.229 1.00 40.00 C +ATOM 3073 OE1 GLU B 94 -40.910 12.104 91.369 1.00 40.00 O +ATOM 3074 OE2 GLU B 94 -42.505 12.978 90.128 1.00 40.00 O +ATOM 3075 N LEU B 95 -45.374 12.879 95.102 1.00 40.00 N +ATOM 3076 CA LEU B 95 -46.808 13.186 95.075 1.00 40.00 C +ATOM 3077 C LEU B 95 -47.161 14.216 96.151 1.00 40.00 C +ATOM 3078 O LEU B 95 -47.834 15.220 95.891 1.00 40.00 O +ATOM 3079 CB LEU B 95 -47.625 11.912 95.263 1.00 40.00 C +ATOM 3080 CG LEU B 95 -49.144 12.067 95.202 1.00 40.00 C +ATOM 3081 CD1 LEU B 95 -49.617 12.716 93.898 1.00 40.00 C +ATOM 3082 CD2 LEU B 95 -49.786 10.705 95.409 1.00 40.00 C +ATOM 3083 N THR B 96 -46.701 13.929 97.363 1.00 40.00 N +ATOM 3084 CA THR B 96 -46.629 14.885 98.462 1.00 40.00 C +ATOM 3085 C THR B 96 -45.690 16.047 98.102 1.00 40.00 C +ATOM 3086 O THR B 96 -45.914 17.200 98.478 1.00 40.00 O +ATOM 3087 CB THR B 96 -46.142 14.144 99.734 1.00 40.00 C +ATOM 3088 OG1 THR B 96 -47.275 13.674 100.467 1.00 40.00 O +ATOM 3089 CG2 THR B 96 -45.272 15.017 100.646 1.00 40.00 C +TER 3090 THR B 96 +ATOM 3091 N LYS C 18 -58.009 18.926 79.425 1.00 40.00 N +ATOM 3092 CA LYS C 18 -58.319 17.450 79.423 1.00 40.00 C +ATOM 3093 C LYS C 18 -57.250 16.682 78.632 1.00 40.00 C +ATOM 3094 O LYS C 18 -56.972 16.993 77.455 1.00 40.00 O +ATOM 3095 CB LYS C 18 -59.725 17.138 78.849 1.00 40.00 C +ATOM 3096 CG LYS C 18 -60.691 18.323 78.676 1.00 40.00 C +ATOM 3097 CD LYS C 18 -60.325 19.296 77.533 1.00 40.00 C +ATOM 3098 CE LYS C 18 -59.955 18.619 76.204 1.00 40.00 C +ATOM 3099 NZ LYS C 18 -61.102 17.999 75.476 1.00 40.00 N +ATOM 3100 N CYS C 19 -56.645 15.691 79.284 1.00 40.00 N +ATOM 3101 CA CYS C 19 -55.661 14.858 78.611 1.00 40.00 C +ATOM 3102 C CYS C 19 -56.375 13.639 77.986 1.00 40.00 C +ATOM 3103 O CYS C 19 -57.234 12.985 78.612 1.00 40.00 O +ATOM 3104 CB CYS C 19 -54.438 14.589 79.533 1.00 40.00 C +ATOM 3105 SG CYS C 19 -54.191 13.011 80.414 1.00 40.00 S +ATOM 3106 N SER C 20 -56.061 13.414 76.714 1.00 40.00 N +ATOM 3107 CA SER C 20 -56.756 12.448 75.898 1.00 40.00 C +ATOM 3108 C SER C 20 -55.937 11.176 75.749 1.00 40.00 C +ATOM 3109 O SER C 20 -54.711 11.211 75.766 1.00 40.00 O +ATOM 3110 CB SER C 20 -57.028 13.058 74.531 1.00 40.00 C +ATOM 3111 OG SER C 20 -57.317 12.055 73.580 1.00 40.00 O +ATOM 3112 N LYS C 21 -56.629 10.052 75.588 1.00 40.00 N +ATOM 3113 CA LYS C 21 -55.976 8.749 75.425 1.00 40.00 C +ATOM 3114 C LYS C 21 -55.500 8.538 73.990 1.00 40.00 C +ATOM 3115 O LYS C 21 -55.014 7.452 73.650 1.00 40.00 O +ATOM 3116 CB LYS C 21 -56.914 7.609 75.857 1.00 40.00 C +ATOM 3117 CG LYS C 21 -57.380 7.714 77.304 1.00 40.00 C +ATOM 3118 CD LYS C 21 -58.500 6.742 77.617 1.00 40.00 C +ATOM 3119 CE LYS C 21 -59.278 7.220 78.833 1.00 40.00 C +ATOM 3120 NZ LYS C 21 -60.349 6.258 79.206 1.00 40.00 N +ATOM 3121 N LYS C 22 -55.640 9.581 73.166 1.00 40.00 N +ATOM 3122 CA LYS C 22 -55.257 9.546 71.759 1.00 40.00 C +ATOM 3123 C LYS C 22 -54.057 10.458 71.563 1.00 40.00 C +ATOM 3124 O LYS C 22 -54.044 11.564 72.090 1.00 40.00 O +ATOM 3125 CB LYS C 22 -56.417 10.015 70.878 1.00 40.00 C +ATOM 3126 CG LYS C 22 -57.774 9.413 71.218 1.00 40.00 C +ATOM 3127 CD LYS C 22 -58.858 9.982 70.324 1.00 40.00 C +ATOM 3128 CE LYS C 22 -60.177 9.278 70.544 1.00 40.00 C +ATOM 3129 NZ LYS C 22 -61.203 9.839 69.630 1.00 40.00 N +ATOM 3130 N GLN C 23 -53.055 9.992 70.815 1.00 40.00 N +ATOM 3131 CA GLN C 23 -51.804 10.744 70.620 1.00 40.00 C +ATOM 3132 C GLN C 23 -52.053 12.095 69.994 1.00 40.00 C +ATOM 3133 O GLN C 23 -52.320 12.192 68.792 1.00 40.00 O +ATOM 3134 CB GLN C 23 -50.827 9.987 69.733 1.00 40.00 C +ATOM 3135 CG GLN C 23 -50.282 8.713 70.339 1.00 40.00 C +ATOM 3136 CD GLN C 23 -49.611 7.827 69.305 1.00 40.00 C +ATOM 3137 OE1 GLN C 23 -48.764 8.283 68.523 1.00 40.00 O +ATOM 3138 NE2 GLN C 23 -49.983 6.549 69.295 1.00 40.00 N +ATOM 3139 N GLU C 24 -51.955 13.143 70.802 1.00 40.00 N +ATOM 3140 CA GLU C 24 -52.297 14.462 70.309 1.00 40.00 C +ATOM 3141 C GLU C 24 -51.056 15.283 69.983 1.00 40.00 C +ATOM 3142 O GLU C 24 -51.152 16.425 69.542 1.00 40.00 O +ATOM 3143 CB GLU C 24 -53.274 15.166 71.263 1.00 40.00 C +ATOM 3144 CG GLU C 24 -54.615 14.429 71.362 1.00 40.00 C +ATOM 3145 CD GLU C 24 -55.843 15.342 71.429 1.00 40.00 C +ATOM 3146 OE1 GLU C 24 -55.779 16.502 70.941 1.00 40.00 O +ATOM 3147 OE2 GLU C 24 -56.892 14.881 71.955 1.00 40.00 O +ATOM 3148 N GLU C 25 -49.895 14.663 70.135 1.00 40.00 N +ATOM 3149 CA GLU C 25 -48.629 15.360 69.990 1.00 40.00 C +ATOM 3150 C GLU C 25 -48.146 15.495 68.541 1.00 40.00 C +ATOM 3151 O GLU C 25 -47.923 14.494 67.866 1.00 40.00 O +ATOM 3152 CB GLU C 25 -47.580 14.640 70.832 1.00 40.00 C +ATOM 3153 CG GLU C 25 -46.161 15.200 70.732 1.00 40.00 C +ATOM 3154 CD GLU C 25 -45.081 14.190 71.139 1.00 40.00 C +ATOM 3155 OE1 GLU C 25 -43.878 14.513 71.001 1.00 40.00 O +ATOM 3156 OE2 GLU C 25 -45.418 13.068 71.591 1.00 40.00 O +ATOM 3157 N GLY C 26 -47.959 16.735 68.090 1.00 40.00 N +ATOM 3158 CA GLY C 26 -47.467 17.018 66.743 1.00 40.00 C +ATOM 3159 C GLY C 26 -48.567 17.152 65.703 1.00 40.00 C +ATOM 3160 O GLY C 26 -48.339 17.646 64.600 1.00 40.00 O +ATOM 3161 N VAL C 27 -49.762 16.702 66.059 1.00 40.00 N +ATOM 3162 CA VAL C 27 -50.917 16.705 65.172 1.00 40.00 C +ATOM 3163 C VAL C 27 -51.241 18.137 64.758 1.00 40.00 C +ATOM 3164 O VAL C 27 -51.474 18.974 65.625 1.00 40.00 O +ATOM 3165 CB VAL C 27 -52.140 16.099 65.903 1.00 40.00 C +ATOM 3166 CG1 VAL C 27 -53.366 16.071 65.004 1.00 40.00 C +ATOM 3167 CG2 VAL C 27 -51.836 14.701 66.423 1.00 40.00 C +ATOM 3168 N VAL C 28 -51.252 18.427 63.456 1.00 40.00 N +ATOM 3169 CA VAL C 28 -51.605 19.779 62.973 1.00 40.00 C +ATOM 3170 C VAL C 28 -52.984 19.809 62.296 1.00 40.00 C +ATOM 3171 O VAL C 28 -53.421 18.810 61.748 1.00 40.00 O +ATOM 3172 CB VAL C 28 -50.510 20.378 62.046 1.00 40.00 C +ATOM 3173 CG1 VAL C 28 -49.114 20.079 62.575 1.00 40.00 C +ATOM 3174 CG2 VAL C 28 -50.633 19.864 60.623 1.00 40.00 C +ATOM 3175 N THR C 29 -53.681 20.937 62.347 1.00 40.00 N +ATOM 3176 CA THR C 29 -54.941 21.038 61.611 1.00 40.00 C +ATOM 3177 C THR C 29 -55.071 22.296 60.777 1.00 40.00 C +ATOM 3178 O THR C 29 -54.453 23.330 61.067 1.00 40.00 O +ATOM 3179 CB THR C 29 -56.185 20.910 62.509 1.00 40.00 C +ATOM 3180 OG1 THR C 29 -55.939 21.548 63.766 1.00 40.00 O +ATOM 3181 CG2 THR C 29 -56.533 19.456 62.738 1.00 40.00 C +ATOM 3182 N ASN C 30 -55.889 22.165 59.735 1.00 40.00 N +ATOM 3183 CA ASN C 30 -56.228 23.234 58.807 1.00 40.00 C +ATOM 3184 C ASN C 30 -55.059 24.055 58.276 1.00 40.00 C +ATOM 3185 O ASN C 30 -55.192 25.262 58.029 1.00 40.00 O +ATOM 3186 CB ASN C 30 -57.311 24.109 59.417 1.00 40.00 C +ATOM 3187 CG ASN C 30 -58.629 23.387 59.497 1.00 40.00 C +ATOM 3188 OD1 ASN C 30 -59.401 23.385 58.538 1.00 40.00 O +ATOM 3189 ND2 ASN C 30 -58.887 22.746 60.633 1.00 40.00 N +ATOM 3190 N LEU C 31 -53.924 23.383 58.080 1.00 40.00 N +ATOM 3191 CA LEU C 31 -52.718 24.011 57.540 1.00 40.00 C +ATOM 3192 C LEU C 31 -52.982 24.730 56.207 1.00 40.00 C +ATOM 3193 O LEU C 31 -52.474 25.829 55.970 1.00 40.00 O +ATOM 3194 CB LEU C 31 -51.596 22.987 57.401 1.00 40.00 C +ATOM 3195 CG LEU C 31 -50.291 23.335 58.116 1.00 40.00 C +ATOM 3196 CD1 LEU C 31 -49.233 22.305 57.768 1.00 40.00 C +ATOM 3197 CD2 LEU C 31 -49.800 24.741 57.787 1.00 40.00 C +ATOM 3198 N TYR C 32 -53.788 24.111 55.351 1.00 40.00 N +ATOM 3199 CA TYR C 32 -54.310 24.788 54.177 1.00 40.00 C +ATOM 3200 C TYR C 32 -55.843 24.795 54.232 1.00 40.00 C +ATOM 3201 O TYR C 32 -56.464 23.794 54.615 1.00 40.00 O +ATOM 3202 CB TYR C 32 -53.822 24.115 52.889 1.00 40.00 C +ATOM 3203 CG TYR C 32 -52.311 24.098 52.648 1.00 40.00 C +ATOM 3204 CD1 TYR C 32 -51.480 23.229 53.360 1.00 40.00 C +ATOM 3205 CD2 TYR C 32 -51.719 24.922 51.675 1.00 40.00 C +ATOM 3206 CE1 TYR C 32 -50.111 23.190 53.130 1.00 40.00 C +ATOM 3207 CE2 TYR C 32 -50.346 24.884 51.437 1.00 40.00 C +ATOM 3208 CZ TYR C 32 -49.549 24.011 52.170 1.00 40.00 C +ATOM 3209 OH TYR C 32 -48.191 23.953 51.963 1.00 40.00 O +ATOM 3210 N LYS C 33 -56.431 25.936 53.857 1.00 40.00 N +ATOM 3211 CA LYS C 33 -57.901 26.153 53.823 1.00 40.00 C +ATOM 3212 C LYS C 33 -58.391 26.383 52.371 1.00 40.00 C +ATOM 3213 O LYS C 33 -57.575 26.701 51.501 1.00 40.00 O +ATOM 3214 CB LYS C 33 -58.294 27.357 54.709 1.00 40.00 C +ATOM 3215 CG LYS C 33 -57.982 27.224 56.203 1.00 40.00 C +ATOM 3216 CD LYS C 33 -58.128 28.566 56.930 1.00 40.00 C +ATOM 3217 CE LYS C 33 -57.539 28.556 58.340 1.00 40.00 C +ATOM 3218 NZ LYS C 33 -56.047 28.576 58.334 1.00 40.00 N +ATOM 3219 N PRO C 34 -59.713 26.220 52.100 1.00 40.00 N +ATOM 3220 CA PRO C 34 -60.316 26.436 50.759 1.00 40.00 C +ATOM 3221 C PRO C 34 -59.958 27.747 49.999 1.00 40.00 C +ATOM 3222 O PRO C 34 -59.988 27.760 48.753 1.00 40.00 O +ATOM 3223 CB PRO C 34 -61.817 26.365 51.049 1.00 40.00 C +ATOM 3224 CG PRO C 34 -61.908 25.404 52.178 1.00 40.00 C +ATOM 3225 CD PRO C 34 -60.690 25.619 53.031 1.00 40.00 C +ATOM 3226 N LYS C 35 -59.637 28.822 50.735 1.00 40.00 N +ATOM 3227 CA LYS C 35 -59.136 30.083 50.147 1.00 40.00 C +ATOM 3228 C LYS C 35 -57.726 29.944 49.520 1.00 40.00 C +ATOM 3229 O LYS C 35 -57.483 30.459 48.414 1.00 40.00 O +ATOM 3230 CB LYS C 35 -59.146 31.223 51.184 1.00 40.00 C +ATOM 3231 CG LYS C 35 -57.854 31.369 51.995 1.00 40.00 C +ATOM 3232 CD LYS C 35 -58.042 32.238 53.226 1.00 40.00 C +ATOM 3233 CE LYS C 35 -58.807 31.494 54.323 1.00 40.00 C +ATOM 3234 NZ LYS C 35 -59.389 32.434 55.331 1.00 40.00 N +ATOM 3235 N GLU C 36 -56.812 29.265 50.234 1.00 40.00 N +ATOM 3236 CA GLU C 36 -55.432 29.011 49.755 1.00 40.00 C +ATOM 3237 C GLU C 36 -54.972 27.531 49.834 1.00 40.00 C +ATOM 3238 O GLU C 36 -54.097 27.199 50.674 1.00 40.00 O +ATOM 3239 CB GLU C 36 -54.430 29.949 50.446 1.00 40.00 C +ATOM 3240 CG GLU C 36 -54.447 31.352 49.858 1.00 40.00 C +ATOM 3241 CD GLU C 36 -53.270 32.193 50.299 1.00 40.00 C +ATOM 3242 OE1 GLU C 36 -53.513 33.280 50.859 1.00 40.00 O +ATOM 3243 OE2 GLU C 36 -52.107 31.776 50.091 1.00 40.00 O +ATOM 3244 N PRO C 37 -55.548 26.653 48.947 1.00 40.00 N +ATOM 3245 CA PRO C 37 -55.224 25.226 48.901 1.00 40.00 C +ATOM 3246 C PRO C 37 -53.844 24.952 48.327 1.00 40.00 C +ATOM 3247 O PRO C 37 -53.431 25.593 47.353 1.00 40.00 O +ATOM 3248 CB PRO C 37 -56.285 24.656 47.956 1.00 40.00 C +ATOM 3249 CG PRO C 37 -56.615 25.776 47.049 1.00 40.00 C +ATOM 3250 CD PRO C 37 -56.566 26.992 47.926 1.00 40.00 C +ATOM 3251 N TYR C 38 -53.137 24.004 48.933 1.00 40.00 N +ATOM 3252 CA TYR C 38 -51.904 23.513 48.355 1.00 40.00 C +ATOM 3253 C TYR C 38 -52.241 22.809 47.042 1.00 40.00 C +ATOM 3254 O TYR C 38 -53.164 21.981 46.990 1.00 40.00 O +ATOM 3255 CB TYR C 38 -51.203 22.553 49.311 1.00 40.00 C +ATOM 3256 CG TYR C 38 -50.038 21.856 48.679 1.00 40.00 C +ATOM 3257 CD1 TYR C 38 -48.798 22.492 48.545 1.00 40.00 C +ATOM 3258 CD2 TYR C 38 -50.181 20.562 48.186 1.00 40.00 C +ATOM 3259 CE1 TYR C 38 -47.730 21.838 47.948 1.00 40.00 C +ATOM 3260 CE2 TYR C 38 -49.126 19.900 47.591 1.00 40.00 C +ATOM 3261 CZ TYR C 38 -47.910 20.534 47.473 1.00 40.00 C +ATOM 3262 OH TYR C 38 -46.890 19.834 46.880 1.00 40.00 O +ATOM 3263 N VAL C 39 -51.518 23.153 45.981 1.00 40.00 N +ATOM 3264 CA VAL C 39 -51.703 22.445 44.727 1.00 40.00 C +ATOM 3265 C VAL C 39 -50.671 21.317 44.676 1.00 40.00 C +ATOM 3266 O VAL C 39 -49.466 21.579 44.682 1.00 40.00 O +ATOM 3267 CB VAL C 39 -51.642 23.387 43.507 1.00 40.00 C +ATOM 3268 CG1 VAL C 39 -51.728 22.588 42.217 1.00 40.00 C +ATOM 3269 CG2 VAL C 39 -52.789 24.387 43.566 1.00 40.00 C +ATOM 3270 N GLY C 40 -51.158 20.072 44.676 1.00 40.00 N +ATOM 3271 CA GLY C 40 -50.309 18.876 44.669 1.00 40.00 C +ATOM 3272 C GLY C 40 -50.352 18.208 43.322 1.00 40.00 C +ATOM 3273 O GLY C 40 -50.801 18.814 42.354 1.00 40.00 O +ATOM 3274 N ARG C 41 -49.896 16.960 43.246 1.00 40.00 N +ATOM 3275 CA ARG C 41 -49.868 16.271 41.959 1.00 40.00 C +ATOM 3276 C ARG C 41 -50.191 14.784 42.022 1.00 40.00 C +ATOM 3277 O ARG C 41 -49.794 14.104 42.959 1.00 40.00 O +ATOM 3278 CB ARG C 41 -48.532 16.494 41.263 1.00 40.00 C +ATOM 3279 CG ARG C 41 -48.652 16.407 39.755 1.00 40.00 C +ATOM 3280 CD ARG C 41 -47.429 16.973 39.051 1.00 40.00 C +ATOM 3281 NE ARG C 41 -47.310 18.440 39.146 1.00 40.00 N +ATOM 3282 CZ ARG C 41 -47.772 19.321 38.248 1.00 40.00 C +ATOM 3283 NH1 ARG C 41 -48.427 18.913 37.150 1.00 40.00 N +ATOM 3284 NH2 ARG C 41 -47.580 20.626 38.460 1.00 40.00 N +ATOM 3285 N CYS C 42 -50.914 14.299 41.009 1.00 40.00 N +ATOM 3286 CA CYS C 42 -51.350 12.902 40.924 1.00 40.00 C +ATOM 3287 C CYS C 42 -50.240 12.006 40.423 1.00 40.00 C +ATOM 3288 O CYS C 42 -49.746 12.182 39.315 1.00 40.00 O +ATOM 3289 CB CYS C 42 -52.570 12.755 40.005 1.00 40.00 C +ATOM 3290 SG CYS C 42 -53.073 11.032 39.708 1.00 40.00 S +ATOM 3291 N LEU C 43 -49.873 11.033 41.247 1.00 40.00 N +ATOM 3292 CA LEU C 43 -48.792 10.095 40.936 1.00 40.00 C +ATOM 3293 C LEU C 43 -49.354 8.759 40.439 1.00 40.00 C +ATOM 3294 O LEU C 43 -49.005 8.280 39.358 1.00 40.00 O +ATOM 3295 CB LEU C 43 -47.910 9.874 42.175 1.00 40.00 C +ATOM 3296 CG LEU C 43 -46.896 10.914 42.686 1.00 40.00 C +ATOM 3297 CD1 LEU C 43 -47.278 12.360 42.380 1.00 40.00 C +ATOM 3298 CD2 LEU C 43 -46.657 10.743 44.181 1.00 40.00 C +ATOM 3299 N LEU C 44 -50.224 8.165 41.248 1.00 40.00 N +ATOM 3300 CA LEU C 44 -50.913 6.941 40.886 1.00 40.00 C +ATOM 3301 C LEU C 44 -52.397 7.185 40.790 1.00 40.00 C +ATOM 3302 O LEU C 44 -52.868 8.298 41.039 1.00 40.00 O +ATOM 3303 CB LEU C 44 -50.658 5.850 41.916 1.00 40.00 C +ATOM 3304 CG LEU C 44 -49.261 5.247 41.897 1.00 40.00 C +ATOM 3305 CD1 LEU C 44 -49.255 3.977 42.730 1.00 40.00 C +ATOM 3306 CD2 LEU C 44 -48.778 4.963 40.477 1.00 40.00 C +ATOM 3307 N ASN C 45 -53.124 6.132 40.422 1.00 40.00 N +ATOM 3308 CA ASN C 45 -54.578 6.148 40.358 1.00 40.00 C +ATOM 3309 C ASN C 45 -55.012 4.834 39.750 1.00 40.00 C +ATOM 3310 O ASN C 45 -55.078 4.690 38.538 1.00 40.00 O +ATOM 3311 CB ASN C 45 -55.104 7.336 39.533 1.00 40.00 C +ATOM 3312 CG ASN C 45 -56.578 7.615 39.779 1.00 40.00 C +ATOM 3313 OD1 ASN C 45 -57.219 6.952 40.592 1.00 40.00 O +ATOM 3314 ND2 ASN C 45 -57.123 8.600 39.073 1.00 40.00 N +ATOM 3315 N THR C 46 -55.294 3.864 40.601 1.00 40.00 N +ATOM 3316 CA THR C 46 -55.593 2.515 40.144 1.00 40.00 C +ATOM 3317 C THR C 46 -56.983 2.131 40.626 1.00 40.00 C +ATOM 3318 O THR C 46 -57.333 2.381 41.780 1.00 40.00 O +ATOM 3319 CB THR C 46 -54.528 1.527 40.669 1.00 40.00 C +ATOM 3320 OG1 THR C 46 -53.223 2.059 40.388 1.00 40.00 O +ATOM 3321 CG2 THR C 46 -54.675 0.119 40.056 1.00 40.00 C +ATOM 3322 N LYS C 47 -57.795 1.564 39.737 1.00 40.00 N +ATOM 3323 CA LYS C 47 -59.039 0.956 40.177 1.00 40.00 C +ATOM 3324 C LYS C 47 -58.617 -0.238 41.015 1.00 40.00 C +ATOM 3325 O LYS C 47 -57.631 -0.918 40.696 1.00 40.00 O +ATOM 3326 CB LYS C 47 -59.940 0.530 39.007 1.00 40.00 C +ATOM 3327 CG LYS C 47 -61.374 0.227 39.436 1.00 40.00 C +ATOM 3328 CD LYS C 47 -62.341 0.149 38.271 1.00 40.00 C +ATOM 3329 CE LYS C 47 -62.826 -1.264 38.039 1.00 40.00 C +ATOM 3330 NZ LYS C 47 -64.128 -1.269 37.325 1.00 40.00 N +ATOM 3331 N ILE C 48 -59.338 -0.460 42.108 1.00 40.00 N +ATOM 3332 CA ILE C 48 -59.023 -1.561 43.020 1.00 40.00 C +ATOM 3333 C ILE C 48 -60.203 -2.518 43.215 1.00 40.00 C +ATOM 3334 O ILE C 48 -60.050 -3.601 43.803 1.00 40.00 O +ATOM 3335 CB ILE C 48 -58.502 -1.044 44.370 1.00 40.00 C +ATOM 3336 CG1 ILE C 48 -59.407 0.069 44.891 1.00 40.00 C +ATOM 3337 CG2 ILE C 48 -57.076 -0.532 44.219 1.00 40.00 C +ATOM 3338 CD1 ILE C 48 -59.380 0.222 46.389 1.00 40.00 C +ATOM 3339 N THR C 49 -61.371 -2.098 42.721 1.00 40.00 N +ATOM 3340 CA THR C 49 -62.527 -2.976 42.558 1.00 40.00 C +ATOM 3341 C THR C 49 -62.402 -3.763 41.235 1.00 40.00 C +ATOM 3342 O THR C 49 -61.833 -3.247 40.257 1.00 40.00 O +ATOM 3343 CB THR C 49 -63.866 -2.182 42.573 1.00 40.00 C +ATOM 3344 OG1 THR C 49 -63.812 -1.096 41.640 1.00 40.00 O +ATOM 3345 CG2 THR C 49 -64.174 -1.638 43.948 1.00 40.00 C +ATOM 3346 N GLY C 50 -62.919 -5.003 41.216 1.00 40.00 N +ATOM 3347 CA GLY C 50 -63.077 -5.809 39.977 1.00 40.00 C +ATOM 3348 C GLY C 50 -63.970 -5.142 38.920 1.00 40.00 C +ATOM 3349 O GLY C 50 -64.459 -4.019 39.126 1.00 40.00 O +ATOM 3350 N ASP C 51 -64.192 -5.803 37.782 1.00 40.00 N +ATOM 3351 CA ASP C 51 -64.990 -5.176 36.707 1.00 40.00 C +ATOM 3352 C ASP C 51 -66.493 -5.389 36.854 1.00 40.00 C +ATOM 3353 O ASP C 51 -67.312 -4.576 36.396 1.00 40.00 O +ATOM 3354 CB ASP C 51 -64.514 -5.649 35.347 1.00 40.00 C +ATOM 3355 CG ASP C 51 -63.217 -5.007 34.953 1.00 40.00 C +ATOM 3356 OD1 ASP C 51 -62.207 -5.738 34.834 1.00 40.00 O +ATOM 3357 OD2 ASP C 51 -63.207 -3.767 34.794 1.00 40.00 O +ATOM 3358 N ASP C 52 -66.822 -6.505 37.498 1.00 40.00 N +ATOM 3359 CA ASP C 52 -68.181 -6.864 37.878 1.00 40.00 C +ATOM 3360 C ASP C 52 -68.681 -6.034 39.079 1.00 40.00 C +ATOM 3361 O ASP C 52 -69.885 -5.939 39.315 1.00 40.00 O +ATOM 3362 CB ASP C 52 -68.256 -8.376 38.168 1.00 40.00 C +ATOM 3363 CG ASP C 52 -67.097 -8.880 39.031 1.00 40.00 C +ATOM 3364 OD1 ASP C 52 -65.933 -8.456 38.837 1.00 40.00 O +ATOM 3365 OD2 ASP C 52 -67.356 -9.724 39.903 1.00 40.00 O +ATOM 3366 N ALA C 53 -67.753 -5.421 39.816 1.00 40.00 N +ATOM 3367 CA ALA C 53 -68.073 -4.624 41.002 1.00 40.00 C +ATOM 3368 C ALA C 53 -69.131 -3.569 40.735 1.00 40.00 C +ATOM 3369 O ALA C 53 -69.051 -2.865 39.731 1.00 40.00 O +ATOM 3370 CB ALA C 53 -66.820 -3.966 41.551 1.00 40.00 C +ATOM 3371 N PRO C 54 -70.120 -3.458 41.643 1.00 40.00 N +ATOM 3372 CA PRO C 54 -71.227 -2.494 41.565 1.00 40.00 C +ATOM 3373 C PRO C 54 -70.863 -0.994 41.458 1.00 40.00 C +ATOM 3374 O PRO C 54 -71.552 -0.237 40.772 1.00 40.00 O +ATOM 3375 CB PRO C 54 -72.017 -2.754 42.867 1.00 40.00 C +ATOM 3376 CG PRO C 54 -71.120 -3.569 43.734 1.00 40.00 C +ATOM 3377 CD PRO C 54 -70.301 -4.382 42.777 1.00 40.00 C +ATOM 3378 N GLY C 55 -69.806 -0.558 42.122 1.00 40.00 N +ATOM 3379 CA GLY C 55 -69.601 0.876 42.267 1.00 40.00 C +ATOM 3380 C GLY C 55 -68.351 1.481 41.663 1.00 40.00 C +ATOM 3381 O GLY C 55 -68.365 2.660 41.300 1.00 40.00 O +ATOM 3382 N GLU C 56 -67.278 0.686 41.571 1.00 40.00 N +ATOM 3383 CA GLU C 56 -65.955 1.160 41.138 1.00 40.00 C +ATOM 3384 C GLU C 56 -65.262 2.108 42.165 1.00 40.00 C +ATOM 3385 O GLU C 56 -65.774 3.196 42.494 1.00 40.00 O +ATOM 3386 CB GLU C 56 -66.038 1.778 39.738 1.00 40.00 C +ATOM 3387 CG GLU C 56 -64.734 2.341 39.221 1.00 40.00 C +ATOM 3388 CD GLU C 56 -64.866 2.912 37.832 1.00 40.00 C +ATOM 3389 OE1 GLU C 56 -65.247 2.158 36.920 1.00 40.00 O +ATOM 3390 OE2 GLU C 56 -64.581 4.108 37.647 1.00 40.00 O +ATOM 3391 N THR C 57 -64.094 1.674 42.658 1.00 40.00 N +ATOM 3392 CA THR C 57 -63.320 2.411 43.667 1.00 40.00 C +ATOM 3393 C THR C 57 -61.814 2.373 43.371 1.00 40.00 C +ATOM 3394 O THR C 57 -61.236 1.300 43.158 1.00 40.00 O +ATOM 3395 CB THR C 57 -63.618 1.863 45.070 1.00 40.00 C +ATOM 3396 OG1 THR C 57 -64.954 2.224 45.433 1.00 40.00 O +ATOM 3397 CG2 THR C 57 -62.652 2.415 46.100 1.00 40.00 C +ATOM 3398 N TRP C 58 -61.198 3.558 43.371 1.00 40.00 N +ATOM 3399 CA TRP C 58 -59.799 3.748 42.956 1.00 40.00 C +ATOM 3400 C TRP C 58 -58.870 4.143 44.073 1.00 40.00 C +ATOM 3401 O TRP C 58 -59.270 4.879 44.979 1.00 40.00 O +ATOM 3402 CB TRP C 58 -59.730 4.848 41.914 1.00 40.00 C +ATOM 3403 CG TRP C 58 -60.412 4.540 40.613 1.00 40.00 C +ATOM 3404 CD1 TRP C 58 -61.772 4.392 40.375 1.00 40.00 C +ATOM 3405 CD2 TRP C 58 -59.776 4.366 39.311 1.00 40.00 C +ATOM 3406 NE1 TRP C 58 -62.006 4.137 39.054 1.00 40.00 N +ATOM 3407 CE2 TRP C 58 -60.852 4.107 38.362 1.00 40.00 C +ATOM 3408 CE3 TRP C 58 -58.469 4.400 38.854 1.00 40.00 C +ATOM 3409 CZ2 TRP C 58 -60.605 3.887 37.019 1.00 40.00 C +ATOM 3410 CZ3 TRP C 58 -58.230 4.172 37.499 1.00 40.00 C +ATOM 3411 CH2 TRP C 58 -59.273 3.924 36.605 1.00 40.00 C +ATOM 3412 N HIS C 59 -57.613 3.699 44.002 1.00 40.00 N +ATOM 3413 CA HIS C 59 -56.595 4.095 44.987 1.00 40.00 C +ATOM 3414 C HIS C 59 -55.609 5.053 44.395 1.00 40.00 C +ATOM 3415 O HIS C 59 -54.871 4.695 43.484 1.00 40.00 O +ATOM 3416 CB HIS C 59 -55.866 2.879 45.546 1.00 40.00 C +ATOM 3417 CG HIS C 59 -54.840 3.214 46.605 1.00 40.00 C +ATOM 3418 ND1 HIS C 59 -55.172 3.478 47.882 1.00 40.00 N +ATOM 3419 CD2 HIS C 59 -53.455 3.315 46.534 1.00 40.00 C +ATOM 3420 CE1 HIS C 59 -54.057 3.736 48.594 1.00 40.00 C +ATOM 3421 NE2 HIS C 59 -53.007 3.636 47.769 1.00 40.00 N +ATOM 3422 N MET C 60 -55.572 6.280 44.913 1.00 40.00 N +ATOM 3423 CA MET C 60 -54.713 7.318 44.342 1.00 40.00 C +ATOM 3424 C MET C 60 -53.772 7.939 45.354 1.00 40.00 C +ATOM 3425 O MET C 60 -54.111 8.080 46.532 1.00 40.00 O +ATOM 3426 CB MET C 60 -55.554 8.405 43.717 1.00 40.00 C +ATOM 3427 CG MET C 60 -56.531 8.993 44.697 1.00 40.00 C +ATOM 3428 SD MET C 60 -57.842 9.607 43.678 1.00 40.00 S +ATOM 3429 CE MET C 60 -58.815 8.132 43.402 1.00 40.00 C +ATOM 3430 N VAL C 61 -52.595 8.321 44.864 1.00 40.00 N +ATOM 3431 CA VAL C 61 -51.534 8.888 45.687 1.00 40.00 C +ATOM 3432 C VAL C 61 -51.145 10.281 45.154 1.00 40.00 C +ATOM 3433 O VAL C 61 -51.163 10.504 43.941 1.00 40.00 O +ATOM 3434 CB VAL C 61 -50.304 7.956 45.714 1.00 40.00 C +ATOM 3435 CG1 VAL C 61 -49.547 8.119 47.015 1.00 40.00 C +ATOM 3436 CG2 VAL C 61 -50.715 6.501 45.572 1.00 40.00 C +ATOM 3437 N PHE C 62 -50.816 11.216 46.056 1.00 40.00 N +ATOM 3438 CA PHE C 62 -50.438 12.591 45.672 1.00 40.00 C +ATOM 3439 C PHE C 62 -49.126 13.094 46.276 1.00 40.00 C +ATOM 3440 O PHE C 62 -48.780 12.771 47.410 1.00 40.00 O +ATOM 3441 CB PHE C 62 -51.535 13.599 46.026 1.00 40.00 C +ATOM 3442 CG PHE C 62 -52.921 13.194 45.602 1.00 40.00 C +ATOM 3443 CD1 PHE C 62 -53.204 12.859 44.283 1.00 40.00 C +ATOM 3444 CD2 PHE C 62 -53.964 13.194 46.525 1.00 40.00 C +ATOM 3445 CE1 PHE C 62 -54.491 12.497 43.906 1.00 40.00 C +ATOM 3446 CE2 PHE C 62 -55.254 12.843 46.151 1.00 40.00 C +ATOM 3447 CZ PHE C 62 -55.518 12.494 44.839 1.00 40.00 C +ATOM 3448 N SER C 63 -48.419 13.917 45.504 1.00 40.00 N +ATOM 3449 CA SER C 63 -47.179 14.549 45.947 1.00 40.00 C +ATOM 3450 C SER C 63 -47.503 15.738 46.828 1.00 40.00 C +ATOM 3451 O SER C 63 -48.339 16.579 46.477 1.00 40.00 O +ATOM 3452 CB SER C 63 -46.331 15.000 44.756 1.00 40.00 C +ATOM 3453 OG SER C 63 -47.059 15.878 43.916 1.00 40.00 O +ATOM 3454 N THR C 64 -46.819 15.805 47.965 1.00 40.00 N +ATOM 3455 CA THR C 64 -47.136 16.761 49.014 1.00 40.00 C +ATOM 3456 C THR C 64 -45.948 17.648 49.338 1.00 40.00 C +ATOM 3457 O THR C 64 -46.102 18.696 49.950 1.00 40.00 O +ATOM 3458 CB THR C 64 -47.523 16.027 50.307 1.00 40.00 C +ATOM 3459 OG1 THR C 64 -46.363 15.396 50.854 1.00 40.00 O +ATOM 3460 CG2 THR C 64 -48.559 14.966 50.029 1.00 40.00 C +ATOM 3461 N GLU C 65 -44.761 17.207 48.933 1.00 40.00 N +ATOM 3462 CA GLU C 65 -43.499 17.854 49.303 1.00 40.00 C +ATOM 3463 C GLU C 65 -43.231 17.805 50.818 1.00 40.00 C +ATOM 3464 O GLU C 65 -42.460 18.612 51.354 1.00 40.00 O +ATOM 3465 CB GLU C 65 -43.449 19.306 48.814 1.00 40.00 C +ATOM 3466 CG GLU C 65 -43.635 19.518 47.320 1.00 40.00 C +ATOM 3467 CD GLU C 65 -43.610 20.998 46.938 1.00 40.00 C +ATOM 3468 OE1 GLU C 65 -42.513 21.599 46.914 1.00 40.00 O +ATOM 3469 OE2 GLU C 65 -44.687 21.571 46.660 1.00 40.00 O +ATOM 3470 N GLY C 66 -43.861 16.850 51.503 1.00 40.00 N +ATOM 3471 CA GLY C 66 -43.715 16.711 52.951 1.00 40.00 C +ATOM 3472 C GLY C 66 -44.311 17.906 53.655 1.00 40.00 C +ATOM 3473 O GLY C 66 -44.203 18.040 54.877 1.00 40.00 O +ATOM 3474 N LYS C 67 -44.951 18.768 52.864 1.00 40.00 N +ATOM 3475 CA LYS C 67 -45.543 20.032 53.337 1.00 40.00 C +ATOM 3476 C LYS C 67 -46.858 19.856 54.118 1.00 40.00 C +ATOM 3477 O LYS C 67 -47.478 20.842 54.532 1.00 40.00 O +ATOM 3478 CB LYS C 67 -45.752 21.023 52.167 1.00 40.00 C +ATOM 3479 CG LYS C 67 -44.493 21.752 51.715 1.00 40.00 C +ATOM 3480 CD LYS C 67 -44.784 22.851 50.705 1.00 40.00 C +ATOM 3481 CE LYS C 67 -43.497 23.583 50.353 1.00 40.00 C +ATOM 3482 NZ LYS C 67 -43.700 24.661 49.351 1.00 40.00 N +ATOM 3483 N ILE C 68 -47.281 18.608 54.305 1.00 40.00 N +ATOM 3484 CA ILE C 68 -48.496 18.318 55.042 1.00 40.00 C +ATOM 3485 C ILE C 68 -48.251 17.161 56.003 1.00 40.00 C +ATOM 3486 O ILE C 68 -48.615 16.029 55.700 1.00 40.00 O +ATOM 3487 CB ILE C 68 -49.655 18.004 54.089 1.00 40.00 C +ATOM 3488 CG1 ILE C 68 -49.877 19.194 53.156 1.00 40.00 C +ATOM 3489 CG2 ILE C 68 -50.904 17.700 54.890 1.00 40.00 C +ATOM 3490 CD1 ILE C 68 -50.796 18.942 51.986 1.00 40.00 C +ATOM 3491 N PRO C 69 -47.626 17.443 57.168 1.00 40.00 N +ATOM 3492 CA PRO C 69 -47.273 16.400 58.136 1.00 40.00 C +ATOM 3493 C PRO C 69 -48.516 15.832 58.800 1.00 40.00 C +ATOM 3494 O PRO C 69 -48.785 16.111 59.972 1.00 40.00 O +ATOM 3495 CB PRO C 69 -46.394 17.138 59.157 1.00 40.00 C +ATOM 3496 CG PRO C 69 -46.870 18.544 59.101 1.00 40.00 C +ATOM 3497 CD PRO C 69 -47.282 18.788 57.669 1.00 40.00 C +ATOM 3498 N TYR C 70 -49.266 15.044 58.034 1.00 40.00 N +ATOM 3499 CA TYR C 70 -50.494 14.444 58.528 1.00 40.00 C +ATOM 3500 C TYR C 70 -50.218 13.312 59.482 1.00 40.00 C +ATOM 3501 O TYR C 70 -49.094 12.825 59.593 1.00 40.00 O +ATOM 3502 CB TYR C 70 -51.425 13.985 57.390 1.00 40.00 C +ATOM 3503 CG TYR C 70 -50.918 12.876 56.477 1.00 40.00 C +ATOM 3504 CD1 TYR C 70 -51.317 11.556 56.657 1.00 40.00 C +ATOM 3505 CD2 TYR C 70 -50.083 13.162 55.396 1.00 40.00 C +ATOM 3506 CE1 TYR C 70 -50.873 10.550 55.809 1.00 40.00 C +ATOM 3507 CE2 TYR C 70 -49.636 12.163 54.543 1.00 40.00 C +ATOM 3508 CZ TYR C 70 -50.038 10.865 54.755 1.00 40.00 C +ATOM 3509 OH TYR C 70 -49.591 9.887 53.909 1.00 40.00 O +ATOM 3510 N ARG C 71 -51.261 12.908 60.181 1.00 40.00 N +ATOM 3511 CA ARG C 71 -51.132 11.818 61.096 1.00 40.00 C +ATOM 3512 C ARG C 71 -52.317 10.864 60.965 1.00 40.00 C +ATOM 3513 O ARG C 71 -53.437 11.260 60.625 1.00 40.00 O +ATOM 3514 CB ARG C 71 -50.921 12.342 62.520 1.00 40.00 C +ATOM 3515 CG ARG C 71 -49.958 11.516 63.371 1.00 40.00 C +ATOM 3516 CD ARG C 71 -48.494 11.578 62.915 1.00 40.00 C +ATOM 3517 NE ARG C 71 -47.780 12.796 63.329 1.00 40.00 N +ATOM 3518 CZ ARG C 71 -47.215 13.002 64.528 1.00 40.00 C +ATOM 3519 NH1 ARG C 71 -47.280 12.081 65.489 1.00 40.00 N +ATOM 3520 NH2 ARG C 71 -46.588 14.152 64.782 1.00 40.00 N +ATOM 3521 N GLU C 72 -52.018 9.597 61.223 1.00 40.00 N +ATOM 3522 CA GLU C 72 -52.904 8.477 60.988 1.00 40.00 C +ATOM 3523 C GLU C 72 -54.313 8.727 61.481 1.00 40.00 C +ATOM 3524 O GLU C 72 -54.547 8.848 62.683 1.00 40.00 O +ATOM 3525 CB GLU C 72 -52.336 7.229 61.662 1.00 40.00 C +ATOM 3526 CG GLU C 72 -51.081 6.668 61.002 1.00 40.00 C +ATOM 3527 CD GLU C 72 -49.790 7.381 61.402 1.00 40.00 C +ATOM 3528 OE1 GLU C 72 -49.816 8.160 62.383 1.00 40.00 O +ATOM 3529 OE2 GLU C 72 -48.737 7.150 60.744 1.00 40.00 O +ATOM 3530 N GLY C 73 -55.247 8.810 60.540 1.00 40.00 N +ATOM 3531 CA GLY C 73 -56.665 8.884 60.870 1.00 40.00 C +ATOM 3532 C GLY C 73 -57.318 10.129 60.329 1.00 40.00 C +ATOM 3533 O GLY C 73 -58.551 10.237 60.251 1.00 40.00 O +ATOM 3534 N GLN C 74 -56.483 11.078 59.948 1.00 40.00 N +ATOM 3535 CA GLN C 74 -56.991 12.319 59.419 1.00 40.00 C +ATOM 3536 C GLN C 74 -57.663 12.097 58.074 1.00 40.00 C +ATOM 3537 O GLN C 74 -57.856 10.964 57.632 1.00 40.00 O +ATOM 3538 CB GLN C 74 -55.884 13.362 59.355 1.00 40.00 C +ATOM 3539 CG GLN C 74 -55.479 13.831 60.738 1.00 40.00 C +ATOM 3540 CD GLN C 74 -54.476 14.950 60.695 1.00 40.00 C +ATOM 3541 OE1 GLN C 74 -53.327 14.750 60.299 1.00 40.00 O +ATOM 3542 NE2 GLN C 74 -54.897 16.139 61.118 1.00 40.00 N +ATOM 3543 N SER C 75 -58.048 13.193 57.449 1.00 40.00 N +ATOM 3544 CA SER C 75 -58.818 13.155 56.237 1.00 40.00 C +ATOM 3545 C SER C 75 -58.419 14.432 55.534 1.00 40.00 C +ATOM 3546 O SER C 75 -57.978 15.372 56.194 1.00 40.00 O +ATOM 3547 CB SER C 75 -60.306 13.178 56.585 1.00 40.00 C +ATOM 3548 OG SER C 75 -60.566 12.573 57.851 1.00 40.00 O +ATOM 3549 N ILE C 76 -58.530 14.490 54.210 1.00 40.00 N +ATOM 3550 CA ILE C 76 -58.253 15.771 53.533 1.00 40.00 C +ATOM 3551 C ILE C 76 -59.353 16.315 52.630 1.00 40.00 C +ATOM 3552 O ILE C 76 -60.336 15.631 52.310 1.00 40.00 O +ATOM 3553 CB ILE C 76 -56.908 15.813 52.770 1.00 40.00 C +ATOM 3554 CG1 ILE C 76 -56.843 14.726 51.688 1.00 40.00 C +ATOM 3555 CG2 ILE C 76 -55.745 15.729 53.741 1.00 40.00 C +ATOM 3556 CD1 ILE C 76 -55.962 15.094 50.504 1.00 40.00 C +ATOM 3557 N GLY C 77 -59.153 17.562 52.224 1.00 40.00 N +ATOM 3558 CA GLY C 77 -60.093 18.231 51.372 1.00 40.00 C +ATOM 3559 C GLY C 77 -59.632 18.239 49.935 1.00 40.00 C +ATOM 3560 O GLY C 77 -58.426 18.292 49.641 1.00 40.00 O +ATOM 3561 N VAL C 78 -60.621 18.173 49.045 1.00 40.00 N +ATOM 3562 CA VAL C 78 -60.398 18.236 47.615 1.00 40.00 C +ATOM 3563 C VAL C 78 -61.353 19.244 46.996 1.00 40.00 C +ATOM 3564 O VAL C 78 -62.579 19.092 47.053 1.00 40.00 O +ATOM 3565 CB VAL C 78 -60.586 16.858 46.951 1.00 40.00 C +ATOM 3566 CG1 VAL C 78 -60.445 16.967 45.443 1.00 40.00 C +ATOM 3567 CG2 VAL C 78 -59.570 15.861 47.484 1.00 40.00 C +ATOM 3568 N ILE C 79 -60.766 20.288 46.428 1.00 40.00 N +ATOM 3569 CA ILE C 79 -61.492 21.203 45.568 1.00 40.00 C +ATOM 3570 C ILE C 79 -61.450 20.629 44.140 1.00 40.00 C +ATOM 3571 O ILE C 79 -60.380 20.617 43.487 1.00 40.00 O +ATOM 3572 CB ILE C 79 -60.910 22.641 45.631 1.00 40.00 C +ATOM 3573 CG1 ILE C 79 -60.945 23.163 47.083 1.00 40.00 C +ATOM 3574 CG2 ILE C 79 -61.654 23.580 44.671 1.00 40.00 C +ATOM 3575 CD1 ILE C 79 -59.961 24.277 47.402 1.00 40.00 C +ATOM 3576 N ALA C 80 -62.615 20.126 43.691 1.00 40.00 N +ATOM 3577 CA ALA C 80 -62.832 19.603 42.320 1.00 40.00 C +ATOM 3578 C ALA C 80 -62.685 20.693 41.249 1.00 40.00 C +ATOM 3579 O ALA C 80 -63.093 21.850 41.454 1.00 40.00 O +ATOM 3580 CB ALA C 80 -64.200 18.933 42.211 1.00 40.00 C +ATOM 3581 N ASP C 81 -62.102 20.329 40.108 1.00 40.00 N +ATOM 3582 CA ASP C 81 -61.849 21.309 39.051 1.00 40.00 C +ATOM 3583 C ASP C 81 -63.120 21.725 38.320 1.00 40.00 C +ATOM 3584 O ASP C 81 -64.010 20.902 38.088 1.00 40.00 O +ATOM 3585 CB ASP C 81 -60.772 20.818 38.084 1.00 40.00 C +ATOM 3586 CG ASP C 81 -59.353 21.053 38.614 1.00 40.00 C +ATOM 3587 OD1 ASP C 81 -59.174 21.320 39.834 1.00 40.00 O +ATOM 3588 OD2 ASP C 81 -58.406 20.971 37.799 1.00 40.00 O +ATOM 3589 N GLY C 82 -63.194 23.012 37.981 1.00 40.00 N +ATOM 3590 CA GLY C 82 -64.398 23.599 37.405 1.00 40.00 C +ATOM 3591 C GLY C 82 -65.100 24.521 38.387 1.00 40.00 C +ATOM 3592 O GLY C 82 -64.574 24.795 39.482 1.00 40.00 O +ATOM 3593 N VAL C 83 -66.285 25.001 37.990 1.00 40.00 N +ATOM 3594 CA VAL C 83 -67.094 25.921 38.813 1.00 40.00 C +ATOM 3595 C VAL C 83 -68.561 25.462 38.916 1.00 40.00 C +ATOM 3596 O VAL C 83 -69.039 24.665 38.088 1.00 40.00 O +ATOM 3597 CB VAL C 83 -66.981 27.400 38.333 1.00 40.00 C +ATOM 3598 CG1 VAL C 83 -65.600 27.987 38.654 1.00 40.00 C +ATOM 3599 CG2 VAL C 83 -67.299 27.525 36.846 1.00 40.00 C +ATOM 3600 N ASP C 84 -69.255 25.933 39.952 1.00 40.00 N +ATOM 3601 CA ASP C 84 -70.674 25.645 40.106 1.00 40.00 C +ATOM 3602 C ASP C 84 -71.456 26.538 39.138 1.00 40.00 C +ATOM 3603 O ASP C 84 -70.844 27.245 38.329 1.00 40.00 O +ATOM 3604 CB ASP C 84 -71.117 25.852 41.564 1.00 40.00 C +ATOM 3605 CG ASP C 84 -70.956 27.295 42.043 1.00 40.00 C +ATOM 3606 OD1 ASP C 84 -71.272 27.574 43.216 1.00 40.00 O +ATOM 3607 OD2 ASP C 84 -70.523 28.158 41.257 1.00 40.00 O +ATOM 3608 N LYS C 85 -72.789 26.517 39.221 1.00 40.00 N +ATOM 3609 CA LYS C 85 -73.635 27.398 38.400 1.00 40.00 C +ATOM 3610 C LYS C 85 -73.283 28.893 38.501 1.00 40.00 C +ATOM 3611 O LYS C 85 -73.508 29.639 37.544 1.00 40.00 O +ATOM 3612 CB LYS C 85 -75.116 27.213 38.735 1.00 40.00 C +ATOM 3613 CG LYS C 85 -75.462 27.436 40.204 1.00 40.00 C +ATOM 3614 CD LYS C 85 -76.963 27.503 40.431 1.00 40.00 C +ATOM 3615 CE LYS C 85 -77.680 26.403 39.669 1.00 40.00 C +ATOM 3616 NZ LYS C 85 -76.907 25.123 39.643 1.00 40.00 N +ATOM 3617 N ASN C 86 -72.738 29.321 39.648 1.00 40.00 N +ATOM 3618 CA ASN C 86 -72.501 30.752 39.942 1.00 40.00 C +ATOM 3619 C ASN C 86 -71.091 31.275 39.634 1.00 40.00 C +ATOM 3620 O ASN C 86 -70.720 32.356 40.114 1.00 40.00 O +ATOM 3621 CB ASN C 86 -72.836 31.067 41.413 1.00 40.00 C +ATOM 3622 CG ASN C 86 -74.321 30.932 41.738 1.00 40.00 C +ATOM 3623 OD1 ASN C 86 -74.751 31.265 42.844 1.00 40.00 O +ATOM 3624 ND2 ASN C 86 -75.109 30.444 40.788 1.00 40.00 N +ATOM 3625 N GLY C 87 -70.318 30.519 38.845 1.00 40.00 N +ATOM 3626 CA GLY C 87 -68.917 30.852 38.543 1.00 40.00 C +ATOM 3627 C GLY C 87 -67.984 30.576 39.714 1.00 40.00 C +ATOM 3628 O GLY C 87 -66.763 30.802 39.620 1.00 40.00 O +ATOM 3629 N LYS C 88 -68.571 30.078 40.811 1.00 40.00 N +ATOM 3630 CA LYS C 88 -67.872 29.807 42.082 1.00 40.00 C +ATOM 3631 C LYS C 88 -67.287 28.396 42.136 1.00 40.00 C +ATOM 3632 O LYS C 88 -67.866 27.460 41.548 1.00 40.00 O +ATOM 3633 CB LYS C 88 -68.820 29.989 43.273 1.00 40.00 C +ATOM 3634 CG LYS C 88 -69.113 31.431 43.605 1.00 40.00 C +ATOM 3635 CD LYS C 88 -70.344 31.516 44.478 1.00 40.00 C +ATOM 3636 CE LYS C 88 -70.882 32.939 44.517 1.00 40.00 C +ATOM 3637 NZ LYS C 88 -72.018 33.029 45.479 1.00 40.00 N +ATOM 3638 N PRO C 89 -66.157 28.230 42.872 1.00 40.00 N +ATOM 3639 CA PRO C 89 -65.567 26.886 43.012 1.00 40.00 C +ATOM 3640 C PRO C 89 -66.623 25.859 43.460 1.00 40.00 C +ATOM 3641 O PRO C 89 -67.716 26.242 43.902 1.00 40.00 O +ATOM 3642 CB PRO C 89 -64.494 27.069 44.109 1.00 40.00 C +ATOM 3643 CG PRO C 89 -64.242 28.541 44.206 1.00 40.00 C +ATOM 3644 CD PRO C 89 -65.473 29.246 43.709 1.00 40.00 C +ATOM 3645 N HIS C 90 -66.319 24.569 43.332 1.00 40.00 N +ATOM 3646 CA HIS C 90 -67.167 23.541 43.954 1.00 40.00 C +ATOM 3647 C HIS C 90 -66.859 23.514 45.433 1.00 40.00 C +ATOM 3648 O HIS C 90 -65.870 24.140 45.869 1.00 40.00 O +ATOM 3649 CB HIS C 90 -66.963 22.167 43.298 1.00 40.00 C +ATOM 3650 CG HIS C 90 -67.302 22.136 41.812 1.00 40.00 C +ATOM 3651 ND1 HIS C 90 -68.560 22.339 41.341 1.00 40.00 N +ATOM 3652 CD2 HIS C 90 -66.492 21.917 40.685 1.00 40.00 C +ATOM 3653 CE1 HIS C 90 -68.556 22.259 39.985 1.00 40.00 C +ATOM 3654 NE2 HIS C 90 -67.291 22.001 39.585 1.00 40.00 N +ATOM 3655 N LYS C 91 -67.691 22.823 46.225 1.00 40.00 N +ATOM 3656 CA LYS C 91 -67.492 22.772 47.687 1.00 40.00 C +ATOM 3657 C LYS C 91 -66.598 21.591 48.136 1.00 40.00 C +ATOM 3658 O LYS C 91 -66.630 20.505 47.534 1.00 40.00 O +ATOM 3659 CB LYS C 91 -68.835 22.802 48.440 1.00 40.00 C +ATOM 3660 CG LYS C 91 -68.801 23.579 49.757 1.00 40.00 C +ATOM 3661 CD LYS C 91 -69.083 25.064 49.582 1.00 40.00 C +ATOM 3662 CE LYS C 91 -70.561 25.357 49.794 1.00 40.00 C +ATOM 3663 NZ LYS C 91 -70.916 26.599 49.069 1.00 40.00 N +ATOM 3664 N VAL C 92 -65.792 21.842 49.175 1.00 40.00 N +ATOM 3665 CA VAL C 92 -64.818 20.885 49.728 1.00 40.00 C +ATOM 3666 C VAL C 92 -65.476 19.538 50.079 1.00 40.00 C +ATOM 3667 O VAL C 92 -66.387 19.487 50.905 1.00 40.00 O +ATOM 3668 CB VAL C 92 -64.083 21.500 50.962 1.00 40.00 C +ATOM 3669 CG1 VAL C 92 -63.308 20.452 51.751 1.00 40.00 C +ATOM 3670 CG2 VAL C 92 -63.150 22.630 50.535 1.00 40.00 C +ATOM 3671 N ARG C 93 -65.039 18.461 49.420 1.00 40.00 N +ATOM 3672 CA ARG C 93 -65.430 17.104 49.822 1.00 40.00 C +ATOM 3673 C ARG C 93 -64.326 16.477 50.632 1.00 40.00 C +ATOM 3674 O ARG C 93 -63.135 16.742 50.392 1.00 40.00 O +ATOM 3675 CB ARG C 93 -65.727 16.205 48.626 1.00 40.00 C +ATOM 3676 CG ARG C 93 -67.182 16.165 48.220 1.00 40.00 C +ATOM 3677 CD ARG C 93 -67.582 17.501 47.644 1.00 40.00 C +ATOM 3678 NE ARG C 93 -68.656 17.371 46.685 1.00 40.00 N +ATOM 3679 CZ ARG C 93 -69.167 18.391 46.025 1.00 40.00 C +ATOM 3680 NH1 ARG C 93 -68.691 19.612 46.226 1.00 40.00 N +ATOM 3681 NH2 ARG C 93 -70.150 18.187 45.168 1.00 40.00 N +ATOM 3682 N LEU C 94 -64.722 15.628 51.578 1.00 40.00 N +ATOM 3683 CA LEU C 94 -63.765 15.059 52.502 1.00 40.00 C +ATOM 3684 C LEU C 94 -63.605 13.577 52.319 1.00 40.00 C +ATOM 3685 O LEU C 94 -64.557 12.851 52.075 1.00 40.00 O +ATOM 3686 CB LEU C 94 -64.139 15.378 53.941 1.00 40.00 C +ATOM 3687 CG LEU C 94 -64.083 16.863 54.308 1.00 40.00 C +ATOM 3688 CD1 LEU C 94 -64.493 17.025 55.762 1.00 40.00 C +ATOM 3689 CD2 LEU C 94 -62.714 17.491 54.044 1.00 40.00 C +ATOM 3690 N TYR C 95 -62.361 13.146 52.421 1.00 40.00 N +ATOM 3691 CA TYR C 95 -62.038 11.759 52.260 1.00 40.00 C +ATOM 3692 C TYR C 95 -60.956 11.412 53.240 1.00 40.00 C +ATOM 3693 O TYR C 95 -59.986 12.149 53.419 1.00 40.00 O +ATOM 3694 CB TYR C 95 -61.586 11.488 50.831 1.00 40.00 C +ATOM 3695 CG TYR C 95 -62.625 11.881 49.811 1.00 40.00 C +ATOM 3696 CD1 TYR C 95 -63.527 10.944 49.333 1.00 40.00 C +ATOM 3697 CD2 TYR C 95 -62.715 13.198 49.337 1.00 40.00 C +ATOM 3698 CE1 TYR C 95 -64.477 11.291 48.397 1.00 40.00 C +ATOM 3699 CE2 TYR C 95 -63.672 13.558 48.410 1.00 40.00 C +ATOM 3700 CZ TYR C 95 -64.556 12.601 47.953 1.00 40.00 C +ATOM 3701 OH TYR C 95 -65.507 12.953 47.029 1.00 40.00 O +ATOM 3702 N SER C 96 -61.153 10.275 53.883 1.00 40.00 N +ATOM 3703 CA SER C 96 -60.253 9.802 54.908 1.00 40.00 C +ATOM 3704 C SER C 96 -58.941 9.395 54.280 1.00 40.00 C +ATOM 3705 O SER C 96 -58.935 8.747 53.235 1.00 40.00 O +ATOM 3706 CB SER C 96 -60.878 8.598 55.574 1.00 40.00 C +ATOM 3707 OG SER C 96 -62.283 8.745 55.574 1.00 40.00 O +ATOM 3708 N ILE C 97 -57.829 9.775 54.914 1.00 40.00 N +ATOM 3709 CA ILE C 97 -56.496 9.520 54.351 1.00 40.00 C +ATOM 3710 C ILE C 97 -56.134 8.053 54.457 1.00 40.00 C +ATOM 3711 O ILE C 97 -56.182 7.454 55.530 1.00 40.00 O +ATOM 3712 CB ILE C 97 -55.386 10.380 54.989 1.00 40.00 C +ATOM 3713 CG1 ILE C 97 -55.650 11.866 54.750 1.00 40.00 C +ATOM 3714 CG2 ILE C 97 -54.026 10.008 54.413 1.00 40.00 C +ATOM 3715 CD1 ILE C 97 -54.966 12.771 55.754 1.00 40.00 C +ATOM 3716 N ALA C 98 -55.765 7.496 53.314 1.00 40.00 N +ATOM 3717 CA ALA C 98 -55.528 6.077 53.180 1.00 40.00 C +ATOM 3718 C ALA C 98 -54.106 5.704 53.512 1.00 40.00 C +ATOM 3719 O ALA C 98 -53.882 4.598 53.990 1.00 40.00 O +ATOM 3720 CB ALA C 98 -55.872 5.614 51.778 1.00 40.00 C +ATOM 3721 N SER C 99 -53.149 6.605 53.256 1.00 40.00 N +ATOM 3722 CA SER C 99 -51.732 6.324 53.557 1.00 40.00 C +ATOM 3723 C SER C 99 -51.344 6.638 54.991 1.00 40.00 C +ATOM 3724 O SER C 99 -51.957 7.481 55.631 1.00 40.00 O +ATOM 3725 CB SER C 99 -50.784 7.054 52.601 1.00 40.00 C +ATOM 3726 OG SER C 99 -51.127 8.418 52.466 1.00 40.00 O +ATOM 3727 N SER C 100 -50.318 5.948 55.483 1.00 40.00 N +ATOM 3728 CA SER C 100 -49.759 6.222 56.800 1.00 40.00 C +ATOM 3729 C SER C 100 -49.026 7.559 56.769 1.00 40.00 C +ATOM 3730 O SER C 100 -48.942 8.187 55.722 1.00 40.00 O +ATOM 3731 CB SER C 100 -48.801 5.110 57.231 1.00 40.00 C +ATOM 3732 OG SER C 100 -47.504 5.324 56.695 1.00 40.00 O +ATOM 3733 N ALA C 101 -48.488 7.979 57.913 1.00 40.00 N +ATOM 3734 CA ALA C 101 -47.779 9.251 58.020 1.00 40.00 C +ATOM 3735 C ALA C 101 -46.694 9.323 56.963 1.00 40.00 C +ATOM 3736 O ALA C 101 -46.478 10.346 56.295 1.00 40.00 O +ATOM 3737 CB ALA C 101 -47.171 9.392 59.409 1.00 40.00 C +ATOM 3738 N ILE C 102 -46.042 8.188 56.798 1.00 40.00 N +ATOM 3739 CA ILE C 102 -44.836 8.110 56.035 1.00 40.00 C +ATOM 3740 C ILE C 102 -45.143 8.036 54.563 1.00 40.00 C +ATOM 3741 O ILE C 102 -44.246 8.141 53.736 1.00 40.00 O +ATOM 3742 CB ILE C 102 -44.042 6.882 56.452 1.00 40.00 C +ATOM 3743 CG1 ILE C 102 -44.290 6.571 57.938 1.00 40.00 C +ATOM 3744 CG2 ILE C 102 -42.571 7.103 56.158 1.00 40.00 C +ATOM 3745 CD1 ILE C 102 -43.875 7.669 58.909 1.00 40.00 C +ATOM 3746 N GLY C 103 -46.422 7.868 54.245 1.00 40.00 N +ATOM 3747 CA GLY C 103 -46.882 7.718 52.859 1.00 40.00 C +ATOM 3748 C GLY C 103 -46.785 6.282 52.373 1.00 40.00 C +ATOM 3749 O GLY C 103 -46.257 5.407 53.071 1.00 40.00 O +ATOM 3750 N ASP C 104 -47.297 6.039 51.172 1.00 40.00 N +ATOM 3751 CA ASP C 104 -47.193 4.718 50.567 1.00 40.00 C +ATOM 3752 C ASP C 104 -45.744 4.399 50.178 1.00 40.00 C +ATOM 3753 O ASP C 104 -45.348 3.231 50.083 1.00 40.00 O +ATOM 3754 CB ASP C 104 -48.112 4.619 49.341 1.00 40.00 C +ATOM 3755 CG ASP C 104 -49.583 4.416 49.712 1.00 40.00 C +ATOM 3756 OD1 ASP C 104 -49.867 3.911 50.824 1.00 40.00 O +ATOM 3757 OD2 ASP C 104 -50.453 4.747 48.873 1.00 40.00 O +ATOM 3758 N PHE C 105 -44.954 5.439 49.953 1.00 40.00 N +ATOM 3759 CA PHE C 105 -43.575 5.224 49.577 1.00 40.00 C +ATOM 3760 C PHE C 105 -42.676 5.273 50.789 1.00 40.00 C +ATOM 3761 O PHE C 105 -41.497 4.974 50.686 1.00 40.00 O +ATOM 3762 CB PHE C 105 -43.137 6.230 48.523 1.00 40.00 C +ATOM 3763 CG PHE C 105 -44.126 6.389 47.420 1.00 40.00 C +ATOM 3764 CD1 PHE C 105 -44.842 5.291 46.960 1.00 40.00 C +ATOM 3765 CD2 PHE C 105 -44.347 7.632 46.840 1.00 40.00 C +ATOM 3766 CE1 PHE C 105 -45.771 5.429 45.950 1.00 40.00 C +ATOM 3767 CE2 PHE C 105 -45.274 7.783 45.824 1.00 40.00 C +ATOM 3768 CZ PHE C 105 -45.986 6.677 45.378 1.00 40.00 C +ATOM 3769 N GLY C 106 -43.237 5.635 51.938 1.00 40.00 N +ATOM 3770 CA GLY C 106 -42.481 5.658 53.181 1.00 40.00 C +ATOM 3771 C GLY C 106 -41.452 6.768 53.249 1.00 40.00 C +ATOM 3772 O GLY C 106 -40.399 6.608 53.852 1.00 40.00 O +ATOM 3773 N ASP C 107 -41.757 7.904 52.640 1.00 40.00 N +ATOM 3774 CA ASP C 107 -40.829 9.024 52.630 1.00 40.00 C +ATOM 3775 C ASP C 107 -41.482 10.356 53.058 1.00 40.00 C +ATOM 3776 O ASP C 107 -40.839 11.405 53.023 1.00 40.00 O +ATOM 3777 CB ASP C 107 -40.213 9.151 51.244 1.00 40.00 C +ATOM 3778 CG ASP C 107 -41.191 9.674 50.233 1.00 40.00 C +ATOM 3779 OD1 ASP C 107 -42.376 9.274 50.268 1.00 40.00 O +ATOM 3780 OD2 ASP C 107 -40.773 10.501 49.407 1.00 40.00 O +ATOM 3781 N SER C 108 -42.759 10.298 53.444 1.00 40.00 N +ATOM 3782 CA SER C 108 -43.532 11.439 53.977 1.00 40.00 C +ATOM 3783 C SER C 108 -43.690 12.642 53.045 1.00 40.00 C +ATOM 3784 O SER C 108 -43.845 13.766 53.504 1.00 40.00 O +ATOM 3785 CB SER C 108 -42.980 11.883 55.332 1.00 40.00 C +ATOM 3786 OG SER C 108 -43.020 10.817 56.257 1.00 40.00 O +ATOM 3787 N LYS C 109 -43.662 12.392 51.741 1.00 40.00 N +ATOM 3788 CA LYS C 109 -43.883 13.425 50.728 1.00 40.00 C +ATOM 3789 C LYS C 109 -45.135 13.069 49.935 1.00 40.00 C +ATOM 3790 O LYS C 109 -45.340 13.527 48.800 1.00 40.00 O +ATOM 3791 CB LYS C 109 -42.681 13.506 49.784 1.00 40.00 C +ATOM 3792 CG LYS C 109 -41.320 13.620 50.467 1.00 40.00 C +ATOM 3793 CD LYS C 109 -41.206 14.897 51.286 1.00 40.00 C +ATOM 3794 CE LYS C 109 -39.765 15.283 51.606 1.00 40.00 C +ATOM 3795 NZ LYS C 109 -39.043 15.920 50.463 1.00 40.00 N +ATOM 3796 N THR C 110 -45.974 12.253 50.569 1.00 40.00 N +ATOM 3797 CA THR C 110 -47.022 11.510 49.884 1.00 40.00 C +ATOM 3798 C THR C 110 -48.230 11.251 50.766 1.00 40.00 C +ATOM 3799 O THR C 110 -48.094 10.810 51.911 1.00 40.00 O +ATOM 3800 CB THR C 110 -46.525 10.123 49.445 1.00 40.00 C +ATOM 3801 OG1 THR C 110 -46.372 9.284 50.597 1.00 40.00 O +ATOM 3802 CG2 THR C 110 -45.210 10.232 48.691 1.00 40.00 C +ATOM 3803 N VAL C 111 -49.406 11.501 50.195 1.00 40.00 N +ATOM 3804 CA VAL C 111 -50.676 11.213 50.834 1.00 40.00 C +ATOM 3805 C VAL C 111 -51.491 10.294 49.945 1.00 40.00 C +ATOM 3806 O VAL C 111 -51.388 10.370 48.723 1.00 40.00 O +ATOM 3807 CB VAL C 111 -51.476 12.494 51.033 1.00 40.00 C +ATOM 3808 CG1 VAL C 111 -51.933 13.046 49.688 1.00 40.00 C +ATOM 3809 CG2 VAL C 111 -52.661 12.227 51.943 1.00 40.00 C +ATOM 3810 N SER C 112 -52.319 9.451 50.551 1.00 40.00 N +ATOM 3811 CA SER C 112 -53.117 8.502 49.786 1.00 40.00 C +ATOM 3812 C SER C 112 -54.588 8.528 50.161 1.00 40.00 C +ATOM 3813 O SER C 112 -54.921 8.607 51.333 1.00 40.00 O +ATOM 3814 CB SER C 112 -52.547 7.105 49.950 1.00 40.00 C +ATOM 3815 OG SER C 112 -51.143 7.136 49.734 1.00 40.00 O +ATOM 3816 N LEU C 113 -55.454 8.460 49.149 1.00 40.00 N +ATOM 3817 CA LEU C 113 -56.898 8.522 49.338 1.00 40.00 C +ATOM 3818 C LEU C 113 -57.582 7.298 48.807 1.00 40.00 C +ATOM 3819 O LEU C 113 -57.065 6.627 47.919 1.00 40.00 O +ATOM 3820 CB LEU C 113 -57.465 9.700 48.579 1.00 40.00 C +ATOM 3821 CG LEU C 113 -57.290 11.028 49.267 1.00 40.00 C +ATOM 3822 CD1 LEU C 113 -57.924 12.110 48.408 1.00 40.00 C +ATOM 3823 CD2 LEU C 113 -57.958 10.912 50.619 1.00 40.00 C +ATOM 3824 N CYS C 114 -58.768 7.030 49.332 1.00 40.00 N +ATOM 3825 CA CYS C 114 -59.589 5.950 48.817 1.00 40.00 C +ATOM 3826 C CYS C 114 -60.936 6.513 48.395 1.00 40.00 C +ATOM 3827 O CYS C 114 -61.679 7.053 49.220 1.00 40.00 O +ATOM 3828 CB CYS C 114 -59.755 4.849 49.857 1.00 40.00 C +ATOM 3829 SG CYS C 114 -60.695 3.413 49.274 1.00 40.00 S +ATOM 3830 N VAL C 115 -61.231 6.401 47.100 1.00 40.00 N +ATOM 3831 CA VAL C 115 -62.420 7.031 46.518 1.00 40.00 C +ATOM 3832 C VAL C 115 -63.275 6.105 45.652 1.00 40.00 C +ATOM 3833 O VAL C 115 -62.808 5.511 44.665 1.00 40.00 O +ATOM 3834 CB VAL C 115 -62.072 8.279 45.680 1.00 40.00 C +ATOM 3835 CG1 VAL C 115 -63.307 9.157 45.504 1.00 40.00 C +ATOM 3836 CG2 VAL C 115 -60.947 9.066 46.333 1.00 40.00 C +ATOM 3837 N LYS C 116 -64.545 6.012 46.038 1.00 40.00 N +ATOM 3838 CA LYS C 116 -65.562 5.345 45.242 1.00 40.00 C +ATOM 3839 C LYS C 116 -66.220 6.392 44.345 1.00 40.00 C +ATOM 3840 O LYS C 116 -66.573 7.493 44.792 1.00 40.00 O +ATOM 3841 CB LYS C 116 -66.598 4.672 46.145 1.00 40.00 C +ATOM 3842 CG LYS C 116 -67.550 3.739 45.423 1.00 40.00 C +ATOM 3843 CD LYS C 116 -68.898 3.755 46.123 1.00 40.00 C +ATOM 3844 CE LYS C 116 -70.031 3.252 45.235 1.00 40.00 C +ATOM 3845 NZ LYS C 116 -70.175 1.775 45.339 1.00 40.00 N +ATOM 3846 N ARG C 117 -66.352 6.034 43.074 1.00 40.00 N +ATOM 3847 CA ARG C 117 -67.003 6.863 42.080 1.00 40.00 C +ATOM 3848 C ARG C 117 -68.522 6.864 42.333 1.00 40.00 C +ATOM 3849 O ARG C 117 -69.210 5.845 42.142 1.00 40.00 O +ATOM 3850 CB ARG C 117 -66.668 6.312 40.692 1.00 40.00 C +ATOM 3851 CG ARG C 117 -66.724 7.322 39.568 1.00 40.00 C +ATOM 3852 CD ARG C 117 -66.647 6.638 38.212 1.00 40.00 C +ATOM 3853 NE ARG C 117 -65.278 6.494 37.728 1.00 40.00 N +ATOM 3854 CZ ARG C 117 -64.612 7.434 37.066 1.00 40.00 C +ATOM 3855 NH1 ARG C 117 -65.181 8.599 36.819 1.00 40.00 N +ATOM 3856 NH2 ARG C 117 -63.371 7.213 36.656 1.00 40.00 N +ATOM 3857 N LEU C 118 -69.033 8.002 42.798 1.00 40.00 N +ATOM 3858 CA LEU C 118 -70.469 8.166 42.994 1.00 40.00 C +ATOM 3859 C LEU C 118 -71.159 8.194 41.627 1.00 40.00 C +ATOM 3860 O LEU C 118 -71.077 9.202 40.910 1.00 40.00 O +ATOM 3861 CB LEU C 118 -70.771 9.448 43.799 1.00 40.00 C +ATOM 3862 CG LEU C 118 -72.212 9.949 43.968 1.00 40.00 C +ATOM 3863 CD1 LEU C 118 -73.056 8.959 44.749 1.00 40.00 C +ATOM 3864 CD2 LEU C 118 -72.247 11.301 44.646 1.00 40.00 C +ATOM 3865 N ILE C 119 -71.778 7.068 41.247 1.00 40.00 N +ATOM 3866 CA ILE C 119 -72.764 7.035 40.128 1.00 40.00 C +ATOM 3867 C ILE C 119 -74.029 6.213 40.487 1.00 40.00 C +ATOM 3868 O ILE C 119 -73.936 5.009 40.798 1.00 40.00 O +ATOM 3869 CB ILE C 119 -72.181 6.584 38.748 1.00 40.00 C +ATOM 3870 CG1 ILE C 119 -71.024 7.482 38.303 1.00 40.00 C +ATOM 3871 CG2 ILE C 119 -73.256 6.641 37.665 1.00 40.00 C +ATOM 3872 CD1 ILE C 119 -70.299 6.984 37.072 1.00 40.00 C +ATOM 3873 N TYR C 120 -75.187 6.891 40.455 1.00 40.00 N +ATOM 3874 CA TYR C 120 -76.525 6.289 40.653 1.00 40.00 C +ATOM 3875 C TYR C 120 -77.437 6.617 39.455 1.00 40.00 C +ATOM 3876 O TYR C 120 -77.104 7.493 38.644 1.00 40.00 O +ATOM 3877 CB TYR C 120 -77.170 6.721 42.008 1.00 40.00 C +ATOM 3878 CG TYR C 120 -77.278 8.235 42.308 1.00 40.00 C +ATOM 3879 CD1 TYR C 120 -76.156 8.983 42.708 1.00 40.00 C +ATOM 3880 CD2 TYR C 120 -78.515 8.909 42.241 1.00 40.00 C +ATOM 3881 CE1 TYR C 120 -76.251 10.353 42.993 1.00 40.00 C +ATOM 3882 CE2 TYR C 120 -78.617 10.282 42.526 1.00 40.00 C +ATOM 3883 CZ TYR C 120 -77.486 10.999 42.906 1.00 40.00 C +ATOM 3884 OH TYR C 120 -77.567 12.350 43.192 1.00 40.00 O +ATOM 3885 N THR C 121 -78.551 5.883 39.324 1.00 40.00 N +ATOM 3886 CA THR C 121 -79.678 6.254 38.419 1.00 40.00 C +ATOM 3887 C THR C 121 -80.856 6.724 39.307 1.00 40.00 C +ATOM 3888 O THR C 121 -81.221 6.002 40.241 1.00 40.00 O +ATOM 3889 CB THR C 121 -80.086 5.077 37.459 1.00 40.00 C +ATOM 3890 OG1 THR C 121 -79.204 5.042 36.321 1.00 40.00 O +ATOM 3891 CG2 THR C 121 -81.548 5.189 36.956 1.00 40.00 C +ATOM 3892 N ASN C 122 -81.409 7.925 39.061 1.00 40.00 N +ATOM 3893 CA ASN C 122 -82.621 8.363 39.800 1.00 40.00 C +ATOM 3894 C ASN C 122 -83.918 7.760 39.217 1.00 40.00 C +ATOM 3895 O ASN C 122 -83.847 6.913 38.300 1.00 40.00 O +ATOM 3896 CB ASN C 122 -82.687 9.902 40.100 1.00 40.00 C +ATOM 3897 CG ASN C 122 -82.666 10.784 38.845 1.00 40.00 C +ATOM 3898 OD1 ASN C 122 -83.512 10.662 37.948 1.00 40.00 O +ATOM 3899 ND2 ASN C 122 -81.719 11.719 38.808 1.00 40.00 N +ATOM 3900 N ASP C 123 -85.078 8.160 39.767 1.00 40.00 N +ATOM 3901 CA ASP C 123 -86.413 7.640 39.324 1.00 40.00 C +ATOM 3902 C ASP C 123 -86.874 8.015 37.882 1.00 40.00 C +ATOM 3903 O ASP C 123 -87.813 7.394 37.330 1.00 40.00 O +ATOM 3904 CB ASP C 123 -87.547 7.863 40.380 1.00 40.00 C +ATOM 3905 CG ASP C 123 -87.508 9.260 41.090 1.00 40.00 C +ATOM 3906 OD1 ASP C 123 -86.823 10.227 40.649 1.00 40.00 O +ATOM 3907 OD2 ASP C 123 -88.212 9.376 42.124 1.00 40.00 O +ATOM 3908 N ALA C 124 -86.193 9.014 37.297 1.00 40.00 N +ATOM 3909 CA ALA C 124 -86.385 9.443 35.903 1.00 40.00 C +ATOM 3910 C ALA C 124 -85.479 8.684 34.866 1.00 40.00 C +ATOM 3911 O ALA C 124 -85.502 9.001 33.663 1.00 40.00 O +ATOM 3912 CB ALA C 124 -86.250 10.974 35.797 1.00 40.00 C +ATOM 3913 N GLY C 125 -84.725 7.671 35.333 1.00 40.00 N +ATOM 3914 CA GLY C 125 -83.774 6.892 34.501 1.00 40.00 C +ATOM 3915 C GLY C 125 -82.401 7.545 34.308 1.00 40.00 C +ATOM 3916 O GLY C 125 -81.506 6.949 33.672 1.00 40.00 O +ATOM 3917 N GLU C 126 -82.251 8.752 34.894 1.00 40.00 N +ATOM 3918 CA GLU C 126 -81.133 9.722 34.678 1.00 40.00 C +ATOM 3919 C GLU C 126 -79.853 9.451 35.499 1.00 40.00 C +ATOM 3920 O GLU C 126 -79.839 9.675 36.728 1.00 40.00 O +ATOM 3921 CB GLU C 126 -81.599 11.172 34.972 1.00 40.00 C +ATOM 3922 CG GLU C 126 -82.812 11.647 34.180 1.00 40.00 C +ATOM 3923 CD GLU C 126 -83.642 12.715 34.896 1.00 40.00 C +ATOM 3924 OE1 GLU C 126 -83.587 12.829 36.151 1.00 40.00 O +ATOM 3925 OE2 GLU C 126 -84.389 13.431 34.188 1.00 40.00 O +ATOM 3926 N ILE C 127 -78.791 9.006 34.804 1.00 40.00 N +ATOM 3927 CA ILE C 127 -77.448 8.757 35.390 1.00 40.00 C +ATOM 3928 C ILE C 127 -76.807 10.024 36.047 1.00 40.00 C +ATOM 3929 O ILE C 127 -76.304 10.928 35.349 1.00 40.00 O +ATOM 3930 CB ILE C 127 -76.507 8.029 34.372 1.00 40.00 C +ATOM 3931 CG1 ILE C 127 -76.911 6.557 34.254 1.00 40.00 C +ATOM 3932 CG2 ILE C 127 -75.034 8.138 34.764 1.00 40.00 C +ATOM 3933 CD1 ILE C 127 -75.960 5.718 33.435 1.00 40.00 C +ATOM 3934 N VAL C 128 -76.867 10.078 37.391 1.00 40.00 N +ATOM 3935 CA VAL C 128 -76.253 11.147 38.221 1.00 40.00 C +ATOM 3936 C VAL C 128 -74.812 10.752 38.597 1.00 40.00 C +ATOM 3937 O VAL C 128 -74.545 9.598 38.952 1.00 40.00 O +ATOM 3938 CB VAL C 128 -77.075 11.458 39.518 1.00 40.00 C +ATOM 3939 CG1 VAL C 128 -76.561 12.719 40.212 1.00 40.00 C +ATOM 3940 CG2 VAL C 128 -78.568 11.588 39.227 1.00 40.00 C +ATOM 3941 N LYS C 129 -73.891 11.708 38.497 1.00 40.00 N +ATOM 3942 CA LYS C 129 -72.495 11.474 38.860 1.00 40.00 C +ATOM 3943 C LYS C 129 -71.995 12.498 39.893 1.00 40.00 C +ATOM 3944 O LYS C 129 -72.264 13.702 39.784 1.00 40.00 O +ATOM 3945 CB LYS C 129 -71.605 11.485 37.614 1.00 40.00 C +ATOM 3946 CG LYS C 129 -72.046 10.553 36.487 1.00 40.00 C +ATOM 3947 CD LYS C 129 -70.960 10.413 35.417 1.00 40.00 C +ATOM 3948 CE LYS C 129 -70.569 11.756 34.794 1.00 40.00 C +ATOM 3949 NZ LYS C 129 -69.312 11.712 33.986 1.00 40.00 N +ATOM 3950 N GLY C 130 -71.281 12.006 40.900 1.00 40.00 N +ATOM 3951 CA GLY C 130 -70.667 12.871 41.891 1.00 40.00 C +ATOM 3952 C GLY C 130 -69.561 13.735 41.305 1.00 40.00 C +ATOM 3953 O GLY C 130 -68.653 13.238 40.637 1.00 40.00 O +ATOM 3954 N VAL C 131 -69.649 15.037 41.563 1.00 40.00 N +ATOM 3955 CA VAL C 131 -68.611 16.003 41.182 1.00 40.00 C +ATOM 3956 C VAL C 131 -67.209 15.515 41.602 1.00 40.00 C +ATOM 3957 O VAL C 131 -66.409 15.090 40.755 1.00 40.00 O +ATOM 3958 CB VAL C 131 -68.905 17.421 41.770 1.00 40.00 C +ATOM 3959 CG1 VAL C 131 -67.826 18.433 41.381 1.00 40.00 C +ATOM 3960 CG2 VAL C 131 -70.282 17.914 41.340 1.00 40.00 C +ATOM 3961 N CYS C 132 -66.942 15.551 42.911 1.00 40.00 N +ATOM 3962 CA CYS C 132 -65.605 15.325 43.441 1.00 40.00 C +ATOM 3963 C CYS C 132 -65.135 13.894 43.233 1.00 40.00 C +ATOM 3964 O CYS C 132 -64.005 13.690 42.794 1.00 40.00 O +ATOM 3965 CB CYS C 132 -65.533 15.717 44.913 1.00 40.00 C +ATOM 3966 SG CYS C 132 -63.970 16.504 45.332 1.00 40.00 S +ATOM 3967 N SER C 133 -66.009 12.920 43.525 1.00 40.00 N +ATOM 3968 CA SER C 133 -65.695 11.481 43.398 1.00 40.00 C +ATOM 3969 C SER C 133 -65.317 11.080 41.970 1.00 40.00 C +ATOM 3970 O SER C 133 -64.406 10.264 41.768 1.00 40.00 O +ATOM 3971 CB SER C 133 -66.865 10.609 43.872 1.00 40.00 C +ATOM 3972 OG SER C 133 -67.963 10.715 42.979 1.00 40.00 O +ATOM 3973 N ASN C 134 -66.022 11.653 40.991 1.00 40.00 N +ATOM 3974 CA ASN C 134 -65.744 11.394 39.578 1.00 40.00 C +ATOM 3975 C ASN C 134 -64.542 12.151 39.080 1.00 40.00 C +ATOM 3976 O ASN C 134 -63.747 11.606 38.320 1.00 40.00 O +ATOM 3977 CB ASN C 134 -66.963 11.695 38.720 1.00 40.00 C +ATOM 3978 CG ASN C 134 -67.988 10.583 38.788 1.00 40.00 C +ATOM 3979 OD1 ASN C 134 -67.844 9.561 38.118 1.00 40.00 O +ATOM 3980 ND2 ASN C 134 -69.019 10.764 39.612 1.00 40.00 N +ATOM 3981 N PHE C 135 -64.414 13.405 39.524 1.00 40.00 N +ATOM 3982 CA PHE C 135 -63.202 14.193 39.292 1.00 40.00 C +ATOM 3983 C PHE C 135 -61.964 13.366 39.658 1.00 40.00 C +ATOM 3984 O PHE C 135 -61.018 13.252 38.863 1.00 40.00 O +ATOM 3985 CB PHE C 135 -63.243 15.525 40.081 1.00 40.00 C +ATOM 3986 CG PHE C 135 -61.912 16.241 40.156 1.00 40.00 C +ATOM 3987 CD1 PHE C 135 -61.267 16.680 38.996 1.00 40.00 C +ATOM 3988 CD2 PHE C 135 -61.302 16.480 41.385 1.00 40.00 C +ATOM 3989 CE1 PHE C 135 -60.043 17.331 39.063 1.00 40.00 C +ATOM 3990 CE2 PHE C 135 -60.079 17.136 41.455 1.00 40.00 C +ATOM 3991 CZ PHE C 135 -59.451 17.563 40.295 1.00 40.00 C +ATOM 3992 N LEU C 136 -62.016 12.762 40.847 1.00 40.00 N +ATOM 3993 CA LEU C 136 -60.871 12.093 41.445 1.00 40.00 C +ATOM 3994 C LEU C 136 -60.518 10.763 40.786 1.00 40.00 C +ATOM 3995 O LEU C 136 -59.353 10.529 40.443 1.00 40.00 O +ATOM 3996 CB LEU C 136 -61.054 11.954 42.960 1.00 40.00 C +ATOM 3997 CG LEU C 136 -60.809 13.274 43.718 1.00 40.00 C +ATOM 3998 CD1 LEU C 136 -61.321 13.203 45.153 1.00 40.00 C +ATOM 3999 CD2 LEU C 136 -59.344 13.717 43.691 1.00 40.00 C +ATOM 4000 N CYS C 137 -61.504 9.901 40.582 1.00 40.00 N +ATOM 4001 CA CYS C 137 -61.246 8.657 39.873 1.00 40.00 C +ATOM 4002 C CYS C 137 -60.762 8.918 38.445 1.00 40.00 C +ATOM 4003 O CYS C 137 -60.040 8.098 37.869 1.00 40.00 O +ATOM 4004 CB CYS C 137 -62.494 7.792 39.879 1.00 40.00 C +ATOM 4005 SG CYS C 137 -62.975 7.260 41.545 1.00 40.00 S +ATOM 4006 N ASP C 138 -61.144 10.085 37.908 1.00 40.00 N +ATOM 4007 CA ASP C 138 -60.800 10.525 36.540 1.00 40.00 C +ATOM 4008 C ASP C 138 -59.381 11.067 36.354 1.00 40.00 C +ATOM 4009 O ASP C 138 -58.959 11.340 35.220 1.00 40.00 O +ATOM 4010 CB ASP C 138 -61.795 11.586 36.041 1.00 40.00 C +ATOM 4011 CG ASP C 138 -63.053 10.983 35.441 1.00 40.00 C +ATOM 4012 OD1 ASP C 138 -63.167 9.730 35.360 1.00 40.00 O +ATOM 4013 OD2 ASP C 138 -63.933 11.781 35.052 1.00 40.00 O +ATOM 4014 N LEU C 139 -58.647 11.232 37.451 1.00 40.00 N +ATOM 4015 CA LEU C 139 -57.332 11.860 37.369 1.00 40.00 C +ATOM 4016 C LEU C 139 -56.265 10.961 36.761 1.00 40.00 C +ATOM 4017 O LEU C 139 -56.208 9.756 37.019 1.00 40.00 O +ATOM 4018 CB LEU C 139 -56.888 12.434 38.720 1.00 40.00 C +ATOM 4019 CG LEU C 139 -57.626 13.708 39.150 1.00 40.00 C +ATOM 4020 CD1 LEU C 139 -57.174 14.094 40.544 1.00 40.00 C +ATOM 4021 CD2 LEU C 139 -57.459 14.875 38.179 1.00 40.00 C +ATOM 4022 N GLN C 140 -55.442 11.576 35.924 1.00 40.00 N +ATOM 4023 CA GLN C 140 -54.323 10.903 35.302 1.00 40.00 C +ATOM 4024 C GLN C 140 -53.016 11.281 36.021 1.00 40.00 C +ATOM 4025 O GLN C 140 -52.923 12.390 36.571 1.00 40.00 O +ATOM 4026 CB GLN C 140 -54.266 11.281 33.814 1.00 40.00 C +ATOM 4027 CG GLN C 140 -55.489 10.873 33.008 1.00 40.00 C +ATOM 4028 CD GLN C 140 -55.935 9.443 33.285 1.00 40.00 C +ATOM 4029 OE1 GLN C 140 -57.104 9.120 33.125 1.00 40.00 O +ATOM 4030 NE2 GLN C 140 -55.009 8.585 33.708 1.00 40.00 N +ATOM 4031 N PRO C 141 -52.011 10.364 36.045 1.00 40.00 N +ATOM 4032 CA PRO C 141 -50.678 10.782 36.470 1.00 40.00 C +ATOM 4033 C PRO C 141 -50.308 12.166 35.888 1.00 40.00 C +ATOM 4034 O PRO C 141 -50.358 12.358 34.672 1.00 40.00 O +ATOM 4035 CB PRO C 141 -49.776 9.694 35.880 1.00 40.00 C +ATOM 4036 CG PRO C 141 -50.625 8.477 35.814 1.00 40.00 C +ATOM 4037 CD PRO C 141 -52.066 8.910 35.787 1.00 40.00 C +ATOM 4038 N GLY C 142 -49.985 13.135 36.740 1.00 40.00 N +ATOM 4039 CA GLY C 142 -49.518 14.447 36.259 1.00 40.00 C +ATOM 4040 C GLY C 142 -50.501 15.598 36.379 1.00 40.00 C +ATOM 4041 O GLY C 142 -50.123 16.776 36.253 1.00 40.00 O +ATOM 4042 N ASP C 143 -51.765 15.245 36.615 1.00 40.00 N +ATOM 4043 CA ASP C 143 -52.829 16.213 36.871 1.00 40.00 C +ATOM 4044 C ASP C 143 -52.573 16.949 38.189 1.00 40.00 C +ATOM 4045 O ASP C 143 -52.031 16.380 39.132 1.00 40.00 O +ATOM 4046 CB ASP C 143 -54.201 15.508 36.916 1.00 40.00 C +ATOM 4047 CG ASP C 143 -54.563 14.802 35.604 1.00 40.00 C +ATOM 4048 OD1 ASP C 143 -53.655 14.490 34.809 1.00 40.00 O +ATOM 4049 OD2 ASP C 143 -55.764 14.546 35.374 1.00 40.00 O +ATOM 4050 N ASN C 144 -52.954 18.217 38.244 1.00 40.00 N +ATOM 4051 CA ASN C 144 -52.895 18.961 39.496 1.00 40.00 C +ATOM 4052 C ASN C 144 -54.107 18.687 40.383 1.00 40.00 C +ATOM 4053 O ASN C 144 -55.196 18.427 39.865 1.00 40.00 O +ATOM 4054 CB ASN C 144 -52.764 20.467 39.230 1.00 40.00 C +ATOM 4055 CG ASN C 144 -51.319 20.941 39.238 1.00 40.00 C +ATOM 4056 OD1 ASN C 144 -51.016 22.064 38.818 1.00 40.00 O +ATOM 4057 ND2 ASN C 144 -50.419 20.094 39.732 1.00 40.00 N +ATOM 4058 N VAL C 145 -53.904 18.726 41.710 1.00 40.00 N +ATOM 4059 CA VAL C 145 -54.997 18.631 42.730 1.00 40.00 C +ATOM 4060 C VAL C 145 -54.888 19.780 43.765 1.00 40.00 C +ATOM 4061 O VAL C 145 -53.794 20.059 44.295 1.00 40.00 O +ATOM 4062 CB VAL C 145 -55.055 17.252 43.490 1.00 40.00 C +ATOM 4063 CG1 VAL C 145 -56.415 17.036 44.156 1.00 40.00 C +ATOM 4064 CG2 VAL C 145 -54.744 16.071 42.574 1.00 40.00 C +ATOM 4065 N GLN C 146 -56.022 20.439 44.038 1.00 40.00 N +ATOM 4066 CA GLN C 146 -56.102 21.455 45.094 1.00 40.00 C +ATOM 4067 C GLN C 146 -56.493 20.775 46.410 1.00 40.00 C +ATOM 4068 O GLN C 146 -57.515 20.071 46.496 1.00 40.00 O +ATOM 4069 CB GLN C 146 -57.098 22.566 44.724 1.00 40.00 C +ATOM 4070 CG GLN C 146 -56.642 23.480 43.586 1.00 40.00 C +ATOM 4071 CD GLN C 146 -57.707 24.482 43.134 1.00 40.00 C +ATOM 4072 OE1 GLN C 146 -58.872 24.123 42.879 1.00 40.00 O +ATOM 4073 NE2 GLN C 146 -57.302 25.748 43.010 1.00 40.00 N +ATOM 4074 N ILE C 147 -55.668 20.986 47.431 1.00 40.00 N +ATOM 4075 CA ILE C 147 -55.758 20.188 48.649 1.00 40.00 C +ATOM 4076 C ILE C 147 -55.829 21.012 49.931 1.00 40.00 C +ATOM 4077 O ILE C 147 -54.932 21.827 50.210 1.00 40.00 O +ATOM 4078 CB ILE C 147 -54.587 19.182 48.739 1.00 40.00 C +ATOM 4079 CG1 ILE C 147 -54.693 18.146 47.617 1.00 40.00 C +ATOM 4080 CG2 ILE C 147 -54.589 18.455 50.077 1.00 40.00 C +ATOM 4081 CD1 ILE C 147 -53.386 17.454 47.293 1.00 40.00 C +ATOM 4082 N THR C 148 -56.899 20.770 50.700 1.00 40.00 N +ATOM 4083 CA THR C 148 -57.126 21.395 52.014 1.00 40.00 C +ATOM 4084 C THR C 148 -56.839 20.421 53.158 1.00 40.00 C +ATOM 4085 O THR C 148 -56.967 19.200 53.000 1.00 40.00 O +ATOM 4086 CB THR C 148 -58.576 21.931 52.171 1.00 40.00 C +ATOM 4087 OG1 THR C 148 -59.511 20.862 52.015 1.00 40.00 O +ATOM 4088 CG2 THR C 148 -58.899 23.004 51.135 1.00 40.00 C +ATOM 4089 N GLY C 149 -56.458 20.970 54.308 1.00 40.00 N +ATOM 4090 CA GLY C 149 -56.265 20.159 55.504 1.00 40.00 C +ATOM 4091 C GLY C 149 -54.965 20.452 56.233 1.00 40.00 C +ATOM 4092 O GLY C 149 -54.358 21.502 56.007 1.00 40.00 O +ATOM 4093 N PRO C 150 -54.527 19.526 57.116 1.00 40.00 N +ATOM 4094 CA PRO C 150 -55.248 18.294 57.424 1.00 40.00 C +ATOM 4095 C PRO C 150 -56.356 18.570 58.408 1.00 40.00 C +ATOM 4096 O PRO C 150 -56.344 19.599 59.082 1.00 40.00 O +ATOM 4097 CB PRO C 150 -54.185 17.414 58.074 1.00 40.00 C +ATOM 4098 CG PRO C 150 -53.224 18.370 58.682 1.00 40.00 C +ATOM 4099 CD PRO C 150 -53.254 19.628 57.859 1.00 40.00 C +ATOM 4100 N VAL C 151 -57.303 17.646 58.493 1.00 40.00 N +ATOM 4101 CA VAL C 151 -58.528 17.873 59.246 1.00 40.00 C +ATOM 4102 C VAL C 151 -59.002 16.620 59.999 1.00 40.00 C +ATOM 4103 O VAL C 151 -58.809 15.478 59.536 1.00 40.00 O +ATOM 4104 CB VAL C 151 -59.637 18.352 58.296 1.00 40.00 C +ATOM 4105 CG1 VAL C 151 -60.973 18.404 59.002 1.00 40.00 C +ATOM 4106 CG2 VAL C 151 -59.301 19.719 57.737 1.00 40.00 C +ATOM 4107 N GLY C 152 -59.634 16.843 61.153 1.00 40.00 N +ATOM 4108 CA GLY C 152 -60.164 15.753 61.977 1.00 40.00 C +ATOM 4109 C GLY C 152 -59.190 15.399 63.082 1.00 40.00 C +ATOM 4110 O GLY C 152 -57.983 15.275 62.859 1.00 40.00 O +ATOM 4111 N LYS C 153 -59.707 15.269 64.291 1.00 40.00 N +ATOM 4112 CA LYS C 153 -58.886 14.832 65.399 1.00 40.00 C +ATOM 4113 C LYS C 153 -59.606 13.624 65.934 1.00 40.00 C +ATOM 4114 O LYS C 153 -59.112 12.932 66.823 1.00 40.00 O +ATOM 4115 CB LYS C 153 -58.796 15.914 66.478 1.00 40.00 C +ATOM 4116 CG LYS C 153 -58.182 17.237 66.036 1.00 40.00 C +ATOM 4117 CD LYS C 153 -56.728 17.366 66.453 1.00 40.00 C +ATOM 4118 CE LYS C 153 -56.571 17.714 67.929 1.00 40.00 C +ATOM 4119 NZ LYS C 153 -56.830 19.145 68.228 1.00 40.00 N +ATOM 4120 N GLU C 154 -60.786 13.380 65.369 1.00 40.00 N +ATOM 4121 CA GLU C 154 -61.705 12.393 65.906 1.00 40.00 C +ATOM 4122 C GLU C 154 -61.164 10.975 65.797 1.00 40.00 C +ATOM 4123 O GLU C 154 -61.406 10.133 66.668 1.00 40.00 O +ATOM 4124 CB GLU C 154 -63.064 12.504 65.208 1.00 40.00 C +ATOM 4125 CG GLU C 154 -64.143 11.554 65.742 1.00 40.00 C +ATOM 4126 CD GLU C 154 -64.703 11.955 67.104 1.00 40.00 C +ATOM 4127 OE1 GLU C 154 -64.068 12.786 67.796 1.00 40.00 O +ATOM 4128 OE2 GLU C 154 -65.787 11.438 67.479 1.00 40.00 O +ATOM 4129 N MET C 155 -60.412 10.714 64.743 1.00 40.00 N +ATOM 4130 CA MET C 155 -60.042 9.355 64.479 1.00 40.00 C +ATOM 4131 C MET C 155 -58.580 9.044 64.700 1.00 40.00 C +ATOM 4132 O MET C 155 -58.056 8.114 64.118 1.00 40.00 O +ATOM 4133 CB MET C 155 -60.478 9.001 63.077 1.00 40.00 C +ATOM 4134 CG MET C 155 -61.982 8.961 62.964 1.00 40.00 C +ATOM 4135 SD MET C 155 -62.656 7.770 64.134 1.00 40.00 S +ATOM 4136 CE MET C 155 -62.756 6.298 63.115 1.00 40.00 C +ATOM 4137 N LEU C 156 -57.922 9.805 65.562 1.00 40.00 N +ATOM 4138 CA LEU C 156 -56.511 9.564 65.843 1.00 40.00 C +ATOM 4139 C LEU C 156 -56.340 8.255 66.610 1.00 40.00 C +ATOM 4140 O LEU C 156 -57.227 7.845 67.353 1.00 40.00 O +ATOM 4141 CB LEU C 156 -55.895 10.739 66.616 1.00 40.00 C +ATOM 4142 CG LEU C 156 -55.910 12.149 65.997 1.00 40.00 C +ATOM 4143 CD1 LEU C 156 -55.752 13.239 67.047 1.00 40.00 C +ATOM 4144 CD2 LEU C 156 -54.834 12.297 64.941 1.00 40.00 C +ATOM 4145 N MET C 157 -55.198 7.601 66.409 1.00 40.00 N +ATOM 4146 CA MET C 157 -54.900 6.320 67.044 1.00 40.00 C +ATOM 4147 C MET C 157 -54.801 6.505 68.544 1.00 40.00 C +ATOM 4148 O MET C 157 -54.660 7.629 69.018 1.00 40.00 O +ATOM 4149 CB MET C 157 -53.565 5.788 66.546 1.00 40.00 C +ATOM 4150 CG MET C 157 -53.320 5.997 65.069 1.00 40.00 C +ATOM 4151 SD MET C 157 -51.987 4.945 64.499 1.00 40.00 S +ATOM 4152 CE MET C 157 -52.750 3.337 64.635 1.00 40.00 C +ATOM 4153 N PRO C 158 -54.868 5.409 69.306 1.00 40.00 N +ATOM 4154 CA PRO C 158 -54.652 5.558 70.744 1.00 40.00 C +ATOM 4155 C PRO C 158 -53.182 5.838 71.088 1.00 40.00 C +ATOM 4156 O PRO C 158 -52.315 5.674 70.244 1.00 40.00 O +ATOM 4157 CB PRO C 158 -55.102 4.200 71.307 1.00 40.00 C +ATOM 4158 CG PRO C 158 -55.970 3.608 70.245 1.00 40.00 C +ATOM 4159 CD PRO C 158 -55.341 4.060 68.964 1.00 40.00 C +ATOM 4160 N LYS C 159 -52.918 6.285 72.308 1.00 40.00 N +ATOM 4161 CA LYS C 159 -51.555 6.442 72.779 1.00 40.00 C +ATOM 4162 C LYS C 159 -50.982 5.090 73.147 1.00 40.00 C +ATOM 4163 O LYS C 159 -49.818 4.811 72.866 1.00 40.00 O +ATOM 4164 CB LYS C 159 -51.506 7.373 73.982 1.00 40.00 C +ATOM 4165 CG LYS C 159 -51.429 8.837 73.597 1.00 40.00 C +ATOM 4166 CD LYS C 159 -51.852 9.766 74.728 1.00 40.00 C +ATOM 4167 CE LYS C 159 -51.754 11.215 74.241 1.00 40.00 C +ATOM 4168 NZ LYS C 159 -52.514 12.204 75.069 1.00 40.00 N +ATOM 4169 N ASP C 160 -51.819 4.257 73.766 1.00 40.00 N +ATOM 4170 CA ASP C 160 -51.473 2.894 74.211 1.00 40.00 C +ATOM 4171 C ASP C 160 -50.944 1.990 73.071 1.00 40.00 C +ATOM 4172 O ASP C 160 -51.698 1.648 72.162 1.00 40.00 O +ATOM 4173 CB ASP C 160 -52.722 2.267 74.871 1.00 40.00 C +ATOM 4174 CG ASP C 160 -52.460 0.894 75.515 1.00 40.00 C +ATOM 4175 OD1 ASP C 160 -51.365 0.303 75.334 1.00 40.00 O +ATOM 4176 OD2 ASP C 160 -53.386 0.407 76.213 1.00 40.00 O +ATOM 4177 N PRO C 161 -49.653 1.592 73.112 1.00 40.00 N +ATOM 4178 CA PRO C 161 -49.205 0.704 72.057 1.00 40.00 C +ATOM 4179 C PRO C 161 -49.447 -0.776 72.400 1.00 40.00 C +ATOM 4180 O PRO C 161 -48.912 -1.660 71.721 1.00 40.00 O +ATOM 4181 CB PRO C 161 -47.715 1.036 71.925 1.00 40.00 C +ATOM 4182 CG PRO C 161 -47.333 1.664 73.215 1.00 40.00 C +ATOM 4183 CD PRO C 161 -48.564 1.887 74.048 1.00 40.00 C +ATOM 4184 N ASN C 162 -50.260 -1.030 73.429 1.00 40.00 N +ATOM 4185 CA ASN C 162 -50.733 -2.377 73.756 1.00 40.00 C +ATOM 4186 C ASN C 162 -52.243 -2.444 73.743 1.00 40.00 C +ATOM 4187 O ASN C 162 -52.862 -3.273 74.409 1.00 40.00 O +ATOM 4188 CB ASN C 162 -50.210 -2.811 75.119 1.00 40.00 C +ATOM 4189 CG ASN C 162 -48.769 -3.290 75.066 1.00 40.00 C +ATOM 4190 OD1 ASN C 162 -48.045 -3.217 76.062 1.00 40.00 O +ATOM 4191 ND2 ASN C 162 -48.342 -3.785 73.902 1.00 40.00 N +ATOM 4192 N ALA C 163 -52.819 -1.556 72.952 1.00 40.00 N +ATOM 4193 CA ALA C 163 -54.251 -1.372 72.879 1.00 40.00 C +ATOM 4194 C ALA C 163 -54.943 -2.458 72.094 1.00 40.00 C +ATOM 4195 O ALA C 163 -54.380 -3.016 71.155 1.00 40.00 O +ATOM 4196 CB ALA C 163 -54.554 -0.035 72.238 1.00 40.00 C +ATOM 4197 N THR C 164 -56.178 -2.740 72.489 1.00 40.00 N +ATOM 4198 CA THR C 164 -57.083 -3.532 71.687 1.00 40.00 C +ATOM 4199 C THR C 164 -57.756 -2.531 70.766 1.00 40.00 C +ATOM 4200 O THR C 164 -58.417 -1.613 71.244 1.00 40.00 O +ATOM 4201 CB THR C 164 -58.140 -4.225 72.568 1.00 40.00 C +ATOM 4202 OG1 THR C 164 -57.493 -4.960 73.611 1.00 40.00 O +ATOM 4203 CG2 THR C 164 -58.985 -5.182 71.755 1.00 40.00 C +ATOM 4204 N ILE C 165 -57.573 -2.688 69.454 1.00 40.00 N +ATOM 4205 CA ILE C 165 -58.113 -1.721 68.494 1.00 40.00 C +ATOM 4206 C ILE C 165 -59.139 -2.270 67.522 1.00 40.00 C +ATOM 4207 O ILE C 165 -58.809 -2.866 66.497 1.00 40.00 O +ATOM 4208 CB ILE C 165 -57.015 -1.050 67.687 1.00 40.00 C +ATOM 4209 CG1 ILE C 165 -56.022 -0.417 68.641 1.00 40.00 C +ATOM 4210 CG2 ILE C 165 -57.622 0.009 66.785 1.00 40.00 C +ATOM 4211 CD1 ILE C 165 -54.711 -0.064 67.987 1.00 40.00 C +ATOM 4212 N ILE C 166 -60.396 -2.011 67.833 1.00 40.00 N +ATOM 4213 CA ILE C 166 -61.471 -2.568 67.064 1.00 40.00 C +ATOM 4214 C ILE C 166 -61.914 -1.604 66.009 1.00 40.00 C +ATOM 4215 O ILE C 166 -62.306 -0.474 66.299 1.00 40.00 O +ATOM 4216 CB ILE C 166 -62.639 -2.936 67.959 1.00 40.00 C +ATOM 4217 CG1 ILE C 166 -62.154 -3.987 68.949 1.00 40.00 C +ATOM 4218 CG2 ILE C 166 -63.784 -3.478 67.119 1.00 40.00 C +ATOM 4219 CD1 ILE C 166 -62.985 -4.107 70.203 1.00 40.00 C +ATOM 4220 N MET C 167 -61.866 -2.090 64.779 1.00 40.00 N +ATOM 4221 CA MET C 167 -62.083 -1.272 63.613 1.00 40.00 C +ATOM 4222 C MET C 167 -63.248 -1.784 62.776 1.00 40.00 C +ATOM 4223 O MET C 167 -63.170 -2.835 62.139 1.00 40.00 O +ATOM 4224 CB MET C 167 -60.797 -1.248 62.809 1.00 40.00 C +ATOM 4225 CG MET C 167 -59.596 -0.847 63.652 1.00 40.00 C +ATOM 4226 SD MET C 167 -58.020 -1.016 62.796 1.00 40.00 S +ATOM 4227 CE MET C 167 -57.561 -2.673 63.303 1.00 40.00 C +ATOM 4228 N LEU C 168 -64.339 -1.034 62.795 1.00 40.00 N +ATOM 4229 CA LEU C 168 -65.488 -1.399 62.003 1.00 40.00 C +ATOM 4230 C LEU C 168 -65.540 -0.534 60.778 1.00 40.00 C +ATOM 4231 O LEU C 168 -65.555 0.689 60.881 1.00 40.00 O +ATOM 4232 CB LEU C 168 -66.775 -1.223 62.793 1.00 40.00 C +ATOM 4233 CG LEU C 168 -66.972 -2.032 64.068 1.00 40.00 C +ATOM 4234 CD1 LEU C 168 -66.153 -3.320 64.072 1.00 40.00 C +ATOM 4235 CD2 LEU C 168 -66.580 -1.141 65.224 1.00 40.00 C +ATOM 4236 N ALA C 169 -65.591 -1.174 59.617 1.00 40.00 N +ATOM 4237 CA ALA C 169 -65.541 -0.442 58.366 1.00 40.00 C +ATOM 4238 C ALA C 169 -66.437 -0.998 57.281 1.00 40.00 C +ATOM 4239 O ALA C 169 -66.541 -2.203 57.107 1.00 40.00 O +ATOM 4240 CB ALA C 169 -64.113 -0.373 57.866 1.00 40.00 C +ATOM 4241 N THR C 170 -67.063 -0.095 56.541 1.00 40.00 N +ATOM 4242 CA THR C 170 -67.895 -0.448 55.413 1.00 40.00 C +ATOM 4243 C THR C 170 -67.483 0.396 54.237 1.00 40.00 C +ATOM 4244 O THR C 170 -67.626 1.626 54.267 1.00 40.00 O +ATOM 4245 CB THR C 170 -69.366 -0.120 55.683 1.00 40.00 C +ATOM 4246 OG1 THR C 170 -69.468 1.213 56.211 1.00 40.00 O +ATOM 4247 CG2 THR C 170 -69.964 -1.111 56.661 1.00 40.00 C +ATOM 4248 N GLY C 171 -66.979 -0.258 53.197 1.00 40.00 N +ATOM 4249 CA GLY C 171 -66.609 0.436 51.966 1.00 40.00 C +ATOM 4250 C GLY C 171 -65.386 1.305 52.153 1.00 40.00 C +ATOM 4251 O GLY C 171 -64.430 0.892 52.805 1.00 40.00 O +ATOM 4252 N THR C 172 -65.429 2.517 51.601 1.00 40.00 N +ATOM 4253 CA THR C 172 -64.300 3.440 51.682 1.00 40.00 C +ATOM 4254 C THR C 172 -64.118 4.004 53.099 1.00 40.00 C +ATOM 4255 O THR C 172 -63.422 5.004 53.303 1.00 40.00 O +ATOM 4256 CB THR C 172 -64.415 4.588 50.653 1.00 40.00 C +ATOM 4257 OG1 THR C 172 -65.483 5.468 51.027 1.00 40.00 O +ATOM 4258 CG2 THR C 172 -64.679 4.042 49.262 1.00 40.00 C +ATOM 4259 N GLY C 173 -64.750 3.360 54.074 1.00 40.00 N +ATOM 4260 CA GLY C 173 -64.515 3.676 55.475 1.00 40.00 C +ATOM 4261 C GLY C 173 -63.331 2.904 56.024 1.00 40.00 C +ATOM 4262 O GLY C 173 -63.022 2.986 57.207 1.00 40.00 O +ATOM 4263 N ILE C 174 -62.674 2.143 55.162 1.00 40.00 N +ATOM 4264 CA ILE C 174 -61.505 1.385 55.556 1.00 40.00 C +ATOM 4265 C ILE C 174 -60.304 2.302 55.531 1.00 40.00 C +ATOM 4266 O ILE C 174 -59.328 2.074 56.239 1.00 40.00 O +ATOM 4267 CB ILE C 174 -61.257 0.210 54.596 1.00 40.00 C +ATOM 4268 CG1 ILE C 174 -60.001 -0.582 54.986 1.00 40.00 C +ATOM 4269 CG2 ILE C 174 -61.100 0.717 53.173 1.00 40.00 C +ATOM 4270 CD1 ILE C 174 -60.245 -1.716 55.956 1.00 40.00 C +ATOM 4271 N ALA C 175 -60.396 3.346 54.715 1.00 40.00 N +ATOM 4272 CA ALA C 175 -59.280 4.256 54.458 1.00 40.00 C +ATOM 4273 C ALA C 175 -58.406 4.602 55.673 1.00 40.00 C +ATOM 4274 O ALA C 175 -57.191 4.385 55.622 1.00 40.00 O +ATOM 4275 CB ALA C 175 -59.773 5.521 53.777 1.00 40.00 C +ATOM 4276 N PRO C 176 -59.011 5.133 56.763 1.00 40.00 N +ATOM 4277 CA PRO C 176 -58.199 5.459 57.921 1.00 40.00 C +ATOM 4278 C PRO C 176 -57.533 4.226 58.483 1.00 40.00 C +ATOM 4279 O PRO C 176 -56.384 4.291 58.885 1.00 40.00 O +ATOM 4280 CB PRO C 176 -59.218 5.987 58.923 1.00 40.00 C +ATOM 4281 CG PRO C 176 -60.515 5.396 58.511 1.00 40.00 C +ATOM 4282 CD PRO C 176 -60.437 5.406 57.021 1.00 40.00 C +ATOM 4283 N PHE C 177 -58.243 3.108 58.490 1.00 40.00 N +ATOM 4284 CA PHE C 177 -57.706 1.897 59.057 1.00 40.00 C +ATOM 4285 C PHE C 177 -56.567 1.324 58.259 1.00 40.00 C +ATOM 4286 O PHE C 177 -55.684 0.688 58.818 1.00 40.00 O +ATOM 4287 CB PHE C 177 -58.795 0.884 59.185 1.00 40.00 C +ATOM 4288 CG PHE C 177 -59.916 1.344 60.031 1.00 40.00 C +ATOM 4289 CD1 PHE C 177 -59.698 1.693 61.348 1.00 40.00 C +ATOM 4290 CD2 PHE C 177 -61.191 1.431 59.515 1.00 40.00 C +ATOM 4291 CE1 PHE C 177 -60.742 2.111 62.148 1.00 40.00 C +ATOM 4292 CE2 PHE C 177 -62.247 1.844 60.307 1.00 40.00 C +ATOM 4293 CZ PHE C 177 -62.021 2.183 61.630 1.00 40.00 C +ATOM 4294 N ARG C 178 -56.583 1.540 56.953 1.00 40.00 N +ATOM 4295 CA ARG C 178 -55.411 1.242 56.165 1.00 40.00 C +ATOM 4296 C ARG C 178 -54.284 1.953 56.888 1.00 40.00 C +ATOM 4297 O ARG C 178 -53.361 1.322 57.427 1.00 40.00 O +ATOM 4298 CB ARG C 178 -55.551 1.770 54.735 1.00 40.00 C +ATOM 4299 CG ARG C 178 -54.305 1.541 53.901 1.00 40.00 C +ATOM 4300 CD ARG C 178 -54.555 1.687 52.415 1.00 40.00 C +ATOM 4301 NE ARG C 178 -53.512 1.009 51.641 1.00 40.00 N +ATOM 4302 CZ ARG C 178 -52.405 1.593 51.188 1.00 40.00 C +ATOM 4303 NH1 ARG C 178 -52.182 2.882 51.407 1.00 40.00 N +ATOM 4304 NH2 ARG C 178 -51.524 0.884 50.506 1.00 40.00 N +ATOM 4305 N SER C 179 -54.424 3.278 56.938 1.00 40.00 N +ATOM 4306 CA SER C 179 -53.438 4.187 57.510 1.00 40.00 C +ATOM 4307 C SER C 179 -52.934 3.685 58.854 1.00 40.00 C +ATOM 4308 O SER C 179 -51.735 3.711 59.107 1.00 40.00 O +ATOM 4309 CB SER C 179 -54.028 5.594 57.637 1.00 40.00 C +ATOM 4310 OG SER C 179 -53.012 6.567 57.623 1.00 40.00 O +ATOM 4311 N PHE C 180 -53.853 3.201 59.687 1.00 40.00 N +ATOM 4312 CA PHE C 180 -53.521 2.638 60.995 1.00 40.00 C +ATOM 4313 C PHE C 180 -52.612 1.446 60.856 1.00 40.00 C +ATOM 4314 O PHE C 180 -51.552 1.365 61.474 1.00 40.00 O +ATOM 4315 CB PHE C 180 -54.778 2.146 61.700 1.00 40.00 C +ATOM 4316 CG PHE C 180 -55.498 3.198 62.478 1.00 40.00 C +ATOM 4317 CD1 PHE C 180 -55.465 4.527 62.086 1.00 40.00 C +ATOM 4318 CD2 PHE C 180 -56.249 2.845 63.588 1.00 40.00 C +ATOM 4319 CE1 PHE C 180 -56.149 5.485 62.805 1.00 40.00 C +ATOM 4320 CE2 PHE C 180 -56.940 3.795 64.313 1.00 40.00 C +ATOM 4321 CZ PHE C 180 -56.888 5.117 63.921 1.00 40.00 C +ATOM 4322 N LEU C 181 -53.043 0.502 60.046 1.00 40.00 N +ATOM 4323 CA LEU C 181 -52.366 -0.760 60.044 1.00 40.00 C +ATOM 4324 C LEU C 181 -50.962 -0.606 59.480 1.00 40.00 C +ATOM 4325 O LEU C 181 -49.994 -1.086 60.078 1.00 40.00 O +ATOM 4326 CB LEU C 181 -53.210 -1.820 59.340 1.00 40.00 C +ATOM 4327 CG LEU C 181 -54.447 -2.163 60.175 1.00 40.00 C +ATOM 4328 CD1 LEU C 181 -55.630 -2.475 59.294 1.00 40.00 C +ATOM 4329 CD2 LEU C 181 -54.180 -3.323 61.104 1.00 40.00 C +ATOM 4330 N TRP C 182 -50.839 0.113 58.371 1.00 40.00 N +ATOM 4331 CA TRP C 182 -49.532 0.324 57.789 1.00 40.00 C +ATOM 4332 C TRP C 182 -48.517 0.699 58.823 1.00 40.00 C +ATOM 4333 O TRP C 182 -47.458 0.093 58.897 1.00 40.00 O +ATOM 4334 CB TRP C 182 -49.596 1.378 56.719 1.00 40.00 C +ATOM 4335 CG TRP C 182 -49.746 0.810 55.336 1.00 40.00 C +ATOM 4336 CD1 TRP C 182 -50.799 0.060 54.830 1.00 40.00 C +ATOM 4337 CD2 TRP C 182 -48.816 0.956 54.218 1.00 40.00 C +ATOM 4338 NE1 TRP C 182 -50.586 -0.258 53.513 1.00 40.00 N +ATOM 4339 CE2 TRP C 182 -49.417 0.248 53.086 1.00 40.00 C +ATOM 4340 CE3 TRP C 182 -47.596 1.583 54.046 1.00 40.00 C +ATOM 4341 CZ2 TRP C 182 -48.801 0.183 51.851 1.00 40.00 C +ATOM 4342 CZ3 TRP C 182 -46.985 1.512 52.791 1.00 40.00 C +ATOM 4343 CH2 TRP C 182 -47.574 0.827 51.721 1.00 40.00 C +ATOM 4344 N LYS C 183 -48.836 1.688 59.649 1.00 40.00 N +ATOM 4345 CA LYS C 183 -47.924 2.131 60.692 1.00 40.00 C +ATOM 4346 C LYS C 183 -47.662 0.996 61.661 1.00 40.00 C +ATOM 4347 O LYS C 183 -46.523 0.733 62.024 1.00 40.00 O +ATOM 4348 CB LYS C 183 -48.497 3.346 61.436 1.00 40.00 C +ATOM 4349 CG LYS C 183 -47.454 4.318 62.006 1.00 40.00 C +ATOM 4350 CD LYS C 183 -47.932 5.102 63.245 1.00 40.00 C +ATOM 4351 CE LYS C 183 -46.844 6.029 63.813 1.00 40.00 C +ATOM 4352 NZ LYS C 183 -47.163 6.581 65.163 1.00 40.00 N +ATOM 4353 N MET C 184 -48.727 0.312 62.051 1.00 40.00 N +ATOM 4354 CA MET C 184 -48.638 -0.717 63.067 1.00 40.00 C +ATOM 4355 C MET C 184 -47.807 -1.900 62.646 1.00 40.00 C +ATOM 4356 O MET C 184 -47.003 -2.410 63.423 1.00 40.00 O +ATOM 4357 CB MET C 184 -50.016 -1.227 63.407 1.00 40.00 C +ATOM 4358 CG MET C 184 -50.865 -0.195 64.084 1.00 40.00 C +ATOM 4359 SD MET C 184 -52.568 -0.614 63.780 1.00 40.00 S +ATOM 4360 CE MET C 184 -52.758 -2.005 64.901 1.00 40.00 C +ATOM 4361 N PHE C 185 -48.009 -2.346 61.416 1.00 40.00 N +ATOM 4362 CA PHE C 185 -47.455 -3.609 61.020 1.00 40.00 C +ATOM 4363 C PHE C 185 -46.429 -3.531 59.916 1.00 40.00 C +ATOM 4364 O PHE C 185 -45.461 -4.277 59.921 1.00 40.00 O +ATOM 4365 CB PHE C 185 -48.572 -4.548 60.636 1.00 40.00 C +ATOM 4366 CG PHE C 185 -49.431 -4.957 61.787 1.00 40.00 C +ATOM 4367 CD1 PHE C 185 -48.937 -5.796 62.780 1.00 40.00 C +ATOM 4368 CD2 PHE C 185 -50.741 -4.518 61.874 1.00 40.00 C +ATOM 4369 CE1 PHE C 185 -49.740 -6.185 63.841 1.00 40.00 C +ATOM 4370 CE2 PHE C 185 -51.548 -4.903 62.931 1.00 40.00 C +ATOM 4371 CZ PHE C 185 -51.050 -5.738 63.915 1.00 40.00 C +ATOM 4372 N PHE C 186 -46.620 -2.641 58.962 1.00 40.00 N +ATOM 4373 CA PHE C 186 -45.622 -2.531 57.911 1.00 40.00 C +ATOM 4374 C PHE C 186 -44.371 -1.774 58.349 1.00 40.00 C +ATOM 4375 O PHE C 186 -43.282 -2.055 57.862 1.00 40.00 O +ATOM 4376 CB PHE C 186 -46.216 -1.923 56.633 1.00 40.00 C +ATOM 4377 CG PHE C 186 -47.055 -2.890 55.818 1.00 40.00 C +ATOM 4378 CD1 PHE C 186 -47.053 -4.260 56.109 1.00 40.00 C +ATOM 4379 CD2 PHE C 186 -47.825 -2.431 54.737 1.00 40.00 C +ATOM 4380 CE1 PHE C 186 -47.816 -5.143 55.363 1.00 40.00 C +ATOM 4381 CE2 PHE C 186 -48.583 -3.314 53.990 1.00 40.00 C +ATOM 4382 CZ PHE C 186 -48.577 -4.670 54.302 1.00 40.00 C +ATOM 4383 N GLU C 187 -44.525 -0.847 59.295 1.00 40.00 N +ATOM 4384 CA GLU C 187 -43.475 0.135 59.625 1.00 40.00 C +ATOM 4385 C GLU C 187 -42.762 -0.051 60.983 1.00 40.00 C +ATOM 4386 O GLU C 187 -43.348 -0.539 61.963 1.00 40.00 O +ATOM 4387 CB GLU C 187 -44.027 1.563 59.470 1.00 40.00 C +ATOM 4388 CG GLU C 187 -44.621 1.816 58.089 1.00 40.00 C +ATOM 4389 CD GLU C 187 -45.361 3.129 57.965 1.00 40.00 C +ATOM 4390 OE1 GLU C 187 -45.828 3.687 58.975 1.00 40.00 O +ATOM 4391 OE2 GLU C 187 -45.487 3.605 56.829 1.00 40.00 O +ATOM 4392 N LYS C 188 -41.480 0.328 61.002 1.00 40.00 N +ATOM 4393 CA LYS C 188 -40.634 0.277 62.202 1.00 40.00 C +ATOM 4394 C LYS C 188 -40.372 1.675 62.713 1.00 40.00 C +ATOM 4395 O LYS C 188 -39.677 2.468 62.080 1.00 40.00 O +ATOM 4396 CB LYS C 188 -39.287 -0.423 61.943 1.00 40.00 C +ATOM 4397 CG LYS C 188 -39.384 -1.907 61.604 1.00 40.00 C +ATOM 4398 CD LYS C 188 -39.918 -2.763 62.755 1.00 40.00 C +ATOM 4399 CE LYS C 188 -40.284 -4.179 62.305 1.00 40.00 C +ATOM 4400 NZ LYS C 188 -39.143 -4.922 61.687 1.00 40.00 N +ATOM 4401 N HIS C 189 -40.941 1.965 63.870 1.00 40.00 N +ATOM 4402 CA HIS C 189 -40.704 3.228 64.521 1.00 40.00 C +ATOM 4403 C HIS C 189 -40.034 2.983 65.820 1.00 40.00 C +ATOM 4404 O HIS C 189 -40.355 2.010 66.518 1.00 40.00 O +ATOM 4405 CB HIS C 189 -42.012 3.953 64.726 1.00 40.00 C +ATOM 4406 CG HIS C 189 -42.684 4.312 63.446 1.00 40.00 C +ATOM 4407 ND1 HIS C 189 -42.669 5.560 62.949 1.00 40.00 N +ATOM 4408 CD2 HIS C 189 -43.367 3.526 62.530 1.00 40.00 C +ATOM 4409 CE1 HIS C 189 -43.331 5.581 61.784 1.00 40.00 C +ATOM 4410 NE2 HIS C 189 -43.754 4.332 61.525 1.00 40.00 N +ATOM 4411 N ASP C 190 -39.086 3.856 66.148 1.00 40.00 N +ATOM 4412 CA ASP C 190 -38.360 3.770 67.404 1.00 40.00 C +ATOM 4413 C ASP C 190 -39.260 4.189 68.550 1.00 40.00 C +ATOM 4414 O ASP C 190 -39.270 3.551 69.592 1.00 40.00 O +ATOM 4415 CB ASP C 190 -37.103 4.624 67.332 1.00 40.00 C +ATOM 4416 CG ASP C 190 -36.256 4.279 66.128 1.00 40.00 C +ATOM 4417 OD1 ASP C 190 -35.773 3.127 66.055 1.00 40.00 O +ATOM 4418 OD2 ASP C 190 -36.097 5.148 65.247 1.00 40.00 O +ATOM 4419 N ASP C 191 -40.044 5.240 68.328 1.00 40.00 N +ATOM 4420 CA ASP C 191 -41.009 5.723 69.317 1.00 40.00 C +ATOM 4421 C ASP C 191 -42.292 4.905 69.364 1.00 40.00 C +ATOM 4422 O ASP C 191 -43.088 5.023 70.286 1.00 40.00 O +ATOM 4423 CB ASP C 191 -41.349 7.201 69.069 1.00 40.00 C +ATOM 4424 CG ASP C 191 -41.728 7.487 67.634 1.00 40.00 C +ATOM 4425 OD1 ASP C 191 -40.908 7.202 66.736 1.00 40.00 O +ATOM 4426 OD2 ASP C 191 -42.834 8.019 67.410 1.00 40.00 O +ATOM 4427 N TYR C 192 -42.495 4.071 68.363 1.00 40.00 N +ATOM 4428 CA TYR C 192 -43.752 3.370 68.254 1.00 40.00 C +ATOM 4429 C TYR C 192 -43.630 1.923 67.750 1.00 40.00 C +ATOM 4430 O TYR C 192 -43.355 1.657 66.571 1.00 40.00 O +ATOM 4431 CB TYR C 192 -44.743 4.185 67.408 1.00 40.00 C +ATOM 4432 CG TYR C 192 -46.143 3.679 67.564 1.00 40.00 C +ATOM 4433 CD1 TYR C 192 -46.815 3.823 68.770 1.00 40.00 C +ATOM 4434 CD2 TYR C 192 -46.783 3.011 66.527 1.00 40.00 C +ATOM 4435 CE1 TYR C 192 -48.097 3.331 68.935 1.00 40.00 C +ATOM 4436 CE2 TYR C 192 -48.066 2.519 66.681 1.00 40.00 C +ATOM 4437 CZ TYR C 192 -48.714 2.684 67.886 1.00 40.00 C +ATOM 4438 OH TYR C 192 -49.979 2.196 68.060 1.00 40.00 O +ATOM 4439 N LYS C 193 -43.821 0.989 68.670 1.00 40.00 N +ATOM 4440 CA LYS C 193 -43.969 -0.402 68.306 1.00 40.00 C +ATOM 4441 C LYS C 193 -45.244 -0.899 68.964 1.00 40.00 C +ATOM 4442 O LYS C 193 -45.420 -0.786 70.181 1.00 40.00 O +ATOM 4443 CB LYS C 193 -42.761 -1.223 68.750 1.00 40.00 C +ATOM 4444 CG LYS C 193 -41.426 -0.735 68.204 1.00 40.00 C +ATOM 4445 CD LYS C 193 -40.254 -1.252 69.035 1.00 40.00 C +ATOM 4446 CE LYS C 193 -40.320 -0.835 70.507 1.00 40.00 C +ATOM 4447 NZ LYS C 193 -40.254 0.640 70.725 1.00 40.00 N +ATOM 4448 N PHE C 194 -46.147 -1.413 68.138 1.00 40.00 N +ATOM 4449 CA PHE C 194 -47.423 -1.924 68.600 1.00 40.00 C +ATOM 4450 C PHE C 194 -47.244 -3.324 69.159 1.00 40.00 C +ATOM 4451 O PHE C 194 -46.361 -4.058 68.731 1.00 40.00 O +ATOM 4452 CB PHE C 194 -48.425 -1.921 67.445 1.00 40.00 C +ATOM 4453 CG PHE C 194 -49.781 -2.420 67.822 1.00 40.00 C +ATOM 4454 CD1 PHE C 194 -50.628 -1.651 68.593 1.00 40.00 C +ATOM 4455 CD2 PHE C 194 -50.210 -3.667 67.412 1.00 40.00 C +ATOM 4456 CE1 PHE C 194 -51.880 -2.121 68.954 1.00 40.00 C +ATOM 4457 CE2 PHE C 194 -51.467 -4.143 67.762 1.00 40.00 C +ATOM 4458 CZ PHE C 194 -52.306 -3.365 68.534 1.00 40.00 C +ATOM 4459 N ASN C 195 -48.072 -3.682 70.131 1.00 40.00 N +ATOM 4460 CA ASN C 195 -48.074 -5.034 70.676 1.00 40.00 C +ATOM 4461 C ASN C 195 -49.366 -5.358 71.447 1.00 40.00 C +ATOM 4462 O ASN C 195 -49.339 -5.976 72.515 1.00 40.00 O +ATOM 4463 CB ASN C 195 -46.815 -5.280 71.528 1.00 40.00 C +ATOM 4464 CG ASN C 195 -46.470 -6.763 71.670 1.00 40.00 C +ATOM 4465 OD1 ASN C 195 -45.833 -7.164 72.651 1.00 40.00 O +ATOM 4466 ND2 ASN C 195 -46.883 -7.585 70.692 1.00 40.00 N +ATOM 4467 N GLY C 196 -50.496 -4.925 70.895 1.00 40.00 N +ATOM 4468 CA GLY C 196 -51.811 -5.301 71.416 1.00 40.00 C +ATOM 4469 C GLY C 196 -52.510 -6.241 70.440 1.00 40.00 C +ATOM 4470 O GLY C 196 -51.905 -7.213 69.952 1.00 40.00 O +ATOM 4471 N LEU C 197 -53.777 -5.945 70.148 1.00 40.00 N +ATOM 4472 CA LEU C 197 -54.571 -6.751 69.229 1.00 40.00 C +ATOM 4473 C LEU C 197 -55.365 -5.882 68.280 1.00 40.00 C +ATOM 4474 O LEU C 197 -56.271 -5.170 68.698 1.00 40.00 O +ATOM 4475 CB LEU C 197 -55.527 -7.657 69.999 1.00 40.00 C +ATOM 4476 CG LEU C 197 -56.495 -8.415 69.099 1.00 40.00 C +ATOM 4477 CD1 LEU C 197 -55.826 -9.634 68.460 1.00 40.00 C +ATOM 4478 CD2 LEU C 197 -57.733 -8.796 69.899 1.00 40.00 C +ATOM 4479 N GLY C 198 -55.027 -5.954 67.000 1.00 40.00 N +ATOM 4480 CA GLY C 198 -55.754 -5.215 65.977 1.00 40.00 C +ATOM 4481 C GLY C 198 -56.840 -6.053 65.329 1.00 40.00 C +ATOM 4482 O GLY C 198 -56.545 -6.917 64.508 1.00 40.00 O +ATOM 4483 N TRP C 199 -58.097 -5.804 65.695 1.00 40.00 N +ATOM 4484 CA TRP C 199 -59.223 -6.533 65.113 1.00 40.00 C +ATOM 4485 C TRP C 199 -59.964 -5.665 64.162 1.00 40.00 C +ATOM 4486 O TRP C 199 -60.401 -4.573 64.527 1.00 40.00 O +ATOM 4487 CB TRP C 199 -60.186 -7.035 66.182 1.00 40.00 C +ATOM 4488 CG TRP C 199 -60.897 -8.337 65.837 1.00 40.00 C +ATOM 4489 CD1 TRP C 199 -61.046 -8.919 64.582 1.00 40.00 C +ATOM 4490 CD2 TRP C 199 -61.603 -9.256 66.761 1.00 40.00 C +ATOM 4491 NE1 TRP C 199 -61.753 -10.092 64.662 1.00 40.00 N +ATOM 4492 CE2 TRP C 199 -62.120 -10.351 65.934 1.00 40.00 C +ATOM 4493 CE3 TRP C 199 -61.844 -9.279 68.138 1.00 40.00 C +ATOM 4494 CZ2 TRP C 199 -62.847 -11.405 66.479 1.00 40.00 C +ATOM 4495 CZ3 TRP C 199 -62.571 -10.353 68.678 1.00 40.00 C +ATOM 4496 CH2 TRP C 199 -63.060 -11.389 67.867 1.00 40.00 C +ATOM 4497 N LEU C 200 -60.122 -6.165 62.936 1.00 40.00 N +ATOM 4498 CA LEU C 200 -60.765 -5.430 61.846 1.00 40.00 C +ATOM 4499 C LEU C 200 -61.991 -6.107 61.241 1.00 40.00 C +ATOM 4500 O LEU C 200 -61.940 -7.261 60.787 1.00 40.00 O +ATOM 4501 CB LEU C 200 -59.769 -5.151 60.731 1.00 40.00 C +ATOM 4502 CG LEU C 200 -60.379 -4.613 59.440 1.00 40.00 C +ATOM 4503 CD1 LEU C 200 -61.115 -3.295 59.646 1.00 40.00 C +ATOM 4504 CD2 LEU C 200 -59.280 -4.468 58.408 1.00 40.00 C +ATOM 4505 N PHE C 201 -63.078 -5.346 61.207 1.00 40.00 N +ATOM 4506 CA PHE C 201 -64.310 -5.777 60.591 1.00 40.00 C +ATOM 4507 C PHE C 201 -64.603 -4.868 59.399 1.00 40.00 C +ATOM 4508 O PHE C 201 -64.741 -3.652 59.554 1.00 40.00 O +ATOM 4509 CB PHE C 201 -65.450 -5.734 61.616 1.00 40.00 C +ATOM 4510 CG PHE C 201 -65.383 -6.827 62.665 1.00 40.00 C +ATOM 4511 CD1 PHE C 201 -64.445 -6.783 63.693 1.00 40.00 C +ATOM 4512 CD2 PHE C 201 -66.279 -7.898 62.638 1.00 40.00 C +ATOM 4513 CE1 PHE C 201 -64.395 -7.790 64.656 1.00 40.00 C +ATOM 4514 CE2 PHE C 201 -66.237 -8.905 63.604 1.00 40.00 C +ATOM 4515 CZ PHE C 201 -65.294 -8.852 64.613 1.00 40.00 C +ATOM 4516 N LEU C 202 -64.667 -5.471 58.210 1.00 40.00 N +ATOM 4517 CA LEU C 202 -64.990 -4.753 56.978 1.00 40.00 C +ATOM 4518 C LEU C 202 -66.097 -5.377 56.150 1.00 40.00 C +ATOM 4519 O LEU C 202 -65.958 -6.489 55.628 1.00 40.00 O +ATOM 4520 CB LEU C 202 -63.774 -4.604 56.087 1.00 40.00 C +ATOM 4521 CG LEU C 202 -64.180 -4.177 54.673 1.00 40.00 C +ATOM 4522 CD1 LEU C 202 -64.604 -2.702 54.588 1.00 40.00 C +ATOM 4523 CD2 LEU C 202 -63.042 -4.509 53.724 1.00 40.00 C +ATOM 4524 N GLY C 203 -67.170 -4.613 55.988 1.00 40.00 N +ATOM 4525 CA GLY C 203 -68.365 -5.072 55.299 1.00 40.00 C +ATOM 4526 C GLY C 203 -68.535 -4.415 53.949 1.00 40.00 C +ATOM 4527 O GLY C 203 -68.418 -3.194 53.817 1.00 40.00 O +ATOM 4528 N VAL C 204 -68.815 -5.243 52.947 1.00 40.00 N +ATOM 4529 CA VAL C 204 -68.987 -4.796 51.564 1.00 40.00 C +ATOM 4530 C VAL C 204 -70.073 -5.591 50.847 1.00 40.00 C +ATOM 4531 O VAL C 204 -70.547 -6.610 51.364 1.00 40.00 O +ATOM 4532 CB VAL C 204 -67.695 -4.947 50.719 1.00 40.00 C +ATOM 4533 CG1 VAL C 204 -66.785 -3.744 50.890 1.00 40.00 C +ATOM 4534 CG2 VAL C 204 -66.980 -6.266 51.010 1.00 40.00 C +ATOM 4535 N PRO C 205 -70.467 -5.126 49.645 1.00 40.00 N +ATOM 4536 CA PRO C 205 -71.365 -5.875 48.748 1.00 40.00 C +ATOM 4537 C PRO C 205 -70.840 -7.231 48.188 1.00 40.00 C +ATOM 4538 O PRO C 205 -71.480 -8.271 48.365 1.00 40.00 O +ATOM 4539 CB PRO C 205 -71.610 -4.877 47.598 1.00 40.00 C +ATOM 4540 CG PRO C 205 -70.552 -3.821 47.725 1.00 40.00 C +ATOM 4541 CD PRO C 205 -70.286 -3.728 49.194 1.00 40.00 C +ATOM 4542 N THR C 206 -69.696 -7.201 47.513 1.00 40.00 N +ATOM 4543 CA THR C 206 -69.220 -8.336 46.735 1.00 40.00 C +ATOM 4544 C THR C 206 -67.819 -8.752 47.137 1.00 40.00 C +ATOM 4545 O THR C 206 -67.154 -8.047 47.879 1.00 40.00 O +ATOM 4546 CB THR C 206 -69.162 -7.971 45.249 1.00 40.00 C +ATOM 4547 OG1 THR C 206 -68.452 -6.733 45.087 1.00 40.00 O +ATOM 4548 CG2 THR C 206 -70.554 -7.832 44.690 1.00 40.00 C +ATOM 4549 N SER C 207 -67.373 -9.902 46.644 1.00 40.00 N +ATOM 4550 CA SER C 207 -65.972 -10.295 46.763 1.00 40.00 C +ATOM 4551 C SER C 207 -65.131 -9.472 45.809 1.00 40.00 C +ATOM 4552 O SER C 207 -63.908 -9.533 45.842 1.00 40.00 O +ATOM 4553 CB SER C 207 -65.786 -11.782 46.463 1.00 40.00 C +ATOM 4554 OG SER C 207 -66.038 -12.575 47.610 1.00 40.00 O +ATOM 4555 N SER C 208 -65.810 -8.710 44.957 1.00 40.00 N +ATOM 4556 CA SER C 208 -65.165 -7.803 44.014 1.00 40.00 C +ATOM 4557 C SER C 208 -65.034 -6.405 44.594 1.00 40.00 C +ATOM 4558 O SER C 208 -64.231 -5.613 44.107 1.00 40.00 O +ATOM 4559 CB SER C 208 -65.924 -7.741 42.679 1.00 40.00 C +ATOM 4560 OG SER C 208 -67.178 -7.087 42.817 1.00 40.00 O +ATOM 4561 N SER C 209 -65.828 -6.104 45.620 1.00 40.00 N +ATOM 4562 CA SER C 209 -65.718 -4.826 46.333 1.00 40.00 C +ATOM 4563 C SER C 209 -64.754 -4.892 47.547 1.00 40.00 C +ATOM 4564 O SER C 209 -64.613 -3.928 48.305 1.00 40.00 O +ATOM 4565 CB SER C 209 -67.105 -4.326 46.761 1.00 40.00 C +ATOM 4566 OG SER C 209 -67.974 -4.181 45.653 1.00 40.00 O +ATOM 4567 N LEU C 210 -64.074 -6.024 47.702 1.00 40.00 N +ATOM 4568 CA LEU C 210 -63.244 -6.305 48.877 1.00 40.00 C +ATOM 4569 C LEU C 210 -61.841 -5.649 48.800 1.00 40.00 C +ATOM 4570 O LEU C 210 -60.876 -6.252 48.316 1.00 40.00 O +ATOM 4571 CB LEU C 210 -63.147 -7.830 49.052 1.00 40.00 C +ATOM 4572 CG LEU C 210 -63.103 -8.506 50.424 1.00 40.00 C +ATOM 4573 CD1 LEU C 210 -64.430 -8.400 51.156 1.00 40.00 C +ATOM 4574 CD2 LEU C 210 -62.713 -9.963 50.255 1.00 40.00 C +ATOM 4575 N LEU C 211 -61.736 -4.422 49.306 1.00 40.00 N +ATOM 4576 CA LEU C 211 -60.522 -3.603 49.166 1.00 40.00 C +ATOM 4577 C LEU C 211 -59.254 -4.123 49.895 1.00 40.00 C +ATOM 4578 O LEU C 211 -59.331 -4.705 50.969 1.00 40.00 O +ATOM 4579 CB LEU C 211 -60.833 -2.146 49.564 1.00 40.00 C +ATOM 4580 CG LEU C 211 -62.145 -1.471 49.125 1.00 40.00 C +ATOM 4581 CD1 LEU C 211 -62.313 -0.115 49.786 1.00 40.00 C +ATOM 4582 CD2 LEU C 211 -62.231 -1.312 47.621 1.00 40.00 C +ATOM 4583 N TYR C 212 -58.097 -3.928 49.267 1.00 40.00 N +ATOM 4584 CA TYR C 212 -56.783 -4.133 49.887 1.00 40.00 C +ATOM 4585 C TYR C 212 -56.508 -5.496 50.536 1.00 40.00 C +ATOM 4586 O TYR C 212 -55.508 -5.646 51.236 1.00 40.00 O +ATOM 4587 CB TYR C 212 -56.511 -3.036 50.920 1.00 40.00 C +ATOM 4588 CG TYR C 212 -56.798 -1.621 50.472 1.00 40.00 C +ATOM 4589 CD1 TYR C 212 -55.823 -0.856 49.840 1.00 40.00 C +ATOM 4590 CD2 TYR C 212 -58.026 -1.036 50.719 1.00 40.00 C +ATOM 4591 CE1 TYR C 212 -56.077 0.441 49.441 1.00 40.00 C +ATOM 4592 CE2 TYR C 212 -58.293 0.256 50.321 1.00 40.00 C +ATOM 4593 CZ TYR C 212 -57.315 0.990 49.686 1.00 40.00 C +ATOM 4594 OH TYR C 212 -57.583 2.281 49.295 1.00 40.00 O +ATOM 4595 N LYS C 213 -57.371 -6.481 50.289 1.00 40.00 N +ATOM 4596 CA LYS C 213 -57.327 -7.806 50.959 1.00 40.00 C +ATOM 4597 C LYS C 213 -55.953 -8.504 51.050 1.00 40.00 C +ATOM 4598 O LYS C 213 -55.599 -9.012 52.117 1.00 40.00 O +ATOM 4599 CB LYS C 213 -58.376 -8.747 50.343 1.00 40.00 C +ATOM 4600 CG LYS C 213 -58.310 -10.212 50.773 1.00 40.00 C +ATOM 4601 CD LYS C 213 -59.049 -11.103 49.775 1.00 40.00 C +ATOM 4602 CE LYS C 213 -58.738 -12.585 49.945 1.00 40.00 C +ATOM 4603 NZ LYS C 213 -59.547 -13.251 51.004 1.00 40.00 N +ATOM 4604 N GLU C 214 -55.203 -8.533 49.942 1.00 40.00 N +ATOM 4605 CA GLU C 214 -53.857 -9.168 49.882 1.00 40.00 C +ATOM 4606 C GLU C 214 -52.842 -8.451 50.784 1.00 40.00 C +ATOM 4607 O GLU C 214 -51.827 -9.034 51.176 1.00 40.00 O +ATOM 4608 CB GLU C 214 -53.275 -9.237 48.446 1.00 40.00 C +ATOM 4609 CG GLU C 214 -54.242 -8.988 47.297 1.00 40.00 C +ATOM 4610 CD GLU C 214 -54.952 -7.636 47.401 1.00 40.00 C +ATOM 4611 OE1 GLU C 214 -54.374 -6.660 47.959 1.00 40.00 O +ATOM 4612 OE2 GLU C 214 -56.113 -7.556 46.938 1.00 40.00 O +ATOM 4613 N GLU C 215 -53.107 -7.185 51.091 1.00 40.00 N +ATOM 4614 CA GLU C 215 -52.263 -6.443 51.995 1.00 40.00 C +ATOM 4615 C GLU C 215 -52.486 -6.969 53.390 1.00 40.00 C +ATOM 4616 O GLU C 215 -51.577 -7.487 54.013 1.00 40.00 O +ATOM 4617 CB GLU C 215 -52.587 -4.959 51.921 1.00 40.00 C +ATOM 4618 CG GLU C 215 -52.154 -4.306 50.619 1.00 40.00 C +ATOM 4619 CD GLU C 215 -52.280 -2.791 50.646 1.00 40.00 C +ATOM 4620 OE1 GLU C 215 -52.327 -2.185 51.739 1.00 40.00 O +ATOM 4621 OE2 GLU C 215 -52.331 -2.194 49.556 1.00 40.00 O +ATOM 4622 N PHE C 216 -53.718 -6.857 53.862 1.00 40.00 N +ATOM 4623 CA PHE C 216 -54.071 -7.365 55.173 1.00 40.00 C +ATOM 4624 C PHE C 216 -53.679 -8.823 55.299 1.00 40.00 C +ATOM 4625 O PHE C 216 -53.290 -9.276 56.372 1.00 40.00 O +ATOM 4626 CB PHE C 216 -55.568 -7.237 55.405 1.00 40.00 C +ATOM 4627 CG PHE C 216 -56.116 -5.880 55.091 1.00 40.00 C +ATOM 4628 CD1 PHE C 216 -55.735 -4.778 55.837 1.00 40.00 C +ATOM 4629 CD2 PHE C 216 -57.029 -5.705 54.056 1.00 40.00 C +ATOM 4630 CE1 PHE C 216 -56.243 -3.519 55.553 1.00 40.00 C +ATOM 4631 CE2 PHE C 216 -57.543 -4.449 53.771 1.00 40.00 C +ATOM 4632 CZ PHE C 216 -57.147 -3.352 54.521 1.00 40.00 C +ATOM 4633 N GLY C 217 -53.814 -9.558 54.198 1.00 40.00 N +ATOM 4634 CA GLY C 217 -53.293 -10.912 54.114 1.00 40.00 C +ATOM 4635 C GLY C 217 -51.851 -10.910 54.586 1.00 40.00 C +ATOM 4636 O GLY C 217 -51.530 -11.515 55.616 1.00 40.00 O +ATOM 4637 N LYS C 218 -50.996 -10.185 53.858 1.00 40.00 N +ATOM 4638 CA LYS C 218 -49.560 -10.100 54.169 1.00 40.00 C +ATOM 4639 C LYS C 218 -49.304 -9.705 55.630 1.00 40.00 C +ATOM 4640 O LYS C 218 -48.277 -10.071 56.218 1.00 40.00 O +ATOM 4641 CB LYS C 218 -48.847 -9.133 53.210 1.00 40.00 C +ATOM 4642 CG LYS C 218 -48.689 -9.661 51.785 1.00 40.00 C +ATOM 4643 CD LYS C 218 -47.932 -8.694 50.872 1.00 40.00 C +ATOM 4644 CE LYS C 218 -48.839 -7.669 50.191 1.00 40.00 C +ATOM 4645 NZ LYS C 218 -48.065 -6.833 49.228 1.00 40.00 N +ATOM 4646 N MET C 219 -50.257 -8.972 56.202 1.00 40.00 N +ATOM 4647 CA MET C 219 -50.195 -8.552 57.590 1.00 40.00 C +ATOM 4648 C MET C 219 -50.487 -9.728 58.501 1.00 40.00 C +ATOM 4649 O MET C 219 -49.641 -10.120 59.305 1.00 40.00 O +ATOM 4650 CB MET C 219 -51.199 -7.434 57.841 1.00 40.00 C +ATOM 4651 CG MET C 219 -51.043 -6.257 56.896 1.00 40.00 C +ATOM 4652 SD MET C 219 -51.644 -4.733 57.631 1.00 40.00 S +ATOM 4653 CE MET C 219 -51.254 -3.579 56.313 1.00 40.00 C +ATOM 4654 N LYS C 220 -51.685 -10.290 58.356 1.00 40.00 N +ATOM 4655 CA LYS C 220 -52.101 -11.473 59.101 1.00 40.00 C +ATOM 4656 C LYS C 220 -51.044 -12.559 59.011 1.00 40.00 C +ATOM 4657 O LYS C 220 -50.943 -13.419 59.886 1.00 40.00 O +ATOM 4658 CB LYS C 220 -53.432 -11.990 58.552 1.00 40.00 C +ATOM 4659 CG LYS C 220 -53.931 -13.274 59.194 1.00 40.00 C +ATOM 4660 CD LYS C 220 -54.262 -13.065 60.658 1.00 40.00 C +ATOM 4661 CE LYS C 220 -54.685 -14.368 61.303 1.00 40.00 C +ATOM 4662 NZ LYS C 220 -54.931 -14.153 62.749 1.00 40.00 N +ATOM 4663 N GLU C 221 -50.254 -12.498 57.944 1.00 40.00 N +ATOM 4664 CA GLU C 221 -49.194 -13.465 57.715 1.00 40.00 C +ATOM 4665 C GLU C 221 -47.900 -13.138 58.483 1.00 40.00 C +ATOM 4666 O GLU C 221 -47.156 -14.053 58.859 1.00 40.00 O +ATOM 4667 CB GLU C 221 -48.917 -13.626 56.220 1.00 40.00 C +ATOM 4668 CG GLU C 221 -48.288 -14.962 55.855 1.00 40.00 C +ATOM 4669 CD GLU C 221 -47.477 -14.880 54.589 1.00 40.00 C +ATOM 4670 OE1 GLU C 221 -47.949 -14.239 53.626 1.00 40.00 O +ATOM 4671 OE2 GLU C 221 -46.368 -15.450 54.565 1.00 40.00 O +ATOM 4672 N ARG C 222 -47.617 -11.860 58.722 1.00 40.00 N +ATOM 4673 CA ARG C 222 -46.439 -11.528 59.519 1.00 40.00 C +ATOM 4674 C ARG C 222 -46.753 -11.171 60.969 1.00 40.00 C +ATOM 4675 O ARG C 222 -45.840 -10.987 61.756 1.00 40.00 O +ATOM 4676 CB ARG C 222 -45.563 -10.473 58.841 1.00 40.00 C +ATOM 4677 CG ARG C 222 -46.318 -9.305 58.244 1.00 40.00 C +ATOM 4678 CD ARG C 222 -45.437 -8.605 57.233 1.00 40.00 C +ATOM 4679 NE ARG C 222 -44.316 -7.933 57.887 1.00 40.00 N +ATOM 4680 CZ ARG C 222 -43.426 -7.158 57.268 1.00 40.00 C +ATOM 4681 NH1 ARG C 222 -43.499 -6.939 55.958 1.00 40.00 N +ATOM 4682 NH2 ARG C 222 -42.451 -6.592 57.963 1.00 40.00 N +ATOM 4683 N ALA C 223 -48.033 -11.101 61.325 1.00 40.00 N +ATOM 4684 CA ALA C 223 -48.428 -10.907 62.725 1.00 40.00 C +ATOM 4685 C ALA C 223 -49.727 -11.634 63.084 1.00 40.00 C +ATOM 4686 O ALA C 223 -50.747 -11.005 63.361 1.00 40.00 O +ATOM 4687 CB ALA C 223 -48.525 -9.429 63.056 1.00 40.00 C +ATOM 4688 N PRO C 224 -49.683 -12.972 63.103 1.00 40.00 N +ATOM 4689 CA PRO C 224 -50.866 -13.826 63.235 1.00 40.00 C +ATOM 4690 C PRO C 224 -51.702 -13.582 64.485 1.00 40.00 C +ATOM 4691 O PRO C 224 -52.929 -13.594 64.401 1.00 40.00 O +ATOM 4692 CB PRO C 224 -50.282 -15.241 63.270 1.00 40.00 C +ATOM 4693 CG PRO C 224 -48.845 -15.070 63.626 1.00 40.00 C +ATOM 4694 CD PRO C 224 -48.441 -13.759 63.037 1.00 40.00 C +ATOM 4695 N GLU C 225 -51.047 -13.372 65.627 1.00 40.00 N +ATOM 4696 CA GLU C 225 -51.765 -13.157 66.898 1.00 40.00 C +ATOM 4697 C GLU C 225 -52.083 -11.685 67.181 1.00 40.00 C +ATOM 4698 O GLU C 225 -53.025 -11.382 67.928 1.00 40.00 O +ATOM 4699 CB GLU C 225 -51.025 -13.776 68.096 1.00 40.00 C +ATOM 4700 CG GLU C 225 -49.642 -13.211 68.345 1.00 40.00 C +ATOM 4701 CD GLU C 225 -48.554 -14.141 67.861 1.00 40.00 C +ATOM 4702 OE1 GLU C 225 -48.673 -14.689 66.746 1.00 40.00 O +ATOM 4703 OE2 GLU C 225 -47.577 -14.328 68.610 1.00 40.00 O +ATOM 4704 N ASN C 226 -51.297 -10.788 66.583 1.00 40.00 N +ATOM 4705 CA ASN C 226 -51.452 -9.341 66.775 1.00 40.00 C +ATOM 4706 C ASN C 226 -52.446 -8.710 65.798 1.00 40.00 C +ATOM 4707 O ASN C 226 -52.762 -7.512 65.894 1.00 40.00 O +ATOM 4708 CB ASN C 226 -50.095 -8.646 66.674 1.00 40.00 C +ATOM 4709 CG ASN C 226 -49.067 -9.252 67.604 1.00 40.00 C +ATOM 4710 OD1 ASN C 226 -49.105 -9.044 68.820 1.00 40.00 O +ATOM 4711 ND2 ASN C 226 -48.145 -10.018 67.035 1.00 40.00 N +ATOM 4712 N PHE C 227 -52.934 -9.532 64.870 1.00 40.00 N +ATOM 4713 CA PHE C 227 -53.906 -9.115 63.869 1.00 40.00 C +ATOM 4714 C PHE C 227 -54.972 -10.183 63.683 1.00 40.00 C +ATOM 4715 O PHE C 227 -54.682 -11.378 63.644 1.00 40.00 O +ATOM 4716 CB PHE C 227 -53.201 -8.822 62.542 1.00 40.00 C +ATOM 4717 CG PHE C 227 -54.075 -8.163 61.500 1.00 40.00 C +ATOM 4718 CD1 PHE C 227 -55.058 -7.238 61.852 1.00 40.00 C +ATOM 4719 CD2 PHE C 227 -53.872 -8.433 60.147 1.00 40.00 C +ATOM 4720 CE1 PHE C 227 -55.841 -6.631 60.880 1.00 40.00 C +ATOM 4721 CE2 PHE C 227 -54.643 -7.816 59.169 1.00 40.00 C +ATOM 4722 CZ PHE C 227 -55.631 -6.916 59.537 1.00 40.00 C +ATOM 4723 N ARG C 228 -56.211 -9.728 63.589 1.00 40.00 N +ATOM 4724 CA ARG C 228 -57.340 -10.587 63.332 1.00 40.00 C +ATOM 4725 C ARG C 228 -58.215 -9.853 62.328 1.00 40.00 C +ATOM 4726 O ARG C 228 -58.568 -8.698 62.552 1.00 40.00 O +ATOM 4727 CB ARG C 228 -58.094 -10.864 64.636 1.00 40.00 C +ATOM 4728 CG ARG C 228 -57.324 -11.720 65.638 1.00 40.00 C +ATOM 4729 CD ARG C 228 -58.196 -12.158 66.810 1.00 40.00 C +ATOM 4730 NE ARG C 228 -59.360 -12.940 66.378 1.00 40.00 N +ATOM 4731 CZ ARG C 228 -60.306 -13.437 67.181 1.00 40.00 C +ATOM 4732 NH1 ARG C 228 -60.265 -13.246 68.497 1.00 40.00 N +ATOM 4733 NH2 ARG C 228 -61.315 -14.131 66.658 1.00 40.00 N +ATOM 4734 N VAL C 229 -58.532 -10.494 61.205 1.00 40.00 N +ATOM 4735 CA VAL C 229 -59.426 -9.886 60.220 1.00 40.00 C +ATOM 4736 C VAL C 229 -60.704 -10.675 60.083 1.00 40.00 C +ATOM 4737 O VAL C 229 -60.744 -11.867 60.360 1.00 40.00 O +ATOM 4738 CB VAL C 229 -58.805 -9.828 58.828 1.00 40.00 C +ATOM 4739 CG1 VAL C 229 -59.325 -8.610 58.084 1.00 40.00 C +ATOM 4740 CG2 VAL C 229 -57.295 -9.812 58.929 1.00 40.00 C +ATOM 4741 N ASP C 230 -61.750 -9.993 59.645 1.00 40.00 N +ATOM 4742 CA ASP C 230 -63.021 -10.624 59.382 1.00 40.00 C +ATOM 4743 C ASP C 230 -63.693 -9.797 58.322 1.00 40.00 C +ATOM 4744 O ASP C 230 -63.754 -8.573 58.457 1.00 40.00 O +ATOM 4745 CB ASP C 230 -63.878 -10.630 60.644 1.00 40.00 C +ATOM 4746 CG ASP C 230 -63.542 -11.780 61.566 1.00 40.00 C +ATOM 4747 OD1 ASP C 230 -64.153 -12.855 61.407 1.00 40.00 O +ATOM 4748 OD2 ASP C 230 -62.674 -11.612 62.449 1.00 40.00 O +ATOM 4749 N TYR C 231 -64.182 -10.449 57.266 1.00 40.00 N +ATOM 4750 CA TYR C 231 -64.920 -9.750 56.226 1.00 40.00 C +ATOM 4751 C TYR C 231 -66.376 -10.139 56.282 1.00 40.00 C +ATOM 4752 O TYR C 231 -66.725 -11.166 56.859 1.00 40.00 O +ATOM 4753 CB TYR C 231 -64.356 -10.066 54.860 1.00 40.00 C +ATOM 4754 CG TYR C 231 -62.884 -9.803 54.746 1.00 40.00 C +ATOM 4755 CD1 TYR C 231 -61.955 -10.748 55.175 1.00 40.00 C +ATOM 4756 CD2 TYR C 231 -62.408 -8.611 54.199 1.00 40.00 C +ATOM 4757 CE1 TYR C 231 -60.587 -10.513 55.061 1.00 40.00 C +ATOM 4758 CE2 TYR C 231 -61.039 -8.368 54.076 1.00 40.00 C +ATOM 4759 CZ TYR C 231 -60.131 -9.321 54.506 1.00 40.00 C +ATOM 4760 OH TYR C 231 -58.780 -9.088 54.379 1.00 40.00 O +ATOM 4761 N ALA C 232 -67.222 -9.298 55.697 1.00 40.00 N +ATOM 4762 CA ALA C 232 -68.665 -9.534 55.656 1.00 40.00 C +ATOM 4763 C ALA C 232 -69.214 -9.140 54.291 1.00 40.00 C +ATOM 4764 O ALA C 232 -69.485 -7.964 54.023 1.00 40.00 O +ATOM 4765 CB ALA C 232 -69.377 -8.772 56.772 1.00 40.00 C +ATOM 4766 N VAL C 233 -69.349 -10.136 53.422 1.00 40.00 N +ATOM 4767 CA VAL C 233 -69.861 -9.918 52.080 1.00 40.00 C +ATOM 4768 C VAL C 233 -71.377 -10.126 52.108 1.00 40.00 C +ATOM 4769 O VAL C 233 -71.866 -11.257 52.197 1.00 40.00 O +ATOM 4770 CB VAL C 233 -69.169 -10.832 51.041 1.00 40.00 C +ATOM 4771 CG1 VAL C 233 -69.240 -10.199 49.661 1.00 40.00 C +ATOM 4772 CG2 VAL C 233 -67.712 -11.093 51.416 1.00 40.00 C +ATOM 4773 N SER C 234 -72.107 -9.013 52.054 1.00 40.00 N +ATOM 4774 CA SER C 234 -73.566 -9.013 52.182 1.00 40.00 C +ATOM 4775 C SER C 234 -74.268 -9.823 51.087 1.00 40.00 C +ATOM 4776 O SER C 234 -75.294 -10.460 51.339 1.00 40.00 O +ATOM 4777 CB SER C 234 -74.124 -7.578 52.256 1.00 40.00 C +ATOM 4778 OG SER C 234 -74.119 -6.898 51.005 1.00 40.00 O +ATOM 4779 N ARG C 235 -73.700 -9.816 49.883 1.00 40.00 N +ATOM 4780 CA ARG C 235 -74.303 -10.505 48.741 1.00 40.00 C +ATOM 4781 C ARG C 235 -73.664 -11.842 48.361 1.00 40.00 C +ATOM 4782 O ARG C 235 -73.834 -12.267 47.224 1.00 40.00 O +ATOM 4783 CB ARG C 235 -74.244 -9.616 47.511 1.00 40.00 C +ATOM 4784 CG ARG C 235 -75.199 -8.458 47.535 1.00 40.00 C +ATOM 4785 CD ARG C 235 -75.135 -7.813 46.175 1.00 40.00 C +ATOM 4786 NE ARG C 235 -75.651 -6.450 46.194 1.00 40.00 N +ATOM 4787 CZ ARG C 235 -75.338 -5.515 45.298 1.00 40.00 C +ATOM 4788 NH1 ARG C 235 -74.496 -5.789 44.303 1.00 40.00 N +ATOM 4789 NH2 ARG C 235 -75.861 -4.298 45.401 1.00 40.00 N +ATOM 4790 N GLU C 236 -72.931 -12.492 49.274 1.00 40.00 N +ATOM 4791 CA GLU C 236 -72.218 -13.755 48.969 1.00 40.00 C +ATOM 4792 C GLU C 236 -72.051 -14.651 50.177 1.00 40.00 C +ATOM 4793 O GLU C 236 -71.422 -15.706 50.096 1.00 40.00 O +ATOM 4794 CB GLU C 236 -70.828 -13.484 48.390 1.00 40.00 C +ATOM 4795 CG GLU C 236 -70.812 -13.070 46.927 1.00 40.00 C +ATOM 4796 CD GLU C 236 -69.415 -12.796 46.410 1.00 40.00 C +ATOM 4797 OE1 GLU C 236 -68.525 -13.663 46.595 1.00 40.00 O +ATOM 4798 OE2 GLU C 236 -69.219 -11.713 45.813 1.00 40.00 O +ATOM 4799 N GLN C 237 -72.581 -14.204 51.304 1.00 40.00 N +ATOM 4800 CA GLN C 237 -72.544 -14.981 52.524 1.00 40.00 C +ATOM 4801 C GLN C 237 -73.824 -14.731 53.293 1.00 40.00 C +ATOM 4802 O GLN C 237 -74.415 -13.644 53.222 1.00 40.00 O +ATOM 4803 CB GLN C 237 -71.361 -14.578 53.412 1.00 40.00 C +ATOM 4804 CG GLN C 237 -69.967 -14.751 52.819 1.00 40.00 C +ATOM 4805 CD GLN C 237 -68.910 -13.929 53.552 1.00 40.00 C +ATOM 4806 OE1 GLN C 237 -69.207 -12.893 54.153 1.00 40.00 O +ATOM 4807 NE2 GLN C 237 -67.667 -14.389 53.499 1.00 40.00 N +ATOM 4808 N THR C 238 -74.249 -15.765 54.013 1.00 40.00 N +ATOM 4809 CA THR C 238 -75.267 -15.645 55.056 1.00 40.00 C +ATOM 4810 C THR C 238 -74.799 -16.417 56.309 1.00 40.00 C +ATOM 4811 O THR C 238 -73.823 -17.201 56.266 1.00 40.00 O +ATOM 4812 CB THR C 238 -76.690 -16.103 54.601 1.00 40.00 C +ATOM 4813 OG1 THR C 238 -76.712 -17.514 54.343 1.00 40.00 O +ATOM 4814 CG2 THR C 238 -77.168 -15.337 53.352 1.00 40.00 C +ATOM 4815 N ASN C 239 -75.482 -16.168 57.425 1.00 40.00 N +ATOM 4816 CA ASN C 239 -75.183 -16.843 58.689 1.00 40.00 C +ATOM 4817 C ASN C 239 -75.899 -18.197 58.816 1.00 40.00 C +ATOM 4818 O ASN C 239 -76.573 -18.657 57.876 1.00 40.00 O +ATOM 4819 CB ASN C 239 -75.468 -15.913 59.906 1.00 40.00 C +ATOM 4820 CG ASN C 239 -76.900 -15.354 59.931 1.00 40.00 C +ATOM 4821 OD1 ASN C 239 -77.554 -15.216 58.895 1.00 40.00 O +ATOM 4822 ND2 ASN C 239 -77.378 -15.016 61.128 1.00 40.00 N +ATOM 4823 N ALA C 240 -75.730 -18.835 59.974 1.00 40.00 N +ATOM 4824 CA ALA C 240 -76.516 -20.008 60.327 1.00 40.00 C +ATOM 4825 C ALA C 240 -78.010 -19.677 60.212 1.00 40.00 C +ATOM 4826 O ALA C 240 -78.797 -20.492 59.713 1.00 40.00 O +ATOM 4827 CB ALA C 240 -76.163 -20.486 61.731 1.00 40.00 C +ATOM 4828 N ALA C 241 -78.383 -18.468 60.635 1.00 40.00 N +ATOM 4829 CA ALA C 241 -79.770 -18.005 60.556 1.00 40.00 C +ATOM 4830 C ALA C 241 -80.267 -17.639 59.129 1.00 40.00 C +ATOM 4831 O ALA C 241 -81.400 -17.154 58.979 1.00 40.00 O +ATOM 4832 CB ALA C 241 -80.000 -16.859 61.537 1.00 40.00 C +ATOM 4833 N GLY C 242 -79.439 -17.878 58.101 1.00 40.00 N +ATOM 4834 CA GLY C 242 -79.812 -17.649 56.685 1.00 40.00 C +ATOM 4835 C GLY C 242 -80.131 -16.217 56.243 1.00 40.00 C +ATOM 4836 O GLY C 242 -80.959 -16.008 55.340 1.00 40.00 O +ATOM 4837 N GLU C 243 -79.471 -15.240 56.879 1.00 40.00 N +ATOM 4838 CA GLU C 243 -79.617 -13.797 56.563 1.00 40.00 C +ATOM 4839 C GLU C 243 -78.301 -13.226 56.023 1.00 40.00 C +ATOM 4840 O GLU C 243 -77.219 -13.757 56.308 1.00 40.00 O +ATOM 4841 CB GLU C 243 -80.033 -12.986 57.793 1.00 40.00 C +ATOM 4842 CG GLU C 243 -80.657 -13.808 58.904 1.00 40.00 C +ATOM 4843 CD GLU C 243 -80.512 -13.141 60.249 1.00 40.00 C +ATOM 4844 OE1 GLU C 243 -81.036 -12.011 60.386 1.00 40.00 O +ATOM 4845 OE2 GLU C 243 -79.878 -13.742 61.157 1.00 40.00 O +ATOM 4846 N ARG C 244 -78.403 -12.131 55.267 1.00 40.00 N +ATOM 4847 CA ARG C 244 -77.258 -11.546 54.561 1.00 40.00 C +ATOM 4848 C ARG C 244 -76.153 -11.059 55.502 1.00 40.00 C +ATOM 4849 O ARG C 244 -76.437 -10.346 56.470 1.00 40.00 O +ATOM 4850 CB ARG C 244 -77.736 -10.398 53.676 1.00 40.00 C +ATOM 4851 CG ARG C 244 -78.369 -10.838 52.370 1.00 40.00 C +ATOM 4852 CD ARG C 244 -78.677 -9.617 51.524 1.00 40.00 C +ATOM 4853 NE ARG C 244 -79.229 -9.964 50.220 1.00 40.00 N +ATOM 4854 CZ ARG C 244 -80.074 -9.195 49.534 1.00 40.00 C +ATOM 4855 NH1 ARG C 244 -80.482 -8.032 50.029 1.00 40.00 N +ATOM 4856 NH2 ARG C 244 -80.527 -9.592 48.354 1.00 40.00 N +ATOM 4857 N MET C 245 -74.904 -11.433 55.207 1.00 40.00 N +ATOM 4858 CA MET C 245 -73.764 -11.100 56.083 1.00 40.00 C +ATOM 4859 C MET C 245 -73.396 -9.623 56.060 1.00 40.00 C +ATOM 4860 O MET C 245 -72.573 -9.167 55.260 1.00 40.00 O +ATOM 4861 CB MET C 245 -72.530 -11.962 55.780 1.00 40.00 C +ATOM 4862 CG MET C 245 -71.451 -11.903 56.855 1.00 40.00 C +ATOM 4863 SD MET C 245 -72.010 -12.534 58.449 1.00 40.00 S +ATOM 4864 CE MET C 245 -72.063 -14.302 58.147 1.00 40.00 C +ATOM 4865 N TYR C 246 -74.033 -8.885 56.956 1.00 40.00 N +ATOM 4866 CA TYR C 246 -73.697 -7.499 57.179 1.00 40.00 C +ATOM 4867 C TYR C 246 -72.656 -7.425 58.272 1.00 40.00 C +ATOM 4868 O TYR C 246 -72.459 -8.384 59.030 1.00 40.00 O +ATOM 4869 CB TYR C 246 -74.949 -6.698 57.521 1.00 40.00 C +ATOM 4870 CG TYR C 246 -75.907 -6.704 56.373 1.00 40.00 C +ATOM 4871 CD1 TYR C 246 -75.485 -6.291 55.116 1.00 40.00 C +ATOM 4872 CD2 TYR C 246 -77.216 -7.157 56.523 1.00 40.00 C +ATOM 4873 CE1 TYR C 246 -76.340 -6.308 54.032 1.00 40.00 C +ATOM 4874 CE2 TYR C 246 -78.090 -7.177 55.445 1.00 40.00 C +ATOM 4875 CZ TYR C 246 -77.645 -6.750 54.198 1.00 40.00 C +ATOM 4876 OH TYR C 246 -78.487 -6.750 53.101 1.00 40.00 O +ATOM 4877 N ILE C 247 -71.963 -6.296 58.329 1.00 40.00 N +ATOM 4878 CA ILE C 247 -70.920 -6.117 59.318 1.00 40.00 C +ATOM 4879 C ILE C 247 -71.410 -6.649 60.670 1.00 40.00 C +ATOM 4880 O ILE C 247 -70.770 -7.529 61.253 1.00 40.00 O +ATOM 4881 CB ILE C 247 -70.411 -4.646 59.365 1.00 40.00 C +ATOM 4882 CG1 ILE C 247 -69.286 -4.499 60.396 1.00 40.00 C +ATOM 4883 CG2 ILE C 247 -71.546 -3.644 59.597 1.00 40.00 C +ATOM 4884 CD1 ILE C 247 -68.284 -3.408 60.075 1.00 40.00 C +ATOM 4885 N GLN C 248 -72.579 -6.161 61.103 1.00 40.00 N +ATOM 4886 CA GLN C 248 -73.181 -6.511 62.389 1.00 40.00 C +ATOM 4887 C GLN C 248 -73.349 -8.007 62.527 1.00 40.00 C +ATOM 4888 O GLN C 248 -73.117 -8.567 63.600 1.00 40.00 O +ATOM 4889 CB GLN C 248 -74.529 -5.800 62.598 1.00 40.00 C +ATOM 4890 CG GLN C 248 -75.606 -6.096 61.562 1.00 40.00 C +ATOM 4891 CD GLN C 248 -75.602 -5.108 60.414 1.00 40.00 C +ATOM 4892 OE1 GLN C 248 -74.550 -4.721 59.911 1.00 40.00 O +ATOM 4893 NE2 GLN C 248 -76.784 -4.697 59.991 1.00 40.00 N +ATOM 4894 N THR C 249 -73.732 -8.648 61.429 1.00 40.00 N +ATOM 4895 CA THR C 249 -73.978 -10.080 61.420 1.00 40.00 C +ATOM 4896 C THR C 249 -72.677 -10.827 61.692 1.00 40.00 C +ATOM 4897 O THR C 249 -72.639 -11.738 62.522 1.00 40.00 O +ATOM 4898 CB THR C 249 -74.587 -10.526 60.084 1.00 40.00 C +ATOM 4899 OG1 THR C 249 -75.322 -9.437 59.516 1.00 40.00 O +ATOM 4900 CG2 THR C 249 -75.509 -11.715 60.287 1.00 40.00 C +ATOM 4901 N ARG C 250 -71.613 -10.414 61.009 1.00 40.00 N +ATOM 4902 CA ARG C 250 -70.298 -11.004 61.200 1.00 40.00 C +ATOM 4903 C ARG C 250 -69.831 -10.786 62.629 1.00 40.00 C +ATOM 4904 O ARG C 250 -69.279 -11.685 63.262 1.00 40.00 O +ATOM 4905 CB ARG C 250 -69.298 -10.399 60.208 1.00 40.00 C +ATOM 4906 CG ARG C 250 -67.853 -10.861 60.383 1.00 40.00 C +ATOM 4907 CD ARG C 250 -67.659 -12.323 60.023 1.00 40.00 C +ATOM 4908 NE ARG C 250 -68.078 -12.570 58.647 1.00 40.00 N +ATOM 4909 CZ ARG C 250 -68.486 -13.746 58.175 1.00 40.00 C +ATOM 4910 NH1 ARG C 250 -68.535 -14.819 58.969 1.00 40.00 N +ATOM 4911 NH2 ARG C 250 -68.853 -13.847 56.900 1.00 40.00 N +ATOM 4912 N MET C 251 -70.055 -9.574 63.119 1.00 40.00 N +ATOM 4913 CA MET C 251 -69.680 -9.200 64.469 1.00 40.00 C +ATOM 4914 C MET C 251 -70.420 -10.084 65.440 1.00 40.00 C +ATOM 4915 O MET C 251 -69.808 -10.665 66.335 1.00 40.00 O +ATOM 4916 CB MET C 251 -70.052 -7.749 64.744 1.00 40.00 C +ATOM 4917 CG MET C 251 -69.102 -6.714 64.165 1.00 40.00 C +ATOM 4918 SD MET C 251 -69.870 -5.081 64.056 1.00 40.00 S +ATOM 4919 CE MET C 251 -70.085 -4.652 65.778 1.00 40.00 C +ATOM 4920 N ALA C 252 -71.736 -10.183 65.245 1.00 40.00 N +ATOM 4921 CA ALA C 252 -72.607 -10.985 66.101 1.00 40.00 C +ATOM 4922 C ALA C 252 -72.040 -12.390 66.336 1.00 40.00 C +ATOM 4923 O ALA C 252 -72.352 -13.036 67.343 1.00 40.00 O +ATOM 4924 CB ALA C 252 -74.008 -11.060 65.515 1.00 40.00 C +ATOM 4925 N GLU C 253 -71.191 -12.843 65.411 1.00 40.00 N +ATOM 4926 CA GLU C 253 -70.503 -14.130 65.534 1.00 40.00 C +ATOM 4927 C GLU C 253 -69.422 -14.153 66.620 1.00 40.00 C +ATOM 4928 O GLU C 253 -68.841 -15.204 66.905 1.00 40.00 O +ATOM 4929 CB GLU C 253 -69.887 -14.532 64.201 1.00 40.00 C +ATOM 4930 CG GLU C 253 -70.899 -14.829 63.112 1.00 40.00 C +ATOM 4931 CD GLU C 253 -70.248 -15.405 61.869 1.00 40.00 C +ATOM 4932 OE1 GLU C 253 -70.990 -15.925 61.005 1.00 40.00 O +ATOM 4933 OE2 GLU C 253 -68.998 -15.340 61.757 1.00 40.00 O +ATOM 4934 N TYR C 254 -69.142 -13.000 67.217 1.00 40.00 N +ATOM 4935 CA TYR C 254 -68.202 -12.938 68.311 1.00 40.00 C +ATOM 4936 C TYR C 254 -68.798 -12.153 69.444 1.00 40.00 C +ATOM 4937 O TYR C 254 -68.072 -11.712 70.320 1.00 40.00 O +ATOM 4938 CB TYR C 254 -66.930 -12.235 67.879 1.00 40.00 C +ATOM 4939 CG TYR C 254 -66.204 -12.838 66.712 1.00 40.00 C +ATOM 4940 CD1 TYR C 254 -65.220 -13.798 66.914 1.00 40.00 C +ATOM 4941 CD2 TYR C 254 -66.466 -12.415 65.407 1.00 40.00 C +ATOM 4942 CE1 TYR C 254 -64.524 -14.337 65.854 1.00 40.00 C +ATOM 4943 CE2 TYR C 254 -65.779 -12.952 64.336 1.00 40.00 C +ATOM 4944 CZ TYR C 254 -64.807 -13.910 64.571 1.00 40.00 C +ATOM 4945 OH TYR C 254 -64.106 -14.455 63.529 1.00 40.00 O +ATOM 4946 N LYS C 255 -70.115 -11.972 69.430 1.00 40.00 N +ATOM 4947 CA LYS C 255 -70.788 -11.115 70.409 1.00 40.00 C +ATOM 4948 C LYS C 255 -70.300 -11.356 71.831 1.00 40.00 C +ATOM 4949 O LYS C 255 -70.573 -10.577 72.735 1.00 40.00 O +ATOM 4950 CB LYS C 255 -72.310 -11.256 70.314 1.00 40.00 C +ATOM 4951 CG LYS C 255 -72.856 -12.648 70.563 1.00 40.00 C +ATOM 4952 CD LYS C 255 -74.246 -12.784 69.964 1.00 40.00 C +ATOM 4953 CE LYS C 255 -74.884 -14.108 70.343 1.00 40.00 C +ATOM 4954 NZ LYS C 255 -75.336 -14.081 71.759 1.00 40.00 N +ATOM 4955 N GLU C 256 -69.553 -12.441 71.994 1.00 40.00 N +ATOM 4956 CA GLU C 256 -68.949 -12.833 73.264 1.00 40.00 C +ATOM 4957 C GLU C 256 -67.706 -12.000 73.590 1.00 40.00 C +ATOM 4958 O GLU C 256 -67.784 -11.085 74.410 1.00 40.00 O +ATOM 4959 CB GLU C 256 -68.578 -14.330 73.248 1.00 40.00 C +ATOM 4960 CG GLU C 256 -69.500 -15.242 72.439 1.00 40.00 C +ATOM 4961 CD GLU C 256 -70.910 -15.357 73.007 1.00 40.00 C +ATOM 4962 OE1 GLU C 256 -71.097 -15.145 74.230 1.00 40.00 O +ATOM 4963 OE2 GLU C 256 -71.839 -15.668 72.221 1.00 40.00 O +ATOM 4964 N GLU C 257 -66.570 -12.320 72.954 1.00 40.00 N +ATOM 4965 CA GLU C 257 -65.281 -11.644 73.230 1.00 40.00 C +ATOM 4966 C GLU C 257 -65.433 -10.138 73.151 1.00 40.00 C +ATOM 4967 O GLU C 257 -64.926 -9.407 73.998 1.00 40.00 O +ATOM 4968 CB GLU C 257 -64.157 -12.042 72.250 1.00 40.00 C +ATOM 4969 CG GLU C 257 -63.930 -13.521 72.006 1.00 40.00 C +ATOM 4970 CD GLU C 257 -64.649 -13.986 70.763 1.00 40.00 C +ATOM 4971 OE1 GLU C 257 -65.892 -14.168 70.834 1.00 40.00 O +ATOM 4972 OE2 GLU C 257 -63.967 -14.149 69.724 1.00 40.00 O +ATOM 4973 N LEU C 258 -66.123 -9.689 72.109 1.00 40.00 N +ATOM 4974 CA LEU C 258 -66.345 -8.280 71.891 1.00 40.00 C +ATOM 4975 C LEU C 258 -66.957 -7.670 73.137 1.00 40.00 C +ATOM 4976 O LEU C 258 -66.327 -6.826 73.771 1.00 40.00 O +ATOM 4977 CB LEU C 258 -67.211 -8.056 70.655 1.00 40.00 C +ATOM 4978 CG LEU C 258 -66.662 -8.675 69.358 1.00 40.00 C +ATOM 4979 CD1 LEU C 258 -67.614 -8.424 68.195 1.00 40.00 C +ATOM 4980 CD2 LEU C 258 -65.256 -8.191 69.013 1.00 40.00 C +ATOM 4981 N TRP C 259 -68.144 -8.131 73.527 1.00 40.00 N +ATOM 4982 CA TRP C 259 -68.791 -7.617 74.740 1.00 40.00 C +ATOM 4983 C TRP C 259 -67.885 -7.646 75.946 1.00 40.00 C +ATOM 4984 O TRP C 259 -67.882 -6.728 76.768 1.00 40.00 O +ATOM 4985 CB TRP C 259 -70.092 -8.354 75.033 1.00 40.00 C +ATOM 4986 CG TRP C 259 -70.756 -7.831 76.282 1.00 40.00 C +ATOM 4987 CD1 TRP C 259 -71.069 -8.540 77.442 1.00 40.00 C +ATOM 4988 CD2 TRP C 259 -71.168 -6.437 76.563 1.00 40.00 C +ATOM 4989 NE1 TRP C 259 -71.650 -7.715 78.381 1.00 40.00 N +ATOM 4990 CE2 TRP C 259 -71.737 -6.440 77.918 1.00 40.00 C +ATOM 4991 CE3 TRP C 259 -71.144 -5.245 75.848 1.00 40.00 C +ATOM 4992 CZ2 TRP C 259 -72.245 -5.282 78.507 1.00 40.00 C +ATOM 4993 CZ3 TRP C 259 -71.660 -4.090 76.452 1.00 40.00 C +ATOM 4994 CH2 TRP C 259 -72.196 -4.110 77.748 1.00 40.00 C +ATOM 4995 N GLU C 260 -67.108 -8.719 76.048 1.00 40.00 N +ATOM 4996 CA GLU C 260 -66.101 -8.868 77.082 1.00 40.00 C +ATOM 4997 C GLU C 260 -65.066 -7.762 76.954 1.00 40.00 C +ATOM 4998 O GLU C 260 -64.902 -6.958 77.868 1.00 40.00 O +ATOM 4999 CB GLU C 260 -65.425 -10.247 76.972 1.00 40.00 C +ATOM 5000 CG GLU C 260 -66.263 -11.421 77.469 1.00 40.00 C +ATOM 5001 CD GLU C 260 -66.689 -11.263 78.921 1.00 40.00 C +ATOM 5002 OE1 GLU C 260 -67.908 -11.300 79.186 1.00 40.00 O +ATOM 5003 OE2 GLU C 260 -65.813 -11.084 79.798 1.00 40.00 O +ATOM 5004 N LEU C 261 -64.396 -7.725 75.803 1.00 40.00 N +ATOM 5005 CA LEU C 261 -63.350 -6.743 75.500 1.00 40.00 C +ATOM 5006 C LEU C 261 -63.837 -5.310 75.662 1.00 40.00 C +ATOM 5007 O LEU C 261 -63.047 -4.383 75.793 1.00 40.00 O +ATOM 5008 CB LEU C 261 -62.815 -6.960 74.077 1.00 40.00 C +ATOM 5009 CG LEU C 261 -61.874 -8.157 73.840 1.00 40.00 C +ATOM 5010 CD1 LEU C 261 -62.098 -8.829 72.494 1.00 40.00 C +ATOM 5011 CD2 LEU C 261 -60.417 -7.747 73.975 1.00 40.00 C +ATOM 5012 N LEU C 262 -65.152 -5.149 75.668 1.00 40.00 N +ATOM 5013 CA LEU C 262 -65.777 -3.847 75.823 1.00 40.00 C +ATOM 5014 C LEU C 262 -65.723 -3.293 77.235 1.00 40.00 C +ATOM 5015 O LEU C 262 -66.098 -2.142 77.486 1.00 40.00 O +ATOM 5016 CB LEU C 262 -67.232 -3.923 75.389 1.00 40.00 C +ATOM 5017 CG LEU C 262 -67.471 -3.515 73.940 1.00 40.00 C +ATOM 5018 CD1 LEU C 262 -68.959 -3.316 73.688 1.00 40.00 C +ATOM 5019 CD2 LEU C 262 -66.724 -2.227 73.634 1.00 40.00 C +ATOM 5020 N LYS C 263 -65.277 -4.119 78.166 1.00 40.00 N +ATOM 5021 CA LYS C 263 -65.229 -3.696 79.548 1.00 40.00 C +ATOM 5022 C LYS C 263 -63.778 -3.426 79.960 1.00 40.00 C +ATOM 5023 O LYS C 263 -63.521 -2.919 81.046 1.00 40.00 O +ATOM 5024 CB LYS C 263 -65.961 -4.715 80.440 1.00 40.00 C +ATOM 5025 CG LYS C 263 -67.431 -4.911 80.044 1.00 40.00 C +ATOM 5026 CD LYS C 263 -68.199 -5.887 80.929 1.00 40.00 C +ATOM 5027 CE LYS C 263 -67.948 -7.340 80.548 1.00 40.00 C +ATOM 5028 NZ LYS C 263 -68.742 -8.257 81.414 1.00 40.00 N +ATOM 5029 N LYS C 264 -62.841 -3.735 79.065 1.00 40.00 N +ATOM 5030 CA LYS C 264 -61.432 -3.430 79.278 1.00 40.00 C +ATOM 5031 C LYS C 264 -61.139 -1.944 79.082 1.00 40.00 C +ATOM 5032 O LYS C 264 -61.908 -1.229 78.457 1.00 40.00 O +ATOM 5033 CB LYS C 264 -60.556 -4.269 78.353 1.00 40.00 C +ATOM 5034 CG LYS C 264 -60.323 -5.693 78.837 1.00 40.00 C +ATOM 5035 CD LYS C 264 -59.338 -6.437 77.938 1.00 40.00 C +ATOM 5036 CE LYS C 264 -58.817 -7.711 78.587 1.00 40.00 C +ATOM 5037 NZ LYS C 264 -59.893 -8.704 78.862 1.00 40.00 N +ATOM 5038 N ASP C 265 -60.012 -1.495 79.627 1.00 40.00 N +ATOM 5039 CA ASP C 265 -59.617 -0.071 79.660 1.00 40.00 C +ATOM 5040 C ASP C 265 -58.748 0.315 78.484 1.00 40.00 C +ATOM 5041 O ASP C 265 -58.461 1.488 78.261 1.00 40.00 O +ATOM 5042 CB ASP C 265 -58.804 0.230 80.937 1.00 40.00 C +ATOM 5043 CG ASP C 265 -59.675 0.548 82.149 1.00 40.00 C +ATOM 5044 OD1 ASP C 265 -59.187 0.363 83.297 1.00 40.00 O +ATOM 5045 OD2 ASP C 265 -60.833 0.992 81.955 1.00 40.00 O +ATOM 5046 N ASN C 266 -58.288 -0.687 77.763 1.00 40.00 N +ATOM 5047 CA ASN C 266 -57.352 -0.463 76.701 1.00 40.00 C +ATOM 5048 C ASN C 266 -57.930 -1.027 75.410 1.00 40.00 C +ATOM 5049 O ASN C 266 -57.208 -1.374 74.474 1.00 40.00 O +ATOM 5050 CB ASN C 266 -56.019 -1.109 77.053 1.00 40.00 C +ATOM 5051 CG ASN C 266 -56.129 -2.615 77.214 1.00 40.00 C +ATOM 5052 OD1 ASN C 266 -57.210 -3.149 77.510 1.00 40.00 O +ATOM 5053 ND2 ASN C 266 -55.009 -3.314 77.010 1.00 40.00 N +ATOM 5054 N THR C 267 -59.252 -1.126 75.376 1.00 40.00 N +ATOM 5055 CA THR C 267 -59.960 -1.496 74.164 1.00 40.00 C +ATOM 5056 C THR C 267 -60.576 -0.225 73.574 1.00 40.00 C +ATOM 5057 O THR C 267 -61.405 0.407 74.204 1.00 40.00 O +ATOM 5058 CB THR C 267 -61.032 -2.566 74.465 1.00 40.00 C +ATOM 5059 OG1 THR C 267 -60.407 -3.733 75.007 1.00 40.00 O +ATOM 5060 CG2 THR C 267 -61.753 -2.971 73.223 1.00 40.00 C +ATOM 5061 N TYR C 268 -60.151 0.169 72.380 1.00 40.00 N +ATOM 5062 CA TYR C 268 -60.680 1.383 71.758 1.00 40.00 C +ATOM 5063 C TYR C 268 -61.353 1.068 70.421 1.00 40.00 C +ATOM 5064 O TYR C 268 -60.772 0.382 69.568 1.00 40.00 O +ATOM 5065 CB TYR C 268 -59.577 2.413 71.553 1.00 40.00 C +ATOM 5066 CG TYR C 268 -58.700 2.617 72.752 1.00 40.00 C +ATOM 5067 CD1 TYR C 268 -57.652 1.750 73.016 1.00 40.00 C +ATOM 5068 CD2 TYR C 268 -58.907 3.681 73.624 1.00 40.00 C +ATOM 5069 CE1 TYR C 268 -56.830 1.927 74.118 1.00 40.00 C +ATOM 5070 CE2 TYR C 268 -58.086 3.870 74.734 1.00 40.00 C +ATOM 5071 CZ TYR C 268 -57.043 2.983 74.974 1.00 40.00 C +ATOM 5072 OH TYR C 268 -56.202 3.119 76.059 1.00 40.00 O +ATOM 5073 N VAL C 269 -62.575 1.575 70.241 1.00 40.00 N +ATOM 5074 CA VAL C 269 -63.386 1.268 69.058 1.00 40.00 C +ATOM 5075 C VAL C 269 -63.399 2.422 68.089 1.00 40.00 C +ATOM 5076 O VAL C 269 -63.566 3.575 68.468 1.00 40.00 O +ATOM 5077 CB VAL C 269 -64.839 0.919 69.425 1.00 40.00 C +ATOM 5078 CG1 VAL C 269 -65.718 0.899 68.197 1.00 40.00 C +ATOM 5079 CG2 VAL C 269 -64.888 -0.439 70.078 1.00 40.00 C +ATOM 5080 N TYR C 270 -63.226 2.094 66.824 1.00 40.00 N +ATOM 5081 CA TYR C 270 -63.311 3.089 65.794 1.00 40.00 C +ATOM 5082 C TYR C 270 -64.279 2.611 64.720 1.00 40.00 C +ATOM 5083 O TYR C 270 -64.194 1.459 64.260 1.00 40.00 O +ATOM 5084 CB TYR C 270 -61.941 3.313 65.190 1.00 40.00 C +ATOM 5085 CG TYR C 270 -60.904 3.965 66.086 1.00 40.00 C +ATOM 5086 CD1 TYR C 270 -60.209 3.231 67.038 1.00 40.00 C +ATOM 5087 CD2 TYR C 270 -60.569 5.312 65.925 1.00 40.00 C +ATOM 5088 CE1 TYR C 270 -59.238 3.829 67.826 1.00 40.00 C +ATOM 5089 CE2 TYR C 270 -59.597 5.915 66.705 1.00 40.00 C +ATOM 5090 CZ TYR C 270 -58.935 5.169 67.651 1.00 40.00 C +ATOM 5091 OH TYR C 270 -57.970 5.761 68.425 1.00 40.00 O +ATOM 5092 N MET C 271 -65.200 3.496 64.333 1.00 40.00 N +ATOM 5093 CA MET C 271 -66.225 3.183 63.337 1.00 40.00 C +ATOM 5094 C MET C 271 -66.148 4.179 62.206 1.00 40.00 C +ATOM 5095 O MET C 271 -66.098 5.380 62.452 1.00 40.00 O +ATOM 5096 CB MET C 271 -67.621 3.254 63.954 1.00 40.00 C +ATOM 5097 CG MET C 271 -68.709 2.570 63.131 1.00 40.00 C +ATOM 5098 SD MET C 271 -70.407 2.855 63.711 1.00 40.00 S +ATOM 5099 CE MET C 271 -70.577 1.683 65.062 1.00 40.00 C +ATOM 5100 N CYS C 272 -66.150 3.681 60.972 1.00 40.00 N +ATOM 5101 CA CYS C 272 -66.031 4.546 59.805 1.00 40.00 C +ATOM 5102 C CYS C 272 -66.695 3.956 58.577 1.00 40.00 C +ATOM 5103 O CYS C 272 -66.631 2.753 58.341 1.00 40.00 O +ATOM 5104 CB CYS C 272 -64.557 4.842 59.502 1.00 40.00 C +ATOM 5105 SG CYS C 272 -64.262 6.245 58.397 1.00 40.00 S +ATOM 5106 N GLY C 273 -67.335 4.820 57.799 1.00 40.00 N +ATOM 5107 CA GLY C 273 -67.863 4.432 56.504 1.00 40.00 C +ATOM 5108 C GLY C 273 -69.174 5.084 56.140 1.00 40.00 C +ATOM 5109 O GLY C 273 -69.292 6.313 56.082 1.00 40.00 O +ATOM 5110 N LEU C 274 -70.166 4.234 55.904 1.00 40.00 N +ATOM 5111 CA LEU C 274 -71.442 4.646 55.327 1.00 40.00 C +ATOM 5112 C LEU C 274 -72.503 4.885 56.383 1.00 40.00 C +ATOM 5113 O LEU C 274 -72.908 3.951 57.091 1.00 40.00 O +ATOM 5114 CB LEU C 274 -71.938 3.572 54.357 1.00 40.00 C +ATOM 5115 CG LEU C 274 -71.016 3.238 53.181 1.00 40.00 C +ATOM 5116 CD1 LEU C 274 -71.247 1.810 52.683 1.00 40.00 C +ATOM 5117 CD2 LEU C 274 -71.184 4.287 52.076 1.00 40.00 C +ATOM 5118 N LYS C 275 -72.959 6.130 56.480 1.00 40.00 N +ATOM 5119 CA LYS C 275 -74.051 6.452 57.379 1.00 40.00 C +ATOM 5120 C LYS C 275 -75.092 5.330 57.302 1.00 40.00 C +ATOM 5121 O LYS C 275 -75.577 5.003 56.220 1.00 40.00 O +ATOM 5122 CB LYS C 275 -74.665 7.797 56.997 1.00 40.00 C +ATOM 5123 CG LYS C 275 -75.699 8.305 57.986 1.00 40.00 C +ATOM 5124 CD LYS C 275 -76.164 9.710 57.637 1.00 40.00 C +ATOM 5125 CE LYS C 275 -76.995 10.311 58.767 1.00 40.00 C +ATOM 5126 NZ LYS C 275 -77.027 11.808 58.755 1.00 40.00 N +ATOM 5127 N GLY C 276 -75.395 4.710 58.437 1.00 40.00 N +ATOM 5128 CA GLY C 276 -76.421 3.678 58.470 1.00 40.00 C +ATOM 5129 C GLY C 276 -75.954 2.367 59.049 1.00 40.00 C +ATOM 5130 O GLY C 276 -76.736 1.635 59.659 1.00 40.00 O +ATOM 5131 N MET C 277 -74.677 2.064 58.858 1.00 40.00 N +ATOM 5132 CA MET C 277 -74.087 0.872 59.453 1.00 40.00 C +ATOM 5133 C MET C 277 -74.378 0.757 60.964 1.00 40.00 C +ATOM 5134 O MET C 277 -74.733 -0.332 61.434 1.00 40.00 O +ATOM 5135 CB MET C 277 -72.578 0.793 59.149 1.00 40.00 C +ATOM 5136 CG MET C 277 -71.732 1.975 59.628 1.00 40.00 C +ATOM 5137 SD MET C 277 -70.032 2.043 58.995 1.00 40.00 S +ATOM 5138 CE MET C 277 -69.241 0.709 59.891 1.00 40.00 C +ATOM 5139 N GLU C 278 -74.277 1.881 61.696 1.00 40.00 N +ATOM 5140 CA GLU C 278 -74.348 1.895 63.182 1.00 40.00 C +ATOM 5141 C GLU C 278 -75.716 1.588 63.795 1.00 40.00 C +ATOM 5142 O GLU C 278 -75.778 1.136 64.942 1.00 40.00 O +ATOM 5143 CB GLU C 278 -73.757 3.181 63.809 1.00 40.00 C +ATOM 5144 CG GLU C 278 -74.690 4.377 63.889 1.00 40.00 C +ATOM 5145 CD GLU C 278 -74.710 5.158 62.599 1.00 40.00 C +ATOM 5146 OE1 GLU C 278 -75.211 4.634 61.571 1.00 40.00 O +ATOM 5147 OE2 GLU C 278 -74.207 6.301 62.621 1.00 40.00 O +ATOM 5148 N LYS C 279 -76.803 1.827 63.061 1.00 40.00 N +ATOM 5149 CA LYS C 279 -78.079 1.304 63.519 1.00 40.00 C +ATOM 5150 C LYS C 279 -77.883 -0.192 63.633 1.00 40.00 C +ATOM 5151 O LYS C 279 -78.078 -0.752 64.706 1.00 40.00 O +ATOM 5152 CB LYS C 279 -79.242 1.611 62.580 1.00 40.00 C +ATOM 5153 CG LYS C 279 -80.577 1.245 63.219 1.00 40.00 C +ATOM 5154 CD LYS C 279 -81.681 0.972 62.205 1.00 40.00 C +ATOM 5155 CE LYS C 279 -82.875 0.318 62.892 1.00 40.00 C +ATOM 5156 NZ LYS C 279 -84.124 0.391 62.089 1.00 40.00 N +ATOM 5157 N GLY C 280 -77.449 -0.814 62.535 1.00 40.00 N +ATOM 5158 CA GLY C 280 -77.128 -2.238 62.504 1.00 40.00 C +ATOM 5159 C GLY C 280 -76.375 -2.681 63.740 1.00 40.00 C +ATOM 5160 O GLY C 280 -76.785 -3.629 64.408 1.00 40.00 O +ATOM 5161 N ILE C 281 -75.295 -1.965 64.053 1.00 40.00 N +ATOM 5162 CA ILE C 281 -74.420 -2.273 65.185 1.00 40.00 C +ATOM 5163 C ILE C 281 -75.094 -2.034 66.531 1.00 40.00 C +ATOM 5164 O ILE C 281 -75.137 -2.926 67.381 1.00 40.00 O +ATOM 5165 CB ILE C 281 -73.087 -1.500 65.080 1.00 40.00 C +ATOM 5166 CG1 ILE C 281 -72.192 -2.178 64.041 1.00 40.00 C +ATOM 5167 CG2 ILE C 281 -72.371 -1.439 66.417 1.00 40.00 C +ATOM 5168 CD1 ILE C 281 -70.836 -1.532 63.840 1.00 40.00 C +ATOM 5169 N ASP C 282 -75.629 -0.836 66.718 1.00 40.00 N +ATOM 5170 CA ASP C 282 -76.312 -0.510 67.953 1.00 40.00 C +ATOM 5171 C ASP C 282 -77.331 -1.581 68.305 1.00 40.00 C +ATOM 5172 O ASP C 282 -77.402 -2.005 69.453 1.00 40.00 O +ATOM 5173 CB ASP C 282 -76.964 0.869 67.862 1.00 40.00 C +ATOM 5174 CG ASP C 282 -75.938 2.005 67.871 1.00 40.00 C +ATOM 5175 OD1 ASP C 282 -74.758 1.763 68.210 1.00 40.00 O +ATOM 5176 OD2 ASP C 282 -76.305 3.150 67.537 1.00 40.00 O +ATOM 5177 N ASP C 283 -78.078 -2.041 67.298 1.00 40.00 N +ATOM 5178 CA ASP C 283 -79.117 -3.084 67.451 1.00 40.00 C +ATOM 5179 C ASP C 283 -78.584 -4.368 68.073 1.00 40.00 C +ATOM 5180 O ASP C 283 -79.273 -5.014 68.875 1.00 40.00 O +ATOM 5181 CB ASP C 283 -79.784 -3.413 66.100 1.00 40.00 C +ATOM 5182 CG ASP C 283 -80.613 -2.247 65.544 1.00 40.00 C +ATOM 5183 OD1 ASP C 283 -81.178 -1.462 66.342 1.00 40.00 O +ATOM 5184 OD2 ASP C 283 -80.704 -2.116 64.300 1.00 40.00 O +ATOM 5185 N ILE C 284 -77.355 -4.718 67.692 1.00 40.00 N +ATOM 5186 CA ILE C 284 -76.654 -5.892 68.212 1.00 40.00 C +ATOM 5187 C ILE C 284 -76.160 -5.655 69.640 1.00 40.00 C +ATOM 5188 O ILE C 284 -76.125 -6.581 70.462 1.00 40.00 O +ATOM 5189 CB ILE C 284 -75.477 -6.289 67.287 1.00 40.00 C +ATOM 5190 CG1 ILE C 284 -75.974 -6.535 65.854 1.00 40.00 C +ATOM 5191 CG2 ILE C 284 -74.717 -7.501 67.818 1.00 40.00 C +ATOM 5192 CD1 ILE C 284 -77.242 -7.360 65.741 1.00 40.00 C +ATOM 5193 N MET C 285 -75.802 -4.406 69.932 1.00 40.00 N +ATOM 5194 CA MET C 285 -75.251 -4.036 71.237 1.00 40.00 C +ATOM 5195 C MET C 285 -76.310 -3.925 72.311 1.00 40.00 C +ATOM 5196 O MET C 285 -76.042 -4.148 73.489 1.00 40.00 O +ATOM 5197 CB MET C 285 -74.489 -2.722 71.129 1.00 40.00 C +ATOM 5198 CG MET C 285 -73.222 -2.842 70.296 1.00 40.00 C +ATOM 5199 SD MET C 285 -71.950 -3.864 71.075 1.00 40.00 S +ATOM 5200 CE MET C 285 -71.399 -4.868 69.698 1.00 40.00 C +ATOM 5201 N VAL C 286 -77.511 -3.570 71.879 1.00 40.00 N +ATOM 5202 CA VAL C 286 -78.649 -3.421 72.761 1.00 40.00 C +ATOM 5203 C VAL C 286 -78.923 -4.727 73.499 1.00 40.00 C +ATOM 5204 O VAL C 286 -78.986 -4.734 74.735 1.00 40.00 O +ATOM 5205 CB VAL C 286 -79.885 -2.929 71.973 1.00 40.00 C +ATOM 5206 CG1 VAL C 286 -81.182 -3.218 72.721 1.00 40.00 C +ATOM 5207 CG2 VAL C 286 -79.749 -1.438 71.674 1.00 40.00 C +ATOM 5208 N SER C 287 -79.045 -5.823 72.744 1.00 40.00 N +ATOM 5209 CA SER C 287 -79.365 -7.132 73.330 1.00 40.00 C +ATOM 5210 C SER C 287 -78.245 -7.659 74.229 1.00 40.00 C +ATOM 5211 O SER C 287 -78.520 -8.373 75.197 1.00 40.00 O +ATOM 5212 CB SER C 287 -79.798 -8.173 72.271 1.00 40.00 C +ATOM 5213 OG SER C 287 -78.784 -8.436 71.319 1.00 40.00 O +ATOM 5214 N LEU C 288 -77.002 -7.281 73.918 1.00 40.00 N +ATOM 5215 CA LEU C 288 -75.836 -7.654 74.729 1.00 40.00 C +ATOM 5216 C LEU C 288 -75.752 -6.872 76.035 1.00 40.00 C +ATOM 5217 O LEU C 288 -75.257 -7.395 77.041 1.00 40.00 O +ATOM 5218 CB LEU C 288 -74.532 -7.464 73.946 1.00 40.00 C +ATOM 5219 CG LEU C 288 -73.944 -8.643 73.165 1.00 40.00 C +ATOM 5220 CD1 LEU C 288 -72.822 -8.153 72.265 1.00 40.00 C +ATOM 5221 CD2 LEU C 288 -73.454 -9.764 74.079 1.00 40.00 C +ATOM 5222 N ALA C 289 -76.221 -5.619 75.999 1.00 40.00 N +ATOM 5223 CA ALA C 289 -76.168 -4.707 77.148 1.00 40.00 C +ATOM 5224 C ALA C 289 -77.197 -5.087 78.212 1.00 40.00 C +ATOM 5225 O ALA C 289 -76.830 -5.290 79.368 1.00 40.00 O +ATOM 5226 CB ALA C 289 -76.346 -3.258 76.709 1.00 40.00 C +ATOM 5227 N GLU C 290 -78.470 -5.199 77.819 1.00 40.00 N +ATOM 5228 CA GLU C 290 -79.556 -5.609 78.725 1.00 40.00 C +ATOM 5229 C GLU C 290 -79.351 -7.011 79.316 1.00 40.00 C +ATOM 5230 O GLU C 290 -80.066 -7.389 80.243 1.00 40.00 O +ATOM 5231 CB GLU C 290 -80.901 -5.530 78.002 1.00 40.00 C +ATOM 5232 CG GLU C 290 -80.917 -6.309 76.686 1.00 40.00 C +ATOM 5233 CD GLU C 290 -82.271 -6.330 75.987 1.00 40.00 C +ATOM 5234 OE1 GLU C 290 -83.248 -6.824 76.590 1.00 40.00 O +ATOM 5235 OE2 GLU C 290 -82.362 -5.880 74.819 1.00 40.00 O +ATOM 5236 N LYS C 291 -78.394 -7.767 78.758 1.00 40.00 N +ATOM 5237 CA LYS C 291 -77.908 -9.033 79.336 1.00 40.00 C +ATOM 5238 C LYS C 291 -77.322 -8.849 80.720 1.00 40.00 C +ATOM 5239 O LYS C 291 -77.598 -9.645 81.616 1.00 40.00 O +ATOM 5240 CB LYS C 291 -76.820 -9.675 78.478 1.00 40.00 C +ATOM 5241 CG LYS C 291 -77.331 -10.428 77.280 1.00 40.00 C +ATOM 5242 CD LYS C 291 -78.345 -11.490 77.665 1.00 40.00 C +ATOM 5243 CE LYS C 291 -78.957 -12.084 76.409 1.00 40.00 C +ATOM 5244 NZ LYS C 291 -77.906 -12.452 75.414 1.00 40.00 N +ATOM 5245 N ASP C 292 -76.482 -7.824 80.874 1.00 40.00 N +ATOM 5246 CA ASP C 292 -75.886 -7.460 82.172 1.00 40.00 C +ATOM 5247 C ASP C 292 -76.790 -6.492 82.982 1.00 40.00 C +ATOM 5248 O ASP C 292 -76.403 -6.014 84.067 1.00 40.00 O +ATOM 5249 CB ASP C 292 -74.483 -6.855 81.971 1.00 40.00 C +ATOM 5250 CG ASP C 292 -73.524 -7.787 81.224 1.00 40.00 C +ATOM 5251 OD1 ASP C 292 -73.969 -8.743 80.533 1.00 40.00 O +ATOM 5252 OD2 ASP C 292 -72.300 -7.544 81.325 1.00 40.00 O +ATOM 5253 N GLY C 293 -77.993 -6.234 82.448 1.00 40.00 N +ATOM 5254 CA GLY C 293 -78.933 -5.240 82.980 1.00 40.00 C +ATOM 5255 C GLY C 293 -78.596 -3.797 82.611 1.00 40.00 C +ATOM 5256 O GLY C 293 -79.139 -2.867 83.212 1.00 40.00 O +ATOM 5257 N ILE C 294 -77.715 -3.614 81.619 1.00 40.00 N +ATOM 5258 CA ILE C 294 -77.146 -2.300 81.244 1.00 40.00 C +ATOM 5259 C ILE C 294 -77.907 -1.643 80.081 1.00 40.00 C +ATOM 5260 O ILE C 294 -78.306 -2.329 79.118 1.00 40.00 O +ATOM 5261 CB ILE C 294 -75.635 -2.417 80.886 1.00 40.00 C +ATOM 5262 CG1 ILE C 294 -74.832 -2.920 82.095 1.00 40.00 C +ATOM 5263 CG2 ILE C 294 -75.072 -1.085 80.393 1.00 40.00 C +ATOM 5264 CD1 ILE C 294 -73.423 -3.387 81.781 1.00 40.00 C +ATOM 5265 N ASP C 295 -78.125 -0.325 80.184 1.00 40.00 N +ATOM 5266 CA ASP C 295 -78.639 0.445 79.044 1.00 40.00 C +ATOM 5267 C ASP C 295 -77.494 0.912 78.160 1.00 40.00 C +ATOM 5268 O ASP C 295 -76.577 1.613 78.614 1.00 40.00 O +ATOM 5269 CB ASP C 295 -79.511 1.633 79.446 1.00 40.00 C +ATOM 5270 CG ASP C 295 -79.899 2.501 78.244 1.00 40.00 C +ATOM 5271 OD1 ASP C 295 -80.288 3.665 78.437 1.00 40.00 O +ATOM 5272 OD2 ASP C 295 -79.808 2.034 77.092 1.00 40.00 O +ATOM 5273 N TRP C 296 -77.600 0.534 76.885 1.00 40.00 N +ATOM 5274 CA TRP C 296 -76.529 0.648 75.898 1.00 40.00 C +ATOM 5275 C TRP C 296 -76.038 2.056 75.666 1.00 40.00 C +ATOM 5276 O TRP C 296 -74.839 2.331 75.760 1.00 40.00 O +ATOM 5277 CB TRP C 296 -76.950 -0.047 74.595 1.00 40.00 C +ATOM 5278 CG TRP C 296 -76.084 0.291 73.410 1.00 40.00 C +ATOM 5279 CD1 TRP C 296 -76.497 0.815 72.192 1.00 40.00 C +ATOM 5280 CD2 TRP C 296 -74.615 0.162 73.290 1.00 40.00 C +ATOM 5281 NE1 TRP C 296 -75.424 1.004 71.347 1.00 40.00 N +ATOM 5282 CE2 TRP C 296 -74.270 0.640 71.941 1.00 40.00 C +ATOM 5283 CE3 TRP C 296 -73.598 -0.285 74.126 1.00 40.00 C +ATOM 5284 CZ2 TRP C 296 -72.963 0.660 71.475 1.00 40.00 C +ATOM 5285 CZ3 TRP C 296 -72.284 -0.258 73.646 1.00 40.00 C +ATOM 5286 CH2 TRP C 296 -71.977 0.204 72.352 1.00 40.00 C +ATOM 5287 N PHE C 297 -76.956 2.968 75.389 1.00 40.00 N +ATOM 5288 CA PHE C 297 -76.564 4.311 74.989 1.00 40.00 C +ATOM 5289 C PHE C 297 -75.797 5.018 76.101 1.00 40.00 C +ATOM 5290 O PHE C 297 -74.883 5.790 75.832 1.00 40.00 O +ATOM 5291 CB PHE C 297 -77.775 5.096 74.459 1.00 40.00 C +ATOM 5292 CG PHE C 297 -78.383 4.482 73.216 1.00 40.00 C +ATOM 5293 CD1 PHE C 297 -79.366 3.481 73.317 1.00 40.00 C +ATOM 5294 CD2 PHE C 297 -77.945 4.862 71.947 1.00 40.00 C +ATOM 5295 CE1 PHE C 297 -79.909 2.892 72.182 1.00 40.00 C +ATOM 5296 CE2 PHE C 297 -78.488 4.275 70.812 1.00 40.00 C +ATOM 5297 CZ PHE C 297 -79.470 3.291 70.929 1.00 40.00 C +ATOM 5298 N ASP C 298 -76.121 4.692 77.345 1.00 40.00 N +ATOM 5299 CA ASP C 298 -75.425 5.275 78.487 1.00 40.00 C +ATOM 5300 C ASP C 298 -74.037 4.700 78.667 1.00 40.00 C +ATOM 5301 O ASP C 298 -73.134 5.366 79.176 1.00 40.00 O +ATOM 5302 CB ASP C 298 -76.243 5.069 79.750 1.00 40.00 C +ATOM 5303 CG ASP C 298 -77.633 5.645 79.630 1.00 40.00 C +ATOM 5304 OD1 ASP C 298 -78.258 5.871 80.683 1.00 40.00 O +ATOM 5305 OD2 ASP C 298 -78.098 5.878 78.487 1.00 40.00 O +ATOM 5306 N TYR C 299 -73.887 3.449 78.252 1.00 40.00 N +ATOM 5307 CA TYR C 299 -72.596 2.796 78.245 1.00 40.00 C +ATOM 5308 C TYR C 299 -71.802 3.322 77.057 1.00 40.00 C +ATOM 5309 O TYR C 299 -70.592 3.506 77.144 1.00 40.00 O +ATOM 5310 CB TYR C 299 -72.767 1.267 78.196 1.00 40.00 C +ATOM 5311 CG TYR C 299 -71.513 0.469 78.519 1.00 40.00 C +ATOM 5312 CD1 TYR C 299 -70.975 0.447 79.816 1.00 40.00 C +ATOM 5313 CD2 TYR C 299 -70.870 -0.282 77.536 1.00 40.00 C +ATOM 5314 CE1 TYR C 299 -69.820 -0.285 80.112 1.00 40.00 C +ATOM 5315 CE2 TYR C 299 -69.720 -1.019 77.822 1.00 40.00 C +ATOM 5316 CZ TYR C 299 -69.193 -1.022 79.106 1.00 40.00 C +ATOM 5317 OH TYR C 299 -68.049 -1.754 79.383 1.00 40.00 O +ATOM 5318 N LYS C 300 -72.504 3.588 75.958 1.00 40.00 N +ATOM 5319 CA LYS C 300 -71.893 4.160 74.763 1.00 40.00 C +ATOM 5320 C LYS C 300 -71.293 5.514 75.120 1.00 40.00 C +ATOM 5321 O LYS C 300 -70.075 5.682 75.112 1.00 40.00 O +ATOM 5322 CB LYS C 300 -72.929 4.300 73.638 1.00 40.00 C +ATOM 5323 CG LYS C 300 -72.372 4.849 72.327 1.00 40.00 C +ATOM 5324 CD LYS C 300 -73.469 5.273 71.355 1.00 40.00 C +ATOM 5325 CE LYS C 300 -73.722 4.232 70.277 1.00 40.00 C +ATOM 5326 NZ LYS C 300 -74.698 4.706 69.248 1.00 40.00 N +ATOM 5327 N LYS C 301 -72.162 6.463 75.449 1.00 40.00 N +ATOM 5328 CA LYS C 301 -71.758 7.758 75.951 1.00 40.00 C +ATOM 5329 C LYS C 301 -70.460 7.633 76.698 1.00 40.00 C +ATOM 5330 O LYS C 301 -69.474 8.258 76.345 1.00 40.00 O +ATOM 5331 CB LYS C 301 -72.812 8.268 76.913 1.00 40.00 C +ATOM 5332 CG LYS C 301 -74.047 8.816 76.234 1.00 40.00 C +ATOM 5333 CD LYS C 301 -75.269 8.728 77.144 1.00 40.00 C +ATOM 5334 CE LYS C 301 -76.391 9.685 76.736 1.00 40.00 C +ATOM 5335 NZ LYS C 301 -76.720 9.751 75.272 1.00 40.00 N +ATOM 5336 N GLN C 302 -70.479 6.789 77.723 1.00 40.00 N +ATOM 5337 CA GLN C 302 -69.367 6.618 78.656 1.00 40.00 C +ATOM 5338 C GLN C 302 -68.060 6.243 77.971 1.00 40.00 C +ATOM 5339 O GLN C 302 -67.000 6.800 78.267 1.00 40.00 O +ATOM 5340 CB GLN C 302 -69.739 5.568 79.703 1.00 40.00 C +ATOM 5341 CG GLN C 302 -68.645 5.240 80.708 1.00 40.00 C +ATOM 5342 CD GLN C 302 -68.967 3.996 81.524 1.00 40.00 C +ATOM 5343 OE1 GLN C 302 -68.173 3.045 81.582 1.00 40.00 O +ATOM 5344 NE2 GLN C 302 -70.143 3.987 82.151 1.00 40.00 N +ATOM 5345 N LEU C 303 -68.138 5.293 77.055 1.00 40.00 N +ATOM 5346 CA LEU C 303 -66.959 4.894 76.319 1.00 40.00 C +ATOM 5347 C LEU C 303 -66.486 6.087 75.538 1.00 40.00 C +ATOM 5348 O LEU C 303 -65.291 6.361 75.485 1.00 40.00 O +ATOM 5349 CB LEU C 303 -67.268 3.735 75.378 1.00 40.00 C +ATOM 5350 CG LEU C 303 -67.821 2.483 76.057 1.00 40.00 C +ATOM 5351 CD1 LEU C 303 -68.639 1.688 75.062 1.00 40.00 C +ATOM 5352 CD2 LEU C 303 -66.725 1.625 76.675 1.00 40.00 C +ATOM 5353 N LYS C 304 -67.438 6.811 74.952 1.00 40.00 N +ATOM 5354 CA LYS C 304 -67.100 7.991 74.175 1.00 40.00 C +ATOM 5355 C LYS C 304 -66.335 8.961 75.050 1.00 40.00 C +ATOM 5356 O LYS C 304 -65.245 9.385 74.673 1.00 40.00 O +ATOM 5357 CB LYS C 304 -68.334 8.649 73.560 1.00 40.00 C +ATOM 5358 CG LYS C 304 -68.934 7.832 72.431 1.00 40.00 C +ATOM 5359 CD LYS C 304 -70.144 8.504 71.800 1.00 40.00 C +ATOM 5360 CE LYS C 304 -69.834 9.105 70.436 1.00 40.00 C +ATOM 5361 NZ LYS C 304 -71.088 9.574 69.780 1.00 40.00 N +ATOM 5362 N ARG C 305 -66.876 9.281 76.228 1.00 40.00 N +ATOM 5363 CA ARG C 305 -66.153 10.131 77.177 1.00 40.00 C +ATOM 5364 C ARG C 305 -64.757 9.579 77.397 1.00 40.00 C +ATOM 5365 O ARG C 305 -63.800 10.333 77.500 1.00 40.00 O +ATOM 5366 CB ARG C 305 -66.892 10.287 78.508 1.00 40.00 C +ATOM 5367 CG ARG C 305 -67.678 11.593 78.647 1.00 40.00 C +ATOM 5368 CD ARG C 305 -68.207 11.813 80.063 1.00 40.00 C +ATOM 5369 NE ARG C 305 -69.324 10.919 80.409 1.00 40.00 N +ATOM 5370 CZ ARG C 305 -69.232 9.807 81.154 1.00 40.00 C +ATOM 5371 NH1 ARG C 305 -68.062 9.412 81.663 1.00 40.00 N +ATOM 5372 NH2 ARG C 305 -70.323 9.077 81.394 1.00 40.00 N +ATOM 5373 N GLY C 306 -64.637 8.258 77.425 1.00 40.00 N +ATOM 5374 CA GLY C 306 -63.328 7.640 77.506 1.00 40.00 C +ATOM 5375 C GLY C 306 -62.574 7.621 76.184 1.00 40.00 C +ATOM 5376 O GLY C 306 -61.561 6.929 76.059 1.00 40.00 O +ATOM 5377 N ASP C 307 -63.056 8.372 75.195 1.00 40.00 N +ATOM 5378 CA ASP C 307 -62.476 8.369 73.851 1.00 40.00 C +ATOM 5379 C ASP C 307 -62.372 6.957 73.317 1.00 40.00 C +ATOM 5380 O ASP C 307 -61.621 6.712 72.383 1.00 40.00 O +ATOM 5381 CB ASP C 307 -61.082 9.005 73.845 1.00 40.00 C +ATOM 5382 CG ASP C 307 -61.084 10.448 74.330 1.00 40.00 C +ATOM 5383 OD1 ASP C 307 -61.835 11.291 73.785 1.00 40.00 O +ATOM 5384 OD2 ASP C 307 -60.306 10.754 75.254 1.00 40.00 O +ATOM 5385 N GLN C 308 -63.114 6.034 73.930 1.00 40.00 N +ATOM 5386 CA GLN C 308 -63.027 4.601 73.617 1.00 40.00 C +ATOM 5387 C GLN C 308 -63.980 4.208 72.484 1.00 40.00 C +ATOM 5388 O GLN C 308 -63.879 3.113 71.940 1.00 40.00 O +ATOM 5389 CB GLN C 308 -63.216 3.734 74.885 1.00 40.00 C +ATOM 5390 CG GLN C 308 -61.956 3.664 75.762 1.00 40.00 C +ATOM 5391 CD GLN C 308 -62.126 2.913 77.081 1.00 40.00 C +ATOM 5392 OE1 GLN C 308 -62.191 1.691 77.121 1.00 40.00 O +ATOM 5393 NE2 GLN C 308 -62.144 3.652 78.171 1.00 40.00 N +ATOM 5394 N TRP C 309 -64.867 5.132 72.111 1.00 40.00 N +ATOM 5395 CA TRP C 309 -65.828 4.942 71.016 1.00 40.00 C +ATOM 5396 C TRP C 309 -65.759 6.118 70.100 1.00 40.00 C +ATOM 5397 O TRP C 309 -65.982 7.262 70.524 1.00 40.00 O +ATOM 5398 CB TRP C 309 -67.226 4.833 71.584 1.00 40.00 C +ATOM 5399 CG TRP C 309 -68.287 4.382 70.620 1.00 40.00 C +ATOM 5400 CD1 TRP C 309 -69.164 5.170 69.891 1.00 40.00 C +ATOM 5401 CD2 TRP C 309 -68.651 3.005 70.297 1.00 40.00 C +ATOM 5402 NE1 TRP C 309 -70.015 4.396 69.152 1.00 40.00 N +ATOM 5403 CE2 TRP C 309 -69.759 3.085 69.350 1.00 40.00 C +ATOM 5404 CE3 TRP C 309 -68.179 1.759 70.680 1.00 40.00 C +ATOM 5405 CZ2 TRP C 309 -70.355 1.948 68.815 1.00 40.00 C +ATOM 5406 CZ3 TRP C 309 -68.785 0.624 70.137 1.00 40.00 C +ATOM 5407 CH2 TRP C 309 -69.846 0.716 69.226 1.00 40.00 C +ATOM 5408 N ASN C 310 -65.440 5.846 68.835 1.00 40.00 N +ATOM 5409 CA ASN C 310 -65.100 6.901 67.875 1.00 40.00 C +ATOM 5410 C ASN C 310 -65.665 6.677 66.461 1.00 40.00 C +ATOM 5411 O ASN C 310 -65.361 5.679 65.803 1.00 40.00 O +ATOM 5412 CB ASN C 310 -63.578 7.129 67.843 1.00 40.00 C +ATOM 5413 CG ASN C 310 -62.955 7.228 69.243 1.00 40.00 C +ATOM 5414 OD1 ASN C 310 -63.358 8.044 70.084 1.00 40.00 O +ATOM 5415 ND2 ASN C 310 -61.954 6.394 69.488 1.00 40.00 N +ATOM 5416 N VAL C 311 -66.472 7.636 66.003 1.00 40.00 N +ATOM 5417 CA VAL C 311 -67.351 7.446 64.851 1.00 40.00 C +ATOM 5418 C VAL C 311 -67.171 8.507 63.762 1.00 40.00 C +ATOM 5419 O VAL C 311 -67.185 9.709 64.034 1.00 40.00 O +ATOM 5420 CB VAL C 311 -68.831 7.421 65.286 1.00 40.00 C +ATOM 5421 CG1 VAL C 311 -69.731 7.059 64.118 1.00 40.00 C +ATOM 5422 CG2 VAL C 311 -69.048 6.432 66.421 1.00 40.00 C +ATOM 5423 N GLU C 312 -67.039 8.031 62.525 1.00 40.00 N +ATOM 5424 CA GLU C 312 -66.745 8.851 61.356 1.00 40.00 C +ATOM 5425 C GLU C 312 -67.498 8.262 60.178 1.00 40.00 C +ATOM 5426 O GLU C 312 -66.919 7.510 59.399 1.00 40.00 O +ATOM 5427 CB GLU C 312 -65.249 8.760 61.058 1.00 40.00 C +ATOM 5428 CG GLU C 312 -64.717 9.626 59.923 1.00 40.00 C +ATOM 5429 CD GLU C 312 -63.878 10.797 60.420 1.00 40.00 C +ATOM 5430 OE1 GLU C 312 -64.374 11.541 61.312 1.00 40.00 O +ATOM 5431 OE2 GLU C 312 -62.729 10.975 59.919 1.00 40.00 O +ATOM 5432 N VAL C 313 -68.783 8.591 60.044 1.00 40.00 N +ATOM 5433 CA VAL C 313 -69.602 8.065 58.928 1.00 40.00 C +ATOM 5434 C VAL C 313 -70.199 9.157 58.029 1.00 40.00 C +ATOM 5435 O VAL C 313 -70.390 10.299 58.468 1.00 40.00 O +ATOM 5436 CB VAL C 313 -70.717 7.106 59.401 1.00 40.00 C +ATOM 5437 CG1 VAL C 313 -70.114 5.853 60.013 1.00 40.00 C +ATOM 5438 CG2 VAL C 313 -71.653 7.795 60.381 1.00 40.00 C +ATOM 5439 N TYR C 314 -70.487 8.803 56.774 1.00 40.00 N +ATOM 5440 CA TYR C 314 -70.949 9.777 55.778 1.00 40.00 C +ATOM 5441 C TYR C 314 -71.875 9.124 54.771 1.00 40.00 C +ATOM 5442 O TYR C 314 -71.981 7.896 54.713 1.00 40.00 O +ATOM 5443 CB TYR C 314 -69.760 10.453 55.053 1.00 40.00 C +ATOM 5444 CG TYR C 314 -68.662 9.485 54.630 1.00 40.00 C +ATOM 5445 CD1 TYR C 314 -68.664 8.888 53.360 1.00 40.00 C +ATOM 5446 CD2 TYR C 314 -67.617 9.165 55.504 1.00 40.00 C +ATOM 5447 CE1 TYR C 314 -67.660 7.993 52.983 1.00 40.00 C +ATOM 5448 CE2 TYR C 314 -66.615 8.267 55.141 1.00 40.00 C +ATOM 5449 CZ TYR C 314 -66.630 7.681 53.884 1.00 40.00 C +ATOM 5450 OH TYR C 314 -65.621 6.791 53.546 1.00 40.00 O +ATOM 5451 OXT TYR C 314 -72.521 9.829 53.997 1.00 40.00 O +TER 5452 TYR C 314 +ATOM 5453 N ALA D 1 -35.462 -28.005 -0.988 1.00 40.00 N +ATOM 5454 CA ALA D 1 -33.990 -27.743 -0.945 1.00 40.00 C +ATOM 5455 C ALA D 1 -33.218 -28.950 -0.428 1.00 40.00 C +ATOM 5456 O ALA D 1 -33.724 -29.706 0.392 1.00 40.00 O +ATOM 5457 CB ALA D 1 -33.694 -26.520 -0.090 1.00 40.00 C +ATOM 5458 N THR D 2 -31.994 -29.120 -0.922 1.00 40.00 N +ATOM 5459 CA THR D 2 -31.100 -30.212 -0.507 1.00 40.00 C +ATOM 5460 C THR D 2 -29.765 -29.585 -0.074 1.00 40.00 C +ATOM 5461 O THR D 2 -29.266 -28.676 -0.736 1.00 40.00 O +ATOM 5462 CB THR D 2 -30.903 -31.259 -1.646 1.00 40.00 C +ATOM 5463 OG1 THR D 2 -32.164 -31.853 -1.982 1.00 40.00 O +ATOM 5464 CG2 THR D 2 -29.919 -32.368 -1.256 1.00 40.00 C +ATOM 5465 N TYR D 3 -29.203 -30.050 1.043 1.00 40.00 N +ATOM 5466 CA TYR D 3 -27.958 -29.483 1.598 1.00 40.00 C +ATOM 5467 C TYR D 3 -26.955 -30.580 1.968 1.00 40.00 C +ATOM 5468 O TYR D 3 -27.344 -31.720 2.244 1.00 40.00 O +ATOM 5469 CB TYR D 3 -28.236 -28.636 2.848 1.00 40.00 C +ATOM 5470 CG TYR D 3 -29.403 -27.660 2.765 1.00 40.00 C +ATOM 5471 CD1 TYR D 3 -30.726 -28.102 2.902 1.00 40.00 C +ATOM 5472 CD2 TYR D 3 -29.188 -26.294 2.602 1.00 40.00 C +ATOM 5473 CE1 TYR D 3 -31.792 -27.219 2.856 1.00 40.00 C +ATOM 5474 CE2 TYR D 3 -30.253 -25.404 2.556 1.00 40.00 C +ATOM 5475 CZ TYR D 3 -31.551 -25.875 2.683 1.00 40.00 C +ATOM 5476 OH TYR D 3 -32.616 -25.006 2.639 1.00 40.00 O +ATOM 5477 N ASN D 4 -25.668 -30.227 1.985 1.00 40.00 N +ATOM 5478 CA ASN D 4 -24.608 -31.176 2.363 1.00 40.00 C +ATOM 5479 C ASN D 4 -24.573 -31.469 3.866 1.00 40.00 C +ATOM 5480 O ASN D 4 -24.685 -30.559 4.709 1.00 40.00 O +ATOM 5481 CB ASN D 4 -23.215 -30.727 1.859 1.00 40.00 C +ATOM 5482 CG ASN D 4 -22.081 -31.649 2.329 1.00 40.00 C +ATOM 5483 OD1 ASN D 4 -22.086 -32.860 2.063 1.00 40.00 O +ATOM 5484 ND2 ASN D 4 -21.100 -31.071 3.031 1.00 40.00 N +ATOM 5485 N VAL D 5 -24.434 -32.758 4.177 1.00 40.00 N +ATOM 5486 CA VAL D 5 -24.203 -33.210 5.547 1.00 40.00 C +ATOM 5487 C VAL D 5 -22.988 -34.128 5.629 1.00 40.00 C +ATOM 5488 O VAL D 5 -22.810 -35.045 4.822 1.00 40.00 O +ATOM 5489 CB VAL D 5 -25.432 -33.895 6.181 1.00 40.00 C +ATOM 5490 CG1 VAL D 5 -25.227 -34.060 7.688 1.00 40.00 C +ATOM 5491 CG2 VAL D 5 -26.706 -33.103 5.892 1.00 40.00 C +ATOM 5492 N LYS D 6 -22.165 -33.849 6.629 1.00 40.00 N +ATOM 5493 CA LYS D 6 -20.899 -34.513 6.844 1.00 40.00 C +ATOM 5494 C LYS D 6 -21.017 -35.171 8.196 1.00 40.00 C +ATOM 5495 O LYS D 6 -21.233 -34.507 9.212 1.00 40.00 O +ATOM 5496 CB LYS D 6 -19.775 -33.465 6.832 1.00 40.00 C +ATOM 5497 CG LYS D 6 -18.365 -33.958 7.139 1.00 40.00 C +ATOM 5498 CD LYS D 6 -17.336 -32.820 7.112 1.00 40.00 C +ATOM 5499 CE LYS D 6 -17.121 -32.260 5.703 1.00 40.00 C +ATOM 5500 NZ LYS D 6 -15.848 -31.501 5.550 1.00 40.00 N +ATOM 5501 N LEU D 7 -20.901 -36.487 8.205 1.00 40.00 N +ATOM 5502 CA LEU D 7 -21.063 -37.224 9.444 1.00 40.00 C +ATOM 5503 C LEU D 7 -19.755 -37.759 9.957 1.00 40.00 C +ATOM 5504 O LEU D 7 -19.040 -38.472 9.254 1.00 40.00 O +ATOM 5505 CB LEU D 7 -22.052 -38.371 9.280 1.00 40.00 C +ATOM 5506 CG LEU D 7 -23.491 -37.929 9.037 1.00 40.00 C +ATOM 5507 CD1 LEU D 7 -24.351 -39.145 8.751 1.00 40.00 C +ATOM 5508 CD2 LEU D 7 -24.030 -37.156 10.231 1.00 40.00 C +ATOM 5509 N ILE D 8 -19.455 -37.414 11.199 1.00 40.00 N +ATOM 5510 CA ILE D 8 -18.237 -37.878 11.822 1.00 40.00 C +ATOM 5511 C ILE D 8 -18.625 -39.018 12.753 1.00 40.00 C +ATOM 5512 O ILE D 8 -18.820 -38.842 13.968 1.00 40.00 O +ATOM 5513 CB ILE D 8 -17.461 -36.737 12.528 1.00 40.00 C +ATOM 5514 CG1 ILE D 8 -17.575 -35.431 11.720 1.00 40.00 C +ATOM 5515 CG2 ILE D 8 -15.993 -37.127 12.709 1.00 40.00 C +ATOM 5516 CD1 ILE D 8 -17.774 -34.185 12.566 1.00 40.00 C +ATOM 5517 N THR D 9 -18.764 -40.190 12.141 1.00 40.00 N +ATOM 5518 CA THR D 9 -19.029 -41.428 12.864 1.00 40.00 C +ATOM 5519 C THR D 9 -17.766 -41.815 13.684 1.00 40.00 C +ATOM 5520 O THR D 9 -16.693 -41.221 13.476 1.00 40.00 O +ATOM 5521 CB THR D 9 -19.509 -42.548 11.894 1.00 40.00 C +ATOM 5522 OG1 THR D 9 -18.392 -43.275 11.365 1.00 40.00 O +ATOM 5523 CG2 THR D 9 -20.334 -41.954 10.733 1.00 40.00 C +ATOM 5524 N PRO D 10 -17.882 -42.780 14.634 1.00 40.00 N +ATOM 5525 CA PRO D 10 -16.682 -43.237 15.361 1.00 40.00 C +ATOM 5526 C PRO D 10 -15.761 -44.047 14.445 1.00 40.00 C +ATOM 5527 O PRO D 10 -14.647 -44.427 14.832 1.00 40.00 O +ATOM 5528 CB PRO D 10 -17.253 -44.146 16.463 1.00 40.00 C +ATOM 5529 CG PRO D 10 -18.717 -43.874 16.494 1.00 40.00 C +ATOM 5530 CD PRO D 10 -19.081 -43.501 15.091 1.00 40.00 C +ATOM 5531 N GLU D 11 -16.250 -44.302 13.233 1.00 40.00 N +ATOM 5532 CA GLU D 11 -15.498 -44.999 12.201 1.00 40.00 C +ATOM 5533 C GLU D 11 -15.266 -44.098 10.987 1.00 40.00 C +ATOM 5534 O GLU D 11 -15.336 -44.546 9.835 1.00 40.00 O +ATOM 5535 CB GLU D 11 -16.239 -46.263 11.803 1.00 40.00 C +ATOM 5536 CG GLU D 11 -16.520 -47.176 12.981 1.00 40.00 C +ATOM 5537 CD GLU D 11 -16.924 -48.562 12.534 1.00 40.00 C +ATOM 5538 OE1 GLU D 11 -17.983 -48.686 11.877 1.00 40.00 O +ATOM 5539 OE2 GLU D 11 -16.178 -49.523 12.834 1.00 40.00 O +ATOM 5540 N GLY D 12 -14.997 -42.822 11.268 1.00 40.00 N +ATOM 5541 CA GLY D 12 -14.643 -41.853 10.246 1.00 40.00 C +ATOM 5542 C GLY D 12 -15.780 -41.038 9.661 1.00 40.00 C +ATOM 5543 O GLY D 12 -16.967 -41.191 10.004 1.00 40.00 O +ATOM 5544 N GLU D 13 -15.380 -40.174 8.741 1.00 40.00 N +ATOM 5545 CA GLU D 13 -16.259 -39.198 8.137 1.00 40.00 C +ATOM 5546 C GLU D 13 -16.964 -39.785 6.905 1.00 40.00 C +ATOM 5547 O GLU D 13 -16.455 -40.721 6.284 1.00 40.00 O +ATOM 5548 CB GLU D 13 -15.419 -37.966 7.776 1.00 40.00 C +ATOM 5549 CG GLU D 13 -16.187 -36.661 7.613 1.00 40.00 C +ATOM 5550 CD GLU D 13 -15.354 -35.597 6.916 1.00 40.00 C +ATOM 5551 OE1 GLU D 13 -15.670 -35.274 5.740 1.00 40.00 O +ATOM 5552 OE2 GLU D 13 -14.380 -35.101 7.539 1.00 40.00 O +ATOM 5553 N VAL D 14 -18.144 -39.247 6.584 1.00 40.00 N +ATOM 5554 CA VAL D 14 -18.858 -39.553 5.335 1.00 40.00 C +ATOM 5555 C VAL D 14 -19.938 -38.494 5.058 1.00 40.00 C +ATOM 5556 O VAL D 14 -20.680 -38.083 5.959 1.00 40.00 O +ATOM 5557 CB VAL D 14 -19.414 -41.005 5.304 1.00 40.00 C +ATOM 5558 CG1 VAL D 14 -20.356 -41.269 6.477 1.00 40.00 C +ATOM 5559 CG2 VAL D 14 -20.061 -41.319 3.958 1.00 40.00 C +ATOM 5560 N GLU D 15 -20.000 -38.040 3.811 1.00 40.00 N +ATOM 5561 CA GLU D 15 -20.914 -36.962 3.443 1.00 40.00 C +ATOM 5562 C GLU D 15 -22.038 -37.474 2.566 1.00 40.00 C +ATOM 5563 O GLU D 15 -21.991 -38.614 2.106 1.00 40.00 O +ATOM 5564 CB GLU D 15 -20.168 -35.817 2.749 1.00 40.00 C +ATOM 5565 CG GLU D 15 -19.062 -35.181 3.588 1.00 40.00 C +ATOM 5566 CD GLU D 15 -18.267 -34.130 2.824 1.00 40.00 C +ATOM 5567 OE1 GLU D 15 -17.016 -34.205 2.846 1.00 40.00 O +ATOM 5568 OE2 GLU D 15 -18.888 -33.231 2.199 1.00 40.00 O +ATOM 5569 N LEU D 16 -23.041 -36.623 2.347 1.00 40.00 N +ATOM 5570 CA LEU D 16 -24.273 -37.025 1.671 1.00 40.00 C +ATOM 5571 C LEU D 16 -25.290 -35.900 1.540 1.00 40.00 C +ATOM 5572 O LEU D 16 -25.238 -34.910 2.271 1.00 40.00 O +ATOM 5573 CB LEU D 16 -24.935 -38.168 2.431 1.00 40.00 C +ATOM 5574 CG LEU D 16 -25.333 -37.858 3.880 1.00 40.00 C +ATOM 5575 CD1 LEU D 16 -26.649 -38.555 4.225 1.00 40.00 C +ATOM 5576 CD2 LEU D 16 -24.214 -38.227 4.860 1.00 40.00 C +ATOM 5577 N GLN D 17 -26.244 -36.099 0.636 1.00 40.00 N +ATOM 5578 CA GLN D 17 -27.202 -35.062 0.273 1.00 40.00 C +ATOM 5579 C GLN D 17 -28.566 -35.289 0.897 1.00 40.00 C +ATOM 5580 O GLN D 17 -29.179 -36.339 0.686 1.00 40.00 O +ATOM 5581 CB GLN D 17 -27.326 -34.976 -1.255 1.00 40.00 C +ATOM 5582 CG GLN D 17 -26.062 -34.470 -1.927 1.00 40.00 C +ATOM 5583 CD GLN D 17 -25.494 -33.236 -1.232 1.00 40.00 C +ATOM 5584 OE1 GLN D 17 -24.355 -33.250 -0.750 1.00 40.00 O +ATOM 5585 NE2 GLN D 17 -26.296 -32.167 -1.158 1.00 40.00 N +ATOM 5586 N VAL D 18 -29.044 -34.304 1.657 1.00 40.00 N +ATOM 5587 CA VAL D 18 -30.330 -34.447 2.344 1.00 40.00 C +ATOM 5588 C VAL D 18 -31.340 -33.338 2.054 1.00 40.00 C +ATOM 5589 O VAL D 18 -31.102 -32.168 2.394 1.00 40.00 O +ATOM 5590 CB VAL D 18 -30.170 -34.558 3.869 1.00 40.00 C +ATOM 5591 CG1 VAL D 18 -31.451 -35.132 4.485 1.00 40.00 C +ATOM 5592 CG2 VAL D 18 -28.945 -35.400 4.213 1.00 40.00 C +ATOM 5593 N PRO D 19 -32.482 -33.710 1.437 1.00 40.00 N +ATOM 5594 CA PRO D 19 -33.627 -32.795 1.249 1.00 40.00 C +ATOM 5595 C PRO D 19 -34.182 -32.276 2.586 1.00 40.00 C +ATOM 5596 O PRO D 19 -34.333 -33.067 3.528 1.00 40.00 O +ATOM 5597 CB PRO D 19 -34.660 -33.672 0.522 1.00 40.00 C +ATOM 5598 CG PRO D 19 -33.839 -34.715 -0.182 1.00 40.00 C +ATOM 5599 CD PRO D 19 -32.672 -34.994 0.725 1.00 40.00 C +ATOM 5600 N ASP D 20 -34.474 -30.971 2.655 1.00 40.00 N +ATOM 5601 CA ASP D 20 -34.919 -30.295 3.906 1.00 40.00 C +ATOM 5602 C ASP D 20 -36.309 -30.697 4.472 1.00 40.00 C +ATOM 5603 O ASP D 20 -36.773 -30.117 5.478 1.00 40.00 O +ATOM 5604 CB ASP D 20 -34.789 -28.749 3.795 1.00 40.00 C +ATOM 5605 CG ASP D 20 -35.867 -28.085 2.879 1.00 40.00 C +ATOM 5606 OD1 ASP D 20 -35.752 -26.857 2.662 1.00 40.00 O +ATOM 5607 OD2 ASP D 20 -36.816 -28.743 2.377 1.00 40.00 O +ATOM 5608 N ASP D 21 -36.944 -31.680 3.816 1.00 40.00 N +ATOM 5609 CA ASP D 21 -38.240 -32.261 4.221 1.00 40.00 C +ATOM 5610 C ASP D 21 -38.120 -33.722 4.685 1.00 40.00 C +ATOM 5611 O ASP D 21 -39.118 -34.329 5.081 1.00 40.00 O +ATOM 5612 CB ASP D 21 -39.281 -32.134 3.091 1.00 40.00 C +ATOM 5613 CG ASP D 21 -38.698 -32.407 1.695 1.00 40.00 C +ATOM 5614 OD1 ASP D 21 -37.603 -33.002 1.570 1.00 40.00 O +ATOM 5615 OD2 ASP D 21 -39.348 -32.021 0.704 1.00 40.00 O +ATOM 5616 N VAL D 22 -36.895 -34.260 4.640 1.00 40.00 N +ATOM 5617 CA VAL D 22 -36.580 -35.625 5.062 1.00 40.00 C +ATOM 5618 C VAL D 22 -35.696 -35.571 6.301 1.00 40.00 C +ATOM 5619 O VAL D 22 -34.720 -34.827 6.346 1.00 40.00 O +ATOM 5620 CB VAL D 22 -35.870 -36.428 3.935 1.00 40.00 C +ATOM 5621 CG1 VAL D 22 -35.412 -37.798 4.430 1.00 40.00 C +ATOM 5622 CG2 VAL D 22 -36.787 -36.592 2.725 1.00 40.00 C +ATOM 5623 N TYR D 23 -36.055 -36.356 7.310 1.00 40.00 N +ATOM 5624 CA TYR D 23 -35.212 -36.522 8.483 1.00 40.00 C +ATOM 5625 C TYR D 23 -33.854 -37.067 8.097 1.00 40.00 C +ATOM 5626 O TYR D 23 -33.723 -37.835 7.146 1.00 40.00 O +ATOM 5627 CB TYR D 23 -35.854 -37.467 9.490 1.00 40.00 C +ATOM 5628 CG TYR D 23 -37.118 -36.945 10.121 1.00 40.00 C +ATOM 5629 CD1 TYR D 23 -38.349 -37.544 9.864 1.00 40.00 C +ATOM 5630 CD2 TYR D 23 -37.087 -35.858 10.981 1.00 40.00 C +ATOM 5631 CE1 TYR D 23 -39.510 -37.070 10.452 1.00 40.00 C +ATOM 5632 CE2 TYR D 23 -38.240 -35.374 11.569 1.00 40.00 C +ATOM 5633 CZ TYR D 23 -39.445 -35.980 11.305 1.00 40.00 C +ATOM 5634 OH TYR D 23 -40.575 -35.478 11.901 1.00 40.00 O +ATOM 5635 N ILE D 24 -32.849 -36.675 8.865 1.00 40.00 N +ATOM 5636 CA ILE D 24 -31.455 -36.971 8.543 1.00 40.00 C +ATOM 5637 C ILE D 24 -31.105 -38.467 8.576 1.00 40.00 C +ATOM 5638 O ILE D 24 -30.468 -38.978 7.649 1.00 40.00 O +ATOM 5639 CB ILE D 24 -30.484 -36.168 9.451 1.00 40.00 C +ATOM 5640 CG1 ILE D 24 -30.558 -34.661 9.128 1.00 40.00 C +ATOM 5641 CG2 ILE D 24 -29.050 -36.693 9.311 1.00 40.00 C +ATOM 5642 CD1 ILE D 24 -30.128 -33.749 10.260 1.00 40.00 C +ATOM 5643 N LEU D 25 -31.509 -39.151 9.649 1.00 40.00 N +ATOM 5644 CA LEU D 25 -31.208 -40.580 9.845 1.00 40.00 C +ATOM 5645 C LEU D 25 -31.864 -41.426 8.757 1.00 40.00 C +ATOM 5646 O LEU D 25 -31.263 -42.402 8.290 1.00 40.00 O +ATOM 5647 CB LEU D 25 -31.664 -41.037 11.237 1.00 40.00 C +ATOM 5648 CG LEU D 25 -31.419 -42.468 11.725 1.00 40.00 C +ATOM 5649 CD1 LEU D 25 -30.012 -42.638 12.271 1.00 40.00 C +ATOM 5650 CD2 LEU D 25 -32.454 -42.809 12.791 1.00 40.00 C +ATOM 5651 N ASP D 26 -33.089 -41.034 8.371 1.00 40.00 N +ATOM 5652 CA ASP D 26 -33.819 -41.613 7.241 1.00 40.00 C +ATOM 5653 C ASP D 26 -32.915 -41.732 6.025 1.00 40.00 C +ATOM 5654 O ASP D 26 -32.703 -42.837 5.496 1.00 40.00 O +ATOM 5655 CB ASP D 26 -35.032 -40.746 6.890 1.00 40.00 C +ATOM 5656 CG ASP D 26 -36.116 -40.819 7.934 1.00 40.00 C +ATOM 5657 OD1 ASP D 26 -35.968 -41.620 8.888 1.00 40.00 O +ATOM 5658 OD2 ASP D 26 -37.120 -40.082 7.793 1.00 40.00 O +ATOM 5659 N GLN D 27 -32.377 -40.586 5.601 1.00 40.00 N +ATOM 5660 CA GLN D 27 -31.390 -40.520 4.521 1.00 40.00 C +ATOM 5661 C GLN D 27 -30.182 -41.470 4.732 1.00 40.00 C +ATOM 5662 O GLN D 27 -29.927 -42.350 3.896 1.00 40.00 O +ATOM 5663 CB GLN D 27 -30.925 -39.072 4.335 1.00 40.00 C +ATOM 5664 CG GLN D 27 -30.270 -38.802 2.996 1.00 40.00 C +ATOM 5665 CD GLN D 27 -31.189 -39.139 1.849 1.00 40.00 C +ATOM 5666 OE1 GLN D 27 -32.315 -38.633 1.766 1.00 40.00 O +ATOM 5667 NE2 GLN D 27 -30.722 -40.009 0.960 1.00 40.00 N +ATOM 5668 N ALA D 28 -29.471 -41.294 5.855 1.00 40.00 N +ATOM 5669 CA ALA D 28 -28.270 -42.073 6.206 1.00 40.00 C +ATOM 5670 C ALA D 28 -28.468 -43.556 5.970 1.00 40.00 C +ATOM 5671 O ALA D 28 -27.605 -44.227 5.421 1.00 40.00 O +ATOM 5672 CB ALA D 28 -27.885 -41.829 7.658 1.00 40.00 C +ATOM 5673 N GLU D 29 -29.630 -44.040 6.386 1.00 40.00 N +ATOM 5674 CA GLU D 29 -30.022 -45.430 6.252 1.00 40.00 C +ATOM 5675 C GLU D 29 -30.128 -45.910 4.788 1.00 40.00 C +ATOM 5676 O GLU D 29 -29.498 -46.910 4.438 1.00 40.00 O +ATOM 5677 CB GLU D 29 -31.340 -45.626 6.992 1.00 40.00 C +ATOM 5678 CG GLU D 29 -31.734 -47.058 7.294 1.00 40.00 C +ATOM 5679 CD GLU D 29 -33.203 -47.154 7.665 1.00 40.00 C +ATOM 5680 OE1 GLU D 29 -33.816 -46.099 7.943 1.00 40.00 O +ATOM 5681 OE2 GLU D 29 -33.757 -48.276 7.673 1.00 40.00 O +ATOM 5682 N GLU D 30 -30.908 -45.217 3.943 1.00 40.00 N +ATOM 5683 CA GLU D 30 -31.027 -45.583 2.505 1.00 40.00 C +ATOM 5684 C GLU D 30 -29.698 -45.452 1.817 1.00 40.00 C +ATOM 5685 O GLU D 30 -29.450 -46.112 0.803 1.00 40.00 O +ATOM 5686 CB GLU D 30 -31.962 -44.666 1.742 1.00 40.00 C +ATOM 5687 CG GLU D 30 -33.420 -44.830 2.039 1.00 40.00 C +ATOM 5688 CD GLU D 30 -34.138 -43.576 1.635 1.00 40.00 C +ATOM 5689 OE1 GLU D 30 -33.848 -43.103 0.510 1.00 40.00 O +ATOM 5690 OE2 GLU D 30 -34.944 -43.052 2.443 1.00 40.00 O +ATOM 5691 N ASP D 31 -28.868 -44.559 2.357 1.00 40.00 N +ATOM 5692 CA ASP D 31 -27.512 -44.354 1.875 1.00 40.00 C +ATOM 5693 C ASP D 31 -26.550 -45.344 2.526 1.00 40.00 C +ATOM 5694 O ASP D 31 -25.332 -45.214 2.397 1.00 40.00 O +ATOM 5695 CB ASP D 31 -27.083 -42.893 2.073 1.00 40.00 C +ATOM 5696 CG ASP D 31 -27.815 -41.937 1.124 1.00 40.00 C +ATOM 5697 OD1 ASP D 31 -28.789 -42.368 0.454 1.00 40.00 O +ATOM 5698 OD2 ASP D 31 -27.422 -40.749 1.045 1.00 40.00 O +ATOM 5699 N GLY D 32 -27.116 -46.335 3.214 1.00 40.00 N +ATOM 5700 CA GLY D 32 -26.358 -47.479 3.714 1.00 40.00 C +ATOM 5701 C GLY D 32 -25.488 -47.263 4.938 1.00 40.00 C +ATOM 5702 O GLY D 32 -24.548 -48.036 5.180 1.00 40.00 O +ATOM 5703 N ILE D 33 -25.802 -46.222 5.710 1.00 40.00 N +ATOM 5704 CA ILE D 33 -25.006 -45.863 6.884 1.00 40.00 C +ATOM 5705 C ILE D 33 -25.730 -46.315 8.156 1.00 40.00 C +ATOM 5706 O ILE D 33 -26.948 -46.112 8.314 1.00 40.00 O +ATOM 5707 CB ILE D 33 -24.643 -44.350 6.925 1.00 40.00 C +ATOM 5708 CG1 ILE D 33 -24.297 -43.825 5.519 1.00 40.00 C +ATOM 5709 CG2 ILE D 33 -23.466 -44.112 7.869 1.00 40.00 C +ATOM 5710 CD1 ILE D 33 -24.632 -42.366 5.278 1.00 40.00 C +ATOM 5711 N ASP D 34 -24.955 -46.952 9.036 1.00 40.00 N +ATOM 5712 CA ASP D 34 -25.441 -47.504 10.301 1.00 40.00 C +ATOM 5713 C ASP D 34 -25.234 -46.517 11.480 1.00 40.00 C +ATOM 5714 O ASP D 34 -24.148 -46.444 12.076 1.00 40.00 O +ATOM 5715 CB ASP D 34 -24.769 -48.869 10.563 1.00 40.00 C +ATOM 5716 CG ASP D 34 -25.460 -49.688 11.665 1.00 40.00 C +ATOM 5717 OD1 ASP D 34 -26.592 -49.350 12.086 1.00 40.00 O +ATOM 5718 OD2 ASP D 34 -24.859 -50.691 12.109 1.00 40.00 O +ATOM 5719 N LEU D 35 -26.290 -45.758 11.790 1.00 40.00 N +ATOM 5720 CA LEU D 35 -26.304 -44.789 12.895 1.00 40.00 C +ATOM 5721 C LEU D 35 -27.220 -45.285 13.997 1.00 40.00 C +ATOM 5722 O LEU D 35 -28.292 -45.810 13.704 1.00 40.00 O +ATOM 5723 CB LEU D 35 -26.829 -43.439 12.415 1.00 40.00 C +ATOM 5724 CG LEU D 35 -26.151 -42.793 11.216 1.00 40.00 C +ATOM 5725 CD1 LEU D 35 -26.983 -41.600 10.799 1.00 40.00 C +ATOM 5726 CD2 LEU D 35 -24.732 -42.379 11.586 1.00 40.00 C +ATOM 5727 N PRO D 36 -26.829 -45.086 15.268 1.00 40.00 N +ATOM 5728 CA PRO D 36 -27.635 -45.625 16.359 1.00 40.00 C +ATOM 5729 C PRO D 36 -29.022 -44.966 16.408 1.00 40.00 C +ATOM 5730 O PRO D 36 -29.167 -43.807 15.996 1.00 40.00 O +ATOM 5731 CB PRO D 36 -26.810 -45.285 17.602 1.00 40.00 C +ATOM 5732 CG PRO D 36 -26.072 -44.049 17.220 1.00 40.00 C +ATOM 5733 CD PRO D 36 -25.758 -44.202 15.758 1.00 40.00 C +ATOM 5734 N TYR D 37 -30.017 -45.732 16.869 1.00 40.00 N +ATOM 5735 CA TYR D 37 -31.418 -45.289 16.994 1.00 40.00 C +ATOM 5736 C TYR D 37 -32.237 -46.232 17.871 1.00 40.00 C +ATOM 5737 O TYR D 37 -31.779 -47.329 18.213 1.00 40.00 O +ATOM 5738 CB TYR D 37 -32.107 -45.139 15.621 1.00 40.00 C +ATOM 5739 CG TYR D 37 -32.334 -46.423 14.822 1.00 40.00 C +ATOM 5740 CD1 TYR D 37 -31.271 -47.064 14.170 1.00 40.00 C +ATOM 5741 CD2 TYR D 37 -33.614 -46.970 14.682 1.00 40.00 C +ATOM 5742 CE1 TYR D 37 -31.464 -48.221 13.429 1.00 40.00 C +ATOM 5743 CE2 TYR D 37 -33.822 -48.123 13.933 1.00 40.00 C +ATOM 5744 CZ TYR D 37 -32.740 -48.745 13.309 1.00 40.00 C +ATOM 5745 OH TYR D 37 -32.910 -49.896 12.559 1.00 40.00 O +ATOM 5746 N SER D 38 -33.449 -45.794 18.221 1.00 40.00 N +ATOM 5747 CA SER D 38 -34.385 -46.595 19.005 1.00 40.00 C +ATOM 5748 C SER D 38 -35.825 -46.245 18.635 1.00 40.00 C +ATOM 5749 O SER D 38 -36.444 -46.934 17.818 1.00 40.00 O +ATOM 5750 CB SER D 38 -34.140 -46.385 20.506 1.00 40.00 C +ATOM 5751 OG SER D 38 -34.786 -47.367 21.288 1.00 40.00 O +ATOM 5752 N CYS D 39 -36.324 -45.158 19.229 1.00 40.00 N +ATOM 5753 CA CYS D 39 -37.730 -44.741 19.153 1.00 40.00 C +ATOM 5754 C CYS D 39 -38.129 -44.304 17.760 1.00 40.00 C +ATOM 5755 O CYS D 39 -39.217 -44.632 17.263 1.00 40.00 O +ATOM 5756 CB CYS D 39 -37.984 -43.574 20.117 1.00 40.00 C +ATOM 5757 SG CYS D 39 -37.365 -41.965 19.544 1.00 40.00 S +ATOM 5758 N ARG D 40 -37.229 -43.540 17.151 1.00 40.00 N +ATOM 5759 CA ARG D 40 -37.478 -42.902 15.880 1.00 40.00 C +ATOM 5760 C ARG D 40 -38.738 -42.063 15.967 1.00 40.00 C +ATOM 5761 O ARG D 40 -39.567 -42.064 15.062 1.00 40.00 O +ATOM 5762 CB ARG D 40 -37.559 -43.935 14.754 1.00 40.00 C +ATOM 5763 CG ARG D 40 -36.222 -44.608 14.461 1.00 40.00 C +ATOM 5764 CD ARG D 40 -36.386 -45.810 13.539 1.00 40.00 C +ATOM 5765 NE ARG D 40 -36.719 -45.420 12.174 1.00 40.00 N +ATOM 5766 CZ ARG D 40 -35.824 -45.218 11.217 1.00 40.00 C +ATOM 5767 NH1 ARG D 40 -34.534 -45.372 11.474 1.00 40.00 N +ATOM 5768 NH2 ARG D 40 -36.224 -44.857 10.007 1.00 40.00 N +ATOM 5769 N ALA D 41 -38.879 -41.362 17.083 1.00 40.00 N +ATOM 5770 CA ALA D 41 -39.955 -40.405 17.250 1.00 40.00 C +ATOM 5771 C ALA D 41 -39.513 -39.287 18.186 1.00 40.00 C +ATOM 5772 O ALA D 41 -40.335 -38.544 18.737 1.00 40.00 O +ATOM 5773 CB ALA D 41 -41.221 -41.088 17.736 1.00 40.00 C +ATOM 5774 N GLY D 42 -38.198 -39.187 18.357 1.00 40.00 N +ATOM 5775 CA GLY D 42 -37.581 -38.012 18.949 1.00 40.00 C +ATOM 5776 C GLY D 42 -37.859 -37.764 20.413 1.00 40.00 C +ATOM 5777 O GLY D 42 -37.872 -36.624 20.873 1.00 40.00 O +ATOM 5778 N SER D 43 -38.087 -38.818 21.167 1.00 40.00 N +ATOM 5779 CA SER D 43 -38.162 -38.622 22.586 1.00 40.00 C +ATOM 5780 C SER D 43 -37.345 -39.697 23.266 1.00 40.00 C +ATOM 5781 O SER D 43 -37.779 -40.267 24.261 1.00 40.00 O +ATOM 5782 CB SER D 43 -39.611 -38.598 23.068 1.00 40.00 C +ATOM 5783 OG SER D 43 -40.169 -39.883 22.990 1.00 40.00 O +ATOM 5784 N CYS D 44 -36.165 -39.980 22.711 1.00 40.00 N +ATOM 5785 CA CYS D 44 -35.177 -40.867 23.360 1.00 40.00 C +ATOM 5786 C CYS D 44 -33.755 -40.327 23.180 1.00 40.00 C +ATOM 5787 O CYS D 44 -33.580 -39.162 22.805 1.00 40.00 O +ATOM 5788 CB CYS D 44 -35.297 -42.320 22.872 1.00 40.00 C +ATOM 5789 SG CYS D 44 -34.195 -42.765 21.510 1.00 40.00 S +ATOM 5790 N SER D 45 -32.752 -41.167 23.437 1.00 40.00 N +ATOM 5791 CA SER D 45 -31.367 -40.714 23.418 1.00 40.00 C +ATOM 5792 C SER D 45 -30.437 -41.428 22.434 1.00 40.00 C +ATOM 5793 O SER D 45 -29.278 -41.033 22.294 1.00 40.00 O +ATOM 5794 CB SER D 45 -30.783 -40.806 24.822 1.00 40.00 C +ATOM 5795 OG SER D 45 -30.887 -42.124 25.312 1.00 40.00 O +ATOM 5796 N SER D 46 -30.942 -42.449 21.745 1.00 40.00 N +ATOM 5797 CA SER D 46 -30.090 -43.369 20.973 1.00 40.00 C +ATOM 5798 C SER D 46 -29.371 -42.757 19.790 1.00 40.00 C +ATOM 5799 O SER D 46 -28.178 -43.002 19.594 1.00 40.00 O +ATOM 5800 CB SER D 46 -30.900 -44.561 20.496 1.00 40.00 C +ATOM 5801 OG SER D 46 -31.220 -45.408 21.586 1.00 40.00 O +ATOM 5802 N CYS D 47 -30.109 -41.964 19.015 1.00 40.00 N +ATOM 5803 CA CYS D 47 -29.601 -41.327 17.791 1.00 40.00 C +ATOM 5804 C CYS D 47 -28.733 -40.083 18.034 1.00 40.00 C +ATOM 5805 O CYS D 47 -28.312 -39.413 17.079 1.00 40.00 O +ATOM 5806 CB CYS D 47 -30.767 -40.990 16.867 1.00 40.00 C +ATOM 5807 SG CYS D 47 -32.074 -40.088 17.697 1.00 40.00 S +ATOM 5808 N ALA D 48 -28.455 -39.815 19.313 1.00 40.00 N +ATOM 5809 CA ALA D 48 -27.720 -38.639 19.769 1.00 40.00 C +ATOM 5810 C ALA D 48 -26.500 -38.306 18.946 1.00 40.00 C +ATOM 5811 O ALA D 48 -25.771 -39.174 18.461 1.00 40.00 O +ATOM 5812 CB ALA D 48 -27.329 -38.777 21.230 1.00 40.00 C +ATOM 5813 N GLY D 49 -26.302 -37.009 18.809 1.00 40.00 N +ATOM 5814 CA GLY D 49 -25.183 -36.465 18.081 1.00 40.00 C +ATOM 5815 C GLY D 49 -24.997 -35.007 18.441 1.00 40.00 C +ATOM 5816 O GLY D 49 -25.828 -34.415 19.150 1.00 40.00 O +ATOM 5817 N LYS D 50 -23.907 -34.426 17.940 1.00 40.00 N +ATOM 5818 CA LYS D 50 -23.546 -33.038 18.254 1.00 40.00 C +ATOM 5819 C LYS D 50 -23.358 -32.170 16.997 1.00 40.00 C +ATOM 5820 O LYS D 50 -22.594 -32.544 16.098 1.00 40.00 O +ATOM 5821 CB LYS D 50 -22.267 -32.997 19.117 1.00 40.00 C +ATOM 5822 CG LYS D 50 -22.432 -33.498 20.548 1.00 40.00 C +ATOM 5823 CD LYS D 50 -21.540 -32.723 21.501 1.00 40.00 C +ATOM 5824 CE LYS D 50 -22.085 -31.326 21.724 1.00 40.00 C +ATOM 5825 NZ LYS D 50 -21.109 -30.511 22.488 1.00 40.00 N +ATOM 5826 N VAL D 51 -24.048 -31.023 16.946 1.00 40.00 N +ATOM 5827 CA VAL D 51 -23.841 -30.035 15.880 1.00 40.00 C +ATOM 5828 C VAL D 51 -22.471 -29.386 16.034 1.00 40.00 C +ATOM 5829 O VAL D 51 -22.185 -28.787 17.072 1.00 40.00 O +ATOM 5830 CB VAL D 51 -24.925 -28.931 15.872 1.00 40.00 C +ATOM 5831 CG1 VAL D 51 -24.640 -27.886 14.792 1.00 40.00 C +ATOM 5832 CG2 VAL D 51 -26.294 -29.551 15.662 1.00 40.00 C +ATOM 5833 N VAL D 52 -21.629 -29.540 15.008 1.00 40.00 N +ATOM 5834 CA VAL D 52 -20.333 -28.845 14.904 1.00 40.00 C +ATOM 5835 C VAL D 52 -20.541 -27.494 14.175 1.00 40.00 C +ATOM 5836 O VAL D 52 -19.970 -26.463 14.566 1.00 40.00 O +ATOM 5837 CB VAL D 52 -19.254 -29.729 14.200 1.00 40.00 C +ATOM 5838 CG1 VAL D 52 -17.900 -29.028 14.118 1.00 40.00 C +ATOM 5839 CG2 VAL D 52 -19.104 -31.068 14.911 1.00 40.00 C +ATOM 5840 N SER D 53 -21.385 -27.506 13.141 1.00 40.00 N +ATOM 5841 CA SER D 53 -21.648 -26.329 12.328 1.00 40.00 C +ATOM 5842 C SER D 53 -22.962 -26.503 11.605 1.00 40.00 C +ATOM 5843 O SER D 53 -23.525 -27.593 11.585 1.00 40.00 O +ATOM 5844 CB SER D 53 -20.527 -26.129 11.305 1.00 40.00 C +ATOM 5845 OG SER D 53 -20.487 -27.198 10.377 1.00 40.00 O +ATOM 5846 N GLY D 54 -23.440 -25.426 10.998 1.00 40.00 N +ATOM 5847 CA GLY D 54 -24.700 -25.460 10.292 1.00 40.00 C +ATOM 5848 C GLY D 54 -25.864 -25.582 11.252 1.00 40.00 C +ATOM 5849 O GLY D 54 -25.683 -25.795 12.464 1.00 40.00 O +ATOM 5850 N SER D 55 -27.062 -25.452 10.686 1.00 40.00 N +ATOM 5851 CA SER D 55 -28.316 -25.423 11.447 1.00 40.00 C +ATOM 5852 C SER D 55 -29.263 -26.588 11.094 1.00 40.00 C +ATOM 5853 O SER D 55 -29.151 -27.193 10.010 1.00 40.00 O +ATOM 5854 CB SER D 55 -29.028 -24.051 11.295 1.00 40.00 C +ATOM 5855 OG SER D 55 -29.234 -23.669 9.940 1.00 40.00 O +ATOM 5856 N VAL D 56 -30.166 -26.908 12.032 1.00 40.00 N +ATOM 5857 CA VAL D 56 -31.234 -27.908 11.829 1.00 40.00 C +ATOM 5858 C VAL D 56 -32.609 -27.465 12.382 1.00 40.00 C +ATOM 5859 O VAL D 56 -32.698 -26.626 13.290 1.00 40.00 O +ATOM 5860 CB VAL D 56 -30.869 -29.333 12.369 1.00 40.00 C +ATOM 5861 CG1 VAL D 56 -29.465 -29.769 11.936 1.00 40.00 C +ATOM 5862 CG2 VAL D 56 -31.056 -29.445 13.883 1.00 40.00 C +ATOM 5863 N ASP D 57 -33.670 -28.033 11.803 1.00 40.00 N +ATOM 5864 CA ASP D 57 -35.052 -27.858 12.277 1.00 40.00 C +ATOM 5865 C ASP D 57 -35.521 -29.145 12.975 1.00 40.00 C +ATOM 5866 O ASP D 57 -36.141 -30.035 12.361 1.00 40.00 O +ATOM 5867 CB ASP D 57 -35.992 -27.454 11.114 1.00 40.00 C +ATOM 5868 CG ASP D 57 -37.479 -27.453 11.506 1.00 40.00 C +ATOM 5869 OD1 ASP D 57 -38.320 -27.548 10.583 1.00 40.00 O +ATOM 5870 OD2 ASP D 57 -37.808 -27.364 12.717 1.00 40.00 O +ATOM 5871 N GLN D 58 -35.202 -29.240 14.260 1.00 40.00 N +ATOM 5872 CA GLN D 58 -35.620 -30.385 15.044 1.00 40.00 C +ATOM 5873 C GLN D 58 -36.814 -30.027 15.923 1.00 40.00 C +ATOM 5874 O GLN D 58 -36.955 -30.550 17.029 1.00 40.00 O +ATOM 5875 CB GLN D 58 -34.453 -30.956 15.860 1.00 40.00 C +ATOM 5876 CG GLN D 58 -33.647 -29.910 16.614 1.00 40.00 C +ATOM 5877 CD GLN D 58 -32.558 -30.520 17.471 1.00 40.00 C +ATOM 5878 OE1 GLN D 58 -31.707 -29.803 18.004 1.00 40.00 O +ATOM 5879 NE2 GLN D 58 -32.580 -31.848 17.616 1.00 40.00 N +ATOM 5880 N SER D 59 -37.665 -29.124 15.432 1.00 40.00 N +ATOM 5881 CA SER D 59 -38.962 -28.897 16.065 1.00 40.00 C +ATOM 5882 C SER D 59 -39.769 -30.177 15.880 1.00 40.00 C +ATOM 5883 O SER D 59 -39.781 -30.767 14.782 1.00 40.00 O +ATOM 5884 CB SER D 59 -39.693 -27.666 15.500 1.00 40.00 C +ATOM 5885 OG SER D 59 -40.198 -27.888 14.194 1.00 40.00 O +ATOM 5886 N ASP D 60 -40.389 -30.619 16.975 1.00 40.00 N +ATOM 5887 CA ASP D 60 -41.091 -31.908 17.041 1.00 40.00 C +ATOM 5888 C ASP D 60 -40.261 -33.064 17.661 1.00 40.00 C +ATOM 5889 O ASP D 60 -40.617 -34.245 17.554 1.00 40.00 O +ATOM 5890 CB ASP D 60 -41.649 -32.305 15.665 1.00 40.00 C +ATOM 5891 CG ASP D 60 -42.980 -33.028 15.762 1.00 40.00 C +ATOM 5892 OD1 ASP D 60 -43.526 -33.167 16.889 1.00 40.00 O +ATOM 5893 OD2 ASP D 60 -43.486 -33.455 14.702 1.00 40.00 O +ATOM 5894 N GLN D 61 -39.144 -32.722 18.290 1.00 40.00 N +ATOM 5895 CA GLN D 61 -38.545 -33.624 19.249 1.00 40.00 C +ATOM 5896 C GLN D 61 -39.126 -33.216 20.599 1.00 40.00 C +ATOM 5897 O GLN D 61 -39.817 -32.192 20.710 1.00 40.00 O +ATOM 5898 CB GLN D 61 -37.003 -33.578 19.218 1.00 40.00 C +ATOM 5899 CG GLN D 61 -36.345 -32.313 19.774 1.00 40.00 C +ATOM 5900 CD GLN D 61 -36.164 -32.307 21.293 1.00 40.00 C +ATOM 5901 OE1 GLN D 61 -35.932 -33.350 21.914 1.00 40.00 O +ATOM 5902 NE2 GLN D 61 -36.259 -31.119 21.896 1.00 40.00 N +ATOM 5903 N SER D 62 -38.867 -34.023 21.617 1.00 40.00 N +ATOM 5904 CA SER D 62 -39.357 -33.714 22.942 1.00 40.00 C +ATOM 5905 C SER D 62 -38.394 -34.127 24.055 1.00 40.00 C +ATOM 5906 O SER D 62 -38.605 -33.740 25.201 1.00 40.00 O +ATOM 5907 CB SER D 62 -40.764 -34.299 23.157 1.00 40.00 C +ATOM 5908 OG SER D 62 -40.920 -35.545 22.494 1.00 40.00 O +ATOM 5909 N TYR D 63 -37.332 -34.871 23.728 1.00 40.00 N +ATOM 5910 CA TYR D 63 -36.413 -35.418 24.752 1.00 40.00 C +ATOM 5911 C TYR D 63 -35.429 -34.428 25.416 1.00 40.00 C +ATOM 5912 O TYR D 63 -35.204 -34.476 26.635 1.00 40.00 O +ATOM 5913 CB TYR D 63 -35.634 -36.604 24.182 1.00 40.00 C +ATOM 5914 CG TYR D 63 -34.821 -37.348 25.219 1.00 40.00 C +ATOM 5915 CD1 TYR D 63 -33.538 -36.924 25.566 1.00 40.00 C +ATOM 5916 CD2 TYR D 63 -35.335 -38.478 25.860 1.00 40.00 C +ATOM 5917 CE1 TYR D 63 -32.793 -37.607 26.522 1.00 40.00 C +ATOM 5918 CE2 TYR D 63 -34.595 -39.176 26.806 1.00 40.00 C +ATOM 5919 CZ TYR D 63 -33.329 -38.739 27.135 1.00 40.00 C +ATOM 5920 OH TYR D 63 -32.610 -39.433 28.077 1.00 40.00 O +ATOM 5921 N LEU D 64 -34.828 -33.557 24.610 1.00 40.00 N +ATOM 5922 CA LEU D 64 -33.866 -32.571 25.106 1.00 40.00 C +ATOM 5923 C LEU D 64 -34.530 -31.326 25.703 1.00 40.00 C +ATOM 5924 O LEU D 64 -35.555 -30.849 25.199 1.00 40.00 O +ATOM 5925 CB LEU D 64 -32.945 -32.125 23.970 1.00 40.00 C +ATOM 5926 CG LEU D 64 -32.161 -33.161 23.166 1.00 40.00 C +ATOM 5927 CD1 LEU D 64 -31.595 -32.503 21.912 1.00 40.00 C +ATOM 5928 CD2 LEU D 64 -31.058 -33.779 24.015 1.00 40.00 C +ATOM 5929 N ASP D 65 -33.937 -30.793 26.769 1.00 40.00 N +ATOM 5930 CA ASP D 65 -34.296 -29.460 27.256 1.00 40.00 C +ATOM 5931 C ASP D 65 -33.571 -28.421 26.402 1.00 40.00 C +ATOM 5932 O ASP D 65 -32.741 -28.783 25.560 1.00 40.00 O +ATOM 5933 CB ASP D 65 -33.950 -29.300 28.744 1.00 40.00 C +ATOM 5934 CG ASP D 65 -32.466 -29.573 29.058 1.00 40.00 C +ATOM 5935 OD1 ASP D 65 -31.571 -28.997 28.395 1.00 40.00 O +ATOM 5936 OD2 ASP D 65 -32.193 -30.347 30.002 1.00 40.00 O +ATOM 5937 N ASP D 66 -33.861 -27.140 26.624 1.00 40.00 N +ATOM 5938 CA ASP D 66 -33.265 -26.064 25.807 1.00 40.00 C +ATOM 5939 C ASP D 66 -31.749 -25.888 25.905 1.00 40.00 C +ATOM 5940 O ASP D 66 -31.121 -25.478 24.926 1.00 40.00 O +ATOM 5941 CB ASP D 66 -33.946 -24.730 26.086 1.00 40.00 C +ATOM 5942 CG ASP D 66 -35.289 -24.624 25.417 1.00 40.00 C +ATOM 5943 OD1 ASP D 66 -35.404 -25.086 24.253 1.00 40.00 O +ATOM 5944 OD2 ASP D 66 -36.222 -24.073 26.052 1.00 40.00 O +ATOM 5945 N GLY D 67 -31.188 -26.176 27.084 1.00 40.00 N +ATOM 5946 CA GLY D 67 -29.741 -26.069 27.352 1.00 40.00 C +ATOM 5947 C GLY D 67 -28.899 -27.117 26.645 1.00 40.00 C +ATOM 5948 O GLY D 67 -27.695 -26.922 26.427 1.00 40.00 O +ATOM 5949 N GLN D 68 -29.545 -28.236 26.309 1.00 40.00 N +ATOM 5950 CA GLN D 68 -28.970 -29.281 25.460 1.00 40.00 C +ATOM 5951 C GLN D 68 -29.053 -28.885 23.964 1.00 40.00 C +ATOM 5952 O GLN D 68 -28.115 -29.145 23.201 1.00 40.00 O +ATOM 5953 CB GLN D 68 -29.632 -30.645 25.756 1.00 40.00 C +ATOM 5954 CG GLN D 68 -29.261 -31.232 27.128 1.00 40.00 C +ATOM 5955 CD GLN D 68 -30.143 -32.398 27.609 1.00 40.00 C +ATOM 5956 OE1 GLN D 68 -31.377 -32.386 27.468 1.00 40.00 O +ATOM 5957 NE2 GLN D 68 -29.503 -33.401 28.216 1.00 40.00 N +ATOM 5958 N ILE D 69 -30.163 -28.246 23.566 1.00 40.00 N +ATOM 5959 CA ILE D 69 -30.319 -27.606 22.231 1.00 40.00 C +ATOM 5960 C ILE D 69 -29.362 -26.417 22.078 1.00 40.00 C +ATOM 5961 O ILE D 69 -28.738 -26.220 21.017 1.00 40.00 O +ATOM 5962 CB ILE D 69 -31.770 -27.096 22.000 1.00 40.00 C +ATOM 5963 CG1 ILE D 69 -32.725 -28.280 21.796 1.00 40.00 C +ATOM 5964 CG2 ILE D 69 -31.849 -26.107 20.826 1.00 40.00 C +ATOM 5965 CD1 ILE D 69 -34.171 -27.979 22.148 1.00 40.00 C +ATOM 5966 N CYS D 70 -29.283 -25.623 23.148 1.00 40.00 N +ATOM 5967 CA CYS D 70 -28.295 -24.564 23.286 1.00 40.00 C +ATOM 5968 C CYS D 70 -26.883 -25.112 23.172 1.00 40.00 C +ATOM 5969 O CYS D 70 -25.992 -24.451 22.632 1.00 40.00 O +ATOM 5970 CB CYS D 70 -28.456 -23.862 24.636 1.00 20.00 C +ATOM 5971 SG CYS D 70 -28.825 -22.076 24.577 1.00 20.00 S +ATOM 5972 N ASP D 71 -26.691 -26.325 23.679 1.00 40.00 N +ATOM 5973 CA ASP D 71 -25.388 -26.972 23.630 1.00 40.00 C +ATOM 5974 C ASP D 71 -25.141 -27.729 22.312 1.00 40.00 C +ATOM 5975 O ASP D 71 -24.165 -28.479 22.196 1.00 40.00 O +ATOM 5976 CB ASP D 71 -25.195 -27.887 24.850 1.00 40.00 C +ATOM 5977 CG ASP D 71 -23.798 -27.766 25.468 1.00 40.00 C +ATOM 5978 OD1 ASP D 71 -23.116 -26.726 25.251 1.00 40.00 O +ATOM 5979 OD2 ASP D 71 -23.386 -28.710 26.183 1.00 40.00 O +ATOM 5980 N GLY D 72 -26.016 -27.523 21.325 1.00 40.00 N +ATOM 5981 CA GLY D 72 -25.837 -28.095 19.981 1.00 40.00 C +ATOM 5982 C GLY D 72 -26.086 -29.593 19.873 1.00 40.00 C +ATOM 5983 O GLY D 72 -25.733 -30.221 18.863 1.00 40.00 O +ATOM 5984 N TRP D 73 -26.684 -30.165 20.920 1.00 40.00 N +ATOM 5985 CA TRP D 73 -27.124 -31.549 20.901 1.00 40.00 C +ATOM 5986 C TRP D 73 -28.241 -31.708 19.918 1.00 40.00 C +ATOM 5987 O TRP D 73 -29.040 -30.787 19.720 1.00 40.00 O +ATOM 5988 CB TRP D 73 -27.605 -31.969 22.279 1.00 40.00 C +ATOM 5989 CG TRP D 73 -26.497 -32.374 23.215 1.00 40.00 C +ATOM 5990 CD1 TRP D 73 -26.015 -31.669 24.312 1.00 40.00 C +ATOM 5991 CD2 TRP D 73 -25.691 -33.611 23.169 1.00 40.00 C +ATOM 5992 NE1 TRP D 73 -24.999 -32.361 24.930 1.00 40.00 N +ATOM 5993 CE2 TRP D 73 -24.752 -33.529 24.299 1.00 40.00 C +ATOM 5994 CE3 TRP D 73 -25.656 -34.737 22.338 1.00 40.00 C +ATOM 5995 CZ2 TRP D 73 -23.827 -34.533 24.564 1.00 40.00 C +ATOM 5996 CZ3 TRP D 73 -24.719 -35.743 22.617 1.00 40.00 C +ATOM 5997 CH2 TRP D 73 -23.825 -35.638 23.701 1.00 40.00 C +ATOM 5998 N VAL D 74 -28.316 -32.882 19.298 1.00 40.00 N +ATOM 5999 CA VAL D 74 -29.358 -33.146 18.310 1.00 40.00 C +ATOM 6000 C VAL D 74 -29.842 -34.607 18.281 1.00 40.00 C +ATOM 6001 O VAL D 74 -29.062 -35.560 18.462 1.00 40.00 O +ATOM 6002 CB VAL D 74 -28.927 -32.656 16.902 1.00 40.00 C +ATOM 6003 CG1 VAL D 74 -27.600 -33.284 16.482 1.00 40.00 C +ATOM 6004 CG2 VAL D 74 -30.024 -32.895 15.868 1.00 40.00 C +ATOM 6005 N LEU D 75 -31.149 -34.753 18.069 1.00 40.00 N +ATOM 6006 CA LEU D 75 -31.757 -36.046 17.785 1.00 40.00 C +ATOM 6007 C LEU D 75 -31.869 -36.253 16.280 1.00 40.00 C +ATOM 6008 O LEU D 75 -32.652 -35.582 15.583 1.00 40.00 O +ATOM 6009 CB LEU D 75 -33.117 -36.191 18.482 1.00 40.00 C +ATOM 6010 CG LEU D 75 -33.048 -36.415 20.006 1.00 40.00 C +ATOM 6011 CD1 LEU D 75 -34.420 -36.748 20.597 1.00 40.00 C +ATOM 6012 CD2 LEU D 75 -32.004 -37.471 20.389 1.00 40.00 C +ATOM 6013 N THR D 76 -31.053 -37.183 15.796 1.00 40.00 N +ATOM 6014 CA THR D 76 -30.929 -37.444 14.380 1.00 40.00 C +ATOM 6015 C THR D 76 -32.257 -37.913 13.760 1.00 40.00 C +ATOM 6016 O THR D 76 -32.620 -37.466 12.668 1.00 40.00 O +ATOM 6017 CB THR D 76 -29.737 -38.387 14.082 1.00 40.00 C +ATOM 6018 OG1 THR D 76 -29.666 -39.422 15.066 1.00 40.00 O +ATOM 6019 CG2 THR D 76 -28.442 -37.621 14.146 1.00 40.00 C +ATOM 6020 N CYS D 77 -32.995 -38.771 14.476 1.00 40.00 N +ATOM 6021 CA CYS D 77 -34.259 -39.349 13.972 1.00 40.00 C +ATOM 6022 C CYS D 77 -35.354 -38.308 13.738 1.00 40.00 C +ATOM 6023 O CYS D 77 -36.359 -38.581 13.088 1.00 40.00 O +ATOM 6024 CB CYS D 77 -34.778 -40.446 14.911 1.00 40.00 C +ATOM 6025 SG CYS D 77 -35.879 -39.875 16.241 1.00 40.00 S +ATOM 6026 N HIS D 78 -35.151 -37.115 14.277 1.00 40.00 N +ATOM 6027 CA HIS D 78 -36.119 -36.040 14.136 1.00 40.00 C +ATOM 6028 C HIS D 78 -35.502 -34.696 13.825 1.00 40.00 C +ATOM 6029 O HIS D 78 -36.019 -33.643 14.206 1.00 40.00 O +ATOM 6030 CB HIS D 78 -37.010 -35.974 15.372 1.00 40.00 C +ATOM 6031 CG HIS D 78 -38.357 -36.621 15.186 1.00 40.00 C +ATOM 6032 ND1 HIS D 78 -38.500 -37.901 14.800 1.00 40.00 N +ATOM 6033 CD2 HIS D 78 -39.644 -36.113 15.363 1.00 40.00 C +ATOM 6034 CE1 HIS D 78 -39.812 -38.197 14.724 1.00 40.00 C +ATOM 6035 NE2 HIS D 78 -40.510 -37.102 15.075 1.00 40.00 N +ATOM 6036 N ALA D 79 -34.394 -34.715 13.104 1.00 40.00 N +ATOM 6037 CA ALA D 79 -33.794 -33.484 12.668 1.00 40.00 C +ATOM 6038 C ALA D 79 -33.811 -33.391 11.145 1.00 40.00 C +ATOM 6039 O ALA D 79 -33.263 -34.257 10.464 1.00 40.00 O +ATOM 6040 CB ALA D 79 -32.382 -33.390 13.201 1.00 40.00 C +ATOM 6041 N TYR D 80 -34.483 -32.365 10.619 1.00 40.00 N +ATOM 6042 CA TYR D 80 -34.336 -31.948 9.209 1.00 40.00 C +ATOM 6043 C TYR D 80 -33.210 -30.908 9.112 1.00 40.00 C +ATOM 6044 O TYR D 80 -32.987 -30.171 10.080 1.00 40.00 O +ATOM 6045 CB TYR D 80 -35.583 -31.218 8.703 1.00 40.00 C +ATOM 6046 CG TYR D 80 -36.879 -31.961 8.766 1.00 40.00 C +ATOM 6047 CD1 TYR D 80 -37.866 -31.584 9.677 1.00 40.00 C +ATOM 6048 CD2 TYR D 80 -37.143 -33.014 7.889 1.00 40.00 C +ATOM 6049 CE1 TYR D 80 -39.076 -32.250 9.728 1.00 40.00 C +ATOM 6050 CE2 TYR D 80 -38.347 -33.690 7.931 1.00 40.00 C +ATOM 6051 CZ TYR D 80 -39.310 -33.302 8.848 1.00 40.00 C +ATOM 6052 OH TYR D 80 -40.506 -33.972 8.886 1.00 40.00 O +ATOM 6053 N PRO D 81 -32.518 -30.809 7.947 1.00 40.00 N +ATOM 6054 CA PRO D 81 -31.587 -29.669 7.822 1.00 40.00 C +ATOM 6055 C PRO D 81 -32.241 -28.359 7.300 1.00 40.00 C +ATOM 6056 O PRO D 81 -33.255 -28.391 6.575 1.00 40.00 O +ATOM 6057 CB PRO D 81 -30.502 -30.199 6.867 1.00 40.00 C +ATOM 6058 CG PRO D 81 -31.194 -31.243 6.042 1.00 40.00 C +ATOM 6059 CD PRO D 81 -32.370 -31.774 6.834 1.00 40.00 C +ATOM 6060 N THR D 82 -31.672 -27.225 7.722 1.00 40.00 N +ATOM 6061 CA THR D 82 -31.993 -25.896 7.157 1.00 40.00 C +ATOM 6062 C THR D 82 -30.724 -25.242 6.552 1.00 40.00 C +ATOM 6063 O THR D 82 -30.770 -24.106 6.043 1.00 40.00 O +ATOM 6064 CB THR D 82 -32.723 -24.944 8.163 1.00 40.00 C +ATOM 6065 OG1 THR D 82 -31.946 -24.766 9.360 1.00 40.00 O +ATOM 6066 CG2 THR D 82 -34.118 -25.476 8.521 1.00 40.00 C +ATOM 6067 N SER D 83 -29.609 -25.980 6.612 1.00 40.00 N +ATOM 6068 CA SER D 83 -28.335 -25.577 6.021 1.00 40.00 C +ATOM 6069 C SER D 83 -27.401 -26.779 5.856 1.00 40.00 C +ATOM 6070 O SER D 83 -27.669 -27.881 6.357 1.00 40.00 O +ATOM 6071 CB SER D 83 -27.651 -24.493 6.870 1.00 40.00 C +ATOM 6072 OG SER D 83 -26.960 -25.049 7.981 1.00 40.00 O +ATOM 6073 N ASP D 84 -26.310 -26.548 5.130 1.00 40.00 N +ATOM 6074 CA ASP D 84 -25.166 -27.452 5.123 1.00 40.00 C +ATOM 6075 C ASP D 84 -24.722 -27.634 6.571 1.00 40.00 C +ATOM 6076 O ASP D 84 -24.533 -26.647 7.311 1.00 40.00 O +ATOM 6077 CB ASP D 84 -24.010 -26.871 4.285 1.00 40.00 C +ATOM 6078 CG ASP D 84 -24.183 -27.094 2.775 1.00 40.00 C +ATOM 6079 OD1 ASP D 84 -23.145 -27.097 2.067 1.00 40.00 O +ATOM 6080 OD2 ASP D 84 -25.334 -27.267 2.293 1.00 40.00 O +ATOM 6081 N VAL D 85 -24.568 -28.887 6.985 1.00 40.00 N +ATOM 6082 CA VAL D 85 -24.343 -29.167 8.403 1.00 40.00 C +ATOM 6083 C VAL D 85 -23.353 -30.320 8.639 1.00 40.00 C +ATOM 6084 O VAL D 85 -23.401 -31.343 7.954 1.00 40.00 O +ATOM 6085 CB VAL D 85 -25.705 -29.308 9.161 1.00 40.00 C +ATOM 6086 CG1 VAL D 85 -26.622 -30.317 8.476 1.00 40.00 C +ATOM 6087 CG2 VAL D 85 -25.523 -29.612 10.647 1.00 40.00 C +ATOM 6088 N VAL D 86 -22.435 -30.115 9.586 1.00 40.00 N +ATOM 6089 CA VAL D 86 -21.465 -31.137 10.013 1.00 40.00 C +ATOM 6090 C VAL D 86 -21.920 -31.704 11.365 1.00 40.00 C +ATOM 6091 O VAL D 86 -22.281 -30.930 12.265 1.00 40.00 O +ATOM 6092 CB VAL D 86 -20.028 -30.556 10.137 1.00 40.00 C +ATOM 6093 CG1 VAL D 86 -19.015 -31.653 10.452 1.00 40.00 C +ATOM 6094 CG2 VAL D 86 -19.623 -29.815 8.866 1.00 40.00 C +ATOM 6095 N ILE D 87 -21.912 -33.039 11.500 1.00 40.00 N +ATOM 6096 CA ILE D 87 -22.411 -33.727 12.724 1.00 40.00 C +ATOM 6097 C ILE D 87 -21.623 -34.986 13.178 1.00 40.00 C +ATOM 6098 O ILE D 87 -21.318 -35.879 12.378 1.00 40.00 O +ATOM 6099 CB ILE D 87 -23.937 -34.049 12.631 1.00 40.00 C +ATOM 6100 CG1 ILE D 87 -24.780 -32.762 12.702 1.00 40.00 C +ATOM 6101 CG2 ILE D 87 -24.367 -35.022 13.728 1.00 40.00 C +ATOM 6102 CD1 ILE D 87 -26.237 -32.932 12.330 1.00 40.00 C +ATOM 6103 N GLU D 88 -21.312 -35.038 14.475 1.00 40.00 N +ATOM 6104 CA GLU D 88 -20.799 -36.244 15.114 1.00 40.00 C +ATOM 6105 C GLU D 88 -21.977 -37.122 15.507 1.00 40.00 C +ATOM 6106 O GLU D 88 -22.962 -36.628 16.057 1.00 40.00 O +ATOM 6107 CB GLU D 88 -20.024 -35.901 16.387 1.00 40.00 C +ATOM 6108 CG GLU D 88 -18.735 -35.118 16.194 1.00 40.00 C +ATOM 6109 CD GLU D 88 -18.331 -34.355 17.454 1.00 40.00 C +ATOM 6110 OE1 GLU D 88 -19.242 -33.868 18.179 1.00 40.00 O +ATOM 6111 OE2 GLU D 88 -17.103 -34.232 17.716 1.00 40.00 O +ATOM 6112 N THR D 89 -21.865 -38.422 15.240 1.00 40.00 N +ATOM 6113 CA THR D 89 -22.887 -39.386 15.645 1.00 40.00 C +ATOM 6114 C THR D 89 -22.320 -40.284 16.739 1.00 40.00 C +ATOM 6115 O THR D 89 -21.147 -40.146 17.112 1.00 40.00 O +ATOM 6116 CB THR D 89 -23.369 -40.223 14.445 1.00 40.00 C +ATOM 6117 OG1 THR D 89 -22.307 -41.068 13.987 1.00 40.00 O +ATOM 6118 CG2 THR D 89 -23.793 -39.311 13.302 1.00 40.00 C +ATOM 6119 N HIS D 90 -23.151 -41.195 17.248 1.00 40.00 N +ATOM 6120 CA HIS D 90 -22.769 -42.158 18.316 1.00 40.00 C +ATOM 6121 C HIS D 90 -22.379 -41.453 19.593 1.00 40.00 C +ATOM 6122 O HIS D 90 -21.413 -41.830 20.270 1.00 40.00 O +ATOM 6123 CB HIS D 90 -21.673 -43.132 17.854 1.00 40.00 C +ATOM 6124 CG HIS D 90 -22.035 -43.941 16.611 1.00 40.00 C +ATOM 6125 ND1 HIS D 90 -22.296 -43.369 15.408 1.00 40.00 N +ATOM 6126 CD2 HIS D 90 -22.135 -45.323 16.413 1.00 40.00 C +ATOM 6127 CE1 HIS D 90 -22.566 -44.331 14.498 1.00 40.00 C +ATOM 6128 NE2 HIS D 90 -22.471 -45.525 15.113 1.00 40.00 N +ATOM 6129 N LYS D 91 -23.158 -40.422 19.921 1.00 40.00 N +ATOM 6130 CA LYS D 91 -22.851 -39.507 21.003 1.00 40.00 C +ATOM 6131 C LYS D 91 -23.766 -39.686 22.179 1.00 40.00 C +ATOM 6132 O LYS D 91 -23.773 -38.847 23.072 1.00 40.00 O +ATOM 6133 CB LYS D 91 -22.972 -38.060 20.525 1.00 40.00 C +ATOM 6134 CG LYS D 91 -21.911 -37.618 19.526 1.00 40.00 C +ATOM 6135 CD LYS D 91 -20.540 -37.368 20.153 1.00 40.00 C +ATOM 6136 CE LYS D 91 -19.681 -38.628 20.211 1.00 40.00 C +ATOM 6137 NZ LYS D 91 -18.239 -38.312 20.375 1.00 40.00 N +ATOM 6138 N GLU D 92 -24.546 -40.764 22.183 1.00 40.00 N +ATOM 6139 CA GLU D 92 -25.457 -41.026 23.302 1.00 40.00 C +ATOM 6140 C GLU D 92 -24.704 -41.129 24.625 1.00 40.00 C +ATOM 6141 O GLU D 92 -25.058 -40.437 25.582 1.00 40.00 O +ATOM 6142 CB GLU D 92 -26.325 -42.282 23.098 1.00 40.00 C +ATOM 6143 CG GLU D 92 -27.296 -42.532 24.263 1.00 40.00 C +ATOM 6144 CD GLU D 92 -28.113 -43.813 24.151 1.00 40.00 C +ATOM 6145 OE1 GLU D 92 -27.791 -44.678 23.316 1.00 40.00 O +ATOM 6146 OE2 GLU D 92 -29.088 -43.962 24.913 1.00 40.00 O +ATOM 6147 N GLU D 93 -23.675 -41.981 24.678 1.00 40.00 N +ATOM 6148 CA GLU D 93 -22.884 -42.156 25.900 1.00 40.00 C +ATOM 6149 C GLU D 93 -22.327 -40.841 26.453 1.00 40.00 C +ATOM 6150 O GLU D 93 -22.286 -40.663 27.678 1.00 40.00 O +ATOM 6151 CB GLU D 93 -21.744 -43.137 25.680 1.00 40.00 C +ATOM 6152 CG GLU D 93 -20.791 -43.176 26.861 1.00 40.00 C +ATOM 6153 CD GLU D 93 -19.779 -44.291 26.761 1.00 40.00 C +ATOM 6154 OE1 GLU D 93 -18.896 -44.231 25.877 1.00 40.00 O +ATOM 6155 OE2 GLU D 93 -19.864 -45.229 27.579 1.00 40.00 O +ATOM 6156 N GLU D 94 -21.895 -39.945 25.552 1.00 40.00 N +ATOM 6157 CA GLU D 94 -21.473 -38.586 25.921 1.00 40.00 C +ATOM 6158 C GLU D 94 -22.605 -37.756 26.554 1.00 40.00 C +ATOM 6159 O GLU D 94 -22.384 -37.029 27.520 1.00 40.00 O +ATOM 6160 CB GLU D 94 -20.859 -37.836 24.732 1.00 40.00 C +ATOM 6161 CG GLU D 94 -20.342 -36.446 25.119 1.00 40.00 C +ATOM 6162 CD GLU D 94 -19.657 -35.669 23.990 1.00 40.00 C +ATOM 6163 OE1 GLU D 94 -18.988 -36.296 23.129 1.00 40.00 O +ATOM 6164 OE2 GLU D 94 -19.768 -34.413 23.983 1.00 40.00 O +ATOM 6165 N LEU D 95 -23.809 -37.863 26.007 1.00 40.00 N +ATOM 6166 CA LEU D 95 -24.982 -37.267 26.632 1.00 40.00 C +ATOM 6167 C LEU D 95 -25.286 -37.974 27.963 1.00 40.00 C +ATOM 6168 O LEU D 95 -25.458 -37.327 28.996 1.00 40.00 O +ATOM 6169 CB LEU D 95 -26.168 -37.352 25.675 1.00 40.00 C +ATOM 6170 CG LEU D 95 -27.462 -36.667 26.097 1.00 40.00 C +ATOM 6171 CD1 LEU D 95 -27.250 -35.173 26.345 1.00 40.00 C +ATOM 6172 CD2 LEU D 95 -28.515 -36.912 25.029 1.00 40.00 C +ATOM 6173 N THR D 96 -25.356 -39.303 27.904 1.00 40.00 N +ATOM 6174 CA THR D 96 -25.330 -40.186 29.068 1.00 40.00 C +ATOM 6175 C THR D 96 -24.003 -40.044 29.811 1.00 40.00 C +ATOM 6176 O THR D 96 -23.949 -40.140 31.036 1.00 40.00 O +ATOM 6177 CB THR D 96 -25.549 -41.653 28.624 1.00 40.00 C +ATOM 6178 OG1 THR D 96 -26.934 -41.981 28.772 1.00 40.00 O +ATOM 6179 CG2 THR D 96 -24.705 -42.650 29.425 1.00 40.00 C +TER 6180 THR D 96 +HETATM 6181 PA FAD A 401 -23.428 17.103 27.091 1.00 40.00 P +HETATM 6182 O1A FAD A 401 -24.306 18.270 26.716 1.00 40.00 O +HETATM 6183 O2A FAD A 401 -23.559 15.832 26.282 1.00 40.00 O +HETATM 6184 O5B FAD A 401 -21.890 17.553 27.179 1.00 40.00 O +HETATM 6185 C5B FAD A 401 -20.853 16.590 27.038 1.00 40.00 C +HETATM 6186 C4B FAD A 401 -19.842 17.121 26.035 1.00 40.00 C +HETATM 6187 O4B FAD A 401 -18.794 17.804 26.729 1.00 40.00 O +HETATM 6188 C3B FAD A 401 -19.217 15.972 25.272 1.00 40.00 C +HETATM 6189 O3B FAD A 401 -19.255 16.278 23.875 1.00 40.00 O +HETATM 6190 C2B FAD A 401 -17.792 15.873 25.793 1.00 40.00 C +HETATM 6191 O2B FAD A 401 -16.826 15.915 24.736 1.00 40.00 O +HETATM 6192 C1B FAD A 401 -17.592 17.045 26.742 1.00 40.00 C +HETATM 6193 N9A FAD A 401 -17.401 16.497 28.097 1.00 40.00 N +HETATM 6194 C8A FAD A 401 -18.201 15.571 28.651 1.00 40.00 C +HETATM 6195 N7A FAD A 401 -17.783 15.244 29.896 1.00 40.00 N +HETATM 6196 C5A FAD A 401 -16.679 15.970 30.175 1.00 40.00 C +HETATM 6197 C6A FAD A 401 -15.733 16.101 31.336 1.00 40.00 C +HETATM 6198 N6A FAD A 401 -15.890 15.366 32.480 1.00 40.00 N +HETATM 6199 N1A FAD A 401 -14.702 16.986 31.205 1.00 40.00 N +HETATM 6200 C2A FAD A 401 -14.533 17.709 30.076 1.00 40.00 C +HETATM 6201 N3A FAD A 401 -15.352 17.635 28.998 1.00 40.00 N +HETATM 6202 C4A FAD A 401 -16.431 16.801 28.973 1.00 40.00 C +HETATM 6203 N1 FAD A 401 -25.090 9.523 32.642 1.00 40.00 N +HETATM 6204 C2 FAD A 401 -25.557 9.541 33.915 1.00 40.00 C +HETATM 6205 O2 FAD A 401 -25.483 10.627 34.537 1.00 40.00 O +HETATM 6206 N3 FAD A 401 -26.098 8.445 34.510 1.00 40.00 N +HETATM 6207 C4 FAD A 401 -26.237 7.253 33.884 1.00 40.00 C +HETATM 6208 O4 FAD A 401 -26.778 6.234 34.424 1.00 40.00 O +HETATM 6209 C4X FAD A 401 -25.739 7.161 32.489 1.00 40.00 C +HETATM 6210 N5 FAD A 401 -25.863 6.001 31.802 1.00 40.00 N +HETATM 6211 C5X FAD A 401 -25.398 5.956 30.524 1.00 40.00 C +HETATM 6212 C6 FAD A 401 -25.490 4.755 29.818 1.00 40.00 C +HETATM 6213 C7 FAD A 401 -25.017 4.678 28.501 1.00 40.00 C +HETATM 6214 C7M FAD A 401 -25.148 3.362 27.765 1.00 40.00 C +HETATM 6215 C8 FAD A 401 -24.383 5.906 27.849 1.00 40.00 C +HETATM 6216 C8M FAD A 401 -23.851 5.897 26.433 1.00 40.00 C +HETATM 6217 C9 FAD A 401 -24.283 7.099 28.560 1.00 40.00 C +HETATM 6218 C9A FAD A 401 -24.746 7.161 29.867 1.00 40.00 C +HETATM 6219 N10 FAD A 401 -24.654 8.366 30.570 1.00 40.00 N +HETATM 6220 C10 FAD A 401 -25.146 8.399 31.889 1.00 40.00 C +HETATM 6221 C1' FAD A 401 -24.095 9.555 29.919 1.00 40.00 C +HETATM 6222 C2' FAD A 401 -25.245 10.459 29.459 1.00 40.00 C +HETATM 6223 O2' FAD A 401 -25.841 9.937 28.246 1.00 40.00 O +HETATM 6224 C3' FAD A 401 -24.785 11.898 29.225 1.00 40.00 C +HETATM 6225 O3' FAD A 401 -23.775 11.857 28.206 1.00 40.00 O +HETATM 6226 C4' FAD A 401 -24.249 12.610 30.477 1.00 40.00 C +HETATM 6227 O4' FAD A 401 -25.197 12.552 31.543 1.00 40.00 O +HETATM 6228 C5' FAD A 401 -23.945 14.082 30.202 1.00 40.00 C +HETATM 6229 O5' FAD A 401 -24.838 14.583 29.203 1.00 40.00 O +HETATM 6230 P FAD A 401 -25.140 16.152 28.992 1.00 40.00 P +HETATM 6231 O1P FAD A 401 -26.059 16.273 27.791 1.00 40.00 O +HETATM 6232 O2P FAD A 401 -25.528 16.748 30.312 1.00 40.00 O +HETATM 6233 O3P FAD A 401 -23.701 16.741 28.620 1.00 40.00 O +HETATM 6234 FE1 FES B 101 -51.609 1.622 98.269 1.00 40.00 FE +HETATM 6235 FE2 FES B 101 -52.880 2.980 100.726 1.00 40.00 FE +HETATM 6236 S1 FES B 101 -53.432 2.833 98.586 1.00 40.00 S +HETATM 6237 S2 FES B 101 -51.017 1.806 100.389 1.00 40.00 S +HETATM 6238 PA FAD C 401 -71.512 15.192 45.303 1.00 40.00 P +HETATM 6239 O1A FAD C 401 -71.196 16.095 44.126 1.00 40.00 O +HETATM 6240 O2A FAD C 401 -71.257 15.763 46.676 1.00 40.00 O +HETATM 6241 O5B FAD C 401 -73.004 14.581 45.212 1.00 40.00 O +HETATM 6242 C5B FAD C 401 -73.681 14.131 46.378 1.00 40.00 C +HETATM 6243 C4B FAD C 401 -75.069 14.753 46.405 1.00 40.00 C +HETATM 6244 O4B FAD C 401 -76.017 13.854 45.806 1.00 40.00 O +HETATM 6245 C3B FAD C 401 -75.475 15.014 47.848 1.00 40.00 C +HETATM 6246 O3B FAD C 401 -75.908 16.371 48.034 1.00 40.00 O +HETATM 6247 C2B FAD C 401 -76.572 13.998 48.130 1.00 40.00 C +HETATM 6248 O2B FAD C 401 -77.747 14.621 48.666 1.00 40.00 O +HETATM 6249 C1B FAD C 401 -76.849 13.269 46.810 1.00 40.00 C +HETATM 6250 N9A FAD C 401 -76.460 11.848 46.996 1.00 40.00 N +HETATM 6251 C8A FAD C 401 -75.293 11.445 47.534 1.00 40.00 C +HETATM 6252 N7A FAD C 401 -75.211 10.092 47.590 1.00 40.00 N +HETATM 6253 C5A FAD C 401 -76.353 9.571 47.087 1.00 40.00 C +HETATM 6254 C6A FAD C 401 -76.920 8.189 46.862 1.00 40.00 C +HETATM 6255 N6A FAD C 401 -76.254 7.052 47.184 1.00 40.00 N +HETATM 6256 N1A FAD C 401 -78.147 8.081 46.312 1.00 40.00 N +HETATM 6257 C2A FAD C 401 -78.810 9.203 45.978 1.00 40.00 C +HETATM 6258 N3A FAD C 401 -78.385 10.482 46.155 1.00 40.00 N +HETATM 6259 C4A FAD C 401 -77.171 10.745 46.698 1.00 40.00 C +HETATM 6260 N1 FAD C 401 -65.661 9.492 50.049 1.00 40.00 N +HETATM 6261 C2 FAD C 401 -64.871 8.517 49.530 1.00 40.00 C +HETATM 6262 O2 FAD C 401 -65.158 8.098 48.382 1.00 40.00 O +HETATM 6263 N3 FAD C 401 -63.801 8.024 50.206 1.00 40.00 N +HETATM 6264 C4 FAD C 401 -63.462 8.454 51.440 1.00 40.00 C +HETATM 6265 O4 FAD C 401 -62.478 7.989 52.060 1.00 40.00 O +HETATM 6266 C4X FAD C 401 -64.274 9.523 52.063 1.00 40.00 C +HETATM 6267 N5 FAD C 401 -63.998 10.018 53.286 1.00 40.00 N +HETATM 6268 C5X FAD C 401 -64.775 10.985 53.813 1.00 40.00 C +HETATM 6269 C6 FAD C 401 -64.501 11.476 55.068 1.00 40.00 C +HETATM 6270 C7 FAD C 401 -65.298 12.469 55.614 1.00 40.00 C +HETATM 6271 C7M FAD C 401 -64.967 12.998 56.986 1.00 40.00 C +HETATM 6272 C8 FAD C 401 -66.454 13.004 54.860 1.00 40.00 C +HETATM 6273 C8M FAD C 401 -67.330 14.079 55.439 1.00 40.00 C +HETATM 6274 C9 FAD C 401 -66.736 12.505 53.615 1.00 40.00 C +HETATM 6275 C9A FAD C 401 -65.945 11.515 53.081 1.00 40.00 C +HETATM 6276 N10 FAD C 401 -66.230 11.025 51.811 1.00 40.00 N +HETATM 6277 C10 FAD C 401 -65.420 10.022 51.268 1.00 40.00 C +HETATM 6278 C1' FAD C 401 -67.368 11.555 51.076 1.00 40.00 C +HETATM 6279 C2' FAD C 401 -66.800 12.560 50.081 1.00 40.00 C +HETATM 6280 O2' FAD C 401 -66.365 13.763 50.738 1.00 40.00 O +HETATM 6281 C3' FAD C 401 -67.851 12.841 49.021 1.00 40.00 C +HETATM 6282 O3' FAD C 401 -69.000 13.394 49.680 1.00 40.00 O +HETATM 6283 C4' FAD C 401 -68.281 11.567 48.257 1.00 40.00 C +HETATM 6284 O4' FAD C 401 -67.170 10.752 47.833 1.00 40.00 O +HETATM 6285 C5' FAD C 401 -69.122 11.942 47.040 1.00 40.00 C +HETATM 6286 O5' FAD C 401 -68.816 13.304 46.693 1.00 40.00 O +HETATM 6287 P FAD C 401 -69.069 13.912 45.222 1.00 40.00 P +HETATM 6288 O1P FAD C 401 -68.616 15.371 45.244 1.00 40.00 O +HETATM 6289 O2P FAD C 401 -68.531 12.935 44.203 1.00 40.00 O +HETATM 6290 O3P FAD C 401 -70.673 13.835 45.140 1.00 40.00 O +HETATM 6291 FE1 FES D 101 -33.932 -40.658 17.785 1.00 40.00 FE +HETATM 6292 FE2 FES D 101 -35.294 -42.145 20.075 1.00 40.00 FE +HETATM 6293 S1 FES D 101 -35.422 -40.052 19.343 1.00 40.00 S +HETATM 6294 S2 FES D 101 -33.906 -42.776 18.453 1.00 40.00 S +CONECT 15 5971 +CONECT 2667 6235 +CONECT 2881 3105 +CONECT 2935 6234 +CONECT 3105 2881 +CONECT 5757 6292 +CONECT 5789 6292 +CONECT 5807 6291 +CONECT 5971 15 +CONECT 6025 6291 +CONECT 6181 6182 6183 6184 6233 +CONECT 6182 6181 +CONECT 6183 6181 +CONECT 6184 6181 6185 +CONECT 6185 6184 6186 +CONECT 6186 6185 6187 6188 +CONECT 6187 6186 6192 +CONECT 6188 6186 6189 6190 +CONECT 6189 6188 +CONECT 6190 6188 6191 6192 +CONECT 6191 6190 +CONECT 6192 6187 6190 6193 +CONECT 6193 6192 6194 6202 +CONECT 6194 6193 6195 +CONECT 6195 6194 6196 +CONECT 6196 6195 6197 6202 +CONECT 6197 6196 6198 6199 +CONECT 6198 6197 +CONECT 6199 6197 6200 +CONECT 6200 6199 6201 +CONECT 6201 6200 6202 +CONECT 6202 6193 6196 6201 +CONECT 6203 6204 6220 +CONECT 6204 6203 6205 6206 +CONECT 6205 6204 +CONECT 6206 6204 6207 +CONECT 6207 6206 6208 6209 +CONECT 6208 6207 +CONECT 6209 6207 6210 6220 +CONECT 6210 6209 6211 +CONECT 6211 6210 6212 6218 +CONECT 6212 6211 6213 +CONECT 6213 6212 6214 6215 +CONECT 6214 6213 +CONECT 6215 6213 6216 6217 +CONECT 6216 6215 +CONECT 6217 6215 6218 +CONECT 6218 6211 6217 6219 +CONECT 6219 6218 6220 6221 +CONECT 6220 6203 6209 6219 +CONECT 6221 6219 6222 +CONECT 6222 6221 6223 6224 +CONECT 6223 6222 +CONECT 6224 6222 6225 6226 +CONECT 6225 6224 +CONECT 6226 6224 6227 6228 +CONECT 6227 6226 +CONECT 6228 6226 6229 +CONECT 6229 6228 6230 +CONECT 6230 6229 6231 6232 6233 +CONECT 6231 6230 +CONECT 6232 6230 +CONECT 6233 6181 6230 +CONECT 6234 2935 6236 6237 +CONECT 6235 2667 6236 6237 +CONECT 6236 6234 6235 +CONECT 6237 6234 6235 +CONECT 6238 6239 6240 6241 6290 +CONECT 6239 6238 +CONECT 6240 6238 +CONECT 6241 6238 6242 +CONECT 6242 6241 6243 +CONECT 6243 6242 6244 6245 +CONECT 6244 6243 6249 +CONECT 6245 6243 6246 6247 +CONECT 6246 6245 +CONECT 6247 6245 6248 6249 +CONECT 6248 6247 +CONECT 6249 6244 6247 6250 +CONECT 6250 6249 6251 6259 +CONECT 6251 6250 6252 +CONECT 6252 6251 6253 +CONECT 6253 6252 6254 6259 +CONECT 6254 6253 6255 6256 +CONECT 6255 6254 +CONECT 6256 6254 6257 +CONECT 6257 6256 6258 +CONECT 6258 6257 6259 +CONECT 6259 6250 6253 6258 +CONECT 6260 6261 6277 +CONECT 6261 6260 6262 6263 +CONECT 6262 6261 +CONECT 6263 6261 6264 +CONECT 6264 6263 6265 6266 +CONECT 6265 6264 +CONECT 6266 6264 6267 6277 +CONECT 6267 6266 6268 +CONECT 6268 6267 6269 6275 +CONECT 6269 6268 6270 +CONECT 6270 6269 6271 6272 +CONECT 6271 6270 +CONECT 6272 6270 6273 6274 +CONECT 6273 6272 +CONECT 6274 6272 6275 +CONECT 6275 6268 6274 6276 +CONECT 6276 6275 6277 6278 +CONECT 6277 6260 6266 6276 +CONECT 6278 6276 6279 +CONECT 6279 6278 6280 6281 +CONECT 6280 6279 +CONECT 6281 6279 6282 6283 +CONECT 6282 6281 +CONECT 6283 6281 6284 6285 +CONECT 6284 6283 +CONECT 6285 6283 6286 +CONECT 6286 6285 6287 +CONECT 6287 6286 6288 6289 6290 +CONECT 6288 6287 +CONECT 6289 6287 +CONECT 6290 6238 6287 +CONECT 6291 5807 6025 6293 6294 +CONECT 6292 5757 5789 6293 6294 +CONECT 6293 6291 6292 +CONECT 6294 6291 6292 +MASTER 433 0 4 22 46 0 15 12 6290 4 124 66 +END diff --git a/utils/jalviewjs/site-resources/examples/backupfilestest.fa b/utils/jalviewjs/site-resources/examples/backupfilestest.fa new file mode 100644 index 0000000..c536a79 --- /dev/null +++ b/utils/jalviewjs/site-resources/examples/backupfilestest.fa @@ -0,0 +1,2 @@ +>BACKUP_FILES/1-6 backupfiles +AAAARG diff --git a/utils/jalviewjs/site-resources/examples/biojsonschema.json b/utils/jalviewjs/site-resources/examples/biojsonschema.json new file mode 100644 index 0000000..e6670d2 --- /dev/null +++ b/utils/jalviewjs/site-resources/examples/biojsonschema.json @@ -0,0 +1 @@ +{"$schema":"http://json-schema.org/draft-04/schema#","id":"http://jsonschema.net","type":"object","properties":{"seqs":{"id":"http://jsonschema.net/seqs","type":"array","items":{"id":"http://jsonschema.net/seqs/0","type":"object","properties":{"name":{"id":"http://jsonschema.net/seqs/0/name","type":"string","description":"Sequence name"},"start":{"id":"http://jsonschema.net/seqs/0/start","type":"integer","description":"Start residue position"},"svid":{"id":"http://jsonschema.net/seqs/0/svid","type":"string","description":"Serial version id for sequence object"},"end":{"id":"http://jsonschema.net/seqs/0/end","type":"integer","description":"End residue position"},"id":{"id":"http://jsonschema.net/seqs/0/id","type":"string","description":"Sequence unique identifier"},"seq":{"id":"http://jsonschema.net/seqs/0/seq","type":"string","description":"Sequence Residues"},"order":{"id":"http://jsonschema.net/seqs/0/order","type":"integer","description":"Sequence order in an alignment space"}},"required":["name","start","svid","end","id","seq"]},"required":["0"],"description":"Sequences in the Alignemnt","minItems":"1","maxItems":"*"},"appSettings":{"id":"http://jsonschema.net/appSettings","type":"object","properties":{"globalColorScheme":{"id":"http://jsonschema.net/appSettings/globalColorScheme","type":"string","description":"Global colour schem for the alignment"},"webStartUrl":{"id":"http://jsonschema.net/appSettings/webStartUrl","type":"string","description":"Jalview specific setting which points to a url for launching Jalview"},"application":{"id":"http://jsonschema.net/appSettings/application","type":"string","description":"Application which generated the Json"},"showSeqFeatures":{"id":"http://jsonschema.net/appSettings/showSeqFeatures","type":"string","description":"Determines if sequence features are visible or not"},"version":{"id":"http://jsonschema.net/appSettings/version","type":"string","description":"Verion of the application which generated the JSON"},"hiddenCols":{"id":"http://jsonschema.net/appSettings/hiddenCols","type":"string","description":"Delimited lists of hidden colums ranges i.e [2-3,5-5,11-23]"}},"description":"Application specific settings"},"seqGroups":{"id":"http://jsonschema.net/seqGroups","type":"array","items":[{"id":"http://jsonschema.net/seqGroups/0","type":"object","properties":{"displayText":{"id":"http://jsonschema.net/seqGroups/0/displayText","type":"boolean","description":"Determines if the texts of the group is displayed or not"},"startRes":{"id":"http://jsonschema.net/seqGroups/0/startRes","type":"integer","description":"Start residue position for a given group"},"groupName":{"id":"http://jsonschema.net/seqGroups/0/groupName","type":"string","description":"Group name"},"endRes":{"id":"http://jsonschema.net/seqGroups/0/endRes","type":"integer","description":"End residue position for a given group"},"colourText":{"id":"http://jsonschema.net/seqGroups/0/colourText","type":"boolean","description":"Determines if the Residues text for the group is coloured"},"seqsHash":{"id":"http://jsonschema.net/seqGroups/0/seqsHash","type":"array","items":[],"minItems":"0","maxItems":"*","description":"The id's of the sequences which belongs to the group"},"svid":{"id":"http://jsonschema.net/seqGroups/0/svid","type":"string","description":"Serial version id for a given group"},"showNonconserved":{"id":"http://jsonschema.net/seqGroups/0/showNonconserved","type":"boolean","description":"Determines if non conserved regions of a group is shown or not"},"colourScheme":{"id":"http://jsonschema.net/seqGroups/0/colourScheme","type":"string","description":"Colour Scheme for the sequence group"},"displayBoxes":{"id":"http://jsonschema.net/seqGroups/0/displayBoxes","type":"boolean","description":"Determines if the group border should be visible or not"}}}],"description":"Sequence groups in the Alignment","minItems":"0","maxItems":"*"},"alignAnnotation":{"id":"http://jsonschema.net/alignAnnotation","type":"array","items":{"id":"http://jsonschema.net/alignAnnotation/0","type":"object","properties":{"svid":{"id":"http://jsonschema.net/alignAnnotation/0/svid","type":"string","description":"Serial version id for the annotation object"},"annotations":{"id":"http://jsonschema.net/alignAnnotation/0/annotations","type":"array","items":[{"id":"http://jsonschema.net/alignAnnotation/0/annotations/0","type":"object","properties":{"displayCharacter":{"id":"http://jsonschema.net/alignAnnotation/0/annotations/0/displayCharacter","type":"string","description":"Display character to denote the given annotation"},"value":{"id":"http://jsonschema.net/alignAnnotation/0/annotations/0/value","type":"integer","description":"Value of the annotation"},"secondaryStructure":{"id":"http://jsonschema.net/alignAnnotation/0/annotations/0/secondaryStructure","type":"string","description":"Secondary structure symbol for the given annotation"}}},{"id":"http://jsonschema.net/alignAnnotation/0/annotations/1","type":"object","properties":{"displayCharacter":{"id":"http://jsonschema.net/alignAnnotation/0/annotations/1/displayCharacter","type":"string"},"value":{"id":"http://jsonschema.net/alignAnnotation/0/annotations/1/value","type":"integer"},"secondaryStructure":{"id":"http://jsonschema.net/alignAnnotation/0/annotations/1/secondaryStructure","type":"string"}}},{"id":"http://jsonschema.net/alignAnnotation/0/annotations/2","type":"object","properties":{"displayCharacter":{"id":"http://jsonschema.net/alignAnnotation/0/annotations/2/displayCharacter","type":"string"},"value":{"id":"http://jsonschema.net/alignAnnotation/0/annotations/2/value","type":"integer"},"secondaryStructure":{"id":"http://jsonschema.net/alignAnnotation/0/annotations/2/secondaryStructure","type":"string"}}}]},"description":{"id":"http://jsonschema.net/alignAnnotation/0/description","type":"string","description":"Description of the Alignment Annotation"},"label":{"id":"http://jsonschema.net/alignAnnotation/0/label","type":"string","description":"Label for the Annotation"}}},"description":"Alignment Annotations","minItems":"0","maxItems":"*"},"svid":{"id":"http://jsonschema.net/svid","type":"string","description":"Serial version id"},"seqFeatures":{"id":"http://jsonschema.net/seqFeatures","type":"array","items":{"id":"http://jsonschema.net/seqFeatures/0","type":"object","properties":{"fillColor":{"id":"http://jsonschema.net/seqFeatures/0/fillColor","type":"string","description":"Fill colour"},"score":{"id":"http://jsonschema.net/seqFeatures/0/score","type":"integer","description":"Score"},"sequenceRef":{"id":"http://jsonschema.net/seqFeatures/0/sequenceRef","type":"string","description":"Reference to the Sequence in the alignement (More like a foreign key)"},"featureGroup":{"id":"http://jsonschema.net/seqFeatures/0/featureGroup","type":"string","description":"Feature Group"},"svid":{"id":"http://jsonschema.net/seqFeatures/0/svid","type":"string","description":"Serial version id for the SeqFeature object"},"description":{"id":"http://jsonschema.net/seqFeatures/0/description","type":"string","description":"Description of Feature"},"xStart":{"id":"http://jsonschema.net/seqFeatures/0/xStart","type":"integer","description":"Start residue position for the sequence feature"},"xEnd":{"id":"http://jsonschema.net/seqFeatures/0/xEnd","type":"integer","description":"End residue position for the sequence feature"},"type":{"id":"http://jsonschema.net/seqFeatures/0/type","type":"string","description":"The name of the SequenceFeature"}}},"minItems":"0","maxItems":"*","description":"Sequence Features within the alignment"}},"required":["seqs","appSettings","seqGroups","alignAnnotation","svid","seqFeatures"]} \ No newline at end of file diff --git a/utils/jalviewjs/site-resources/examples/dna_interleaved.phy b/utils/jalviewjs/site-resources/examples/dna_interleaved.phy new file mode 100644 index 0000000..745f399 --- /dev/null +++ b/utils/jalviewjs/site-resources/examples/dna_interleaved.phy @@ -0,0 +1,132 @@ +10 705 +Cow ATGGCATATCCCATACAACTAGGATTCCAAGATGCAACATCACCAATCATAGAAGAACTA +Carp ATGGCACACCCAACGCAACTAGGTTTCAAGGACGCGGCCATACCCGTTATAGAGGAACTT +Chicken ATGGCCAACCACTCCCAACTAGGCTTTCAAGACGCCTCATCCCCCATCATAGAAGAGCTC +Human ATGGCACATGCAGCGCAAGTAGGTCTACAAGACGCTACTTCCCCTATCATAGAAGAGCTT +Loach ATGGCACATCCCACACAATTAGGATTCCAAGACGCGGCCTCACCCGTAATAGAAGAACTT +Mouse ATGGCCTACCCATTCCAACTTGGTCTACAAGACGCCACATCCCCTATTATAGAAGAGCTA +Rat ATGGCTTACCCATTTCAACTTGGCTTACAAGACGCTACATCACCTATCATAGAAGAACTT +Seal ATGGCATACCCCCTACAAATAGGCCTACAAGATGCAACCTCTCCCATTATAGAGGAGTTA +Whale ATGGCATATCCATTCCAACTAGGTTTCCAAGATGCAGCATCACCCATCATAGAAGAGCTC +Frog ATGGCACACCCATCACAATTAGGTTTTCAAGACGCAGCCTCTCCAATTATAGAAGAATTA + +CTTCACTTTCATGACCACACGCTAATAATTGTCTTCTTAATTAGCTCATTAGTACTTTAC +CTTCACTTCCACGACCACGCATTAATAATTGTGCTCCTAATTAGCACTTTAGTTTTATAT +GTTGAATTCCACGACCACGCCCTGATAGTCGCACTAGCAATTTGCAGCTTAGTACTCTAC +ATCACCTTTCATGATCACGCCCTCATAATCATTTTCCTTATCTGCTTCCTAGTCCTGTAT +CTTCACTTCCATGACCATGCCCTAATAATTGTATTTTTGATTAGCGCCCTAGTACTTTAT +ATAAATTTCCATGATCACACACTAATAATTGTTTTCCTAATTAGCTCCTTAGTCCTCTAT +ACAAACTTTCATGACCACACCCTAATAATTGTATTCCTCATCAGCTCCCTAGTACTTTAT +CTACACTTCCATGACCACACATTAATAATTGTGTTCCTAATTAGCTCATTAGTACTCTAC +CTACACTTTCACGATCATACACTAATAATCGTTTTTCTAATTAGCTCTTTAGTTCTCTAC +CTTCACTTCCACGACCATACCCTCATAGCCGTTTTTCTTATTAGTACGCTAGTTCTTTAC + +ATTATTTCACTAATACTAACGACAAAGCTGACCCATACAAGCACGATAGATGCACAAGAA +ATTATTACTGCAATGGTATCAACTAAACTTACTAATAAATATATTCTAGACTCCCAAGAA +CTTCTAACTCTTATACTTATAGAAAAACTATCA---TCAAACACCGTAGATGCCCAAGAA +GCCCTTTTCCTAACACTCACAACAAAACTAACTAATACTAACATCTCAGACGCTCAGGAA +GTTATTATTACAACCGTCTCAACAAAACTCACTAACATATATATTTTGGACTCACAAGAA +ATCATCTCGCTAATATTAACAACAAAACTAACACATACAAGCACAATAGATGCACAAGAA +ATTATTTCACTAATACTAACAACAAAACTAACACACACAAGCACAATAGACGCCCAAGAA +ATTATCTCACTTATACTAACCACGAAACTCACCCACACAAGTACAATAGACGCACAAGAA +ATTATTACCCTAATGCTTACAACCAAATTAACACATACTAGTACAATAGACGCCCAAGAA +ATTATTACTATTATAATAACTACTAAACTAACTAATACAAACCTAATGGACGCACAAGAG + +GTAGAGACAATCTGAACCATTCTGCCCGCCATCATCTTAATTCTAATTGCTCTTCCTTCT +ATCGAAATCGTATGAACCATTCTACCAGCCGTCATTTTAGTACTAATCGCCCTGCCCTCC +GTTGAACTAATCTGAACCATCCTACCCGCTATTGTCCTAGTCCTGCTTGCCCTCCCCTCC +ATAGAAACCGTCTGAACTATCCTGCCCGCCATCATCCTAGTCCTCATCGCCCTCCCATCC +ATTGAAATCGTATGAACTGTGCTCCCTGCCCTAATCCTCATTTTAATCGCCCTCCCCTCA +GTTGAAACCATTTGAACTATTCTACCAGCTGTAATCCTTATCATAATTGCTCTCCCCTCT +GTAGAAACAATTTGAACAATTCTCCCAGCTGTCATTCTTATTCTAATTGCCCTTCCCTCC +GTGGAAACGGTGTGAACGATCCTACCCGCTATCATTTTAATTCTCATTGCCCTACCATCA +GTAGAAACTGTCTGAACTATCCTCCCAGCCATTATCTTAATTTTAATTGCCTTGCCTTCA +ATCGAAATAGTGTGAACTATTATACCAGCTATTAGCCTCATCATAATTGCCCTTCCATCC + +TTACGAATTCTATACATAATAGATGAAATCAATAACCCATCTCTTACAGTAAAAACCATA +CTACGCATCCTGTACCTTATAGACGAAATTAACGACCCTCACCTGACAATTAAAGCAATA +CTCCAAATCCTCTACATAATAGACGAAATCGACGAACCTGATCTCACCCTAAAAGCCATC +CTACGCATCCTTTACATAACAGACGAGGTCAACGATCCCTCCCTTACCATCAAATCAATT +CTACGAATTCTATATCTTATAGACGAGATTAATGACCCCCACCTAACAATTAAGGCCATG +CTACGCATTCTATATATAATAGACGAAATCAACAACCCCGTATTAACCGTTAAAACCATA +CTACGAATTCTATACATAATAGACGAGATTAATAACCCAGTTCTAACAGTAAAAACTATA +TTACGAATCCTCTACATAATGGACGAGATCAATAACCCTTCCTTGACCGTAAAAACTATA +TTACGGATCCTTTACATAATAGACGAAGTCAATAACCCCTCCCTCACTGTAAAAACAATA +CTTCGTATCCTATATTTAATAGATGAAGTTAATGATCCACACTTAACAATTAAAGCAATC + +GGACATCAGTGATACTGAAGCTATGAGTATACAGATTATGAGGACTTAAGCTTCGACTCC +GGACACCAATGATACTGAAGTTACGAGTATACAGACTATGAAAATCTAGGATTCGACTCC +GGACACCAATGATACTGAACCTATGAATACACAGACTTCAAGGACCTCTCATTTGACTCC +GGCCACCAATGGTACTGAACCTACGAGTACACCGACTACGGCGGACTAATCTTCAACTCC +GGGCACCAATGATACTGAAGCTACGAGTATACTGATTATGAAAACTTAAGTTTTGACTCC +GGGCACCAATGATACTGAAGCTACGAATATACTGACTATGAAGACCTATGCTTTGATTCA +GGACACCAATGATACTGAAGCTATGAATATACTGACTATGAAGACCTATGCTTTGACTCC +GGACATCAGTGATACTGAAGCTATGAGTACACAGACTACGAAGACCTGAACTTTGACTCA +GGTCACCAATGATATTGAAGCTATGAGTATACCGACTACGAAGACCTAAGCTTCGACTCC +GGCCACCAATGATACTGAAGCTACGAATATACTAACTATGAGGATCTCTCATTTGACTCT + +TACATAATTCCAACATCAGAATTAAAGCCAGGGGAGCTACGACTATTAGAAGTCGATAAT +TATATAGTACCAACCCAAGACCTTGCCCCCGGACAATTCCGACTTCTGGAAACAGACCAC +TACATAACCCCAACAACAGACCTCCCCCTAGGCCACTTCCGCCTACTAGAAGTCGACCAT +TACATACTTCCCCCATTATTCCTAGAACCAGGCGACCTGCGACTCCTTGACGTTGACAAT +TACATAATCCCCACCCAGGACCTAACCCCTGGACAATTCCGGCTACTAGAGACAGACCAC +TATATAATCCCAACAAACGACCTAAAACCTGGTGAACTACGACTGCTAGAAGTTGATAAC +TACATAATCCCAACCAATGACCTAAAACCAGGTGAACTTCGTCTATTAGAAGTTGATAAT +TATATGATCCCCACACAAGAACTAAAGCCCGGAGAACTACGACTGCTAGAAGTAGACAAT +TATATAATCCCAACATCAGACCTAAAGCCAGGAGAACTACGATTATTAGAAGTAGATAAC +TATATAATTCCAACTAATGACCTTACCCCTGGACAATTCCGGCTGCTAGAAGTTGATAAT + +CGAGTTGTACTACCAATAGAAATAACAATCCGAATGTTAGTCTCCTCTGAAGACGTATTA +CGAATAGTTGTTCCAATAGAATCCCCAGTCCGTGTCCTAGTATCTGCTGAAGACGTGCTA +CGCATTGTAATCCCCATAGAATCCCCCATTCGAGTAATCATCACCGCTGATGACGTCCTC +CGAGTAGTACTCCCGATTGAAGCCCCCATTCGTATAATAATTACATCACAAGACGTCTTG +CGAATGGTTGTTCCCATAGAATCCCCTATTCGCATTCTTGTTTCCGCCGAAGATGTACTA +CGAGTCGTTCTGCCAATAGAACTTCCAATCCGTATATTAATTTCATCTGAAGACGTCCTC +CGGGTAGTCTTACCAATAGAACTTCCAATTCGTATACTAATCTCATCCGAAGACGTCCTG +CGAGTAGTCCTCCCAATAGAAATAACAATCCGCATACTAATCTCATCAGAAGATGTACTC +CGAGTTGTCTTACCTATAGAAATAACAATCCGAATATTAGTCTCATCAGAAGACGTACTC +CGAATAGTAGTCCCAATAGAATCTCCAACCCGACTTTTAGTTACAGCCGAAGACGTCCTC + +CACTCATGAGCTGTGCCCTCTCTAGGACTAAAAACAGACGCAATCCCAGGCCGTCTAAAC +CATTCTTGAGCTGTTCCATCCCTTGGCGTAAAAATGGACGCAGTCCCAGGACGACTAAAT +CACTCATGAGCCGTACCCGCCCTCGGGGTAAAAACAGACGCAATCCCTGGACGACTAAAT +CACTCATGAGCTGTCCCCACATTAGGCTTAAAAACAGATGCAATTCCCGGACGTCTAAAC +CACTCCTGGGCCCTTCCAGCCATGGGGGTAAAGATAGACGCGGTCCCAGGACGCCTTAAC +CACTCATGAGCAGTCCCCTCCCTAGGACTTAAAACTGATGCCATCCCAGGCCGACTAAAT +CACTCATGAGCCATCCCTTCACTAGGGTTAAAAACCGACGCAATCCCCGGCCGCCTAAAC +CACTCATGAGCCGTACCGTCCCTAGGACTAAAAACTGATGCTATCCCAGGACGACTAAAC +CACTCATGGGCCGTACCCTCCTTGGGCCTAAAAACAGATGCAATCCCAGGACGCCTAAAC +CACTCGTGAGCTGTACCCTCCTTGGGTGTCAAAACAGATGCAATCCCAGGACGACTTCAT + +CAAACAACCCTTATATCGTCCCGTCCAGGCTTATATTACGGTCAATGCTCAGAAATTTGC +CAAGCCGCCTTTATTGCCTCACGCCCAGGGGTCTTTTACGGACAATGCTCTGAAATTTGT +CAAACCTCCTTCATCACCACTCGACCAGGAGTGTTTTACGGACAATGCTCAGAAATCTGC +CAAACCACTTTCACCGCTACACGACCGGGGGTATACTACGGTCAATGCTCTGAAATCTGT +CAAACCGCCTTTATTGCCTCCCGCCCCGGGGTATTCTATGGGCAATGCTCAGAAATCTGT +CAAGCAACAGTAACATCAAACCGACCAGGGTTATTCTATGGCCAATGCTCTGAAATTTGT +CAAGCTACAGTCACATCAAACCGACCAGGTCTATTCTATGGCCAATGCTCTGAAATTTGC +CAAACAACCCTAATAACCATACGACCAGGACTGTACTACGGTCAATGCTCAGAAATCTGT +CAAACAACCTTAATATCAACACGACCAGGCCTATTTTATGGACAATGCTCAGAGATCTGC +CAAACATCATTTATTGCTACTCGTCCGGGAGTATTTTACGGACAATGTTCAGAAATTTGC + +GGGTCAAACCACAGTTTCATACCCATTGTCCTTGAGTTAGTCCCACTAAAGTACTTTGAA +GGAGCTAATCACAGCTTTATACCAATTGTAGTTGAAGCAGTACCTCTCGAACACTTCGAA +GGAGCTAACCACAGCTACATACCCATTGTAGTAGAGTCTACCCCCCTAAAACACTTTGAA +GGAGCAAACCACAGTTTCATGCCCATCGTCCTAGAATTAATTCCCCTAAAAATCTTTGAA +GGAGCAAACCACAGCTTTATACCCATCGTAGTAGAAGCGGTCCCACTATCTCACTTCGAA +GGATCTAACCATAGCTTTATGCCCATTGTCCTAGAAATGGTTCCACTAAAATATTTCGAA +GGCTCAAATCACAGCTTCATACCCATTGTACTAGAAATAGTGCCTCTAAAATATTTCGAA +GGTTCAAACCACAGCTTCATACCTATTGTCCTCGAATTGGTCCCACTATCCCACTTCGAG +GGCTCAAACCACAGTTTCATACCAATTGTCCTAGAACTAGTACCCCTAGAAGTCTTTGAA +GGAGCAAACCACAGCTTTATACCAATTGTAGTTGAAGCAGTACCGCTAACCGACTTTGAA + +AAATGATCTGCGTCAATATTA---------------------TAA +AACTGATCCTCATTAATACTAGAAGACGCCTCGCTAGGAAGCTAA +GCCTGATCCTCACTA------------------CTGTCATCTTAA +ATA---------------------GGGCCCGTATTTACCCTATAG +AACTGGTCCACCCTTATACTAAAAGACGCCTCACTAGGAAGCTAA +AACTGATCTGCTTCAATAATT---------------------TAA +AACTGATCAGCTTCTATAATT---------------------TAA +AAATGATCTACCTCAATGCTT---------------------TAA +AAATGATCTGTATCAATACTA---------------------TAA +AACTGATCTTCATCAATACTA---GAAGCATCACTA------AGA diff --git a/utils/jalviewjs/site-resources/examples/dna_sequential.phy b/utils/jalviewjs/site-resources/examples/dna_sequential.phy new file mode 100644 index 0000000..99dd34c --- /dev/null +++ b/utils/jalviewjs/site-resources/examples/dna_sequential.phy @@ -0,0 +1,11 @@ +10 705 +Cow ATGGCATATCCCATACAACTAGGATTCCAAGATGCAACATCACCAATCATAGAAGAACTACTTCACTTTCATGACCACACGCTAATAATTGTCTTCTTAATTAGCTCATTAGTACTTTACATTATTTCACTAATACTAACGACAAAGCTGACCCATACAAGCACGATAGATGCACAAGAAGTAGAGACAATCTGAACCATTCTGCCCGCCATCATCTTAATTCTAATTGCTCTTCCTTCTTTACGAATTCTATACATAATAGATGAAATCAATAACCCATCTCTTACAGTAAAAACCATAGGACATCAGTGATACTGAAGCTATGAGTATACAGATTATGAGGACTTAAGCTTCGACTCCTACATAATTCCAACATCAGAATTAAAGCCAGGGGAGCTACGACTATTAGAAGTCGATAATCGAGTTGTACTACCAATAGAAATAACAATCCGAATGTTAGTCTCCTCTGAAGACGTATTACACTCATGAGCTGTGCCCTCTCTAGGACTAAAAACAGACGCAATCCCAGGCCGTCTAAACCAAACAACCCTTATATCGTCCCGTCCAGGCTTATATTACGGTCAATGCTCAGAAATTTGCGGGTCAAACCACAGTTTCATACCCATTGTCCTTGAGTTAGTCCCACTAAAGTACTTTGAAAAATGATCTGCGTCAATATTA---------------------TAA +Carp ATGGCACACCCAACGCAACTAGGTTTCAAGGACGCGGCCATACCCGTTATAGAGGAACTTCTTCACTTCCACGACCACGCATTAATAATTGTGCTCCTAATTAGCACTTTAGTTTTATATATTATTACTGCAATGGTATCAACTAAACTTACTAATAAATATATTCTAGACTCCCAAGAAATCGAAATCGTATGAACCATTCTACCAGCCGTCATTTTAGTACTAATCGCCCTGCCCTCCCTACGCATCCTGTACCTTATAGACGAAATTAACGACCCTCACCTGACAATTAAAGCAATAGGACACCAATGATACTGAAGTTACGAGTATACAGACTATGAAAATCTAGGATTCGACTCCTATATAGTACCAACCCAAGACCTTGCCCCCGGACAATTCCGACTTCTGGAAACAGACCACCGAATAGTTGTTCCAATAGAATCCCCAGTCCGTGTCCTAGTATCTGCTGAAGACGTGCTACATTCTTGAGCTGTTCCATCCCTTGGCGTAAAAATGGACGCAGTCCCAGGACGACTAAATCAAGCCGCCTTTATTGCCTCACGCCCAGGGGTCTTTTACGGACAATGCTCTGAAATTTGTGGAGCTAATCACAGCTTTATACCAATTGTAGTTGAAGCAGTACCTCTCGAACACTTCGAAAACTGATCCTCATTAATACTAGAAGACGCCTCGCTAGGAAGCTAA +Chicken ATGGCCAACCACTCCCAACTAGGCTTTCAAGACGCCTCATCCCCCATCATAGAAGAGCTCGTTGAATTCCACGACCACGCCCTGATAGTCGCACTAGCAATTTGCAGCTTAGTACTCTACCTTCTAACTCTTATACTTATAGAAAAACTATCA---TCAAACACCGTAGATGCCCAAGAAGTTGAACTAATCTGAACCATCCTACCCGCTATTGTCCTAGTCCTGCTTGCCCTCCCCTCCCTCCAAATCCTCTACATAATAGACGAAATCGACGAACCTGATCTCACCCTAAAAGCCATCGGACACCAATGATACTGAACCTATGAATACACAGACTTCAAGGACCTCTCATTTGACTCCTACATAACCCCAACAACAGACCTCCCCCTAGGCCACTTCCGCCTACTAGAAGTCGACCATCGCATTGTAATCCCCATAGAATCCCCCATTCGAGTAATCATCACCGCTGATGACGTCCTCCACTCATGAGCCGTACCCGCCCTCGGGGTAAAAACAGACGCAATCCCTGGACGACTAAATCAAACCTCCTTCATCACCACTCGACCAGGAGTGTTTTACGGACAATGCTCAGAAATCTGCGGAGCTAACCACAGCTACATACCCATTGTAGTAGAGTCTACCCCCCTAAAACACTTTGAAGCCTGATCCTCACTA------------------CTGTCATCTTAA +Human ATGGCACATGCAGCGCAAGTAGGTCTACAAGACGCTACTTCCCCTATCATAGAAGAGCTTATCACCTTTCATGATCACGCCCTCATAATCATTTTCCTTATCTGCTTCCTAGTCCTGTATGCCCTTTTCCTAACACTCACAACAAAACTAACTAATACTAACATCTCAGACGCTCAGGAAATAGAAACCGTCTGAACTATCCTGCCCGCCATCATCCTAGTCCTCATCGCCCTCCCATCCCTACGCATCCTTTACATAACAGACGAGGTCAACGATCCCTCCCTTACCATCAAATCAATTGGCCACCAATGGTACTGAACCTACGAGTACACCGACTACGGCGGACTAATCTTCAACTCCTACATACTTCCCCCATTATTCCTAGAACCAGGCGACCTGCGACTCCTTGACGTTGACAATCGAGTAGTACTCCCGATTGAAGCCCCCATTCGTATAATAATTACATCACAAGACGTCTTGCACTCATGAGCTGTCCCCACATTAGGCTTAAAAACAGATGCAATTCCCGGACGTCTAAACCAAACCACTTTCACCGCTACACGACCGGGGGTATACTACGGTCAATGCTCTGAAATCTGTGGAGCAAACCACAGTTTCATGCCCATCGTCCTAGAATTAATTCCCCTAAAAATCTTTGAAATA---------------------GGGCCCGTATTTACCCTATAG +Loach ATGGCACATCCCACACAATTAGGATTCCAAGACGCGGCCTCACCCGTAATAGAAGAACTTCTTCACTTCCATGACCATGCCCTAATAATTGTATTTTTGATTAGCGCCCTAGTACTTTATGTTATTATTACAACCGTCTCAACAAAACTCACTAACATATATATTTTGGACTCACAAGAAATTGAAATCGTATGAACTGTGCTCCCTGCCCTAATCCTCATTTTAATCGCCCTCCCCTCACTACGAATTCTATATCTTATAGACGAGATTAATGACCCCCACCTAACAATTAAGGCCATGGGGCACCAATGATACTGAAGCTACGAGTATACTGATTATGAAAACTTAAGTTTTGACTCCTACATAATCCCCACCCAGGACCTAACCCCTGGACAATTCCGGCTACTAGAGACAGACCACCGAATGGTTGTTCCCATAGAATCCCCTATTCGCATTCTTGTTTCCGCCGAAGATGTACTACACTCCTGGGCCCTTCCAGCCATGGGGGTAAAGATAGACGCGGTCCCAGGACGCCTTAACCAAACCGCCTTTATTGCCTCCCGCCCCGGGGTATTCTATGGGCAATGCTCAGAAATCTGTGGAGCAAACCACAGCTTTATACCCATCGTAGTAGAAGCGGTCCCACTATCTCACTTCGAAAACTGGTCCACCCTTATACTAAAAGACGCCTCACTAGGAAGCTAA +Mouse ATGGCCTACCCATTCCAACTTGGTCTACAAGACGCCACATCCCCTATTATAGAAGAGCTAATAAATTTCCATGATCACACACTAATAATTGTTTTCCTAATTAGCTCCTTAGTCCTCTATATCATCTCGCTAATATTAACAACAAAACTAACACATACAAGCACAATAGATGCACAAGAAGTTGAAACCATTTGAACTATTCTACCAGCTGTAATCCTTATCATAATTGCTCTCCCCTCTCTACGCATTCTATATATAATAGACGAAATCAACAACCCCGTATTAACCGTTAAAACCATAGGGCACCAATGATACTGAAGCTACGAATATACTGACTATGAAGACCTATGCTTTGATTCATATATAATCCCAACAAACGACCTAAAACCTGGTGAACTACGACTGCTAGAAGTTGATAACCGAGTCGTTCTGCCAATAGAACTTCCAATCCGTATATTAATTTCATCTGAAGACGTCCTCCACTCATGAGCAGTCCCCTCCCTAGGACTTAAAACTGATGCCATCCCAGGCCGACTAAATCAAGCAACAGTAACATCAAACCGACCAGGGTTATTCTATGGCCAATGCTCTGAAATTTGTGGATCTAACCATAGCTTTATGCCCATTGTCCTAGAAATGGTTCCACTAAAATATTTCGAAAACTGATCTGCTTCAATAATT---------------------TAA +Rat ATGGCTTACCCATTTCAACTTGGCTTACAAGACGCTACATCACCTATCATAGAAGAACTTACAAACTTTCATGACCACACCCTAATAATTGTATTCCTCATCAGCTCCCTAGTACTTTATATTATTTCACTAATACTAACAACAAAACTAACACACACAAGCACAATAGACGCCCAAGAAGTAGAAACAATTTGAACAATTCTCCCAGCTGTCATTCTTATTCTAATTGCCCTTCCCTCCCTACGAATTCTATACATAATAGACGAGATTAATAACCCAGTTCTAACAGTAAAAACTATAGGACACCAATGATACTGAAGCTATGAATATACTGACTATGAAGACCTATGCTTTGACTCCTACATAATCCCAACCAATGACCTAAAACCAGGTGAACTTCGTCTATTAGAAGTTGATAATCGGGTAGTCTTACCAATAGAACTTCCAATTCGTATACTAATCTCATCCGAAGACGTCCTGCACTCATGAGCCATCCCTTCACTAGGGTTAAAAACCGACGCAATCCCCGGCCGCCTAAACCAAGCTACAGTCACATCAAACCGACCAGGTCTATTCTATGGCCAATGCTCTGAAATTTGCGGCTCAAATCACAGCTTCATACCCATTGTACTAGAAATAGTGCCTCTAAAATATTTCGAAAACTGATCAGCTTCTATAATT---------------------TAA +Seal ATGGCATACCCCCTACAAATAGGCCTACAAGATGCAACCTCTCCCATTATAGAGGAGTTACTACACTTCCATGACCACACATTAATAATTGTGTTCCTAATTAGCTCATTAGTACTCTACATTATCTCACTTATACTAACCACGAAACTCACCCACACAAGTACAATAGACGCACAAGAAGTGGAAACGGTGTGAACGATCCTACCCGCTATCATTTTAATTCTCATTGCCCTACCATCATTACGAATCCTCTACATAATGGACGAGATCAATAACCCTTCCTTGACCGTAAAAACTATAGGACATCAGTGATACTGAAGCTATGAGTACACAGACTACGAAGACCTGAACTTTGACTCATATATGATCCCCACACAAGAACTAAAGCCCGGAGAACTACGACTGCTAGAAGTAGACAATCGAGTAGTCCTCCCAATAGAAATAACAATCCGCATACTAATCTCATCAGAAGATGTACTCCACTCATGAGCCGTACCGTCCCTAGGACTAAAAACTGATGCTATCCCAGGACGACTAAACCAAACAACCCTAATAACCATACGACCAGGACTGTACTACGGTCAATGCTCAGAAATCTGTGGTTCAAACCACAGCTTCATACCTATTGTCCTCGAATTGGTCCCACTATCCCACTTCGAGAAATGATCTACCTCAATGCTT---------------------TAA +Whale ATGGCATATCCATTCCAACTAGGTTTCCAAGATGCAGCATCACCCATCATAGAAGAGCTCCTACACTTTCACGATCATACACTAATAATCGTTTTTCTAATTAGCTCTTTAGTTCTCTACATTATTACCCTAATGCTTACAACCAAATTAACACATACTAGTACAATAGACGCCCAAGAAGTAGAAACTGTCTGAACTATCCTCCCAGCCATTATCTTAATTTTAATTGCCTTGCCTTCATTACGGATCCTTTACATAATAGACGAAGTCAATAACCCCTCCCTCACTGTAAAAACAATAGGTCACCAATGATATTGAAGCTATGAGTATACCGACTACGAAGACCTAAGCTTCGACTCCTATATAATCCCAACATCAGACCTAAAGCCAGGAGAACTACGATTATTAGAAGTAGATAACCGAGTTGTCTTACCTATAGAAATAACAATCCGAATATTAGTCTCATCAGAAGACGTACTCCACTCATGGGCCGTACCCTCCTTGGGCCTAAAAACAGATGCAATCCCAGGACGCCTAAACCAAACAACCTTAATATCAACACGACCAGGCCTATTTTATGGACAATGCTCAGAGATCTGCGGCTCAAACCACAGTTTCATACCAATTGTCCTAGAACTAGTACCCCTAGAAGTCTTTGAAAAATGATCTGTATCAATACTA---------------------TAA +Frog ATGGCACACCCATCACAATTAGGTTTTCAAGACGCAGCCTCTCCAATTATAGAAGAATTACTTCACTTCCACGACCATACCCTCATAGCCGTTTTTCTTATTAGTACGCTAGTTCTTTACATTATTACTATTATAATAACTACTAAACTAACTAATACAAACCTAATGGACGCACAAGAGATCGAAATAGTGTGAACTATTATACCAGCTATTAGCCTCATCATAATTGCCCTTCCATCCCTTCGTATCCTATATTTAATAGATGAAGTTAATGATCCACACTTAACAATTAAAGCAATCGGCCACCAATGATACTGAAGCTACGAATATACTAACTATGAGGATCTCTCATTTGACTCTTATATAATTCCAACTAATGACCTTACCCCTGGACAATTCCGGCTGCTAGAAGTTGATAATCGAATAGTAGTCCCAATAGAATCTCCAACCCGACTTTTAGTTACAGCCGAAGACGTCCTCCACTCGTGAGCTGTACCCTCCTTGGGTGTCAAAACAGATGCAATCCCAGGACGACTTCATCAAACATCATTTATTGCTACTCGTCCGGGAGTATTTTACGGACAATGTTCAGAAATTTGCGGAGCAAACCACAGCTTTATACCAATTGTAGTTGAAGCAGTACCGCTAACCGACTTTGAAAACTGATCTTCATCAATACTA---GAAGCATCACTA------AGA diff --git a/utils/jalviewjs/site-resources/examples/estrogenReceptorCdna.fa b/utils/jalviewjs/site-resources/examples/estrogenReceptorCdna.fa new file mode 100644 index 0000000..9d857db --- /dev/null +++ b/utils/jalviewjs/site-resources/examples/estrogenReceptorCdna.fa @@ -0,0 +1,221 @@ +>EMBLCDS|ADZ17331/1-1593 Homo sapiens (human) estrogen nuclear receptor beta variant a +atggatataaaaaactcaccatctagccttaattctccttcctcctacaactgcagtcaatccatcttaccc +ctggagcacggctccatatacataccttcctcctatgtagacagccaccatgaatatccagccatgacattc +tatagccctgctgtgatgaattacagcattcccagcaatgtcactaacttggaaggtgggcctggtcggcag +accacaagcccaaatgtgttgtggccaacacctgggcacctttctcctttagtggtccatcgccagttatca +catctgtatgcggaacctcaaaagagtccctggtgtgaagcaagatcgctagaacacaccttacctgtaaac +agagagacactgaaaaggaaggttagtgggaaccgttgcgccagccctgttactggtccaggttcaaagagg +gatgctcacttctgcgctgtctgcagcgattacgcatcgggatatcactatggagtctggtcgtgtgaagga +tgtaaggccttttttaaaagaagcattcaaggacataatgattatatttgtccagctacaaatcagtgtaca +atcgataaaaaccggcgcaagagctgccaggcctgccgacttcggaagtgttacgaagtgggaatggtgaag +tgtggctcccggagagagagatgtgggtaccgccttgtgcggagacagagaagtgccgacgagcagctgcac +tgtgccggcaaggccaagagaagtggcggccacgcgccccgagtgcgggagctgctgctggacgccctgagc +cccgagcagctagtgctcaccctcctggaggctgagccgccccatgtgctgatcagccgccccagtgcgccc +ttcaccgaggcctccatgatgatgtccctgaccaagttggccgacaaggagttggtacacatgatcagctgg +gccaagaagattcccggctttgtggagctcagcctgttcgaccaagtgcggctcttggagagctgttggatg +gaggtgttaatgatggggctgatgtggcgctcaattgaccaccccggcaagctcatctttgctccagatctt +gttctggacagggatgaggggaaatgcgtagaaggaattctggaaatctttgacatgctcctggcaactact +tcaaggtttcgagagttaaaactccaacacaaagaatatctctgtgtcaaggccatgatcctgctcaattcc +agtatgtaccctctggtcacagcgacccaggatgctgacagcagccggaagctggctcacttgctgaacgcc +gtgaccgatgctttggtttgggtgattgccaagagcggcatctcctcccagcagcaatccatgcgcctggct +aacctcctgatgctcctgtcccacgtcaggcatgcgagtaacaagggcatggaacatctgctcaacatgaag +tgcaaaaatgtggtcccagtgtatgacctgctgctggagatgctgaatgcccacgtgcttcgcgggtgcaag +tcctccatcacggggtccgagtgcagcccggcagaggacagtaaaagcaaagagggctcccagaacccacag +tctcagtga +>EMBLCDS|AAK93056/1-1455 Drosophila melanogaster (fruit fly) GH28308p +atgtccgacggcgtcagcatcttgcacatcaaacaggaggtggacactccatcggcgtcctgctttagtccc +agctccaagtcaacggccacgcagagtggcacaaacggcctgaaatcctcgccctcggtttcgccggaaagg +cagctctgcagctcgacgacctctctatcctgcgatttgcacaatgtatccttaagcaatgatggcgatagt +ctgaaaggaagtggtacaagtggcggcaatggcggaggaggaggtggtggtacgagtggtggaaatgcgacc +aatgcgagtgccggagctggatcgggatccgtcagggacgagctccgccgattgtgtttggtttgtggcgat +gtggccagtggattccactatggtgtggcgagttgtgaggcttgcaaagcgttctttaaacgcaccatccaa +ggcaacatcgagtacacgtgtccggcgaacaacgagtgtgagattaacaagcggagacgcaaggcctgccaa +gcgtgtcgcttccagaaatgtctactaatgggcatgctcaaggagggtgtgcgcttggatcgagttcgtgga +ggacggcagaagtaccgaaggaatcctgtatcaaactcttaccagactatgcagctgctataccaatccaac +accacctcgctgtgcgatgtcaagatactggaggtgctcaattcatatgagccggatgccttgagcgtccaa +acgccgccgccgcaagtccacacgactagcataactaatgatgaggcctcatcctcctcgggcagcataaaa +ctggagtccagcgttgttacgcccaatgggacttgcattttccaaaacaacaacaacaatgatcccaatgag +atactaagcgtccttagtgatatttacgacaaggaattggtcagcgtcattggctgggccaagcagatacct +ggctttatagatctgccacttaacgaccagatgaagcttctccaggtgtcgtgggcagagatcctgacgctc +cagctgaccttccggtccctaccgttcaatggcaagttatgcttcgccacggatgtctggatggatgaacat +ttggccaaggagtgcggttacacggagttctactaccactgcgtccagatcgcacagcgcatggaaagaata +tcgccacgaagggaggagtactacttgctaaaggcgctcctgctggccaactgcgacattctgctggatgat +cagagttccctgcgcgcatttcgtgatacgattcttaattctctaaacgatgtggtctacttgctgcgtcat +tcgtcggccgtgtcgcatcagcaacaattgctgcttttgctgccttcgctgcggcaggcggatgatatcctg +cgaagattttggcgtggaattgcacgcgatgaagtcattaccatgaagaaactgttcctcgagatgctcgag +ccgctggccaggtga +>EMBLCDS|BAA89539/1-2133 Anguilla japonica (Japanese eel) progesterone receptor +atggacaacaatcaccaagacaagatggaaagtctatacacgccagccagagcatcaccaactcctgatgca +gaatcgattaaaagagccaggaatttgattaaaacatactcggagtcttttgggagttatgtggaggagata +gttcgagacgactcgaataacatacaatctttgagcagcgtccctctcttgatgcgtaattttggaaacatg +gacaccctaacctgcgcacctggctcgggtagtgacagtgagatttggaaagactttgttgttcccgggaac +tctgtggtaagcaaagacacctgtggtcatgttgaaatatccactaaagccgaaaatttgtcttgggctgcc +gcgcccttaagtagagaagaaaccctcgcgaaaggaactgttacggtcccagcgactgtgcctaaagaaagt +tttaccgcaacatcaaacacttcttcagccagtggaatctctattaaagatgaacaacaatctttgctcaaa +atggaaccacagtcttctgacttttgtccttatacagcaaatataccgaaattgaatccatcttatctgacc +aatactgcgagtacgaaacaacttggatatggcgaacagccggacacttcagcgcactcctctccacctgct +cagaagattgttttagatactgctcgatactcggccgatttatgttcggataaccctttaccgcaagcgaca +aatatcaaaacagatccttgtagtagtttctcttctttcgttggagaagggatccttactagggcatctatg +ggctactcacagcaagcgattcagacattgccggtgcacaagagtgaaccgttcaggttgtctgcttcgagc +gcgcccgcggattctccgttttggtgccaatccacgggtccttctgaggatcatcatctgcagattgactat +ctatctcccgctggactccacagcacatgcaaatacagttccacgaacgcgtacagctcctatttaggtgtg +ctgccccagagggtgtgcgtcatctgtggggatgaagcatcaggctgtcactatggtgtcctcacctgtggc +agctgtaaggtgttctttaagagggcagtggaaggccatcataactacttgtgtgctggacggaatgactgc +atcgtggacaagatccgtaggaaaaactgtcctgcttgtcgcctcagaaagtgctaccaggcgggaatgata +ctgggaggtcggaagctgaagaagttgggggctctgaaggcagcagggctgacccaggccctggtggcccac +tcactgactcctcggaggctctctggtgacagccaggccctgatgcccctgggctgccttccaggggtccgg +gagctgcacctttccccacagatcatcagcgtgctggagagcattgagcctgaggtggtgtactctggttat +gacaactcccagcctgacatgcccaatatgctgctcaacagcctcaaccgcttatgtgagaggcagctgctg +aggattgtcaagtggtccaagtctttaccaggttttcgcagtttacacatcaatgaccaaatggctctgatc +cagtactcctggatgagcttaatggtattttctttgggttggcggtctttccaaaatgtcaccagtgattac +ctgtactttgcacctgacctcattctcaacgaagagtatatgaggaggtctccaatatttgacctgtgcatg +gccatgcagttcatccctcaagagtttgccaatctccaggtgaccaaggaggagtttctgtgcatgaaggtc +ttgctgttgctcaacacagtgcctctggaggggttgaagagccagccacagtttgatgagatgaggcagaat +tacatccatgaactcaccaaggccattcacctgcgagagaatggtgtggtcgcctgctcccagcgtttctac +cacctgaccaagctgatggaccacatgcatgacattgtgaagaagctccacctgtactgcctgagcactttc +attcaggcagatgccatgcgggtagagttccccgagatgatgtcagaagtcatcgcctcccagctgcctcgg +gtgctcgctggaatggtgaaaccccttctttttcacaccaaatga +>EMBLCDS|AHW56473/1-1590 Homo sapiens (human) partial estrogen receptor 2 isoform A +atggatataaaaaactcaccatctagccttaattctccttcctcctacaactgcagtcaatccatcttaccc +ctggagcacggctccatatacataccttcctcctatgtagacagccaccatgaatatccagccatgacattc +tatagccctgctgtgatgaattacagcattcccagcaatgtcactaacttggaaggtgggcctggtcggcag +accacaagcccaaatgtgttgtggccaacacctgggcacctttctcctttagtggtccatcgccagttatca +catctgtatgcggaacctcaaaagagtccctggtgtgaagcaagatcgctagaacacaccttacctgtaaac +agagagacactgaaaaggaaggttagtgggaaccgttgcgccagccctgttactggtccaggttcaaagagg +gatgctcacttctgcgctgtctgcagcgattacgcatcgggatatcactatggagtctggtcgtgtgaagga +tgtaaggccttttttaaaagaagcattcaaggacataatgattatatttgtccagctacaaatcagtgtaca +atcgataaaaaccggcgcaagagctgccaggcctgccgacttcggaagtgttacgaagtgggaatggtgaag +tgtggctcccggagagagagatgtgggtaccgccttgtgcggagacagagaagtgccgacgagcagctgcac +tgtgccggcaaggccaagagaagtggcggccacgcgccccgagtgcgggagctgctgctggacgccctgagc +cccgagcagctagtgctcaccctcctggaggctgagccgccccatgtgctgatcagccgccccagtgcgccc +ttcaccgaggcctccatgatgatgtccctgaccaagttggccgacaaggagttggtacacatgatcagctgg +gccaagaagattcccggctttgtggagctcagcctgttcgaccaagtgcggctcttggagagctgttggatg +gaggtgttaatgatggggctgatgtggcgctcaattgaccaccccggcaagctcatctttgctccagatctt +gttctggacagggatgaggggaaatgcgtagaaggaattctggaaatctttgacatgctcctggcaactact +tcaaggtttcgagagttaaaactccaacacaaagaatatctctgtgtcaaggccatgatcctgctcaattcc +agtatgtaccctctggtcacagcgacccaggatgctgacagcagccggaagctggctcacttgctgaacgcc +gtgaccgatgctttggtttgggtgattgccaagagcggcatctcctcccagcagcaatccatgcgcctggct +aacctcctgatgctcctgtcccacgtcaggcatgcgagtaacaagggcatggaacatctgctcaacatgaag +tgcaaaaatgtggtcccagtgtatgacctgctgctggagatgctgaatgcccacgtgcttcgcgggtgcaag +tcctccatcacggggtccgagtgcagcccggcagaggacagtaaaagcaaagagggctcccagaacccacag +tctcag +>EMBLCDS|BAA75464/1-2547 Anguilla japonica (Japanese eel) androgen receptor alpha +atggagattccagttgggttaggaggagtttcagatgccacaaacgccgtttttcgcggaccttaccaaaac +gttttccacagccttcaagtggcatttcagagtcacggtgccgtctccaggagcttagattttccaaataca +aagtacggttttttacaaaacagacatttctgtgaaatgcgtcaggagaacaagcagccgccatgcaaagga +ctcggcctattttacgggaaccatcgtaattcggacactgggacaaacgaagacgacatcgcttgtttttcc +agacagtccgacgctgaagccagacctggtattttttctgaaagctcattggatactggagacgagattact +tgcaaactccagtcagacaaccaaggggtaagagcgagcggtcctctcctaccgggctctagcggctgcaat +tcgggacaaaagtcctcccttgcttgtacgtcccaacaaagggagacaacatctcaaagtgacacctgcgca +ggagagagctgctcggaacatcaagcaactaccatttcggaaactgcgcgcgaattgtgcaacgccgtttcc +gtgtcgctgggcttgaatttagatcttaatgatatgaatgacctaagttcaaaccaaatatcgtctaccgaa +agtgacacaagtcaagccatctacttatttgaatcttcacctgggtatactggggtcggactgaacgccttg +gtaagagactgtaaatgtcagagtgcacgcgaagggacatcgacacaacagtacgaccgcggggcaatgttt +aagataaaccgtgtaaatgacttgccgcttcagccagcacccccgcgacacaccagcattagcgatgctaaa +tgggacatggaagcaggtttgtgtgcgcagatggagcacaaagactctgaaaagtgcgcgaatatggatggt +gcacactccacttctgtcttctcccagttcgaccaactgttgccagtaaacgcgtcgcactacagtcagaac +gtttcggtcagagtggaaccacaaagtgatttctctccgattttgtacaaatcacctggtattcagaaaaat +gccgaaaagtacaatgtccaatatgatgccacaattaaatcagaagatgggaaaacgacatctgaacgggaa +tggggttttcagtacaggtacaatgaaagctgcagcacaccgtcagcacctcctagacattgtgcacatcag +aacagggccggaccgtacaaccagttcttttttaatccatttgaatatgcgaaaagaggtgttgtctcaagg +gaaggatattctctcgaacatgggttcccaaacaatctcgctcggacaccctactctggttccttgaaaaac +gaactaggagatcgtctgagtgggccataccctgacgtcagttacaggtacgagggcgagcgggagaacgtg +ttccccgtggagttcttctttccgccgcagaggacctgcctgatctgcggggacgaggcctcgggctgtcac +tatggagccctcacctgcggcagctgcaaggtgttcttcaagagggccgcggaagggaaacagaagtacctg +tgcgccagcatcaatgattgcaccattgataaacttcgaaggaagaactgcccctcttgccgtctcaaaagg +tgctttgctgccggaatgacccttggagcgcggaagctgaagaagatcgggcaaatgagggcccccgaggat +ggccaggggcagggcccggcggaagcggagctgagcgtctcccccaagtacgacctgggcttccacacccag +tccatgttcctcaacatcctggaggccatcgagccggaggtggtgaacgccgggcacgactatggccagccg +gactctgcggccagcctgctgaccagcctcaacgagctcggagaacggcaactcgtcaaggtcgtcaagtgg +gccaagggcatgccaggttttcggagtctgtacgtggatgaccagatgacagtcatccagcactcctggatg +gcagtgatggtgttcgctctgggctggaggtcatttaagaatgtgaagtccaggatgctttactttgctcct +gaccttgttttcaacgagcaccgaatgcaggtgtccaccatgtatgaacactgcatccggatgaagaacttc +tcccaggagtttgctatgctgcaggtctcccaggaagagttcctgtgcatgaaagctctgcttctcttcagc +accatccccgttgaagggctgaaggggcagaatttctttgacgagctgcggaggagctacattaacgagctg +gaccggctggttagcttcaggagcaagtccagctgttccgagaggttccagcagctcacccgcctcctggac +tccctccaacctgttctgaagaagctccaccagtttacgttcgaccttttcgtccagtcccagaacctctcc +aaccaagtttgctttcccgagatgatctcagagatcatatccgtgcacgtgccaaagattctcgctggcacg +gtgaagccaatcctcttccacaagtag +>EMBLCDS|AAK20930/1-1317 Petromyzon marinus (sea lamprey) partial corticoid receptor +ggggtggagtttcagttgccctactcggcatctgccacatcctttcgtccgtccgttgccacctcgtccgcc +tcgggcatctccaacttttcaaatgggaataattttggattcctttctcccaatggagtacaacaggatgga +tttccttaccctggtttcacgagtcccgcacagtcctcagtccctccgcagaaggcgtgtctcatctgtagt +gatgaggcttcgggctgccactacggagtgctcacctgtggaagctgcaaggtgttcttcaagcgtgccgtg +gaaggacagcacaattatctgtgcgccggacgaaacgactgcatcattgacaagatccgccgcaagaactgc +ccagcttgccgtctgcgcaagtgcatccaggctggaatgacgctaggagcacgcaagcttaagaagcaaggc +cgggtaaagggagagaaccagcgcagcccagcgtcctccacagccaccacctcgtctgccaccccgcaaccc +tccagcaactcgacggccgtgaccacgttctcgccaccgccgaccggagagcccattttctcacccacactc +atcgccatcctgcaggcgatcgagcccgaggtggtcatgtccggctatgacaacacgcggtcccagaccacc +gcctacatgctgtcgagcctcaaccgcctctgcgacaagcagctcgtgtccattgtcaagtgggccaagtct +ctgccaggtttccgaaacctgcacatcgacgaccagatggtgttaatccagtactcatggatgggcctgatg +tcatttgccatgagctggaggtccttccagcacaccaacagcaagctgctctactttgctcctgatctggtt +tttgatgagacgcgcatgcagcartcggcgatgtatcaattgtgcgtggaaatgaggcaagtctcggaggac +ttcatgaagttgcaagtcacttcagaggagtttctgtgcatgaaagccatcttgctcctgagtactgtccca +caagagggtctgaagagccagggctgcttcgaggagatgcggatcagctacatccgggaattgaaccggacc +atcgcgcggacggagaagaatgccgtgcagtgttggcagcgcttctaccagctcaccaagctgctggrctgc +atgcaggatctcgtgagcaagctcctggagttctgcttcgcaaccttcacgcagacgcaggtgtggagtgtg +gagtttcctgacatgatggccgagatcatcagtgcgcagcttgcctcgcatcatggccgagaagcccgggca +ctccacttccacaagaaatga +>EMBLCDS|AAA17402/1-1032 Serinus canaria (common canary) partial androgen receptor +gaagcctccgggtgccactacggagccctgacgtgtgggagctgcaaagtgttcttcaaacgggcagctgaa +ggtaaacagaagtacctctgtgccagccgcaacgactgcaccatcgacaagttccggcggaaaaactgcccc +tcctgccgcctgcgcaagtgctacgaggccgggatgacgcttggagcccgcaagctgaagaaactgggtaac +ctgaaggcacaggacgacatagagggagccagctcgtccagcccaacggaggagcaagctcccaagctggtg +atgacacgcattgatggctacgagtgccagcccatcttcctcaacgtcctggaggccatcgagcctggggtg +gtgtgtgctggccatgacaacagccagcctgactccttctccaacctgctgaccagcctgaatgagcttggg +gagaggcagctggtctacgtggtcaaatgggcaaaggctctgccaggatttcgcaacctgcatgtggatgac +cagatgtcaataatccagtactcttggatgggcctgatggtgtttgctatggggtggagatccttcaccaac +gtcaattccaggatgctttactttgctccagacctggtcttcaatgagtaccgcatgcacaaatccaggatg +tacagccagtgcatcaggatgcggcacctctcccaggaattcgggtggcttcagatcacaccccaggggttc +ctctgtatgaaggctctcctcttcttcagtattattccagtggatggcctgaagaaccagaagctcttcgat +gagctccgcatgaattacatcaaggaacttgaccgtatcattgcctgcaagaggaagaaccccacctcatgc +tcccggaggttttaccagctcaccaaggtcctggactccgtgactccgattgccaaggacctgcatcagttt +acatttgatctcctaatcaaggcacacatggtgagcgtggactacccagaaatgatggctgagatcatctct +gtgcaggttcccaagatcctgtct +>EMBLCDS|AAL37553/1-1455 Drosophila melanogaster (fruit fly) estrogen-related receptor +atgtccgacggcgtcagcatcttgcacatcaaacaggaggtggacactccatcggcgtcctgctttagtccc +agctccaagtcaacggccacgcagagtggcacaaacggcctgaaatcctcgccctcggtttcgccggaaagg +cagctctgcagctcgacgacctctctatcctgcgatttgcacaatgtatccttaagcaatgatggcgatagt +ctgaaaggaagtggtacaagtggcggcaatggcggaggaggaggtggtggtacgagtggtggaaatgcgacc +aatgcgagtgccggagctggatcgggatccgtcagggacgagctccgccgattgtgtttggtttgtggcgat +gtggccagtggattccactatggtgtggcgagttgtgaggcttgcaaagcgttctttaaacgcaccatccaa +ggcaacatcgagtacacgtgtccggcgaacaacgagtgtgagattaacaagcggagacgcaaggcctgccaa +gcgtgtcgcttccagaaatgtctactaatgggcatgctcaaggagggtgtgcgcttggatcgagttcgtgga +ggacggcagaagtaccgaaggaatcctgtatcaaactcttaccagactatgcagctgctataccaatccaac +accacctcgctgtgcgatgtcaagatactggaggtgctcaattcatatgagccggatgccttgagcgtccaa +acgccgccgccgcaagtccacacgactagcataactaatgatgaggcctcatcctcctcgggcagcataaaa +ctggagtccagcgttgttacgcccaatgggacttgcattttccaaaacaacaacaacaatgatcccaatgag +atactaagcgtccttagtgatatttacgacaaggaattggtcagcgtcattggctgggccaagcagatacct +ggctttatagatctgccacttaacgaccagatgaagcttctccaggtgtcgtgggcagagatcctgacgctc +cagctgaccttccggtccctaccgttcaatggcaagttatgcttcgccacggatgtctggatggatgaacat +ttggccaaggagtgcggttacacggagttctactaccactgcgtccagatcgcacagcgcatggaaagaata +tcgccacgaagggaggagtactacttgctaaaggcgctcctgctggccaactgcgacattctgctggatgat +cagagttccctgcgcgcatttcgtgatacgattcttaattctctaaacgatgtggtctacttgctgcgtcat +tcgtcggccgtgtcgcatcagcaacaattgctgcttttgctgccttcgctgcggcaggcggatgatatcctg +cgaagattttggcgtggaattgcacgcgatgaagtcattaccatgaagaaactgttcctcgagatgctcgag +ccgctggccaggtga +>EMBLCDS|AAK20929/1-1662 Petromyzon marinus (sea lamprey) partial estrogen receptor +gcacgaggcttcagcgaggcacatggctacgagtactccggggcctcgctctaccagccactgcctccctcg +tgcacagagttctcaattggagctcatcaacaacaacaacatcagcaccagcatcaccagcaccagcatcag +cagcaccaccaccagcagcagcagcagcagccacagccgcagcagaatggagttttgggcgaggggcagagt +tcccatctctcttatcttccgccctcgaccgagctgccccagtacgtgccctccagccccagcgcgccctac +agcatggagctcggggcagggcgtcctcacggctacgacccagggccacagagcctctacaggggcggtgtg +gagagcagcgcccccccgtacagcgagcagcagcaggtggtgggcggcggcggagccatgtcggccatgggc +ttgacagagccacgccacgtcagctccggatcgctacccagcagcacgaggcccgagcgcagcacccagttc +tgtgccgtgtgcagcgactatgcctcggggtaccactacggcgtgtggtcctgcgagggctgcaaagccttc +ttcaagcgcagcacgcaaggccacaatgactacatgtgcccggccaccaaccagtgcaccatcgacaggaac +cgtcgcaagagctgtcaggcttgccgcctgcgtaagtgctacgaagtgggcatggtcaaaggcgttcgcaag +gaccgcaaaggctttcgaggggtcaagcacaaacgtaagcgccccatcccccaaaagaatgggggagaagga +ggtgccggcggcggccaagacgtgagcgagacgaggcctcagggtgagaggccctccgggccgagggaccgg +gagagcgccgtcagctcactcgaggctgaccaggtgatctcggctcttctggaggctgagccacccaccgta +ctgtcctcgtatgaccccgacaagcctgtgacggaggcctcgctcatggctgctctcaccagcctggctgac +cgagagctcgtgcacatgatcacctgggctaagaagattccaggattcacggccatcgggctgagtgaccag +gtgcagctgctggagtgctgctggctggagatcctaatcgtggggctcatctggaggtctatcgatcgccct +ggtcagctccactttgctccaaacctcatcctaggaagggaggacgcgcgcaatgtggagggcatgctggac +atgttcgacatgctgctcgtcaccgtgagtcgcttccgtgagctgcatctccgccgggaggaatacgtctgc +ctcaaggccatgatcctcctcaactcgggggtgtttttctgcctctccaattccgccggggagcagacgaat +gtgcagctcatccagcagatcctcgagaaggtgatggacgccctgggcagcaccatcggccacattgaggcg +tccccgccgcaacactcgcgtcgcctctcccagctgctcctgctgctttcacagatccggcacattagcaac +aagggcatcgagcatctcaacagcatgaagcgtaagaatgtgatcccgctatacgacctgctccttgagctg +ctggacgctcacagcctgcagaatactggcttacggacgtcgcccccaccgcaggatttcagggcaaccctc +gtgccg diff --git a/utils/jalviewjs/site-resources/examples/estrogenReceptorCdna_aln.fa b/utils/jalviewjs/site-resources/examples/estrogenReceptorCdna_aln.fa new file mode 100644 index 0000000..2f121db --- /dev/null +++ b/utils/jalviewjs/site-resources/examples/estrogenReceptorCdna_aln.fa @@ -0,0 +1,320 @@ +>EMBLCDS|ADZ17331/1-1593 Homo sapiens (human) estrogen nuclear receptor beta variant a +------------------------------------------------------------------------ +------------------------------------------------------------------------ +------------------------------------------------------------------------ +------------------------------------------------------------------------ +------------------------------------------------------------------------ +------------------------------------------------------------------------ +------------------------------------------------------------------------ +------atggatataaaaaactcaccatctagccttaattctccttcctcctacaactgcagtcaatccatc +------------------ttacccctggagcacggctccatatacataccttcctcctatgtagacagccac +catgaatatccagccatgacattctatagccctgctgtgatgaattacagcattcccagcaatgtcactaac +ttggaaggtgggcctggtcggcagacc---------------------acaagccca--------------- +---------------aatgtgttgtggccaacacctgggcacctttctcctttagtggtccatcgccagtta +tcacatctgtat------------------------------------------------------------ +------------------------------------------------------------------------ +gcggaacctcaaaagagtccctggtgtgaagcaagatcgctagaacacaccttacctgtaaacagagagaca +ctgaaa------------------------------aggaaggttagtgggaac------------------ +---------------------------cgttgcgccagccctgttactggtcca------------------ +------------------------------------------------------------------------ +---------------------------------------------------------ggttcaaagagggat +gctcacttc--------------------------------------------------------------- +------------------------------------tgcgctgtctgcagcgattacgcatcgggatatcac +tatggagtctggtcgtgtgaaggatgtaaggccttttttaaaagaagcattcaaggacataatgattatatt +tgtccagctacaaatcagtgtacaatcgataaaaaccggcgcaagagctgccaggcctgccgacttcggaag +tgttacgaagtgggaatggtgaagtgtggctcccggagagagagatgt---gggtaccgccttgtgcggaga +cagagaagtgccgacgagcagctgcactgtgccggcaaggccaagagaagtggcggccac------------ +---------------------------gcgccccgagtgcgggagctgctgctggacgccctgagccccgag +cagctagtgctcaccctcctggaggct---gagccgccccatgtgctgatcagc------------------ +------------------------------------------------------------------cgc--- +cccagtgcgcccttcaccgaggcctccatgatgatgtccctgaccaagttggccgacaaggagttggtacac +atgatcagctgggccaagaagattcccggctttgtggagctcagcctgttcgaccaagtgcggctcttggag +agctgttggatggaggtgttaatgatggggctgatgtggcgctcaattgac------caccccggcaagctc +atctttgctccagatcttgttctggacagggatgaggggaaatgcgtagaaggaattctggaaatctttgac +atgctcctggcaact---------acttcaaggtttcgagagttaaaactccaacacaaagaatatctctgt +gtcaaggccatgatcctgctcaattccagtatgtaccctctggtcacagcgacc---caggatgctgacagc +agccggaagctggctcacttgctgaacgccgtgaccgatgctttggtttgggtgattgccaagagcggcatc +tcctcccagcagcaatccatgcgcctggctaacctcctgatgctcctgtcccacgtcaggcatgcgagtaac +aagggcatggaacatctgctcaac------atgaagtgcaaaaatgtg---------gtcccagtgtatgac +ctgctgctggagatgctgaatgcccacgtgcttcgcgggtgcaagtcctccatcacggggtccgagtgcagc +ccggcagaggacagtaaaagcaaagagggctcccagaacccacagtctcagtga +>EMBLCDS|AAK93056/1-1455 Drosophila melanogaster (fruit fly) GH28308p +------------------------------------------------------------------------ +------------------------------------------------------------------------ +------------------------------------------------------------------------ +------------------------------------------------------------------------ +------------------------------------------------------------------------ +------------------------------------------------------------------------ +------------------------------------------------------------------------ +------------------------------------------------------------------------ +---------------------------------atgtccgacggcgtcagcatcttgcacatcaaacaggag +gtggacactccatcggcgtcctgctttagtcccagctccaagtcaacggccacgcagagtggcacaaacggc +ctgaaa------------------------------------------tcctcgccc--------------- +---------------tcggtttcgccggaaaggcagctctgcagctcgacgacctctctatcctgcgatttg +cacaatgtatcc------------------------------------------------------------ +---------------------------------------------------------ttaagcaatgatggc +gatagtctgaaaggaagtggtacaagtggcggcaatggcggaggaggaggtggtggtacgagtggtggaaat +gcgacc------------------------------------------------------------------ +------------------------------aatgcgagtgccggagctggatcg------------------ +------------------------------------------------------------------------ +---------------------------------------------------------ggatccgtcagggac +gagctccgccgattg--------------------------------------------------------- +------------------------------------tgtttggtttgtggcgatgtggccagtggattccac +tatggtgtggcgagttgtgaggcttgcaaagcgttctttaaacgcaccatccaaggcaacatcgagtacacg +tgtccggcgaacaacgagtgtgagattaacaagcggagacgcaaggcctgccaagcgtgtcgcttccagaaa +tgtctactaatgggcatgctcaaggagggtgtgcgcttggatcgagttcgtggaggacggcagaagtaccga +aggaatcctgtatcaaactcttaccagactatgcagctgctataccaatccaacaccacctcgctg------ +---------------------------tgcgatgtcaagatactggaggtgctcaattcatatgagccggat +gccttgagcgtccaaacg------------ccgccgccgcaagtccacacgactagcataactaatgatgag +gcctcatcctcctcgggcagcataaaactggagtccagcgttgttacgcccaatgggacttgcattttccaa +aacaacaacaacaatgatcccaatgagatactaagcgtccttagtgatatttacgacaaggaattggtcagc +gtcattggctgggccaagcagatacctggctttatagatctgccacttaacgaccagatgaagcttctccag +gtgtcgtgggcagagatcctgacgctccagctgaccttccggtccctaccg------ttcaatggcaagtta +tgcttcgccacggatgtctggatggatgaacatttggccaaggagtgc---ggttacacggagttctactac +cactgcgtccagatc---------gcacagcgcatggaaagaatatcgccacgaagggaggagtactacttg +ctaaaggcgctcctgctggccaactgcgacattctgctg------------------gatgatcagagttcc +ctgcgcgcatttcgtgatacgattcttaattctctaaacgatgtggtctacttgctgcgtcattcgtcggcc +gtgtcgcatcagcaa---------------caattgctgcttttgctgccttcgctgcggcaggcggatgat +atcctgcgaagattttggcgtgga------attgcacgcgatgaagtc---------attaccatgaagaaa +ctgttcctcgagatgctcgag--------------------------------------------------- +---------------------------------------ccgctggccaggtga +>EMBLCDS|BAA89539/1-2133 Anguilla japonica (Japanese eel) progesterone receptor +------------------------------------------------------------------------ +------------------------------------------------------------atggacaacaat +caccaagacaagatggaaagtctatacacgccagccagagcatcaccaactcctgatgcagaatcgattaaa +agagccaggaatttgattaaaacatactcggagtcttttgggagttatgtggaggagatagttcgagacgac +tcgaataacatacaatctttgagcagcgtccctctcttgatgcgtaattttggaaacatggacaccctaacc +tgcgcacctggctcgggtagtgacagtgagatttggaaagactttgttgttcccgggaactctgtggtaagc +aaagacacctgtggtcatgttgaaatatccactaaagccgaaaatttgtcttgggctgccgcgcccttaagt +agagaagaaaccctcgcgaaaggaactgttacggtcccagcgactgtgcctaaagaaagttttaccgcaaca +---------------tcaaacacttcttcagccagtggaatctctattaaagatgaacaacaatctttgctc +aaaatggaaccacagtcttctgacttttgtccttatacagcaaatataccgaaattgaatccatcttatctg +accaatactgcgagtacgaaacaacttggatatggc------------gaacagccg--------------- +---------------gacacttcagcgcactcctctccacctgctcagaagattgttttagatactgctcga +tactcggccgat------------------------------------------------------------ +------------------------------------------ttatgttcggataaccctttaccgcaagcg +acaaatatcaaaacagatccttgtagtagtttctcttctttcgttggagaagggatccttactagggcatct +atgggctactcacagcaagcgattcagacattgccggtgcacaagagtgaaccg------------------ +---------------------------ttcaggttgtctgcttcgagcgcgcccgcggattctccgttttgg +tgccaatcc--------------------------------------------------------------- +------------------------------------------------------acgggtccttctgaggat +catcatctgcagattgactatctatctcccgctggactccacagcacatgcaaatacagttccacgaacgcg +tacagctcctatttaggtgtgctgccccagagggtgtgcgtcatctgtggggatgaagcatcaggctgtcac +tatggtgtcctcacctgtggcagctgtaaggtgttctttaagagggcagtggaaggccatcataactacttg +tgtgctggacggaatgactgcatcgtggacaagatccgtaggaaaaactgtcctgcttgtcgcctcagaaag +tgctaccaggcgggaatgatactgggaggtcggaagctgaagaagttg---ggggctctgaaggcagcaggg +ctgacccaggccctggtggcccactcactgactcctcggaggctctctggtgacagccaggccctg------ +---------------------------atgcccctgggctgccttccaggggtccgggagctgcacctttcc +ccacagatcatcagcgtgctggagagcattgagcctgaggtggtgtactctggt------------------ +------------------------------------------------------------------tatgac +aactcccagcctgacatgcccaatatgctgctcaacagcctcaaccgcttatgtgagaggcagctgctgagg +attgtcaagtggtccaagtctttaccaggttttcgcagtttacacatcaatgaccaaatggctctgatccag +tactcctggatgagcttaatggtattttctttgggttggcggtctttccaaaatgtcaccagtgattacctg +tactttgcacctgacctcattctcaacgaagagtatatgaggaggtct------------ccaatatttgac +ctgtgcatggccatgcagttcatccctcaagagtttgccaatctccaggtgaccaaggaggagtttctgtgc +atgaaggtcttgctgttgctcaac------acagtgcctctg---------------gaggggttgaagagc +cagccacagtttgatgagatgaggcagaattacatccatgaactcaccaaggccattcacctgcgagagaat +ggtgtggtcgcctgctcccagcgtttctaccacctgaccaagctgatggaccacatgcatgacattgtgaag +aagctccacctgtactgcctgagcactttcattcaggcagatgccatgcgg------gtagagttccccgag +atgatgtcagaagtcatcgcctcccagctg------------------------------------------ +------------cctcgggtgctcgctggaatggtgaaaccccttctttttcacaccaaatga +>EMBLCDS|AHW56473/1-1590 Homo sapiens (human) partial estrogen receptor 2 isoform A +------------------------------------------------------------------------ +------------------------------------------------------------------------ +------------------------------------------------------------------------ +------------------------------------------------------------------------ +------------------------------------------------------------------------ +------------------------------------------------------------------------ +------------------------------------------------------------------------ +------atggatataaaaaactcaccatctagccttaattctccttcctcctacaactgcagtcaatccatc +------------------ttacccctggagcacggctccatatacataccttcctcctatgtagacagccac +catgaatatccagccatgacattctatagccctgctgtgatgaattacagcattcccagcaatgtcactaac +ttggaaggtgggcctggtcggcagacc---------------------acaagccca--------------- +---------------aatgtgttgtggccaacacctgggcacctttctcctttagtggtccatcgccagtta +tcacatctgtat------------------------------------------------------------ +------------------------------------------------------------------------ +gcggaacctcaaaagagtccctggtgtgaagcaagatcgctagaacacaccttacctgtaaacagagagaca +ctgaaa------------------------------aggaaggttagtgggaac------------------ +---------------------------cgttgcgccagccctgttactggtcca------------------ +------------------------------------------------------------------------ +---------------------------------------------------------ggttcaaagagggat +gctcacttc--------------------------------------------------------------- +------------------------------------tgcgctgtctgcagcgattacgcatcgggatatcac +tatggagtctggtcgtgtgaaggatgtaaggccttttttaaaagaagcattcaaggacataatgattatatt +tgtccagctacaaatcagtgtacaatcgataaaaaccggcgcaagagctgccaggcctgccgacttcggaag +tgttacgaagtgggaatggtgaagtgtggctcccggagagagagatgt---gggtaccgccttgtgcggaga +cagagaagtgccgacgagcagctgcactgtgccggcaaggccaagagaagtggcggccac------------ +---------------------------gcgccccgagtgcgggagctgctgctggacgccctgagccccgag +cagctagtgctcaccctcctggaggct---gagccgccccatgtgctgatcagc------------------ +------------------------------------------------------------------cgc--- +cccagtgcgcccttcaccgaggcctccatgatgatgtccctgaccaagttggccgacaaggagttggtacac +atgatcagctgggccaagaagattcccggctttgtggagctcagcctgttcgaccaagtgcggctcttggag +agctgttggatggaggtgttaatgatggggctgatgtggcgctcaattgac------caccccggcaagctc +atctttgctccagatcttgttctggacagggatgaggggaaatgcgtagaaggaattctggaaatctttgac +atgctcctggcaact---------acttcaaggtttcgagagttaaaactccaacacaaagaatatctctgt +gtcaaggccatgatcctgctcaattccagtatgtaccctctggtcacagcgacc---caggatgctgacagc +agccggaagctggctcacttgctgaacgccgtgaccgatgctttggtttgggtgattgccaagagcggcatc +tcctcccagcagcaatccatgcgcctggctaacctcctgatgctcctgtcccacgtcaggcatgcgagtaac +aagggcatggaacatctgctcaac------atgaagtgcaaaaatgtg---------gtcccagtgtatgac +ctgctgctggagatgctgaatgcccacgtgcttcgcgggtgcaagtcctccatcacggggtccgagtgcagc +ccggcagaggacagtaaaagcaaagagggctcccagaacccacagtctcag +>EMBLCDS|BAA75464/1-2547 Anguilla japonica (Japanese eel) androgen receptor alpha +atggagattccagttgggttaggaggagtttcagatgccacaaacgccgtttttcgcggaccttaccaaaac +gttttccacagccttcaagtggcatttcagagtcacggtgccgtctccaggagcttagattttccaaataca +aagtacggttttttacaaaacagacatttctgtgaaatgcgtcaggagaacaagcagccgccatgcaaagga +ctcggcctattttacgggaaccatcgtaattcggacactgggacaaacgaagacgacatcgcttgtttttcc +agacagtccgacgctgaagccagacctggtattttttctgaaagctcattggatactggagacgagattact +tgcaaactccagtcagacaaccaaggggtaagagcgagcggtcctctcctaccgggctctagcggctgcaat +tcgggacaaaagtcctcccttgcttgtacgtcccaacaaagggagacaacatctcaaagtgacacctgcgca +ggagagagctgctcggaacatcaagcaactaccatttcggaaactgcgcgcgaattgtgcaacgccgtttcc +gtgtcgctgggcttgaatttagatcttaatgatatgaatgacctaagttcaaaccaaatatcgtctaccgaa +agtgacacaagtcaagccatctacttatttgaatcttcacctgggtatactggggtcggactgaacgccttg +gtaagagactgtaaatgtcagagtgcacgcgaagggacatcgacacaacagtacgaccgcggggcaatgttt +aagataaaccgtgtaaatgacttgccgcttcagccagcacccccgcgacacaccagcattagcgatgctaaa +tgggacatggaagcaggtttgtgtgcgcagatggagcacaaagactctgaaaagtgcgcgaatatggatggt +gcacactccacttctgtcttctcccagttcgaccaactgttgccagtaaacgcgtcgcactacagtcagaac +gtttcggtcagagtggaaccacaaagtgatttctctccgattttgtacaaatcacctggtattcagaaaaat +gccgaaaagtacaatgtccaatatgatgccacaattaaatcagaagatgggaaaacgacatctgaacgggaa +tggggttttcagtacaggtacaatgaaagctgcagcacaccgtcagcacctcctagacattgtgcacatcag +aacagggccggaccgtacaaccagttcttttttaatccatttgaatatgcgaaaagaggtgttgtctcaagg +gaaggatattctctcgaacatgggttcccaaacaatctcgctcggacaccctactctggttccttgaaaaac +gaactaggagatcgtctgagtgggccataccctgacgtcagttacaggtacgagggcgagcgggagaacgtg +ttccccgtggagttcttctttccgccgcagaggacctgcctgatctgcggggacgaggcctcgggctgtcac +tatggagccctcacctgcggcagctgcaaggtgttcttcaagagggccgcggaagggaaacagaagtacctg +tgcgccagcatcaatgattgcaccattgataaacttcgaaggaagaactgcccctcttgccgtctcaaaagg +tgctttgctgccggaatgaccctt---------------------------ggagcgcggaagctgaagaag +atcgggcaaatgagggcccccgaggatggccaggggcagggcccggcggaagcggagctgagcgtc------ +---------------------------tcccccaagtacgacctg------------ggcttccacacccag +tccatgttcctcaacatcctggaggccatcgagccggaggtggtgaacgccggg------------------ +------------------------------------------------------------------cacgac +tatggccagccggactctgcggccagcctgctgaccagcctcaacgagctcggagaacggcaactcgtcaag +gtcgtcaagtgggccaagggcatgccaggttttcggagtctgtacgtggatgaccagatgacagtcatccag +cactcctggatggcagtgatggtgttcgctctgggctggaggtcatttaagaatgtgaagtccaggatgctt +tactttgctcctgaccttgttttcaacgagcaccgaatgcaggtgtcc------------accatgtatgaa +cactgcatccggatgaagaacttctcccaggagtttgctatgctgcaggtctcccaggaagagttcctgtgc +atgaaagctctgcttctcttcagc------accatccccgtt---------------gaagggctgaagggg +cagaatttctttgacgagctgcggaggagctacattaacgagctggaccggctggttagcttcaggagcaag +tccagc------tgttccgagaggttccagcagctcacccgcctcctggactccctccaacctgttctgaag +aagctccaccagtttacgttcgaccttttcgtccagtcccagaacctctccaaccaagtttgctttcccgag +atgatctcagagatcatatccgtgcacgtg------------------------------------------ +------------ccaaagattctcgctggcacggtgaagccaatcctcttccacaagtag +>EMBLCDS|AAA17402/1-1032 Serinus canaria (common canary) partial androgen receptor +------------------------------------------------------------------------ +------------------------------------------------------------------------ +------------------------------------------------------------------------ +------------------------------------------------------------------------ +------------------------------------------------------------------------ +------------------------------------------------------------------------ +------------------------------------------------------------------------ +------------------------------------------------------------------------ +------------------------------------------------------------------------ +------------------------------------------------------------------------ +------------------------------------------------------------------------ +------------------------------------------------------------------------ +------------------------------------------------------------------------ +------------------------------------------------------------------------ +------------------------------------------------------------------------ +------------------------------------------------------------------------ +------------------------------------------------------------------------ +------------------------------------------------------------------------ +------------------------------------------------------------------------ +------------------------------------------------------------------------ +------------------------------------------------------gaagcctccgggtgccac +tacggagccctgacgtgtgggagctgcaaagtgttcttcaaacgggcagctgaaggtaaacagaagtacctc +tgtgccagccgcaacgactgcaccatcgacaagttccggcggaaaaactgcccctcctgccgcctgcgcaag +tgctacgaggccgggatgacgctt---------------------------ggagcccgcaagctgaagaaa +ctgggtaacctgaaggcacaggacgacatagagggagccagctcgtccagcccaacggaggagcaa------ +---------------------------gctcccaagctggtgatgacacgcattgatggctacgagtgccag +cccatcttcctcaacgtcctggaggccatcgagcctggggtggtgtgtgctggc------------------ +------------------------------------------------------------------catgac +aacagccagcctgactccttctccaacctgctgaccagcctgaatgagcttggggagaggcagctggtctac +gtggtcaaatgggcaaaggctctgccaggatttcgcaacctgcatgtggatgaccagatgtcaataatccag +tactcttggatgggcctgatggtgtttgctatggggtggagatccttcaccaacgtcaattccaggatgctt +tactttgctccagacctggtcttcaatgagtaccgcatgcacaaatcc------------aggatgtacagc +cagtgcatcaggatgcggcacctctcccaggaattcgggtggcttcagatcacaccccaggggttcctctgt +atgaaggctctcctcttcttcagt------attattccagtg---------------gatggcctgaagaac +cagaagctcttcgatgagctccgcatgaattacatcaaggaacttgaccgtatcattgcctgcaagaggaag +aaccccacctcatgctcccggaggttttaccagctcaccaaggtcctggactccgtgactccgattgccaag +gacctgcatcagtttacatttgatctcctaatcaaggcacacatggtgagc------gtggactacccagaa +atgatggctgagatcatctctgtgcaggtt------------------------------------------ +------------cccaagatcctgtct +>EMBLCDS|AAL37553/1-1455 Drosophila melanogaster (fruit fly) estrogen-related receptor +------------------------------------------------------------------------ +------------------------------------------------------------------------ +------------------------------------------------------------------------ +------------------------------------------------------------------------ +------------------------------------------------------------------------ +------------------------------------------------------------------------ +------------------------------------------------------------------------ +------------------------------------------------------------------------ +---------------------------------atgtccgacggcgtcagcatcttgcacatcaaacaggag +gtggacactccatcggcgtcctgctttagtcccagctccaagtcaacggccacgcagagtggcacaaacggc +ctgaaa------------------------------------------tcctcgccc--------------- +---------------tcggtttcgccggaaaggcagctctgcagctcgacgacctctctatcctgcgatttg +cacaatgtatcc------------------------------------------------------------ +---------------------------------------------------------ttaagcaatgatggc +gatagtctgaaaggaagtggtacaagtggcggcaatggcggaggaggaggtggtggtacgagtggtggaaat +gcgacc------------------------------------------------------------------ +------------------------------aatgcgagtgccggagctggatcg------------------ +------------------------------------------------------------------------ +---------------------------------------------------------ggatccgtcagggac +gagctccgccgattg--------------------------------------------------------- +------------------------------------tgtttggtttgtggcgatgtggccagtggattccac +tatggtgtggcgagttgtgaggcttgcaaagcgttctttaaacgcaccatccaaggcaacatcgagtacacg +tgtccggcgaacaacgagtgtgagattaacaagcggagacgcaaggcctgccaagcgtgtcgcttccagaaa +tgtctactaatgggcatgctcaaggagggtgtgcgcttggatcgagttcgtggaggacggcagaagtaccga +aggaatcctgtatcaaactcttaccagactatgcagctgctataccaatccaacaccacctcgctg------ +---------------------------tgcgatgtcaagatactggaggtgctcaattcatatgagccggat +gccttgagcgtccaaacg------------ccgccgccgcaagtccacacgactagcataactaatgatgag +gcctcatcctcctcgggcagcataaaactggagtccagcgttgttacgcccaatgggacttgcattttccaa +aacaacaacaacaatgatcccaatgagatactaagcgtccttagtgatatttacgacaaggaattggtcagc +gtcattggctgggccaagcagatacctggctttatagatctgccacttaacgaccagatgaagcttctccag +gtgtcgtgggcagagatcctgacgctccagctgaccttccggtccctaccg------ttcaatggcaagtta +tgcttcgccacggatgtctggatggatgaacatttggccaaggagtgc---ggttacacggagttctactac +cactgcgtccagatc---------gcacagcgcatggaaagaatatcgccacgaagggaggagtactacttg +ctaaaggcgctcctgctggccaactgcgacattctgctg------------------gatgatcagagttcc +ctgcgcgcatttcgtgatacgattcttaattctctaaacgatgtggtctacttgctgcgtcattcgtcggcc +gtgtcgcatcagcaa---------------caattgctgcttttgctgccttcgctgcggcaggcggatgat +atcctgcgaagattttggcgtgga------attgcacgcgatgaagtc---------attaccatgaagaaa +ctgttcctcgagatgctcgag--------------------------------------------------- +---------------------------------------ccgctggccaggtga +>EMBLCDS|AAK20929/1-1662 Petromyzon marinus (sea lamprey) partial estrogen receptor +------------------------------------------------------------------------ +------------------------------------------------------------------------ +------------------------------------------------------------------------ +------------------------------------------------------------------------ +------------------------------------------------------------------------ +------------------------------------------------------------------------ +---------------------------------------------------------gcacgaggcttcagc +gaggcacatggctacgagtactccggggcctcgctctaccagccactgcctccctcgtgcacagagttctca +---------------------------------attggagctcatcaacaacaacaacatcagcaccagcat +caccagcaccagcatcagcagcaccaccaccagcagcagcagcagcagccacagccgcagcagaatggagtt +ttgggcgaggggcagagttcccatctctcttatcttccgccctcgaccgagctgccc--------------- +---------------cagtacgtgccctccagccccagcgcgccctacagcatggagctcggggcagggcgt +cctcacggctacgac--------------------------------------------------------- +------------------------------------------ccagggccacagagcctctacaggggcggt +gtggagagcagcgcccccccgtacagcgagcagcagcaggtggtgggcggcggcggagccatgtcggccatg +ggcttg---------------------------------------acagagcca------------------ +---------------------------cgccacgtcagctccggatcgctaccc------------------ +------------------------------------------------------------------------ +---------------------------------------------------------agcagcacgaggccc +gagcgcagcacccagttc------------------------------------------------------ +------------------------------------tgtgccgtgtgcagcgactatgcctcggggtaccac +tacggcgtgtggtcctgcgagggctgcaaagccttcttcaagcgcagcacgcaaggccacaatgactacatg +tgcccggccaccaaccagtgcaccatcgacaggaaccgtcgcaagagctgtcaggcttgccgcctgcgtaag +tgctacgaagtgggcatggtcaaa---ggcgttcgcaaggaccgcaaa---ggctttcgaggggtcaagcac +aaacgtaagcgccccatcccccaaaagaatgggggagaaggaggtgccggcggcggccaagacgtgagcgag +acgaggcctcagggtgagaggccctccgggccgagggaccgggagagcgccgtcagctcactcgaggctgac +caggtgatctcggctcttctggaggct---gagccacccaccgtactgtcctcg------------------ +------------------------------------------------------------------tatgac +cccgacaagcctgtgacggaggcctcgctcatggctgctctcaccagcctggctgaccgagagctcgtgcac +atgatcacctgggctaagaagattccaggattcacggccatcgggctgagtgaccaggtgcagctgctggag +tgctgctggctggagatcctaatcgtggggctcatctggaggtctatcgat------cgccctggtcagctc +cactttgctccaaacctcatcctaggaagggaggacgcgcgcaatgtggagggcatgctggacatgttcgac +atgctgctcgtcacc---------gtgagtcgcttccgtgagctgcatctccgccgggaggaatacgtctgc +ctcaaggccatgatcctcctcaactcgggggtgtttttctgcctctccaattccgccggggagcagacgaat +gtgcagctcatccagcagatcctcgagaaggtgatggacgccctgggcagcaccatcggccacattgaggcg +tccccgccgcaacactcgcgtcgcctctcccagctgctcctgctgctttcacagatccggcacattagcaac +aagggcatcgagcatctcaacagc------atgaagcgtaagaatgtg---------atcccgctatacgac +ctgctccttgagctgctggacgctcacagcctgcag---------------------aatactggcttacgg +acgtcgcccccaccgcaggatttcagggcaaccctcgtgccg diff --git a/utils/jalviewjs/site-resources/examples/estrogenReceptorCdna_frag.fa b/utils/jalviewjs/site-resources/examples/estrogenReceptorCdna_frag.fa new file mode 100644 index 0000000..c44766d --- /dev/null +++ b/utils/jalviewjs/site-resources/examples/estrogenReceptorCdna_frag.fa @@ -0,0 +1,32 @@ +>EMBLCDS|ADZ17331/532-675 Homo sapiens (human) estrogen nuclear receptor beta variant a +caaggacataatgattatatttgtccagctacaaatcagtgtacaatcgataaaaaccggcgcaagagctgc +caggcctgccgacttcggaagtgttacgaagtgggaatggtgaagtgtggctcccggagagagagatgt--- +ggg +>EMBLCDS|AAK93056/430-576 Drosophila melanogaster (fruit fly) GH28308p +caaggcaacatcgagtacacgtgtccggcgaacaacgagtgtgagattaacaagcggagacgcaaggcctgc +caagcgtgtcgcttccagaaatgtctactaatgggcatgctcaaggagggtgtgcgcttggatcgagttcgt +gga +>EMBLCDS|BAA89539/1111-1254 Anguilla japonica (Japanese eel) progesterone receptor +gaaggccatcataactacttgtgtgctggacggaatgactgcatcgtggacaagatccgtaggaaaaactgt +cctgcttgtcgcctcagaaagtgctaccaggcgggaatgatactgggaggtcggaagctgaagaagttg--- +ggg +>EMBLCDS|AHW56473/532-675 Homo sapiens (human) partial estrogen receptor 2 isoform A +caaggacataatgattatatttgtccagctacaaatcagtgtacaatcgataaaaaccggcgcaagagctgc +caggcctgccgacttcggaagtgttacgaagtgggaatggtgaagtgtggctcccggagagagagatgt--- +ggg +>EMBLCDS|BAA75464/1564-1683 Anguilla japonica (Japanese eel) androgen receptor alpha +gaagggaaacagaagtacctgtgcgccagcatcaatgattgcaccattgataaacttcgaaggaagaactgc +ccctcttgccgtctcaaaaggtgctttgctgccggaatgaccctt--------------------------- +gga +>EMBLCDS|AAA17402/70-189 Serinus canaria (common canary) partial androgen receptor +gaaggtaaacagaagtacctctgtgccagccgcaacgactgcaccatcgacaagttccggcggaaaaactgc +ccctcctgccgcctgcgcaagtgctacgaggccgggatgacgctt--------------------------- +gga +>EMBLCDS|AAL37553/430-576 Drosophila melanogaster (fruit fly) estrogen-related receptor +caaggcaacatcgagtacacgtgtccggcgaacaacgagtgtgagattaacaagcggagacgcaaggcctgc +caagcgtgtcgcttccagaaatgtctactaatgggcatgctcaaggagggtgtgcgcttggatcgagttcgt +gga +>EMBLCDS|AAK20929/592-732 Petromyzon marinus (sea lamprey) partial estrogen receptor +caaggccacaatgactacatgtgcccggccaccaaccagtgcaccatcgacaggaaccgtcgcaagagctgt +caggcttgccgcctgcgtaagtgctacgaagtgggcatggtcaaa---ggcgttcgcaaggaccgcaaa--- +ggc diff --git a/utils/jalviewjs/site-resources/examples/estrogenReceptorProtein.aln b/utils/jalviewjs/site-resources/examples/estrogenReceptorProtein.aln new file mode 100644 index 0000000..cfe7d80 --- /dev/null +++ b/utils/jalviewjs/site-resources/examples/estrogenReceptorProtein.aln @@ -0,0 +1,162 @@ +CLUSTAL + +UNIPROT|Q7LCB3/1-530 -------MDIKNSPSSLNSPSSYNCSQSILPLEHG-----------SIYIPSSYVDSHHE +UNIPROT|Q9VSE9/1-484 ----------------------------------M-----------SDGVSILHIKQEVD +UNIPROT|Q9IBD5/1-710 -----MDNNHQDKMESLYTPARASPTPDAESIKRARNLIKTYSESFGSYVEEIVRDDSNN +UNIPROT|Q7LCB3/1-530 -------MDIKNSPSSLNSPSSYNCSQSILPLEHG-----------SIYIPSSYVDSHHE +UNIPROT|Q9YGV9/1-848 MEIPVGLGGVSDATNAVFRGPYQNVFHSLQ----------------VAFQSHGAVSRSLD +UNIPROT|Q90ZM7/1-438 -----------------------------------------------------GVEFQLP +UNIPROT|Q91445/1-344 ------------------------------------------------------------ +UNIPROT|Q9VSE9/1-484 ----------------------------------M-----------SDGVSILHIKQEVD +UNIPROT|Q90ZM8/1-554 ARGFSEAHGYEYSGASLYQPLPPSCTEFSI----------------GAHQQQQHQHQHHQ + +UNIPROT|Q7LCB3/1-530 YPAM--------------------------------------------TFYSPAVMNYSI +UNIPROT|Q9VSE9/1-484 TPSA--------------------------------------------SCFSPSSKSTAT +UNIPROT|Q9IBD5/1-710 IQSLSSVPLLMRNFGNMDTLTCAPGSGSDSEIWKDFVVPGNSVVSKD-TCGHVEISTKAE +UNIPROT|Q7LCB3/1-530 YPAM--------------------------------------------TFYSPAVMNYSI +UNIPROT|Q9YGV9/1-848 FPNTKYGFLQNRHFCEMRQENKQPPCKGLGLFYGNHRNSDTGTNEDDIACFSRQSDAEAR +UNIPROT|Q90ZM7/1-438 YSASA-------------------------------------------TSFRPSVATSSA +UNIPROT|Q91445/1-344 ------------------------------------------------------------ +UNIPROT|Q9VSE9/1-484 TPSA--------------------------------------------SCFSPSSKSTAT +UNIPROT|Q90ZM8/1-554 HQHQ--------------------------------------------QHHHQQQQQQPQ + +UNIPROT|Q7LCB3/1-530 P---------SNVTNLEGGP-------GRQTTSPNVLWPTPGHLSPLVVHRQLSHLYAEP +UNIPROT|Q9VSE9/1-484 Q---------SGTNGLKSSP----------SVSPERQLCSS--TTSLSCDLHNVSLSNDG +UNIPROT|Q9IBD5/1-710 NLSWAAAPL-SREETLAKGTVTVPATVPKESFTATSNTSSASGIS--IKDEQQSLLKMEP +UNIPROT|Q7LCB3/1-530 P---------SNVTNLEGGP-------GRQTTSPNVLWPTPGHLSPLVVHRQLSHLYAEP +UNIPROT|Q9YGV9/1-848 PGIFSESSLDTGDEITCKLQSDNQGVRASGPLLPGSSGCNSGQKSSLACTSQQRETTSQS +UNIPROT|Q90ZM7/1-438 ----------SGISNFSNGN---------------------------------------- +UNIPROT|Q91445/1-344 ------------------------------------------------------------ +UNIPROT|Q9VSE9/1-484 Q---------SGTNGLKSSP----------SVSPERQLCSS--TTSLSCDLHNVSLSNDG +UNIPROT|Q90ZM8/1-554 P---------QQNGVLGEGQSSHLSYLPPSTELPQYVPSSPSAPYSMELGAGRPHGYDPG + +UNIPROT|Q7LCB3/1-530 QKSPWCE---------------------------------------------------AR +UNIPROT|Q9VSE9/1-484 DS--------------------------------------------------------LK +UNIPROT|Q9IBD5/1-710 QSSDFCPYTANIPKLNP-----------------------------------------SY +UNIPROT|Q7LCB3/1-530 QKSPWCE---------------------------------------------------AR +UNIPROT|Q9YGV9/1-848 DTCAGESCSEHQATTISETARELCNAVSVSLGLNLDLNDMNDLSSNQISSTESDTSQAIY +UNIPROT|Q90ZM7/1-438 ----------------------------------------------------------NF +UNIPROT|Q91445/1-344 ------------------------------------------------------------ +UNIPROT|Q9VSE9/1-484 DS--------------------------------------------------------LK +UNIPROT|Q90ZM8/1-554 PQSLYRGGVE------------------------------------------------SS + +UNIPROT|Q7LCB3/1-530 SLEHTLPVNRETLKRKVSGNRCASPV---------------------------------- +UNIPROT|Q9VSE9/1-484 GSGTSGGNGGGGGGGTSGGNATNASA---------------------------------- +UNIPROT|Q9IBD5/1-710 LTNTASTKQLGYGEQPDTSAHSSPPA---------------------------------- +UNIPROT|Q7LCB3/1-530 SLEHTLPVNRETLKRKVSGNRCASPV---------------------------------- +UNIPROT|Q9YGV9/1-848 LFESSPGYTGVGLNALVRDCKCQSAREGTSTQQYDRGAMFKINRVNDLPLQPAPPRHTSI +UNIPROT|Q90ZM7/1-438 GFLSPNGVQQDGFPYPGFTSPAQSSV---------------------------------- +UNIPROT|Q91445/1-344 ------------------------------------------------------------ +UNIPROT|Q9VSE9/1-484 GSGTSGGNGGGGGGGTSGGNATNASA---------------------------------- +UNIPROT|Q90ZM8/1-554 APPYSEQQQVVGGGGAMSAMGLTEPR---------------------------------- + +UNIPROT|Q7LCB3/1-530 ------------------------------------------------------------ +UNIPROT|Q9VSE9/1-484 ------------------------------------------------------------ +UNIPROT|Q9IBD5/1-710 QKIVLDTARYSADLCSDNPLPQATNIKTDPCSSFSSFVGEGILTRASMGYSQQAIQTLPV +UNIPROT|Q7LCB3/1-530 ------------------------------------------------------------ +UNIPROT|Q9YGV9/1-848 SDAKWDMEAGLCAQMEHKDSEKCANMDGAHSTSVFSQFDQLLPVNASHYSQNVSVRVEPQ +UNIPROT|Q90ZM7/1-438 ------------------------------------------------------------ +UNIPROT|Q91445/1-344 ------------------------------------------------------------ +UNIPROT|Q9VSE9/1-484 ------------------------------------------------------------ +UNIPROT|Q90ZM8/1-554 ------------------------------------------------------------ + +UNIPROT|Q7LCB3/1-530 ------------------------------------------------------------ +UNIPROT|Q9VSE9/1-484 ------------------------------------------------------------ +UNIPROT|Q9IBD5/1-710 HKSEPFRLSASSAPADSPFW---------------------------------------- +UNIPROT|Q7LCB3/1-530 ------------------------------------------------------------ +UNIPROT|Q9YGV9/1-848 SDFSPILYKSPGIQKNAEKYNVQYDATIKSEDGKTTSEREWGFQYRYNESCSTPSAPPRH +UNIPROT|Q90ZM7/1-438 ------------------------------------------------------------ +UNIPROT|Q91445/1-344 ------------------------------------------------------------ +UNIPROT|Q9VSE9/1-484 ------------------------------------------------------------ +UNIPROT|Q90ZM8/1-554 ------------------------------------------------------------ + +UNIPROT|Q7LCB3/1-530 --------------------------------------------TGPGSKRDA------- +UNIPROT|Q9VSE9/1-484 -------------------------------------------GAGSGSVRDELR----- +UNIPROT|Q9IBD5/1-710 -------------------------------------------CQSTGPSEDHHLQIDYL +UNIPROT|Q7LCB3/1-530 --------------------------------------------TGPGSKRDA------- +UNIPROT|Q9YGV9/1-848 CAHQNRAGPYNQFFFNPFEYAKRGVVSREGYSLEHGFPNNLARTPYSGSLKNELGDRLSG +UNIPROT|Q90ZM7/1-438 ------------------------------------------------------------ +UNIPROT|Q91445/1-344 ------------------------------------------------------------ +UNIPROT|Q9VSE9/1-484 -------------------------------------------GAGSGSVRDELR----- +UNIPROT|Q90ZM8/1-554 -------------------------------------------HVSSGSLPSSTRPE--- + +UNIPROT|Q7LCB3/1-530 --------------------------HFCAVCSDYASGYHYGVWSCEGCKAFFKRSIQGH +UNIPROT|Q9VSE9/1-484 --------------------------RLCLVCGDVASGFHYGVASCEACKAFFKRTIQGN +UNIPROT|Q9IBD5/1-710 SPAGLHSTCKYSSTNAYSSYLGVLPQRVCVICGDEASGCHYGVLTCGSCKVFFKRAVEGH +UNIPROT|Q7LCB3/1-530 --------------------------HFCAVCSDYASGYHYGVWSCEGCKAFFKRSIQGH +UNIPROT|Q9YGV9/1-848 PYPDVSYRYEGERENVFPVEFFFPPQRTCLICGDEASGCHYGALTCGSCKVFFKRAAEGK +UNIPROT|Q90ZM7/1-438 -----------------------PPQKACLICSDEASGCHYGVLTCGSCKVFFKRAVEGQ +UNIPROT|Q91445/1-344 ----------------------------------EASGCHYGALTCGSCKVFFKRAAEGK +UNIPROT|Q9VSE9/1-484 --------------------------RLCLVCGDVASGFHYGVASCEACKAFFKRTIQGN +UNIPROT|Q90ZM8/1-554 -----------------------RSTQFCAVCSDYASGYHYGVWSCEGCKAFFKRSTQGH + +UNIPROT|Q7LCB3/1-530 NDYICPATNQCTIDKNRRKSCQACRLRKCYEVGMVKCGSRRER-CGYRLVRRQRSADEQL +UNIPROT|Q9VSE9/1-484 IEYTCPANNECEINKRRRKACQACRFQKCLLMGMLKEGVRLDRVRGGRQKYRRNPVSNSY +UNIPROT|Q9IBD5/1-710 HNYLCAGRNDCIVDKIRRKNCPACRLRKCYQAGMI---------LGGRKLKKLGALKAAG +UNIPROT|Q7LCB3/1-530 NDYICPATNQCTIDKNRRKSCQACRLRKCYEVGMVKCGSRRER-CGYRLVRRQRSADEQL +UNIPROT|Q9YGV9/1-848 QKYLCASINDCTIDKLRRKNCPSCRLKRCFAAGMT---------LGARKLKKIGQMRAPE +UNIPROT|Q90ZM7/1-438 HNYLCAGRNDCIIDKIRRKNCPACRLRKCIQAGMT---------LGARKLKKQGRVKGEN +UNIPROT|Q91445/1-344 QKYLCASRNDCTIDKFRRKNCPSCRLRKCYEAGMT---------LGARKLKKLGNLKAQD +UNIPROT|Q9VSE9/1-484 IEYTCPANNECEINKRRRKACQACRFQKCLLMGMLKEGVRLDRVRGGRQKYRRNPVSNSY +UNIPROT|Q90ZM8/1-554 NDYMCPATNQCTIDRNRRKSCQACRLRKCYEVGMVK-GVRKDR-KGFRGVKHKRKRPIPQ + +UNIPROT|Q7LCB3/1-530 HCAGKAKRSGGH------------------------APRVRELLLDALSPE--------Q +UNIPROT|Q9VSE9/1-484 QTMQLLYQSNTTSLCDVKILEVLNSYEPDALSVQTPPPQVHTTSITNDEASSSSGSI--K +UNIPROT|Q9IBD5/1-710 LTQALVAHSLTPRR---------LSGDSQALMPLGCLPGVRELHLS-------------P +UNIPROT|Q7LCB3/1-530 HCAGKAKRSGGH------------------------APRVRELLLDALSPE--------Q +UNIPROT|Q9YGV9/1-848 DGQGQGPAEAELSV----------------------SPKYDLGFHTQ------------S +UNIPROT|Q90ZM7/1-438 QRSPASSTATTSSA--------------------TPQPSSNSTAVTTFSPPPTGEPIFSP +UNIPROT|Q91445/1-344 DIEGASSSSPTEEQ----------------------APKLVMTRIDGYECQ--------P +UNIPROT|Q9VSE9/1-484 QTMQLLYQSNTTSLCDVKILEVLNSYEPDALSVQTPPPQVHTTSITNDEASSSSGSI--K +UNIPROT|Q90ZM8/1-554 KNGGEGGAGGGQDV-----------SETRPQGERPSGPRDRESAVSSLEAD--------Q + +UNIPROT|Q7LCB3/1-530 LVLTLLEA-EPPHVLISR-PSAPFTEASMMMSLTKLADKELVHMISWAKKIPGFVELSLF +UNIPROT|Q9VSE9/1-484 LESSVVTP-NGTCIFQNNNNNDP---NEILSVLSDIYDKELVSVIGWAKQIPGFIDLPLN +UNIPROT|Q9IBD5/1-710 QIISVLESIEPEVVYSGYDNSQPDMPNMLLNSLNRLCERQLLRIVKWSKSLPGFRSLHIN +UNIPROT|Q7LCB3/1-530 LVLTLLEA-EPPHVLISR-PSAPFTEASMMMSLTKLADKELVHMISWAKKIPGFVELSLF +UNIPROT|Q9YGV9/1-848 MFLNILEAIEPEVVNAGHDYGQPDSAASLLTSLNELGERQLVKVVKWAKGMPGFRSLYVD +UNIPROT|Q90ZM7/1-438 TLIAILQAIEPEVVMSGYDNTRSQTTAYMLSSLNRLCDKQLVSIVKWAKSLPGFRNLHID +UNIPROT|Q91445/1-344 IFLNVLEAIEPGVVCAGHDNSQPDSFSNLLTSLNELGERQLVYVVKWAKALPGFRNLHVD +UNIPROT|Q9VSE9/1-484 LESSVVTP-NGTCIFQNNNNNDP---NEILSVLSDIYDKELVSVIGWAKQIPGFIDLPLN +UNIPROT|Q90ZM8/1-554 VISALLEA-EPPTVLSSYDPDKPVTEASLMAALTSLADRELVHMITWAKKIPGFTAIGLS + +UNIPROT|Q7LCB3/1-530 DQVRLLESCWMEVLMMGLMWRSIDH--PGKLIFAPDLVLDRDEGKCVEGILEIFDMLLA- +UNIPROT|Q9VSE9/1-484 DQMKLLQVSWAEILTLQLTFRSLPF--NGKLCFATDVWMDEHLAKEC-GYTEFYYHCVQ- +UNIPROT|Q9IBD5/1-710 DQMALIQYSWMSLMVFSLGWRSFQNVTSDYLYFAPDLILNEEYMRRS----PIFDLCMAM +UNIPROT|Q7LCB3/1-530 DQVRLLESCWMEVLMMGLMWRSIDH--PGKLIFAPDLVLDRDEGKCVEGILEIFDMLLA- +UNIPROT|Q9YGV9/1-848 DQMTVIQHSWMAVMVFALGWRSFKNVKSRMLYFAPDLVFNEHRMQVS----TMYEHCIRM +UNIPROT|Q90ZM7/1-438 DQMVLIQYSWMGLMSFAMSWRSFQHTNSKLLYFAPDLVFDETRMQQS----AMYQLCVEM +UNIPROT|Q91445/1-344 DQMSIIQYSWMGLMVFAMGWRSFTNVNSRMLYFAPDLVFNEYRMHKS----RMYSQCIRM +UNIPROT|Q9VSE9/1-484 DQMKLLQVSWAEILTLQLTFRSLPF--NGKLCFATDVWMDEHLAKEC-GYTEFYYHCVQ- +UNIPROT|Q90ZM8/1-554 DQVQLLECCWLEILIVGLIWRSIDR--PGQLHFAPNLILGREDARNVEGMLDMFDMLLV- + +UNIPROT|Q7LCB3/1-530 --TTSRFRELKLQHKEYLCVKAMILLNSSMYPLVTATQDADSSRKL-AHLLNAVTDALVW +UNIPROT|Q9VSE9/1-484 --IAQRMERISPRREEYYLLKALLLANC------DILLDDQSSLRAFRDTILNSLNDVVY +UNIPROT|Q9IBD5/1-710 QFIPQEFANLQVTKEEFLCMKVLLLLN-------TVPLEGLKSQPQFDEMRQNYIHELTK +UNIPROT|Q7LCB3/1-530 --TTSRFRELKLQHKEYLCVKAMILLNSSMYPLVTATQDADSSRKL-AHLLNAVTDALVW +UNIPROT|Q9YGV9/1-848 KNFSQEFAMLQVSQEEFLCMKALLLFS-------TIPVEGLKGQNFFDELRRSYINELDR +UNIPROT|Q90ZM7/1-438 RQVSEDFMKLQVTSEEFLCMKAILLLS-------TVPQEGLKSQGCFEEMRISYIRELNR +UNIPROT|Q91445/1-344 RHLSQEFGWLQITPQGFLCMKALLFFS-------IIPVDGLKNQKLFDELRMNYIKELDR +UNIPROT|Q9VSE9/1-484 --IAQRMERISPRREEYYLLKALLLANC------DILLDDQSSLRAFRDTILNSLNDVVY +UNIPROT|Q90ZM8/1-554 --TVSRFRELHLRREEYVCLKAMILLNSGVFFCLSNSAGEQTNVQLIQQILEKVMDALGS + +UNIPROT|Q7LCB3/1-530 VIAKSGISSQQQSMRLANLLMLLSHVRHASNKGMEHLLNMKCKNV-----VPVYDLLLEM +UNIPROT|Q9VSE9/1-484 LLRHSSAVSHQQ-----QLLLLLPSLRQADDILRRFWRGIARDEV-----ITMKKLFLEM +UNIPROT|Q9IBD5/1-710 AIHLRENGVVACSQRFYHLTKLMDHMHDIVKKLHLYCLSTFIQADAMR--VEFPEMMSEV +UNIPROT|Q7LCB3/1-530 VIAKSGISSQQQSMRLANLLMLLSHVRHASNKGMEHLLNMKCKNV-----VPVYDLLLEM +UNIPROT|Q9YGV9/1-848 LVSFRSK--SSCSERFQQLTRLLDSLQPVLKKLHQFTFDLFVQSQNLSNQVCFPEMISEI +UNIPROT|Q90ZM7/1-438 TIARTEKNAVQCWQRFYQLTKLLXCMQDLVSKLLEFCFATFTQTQVWS--VEFPDMMAEI +UNIPROT|Q91445/1-344 IIACKRKNPTSCSRRFYQLTKVLDSVTPIAKDLHQFTFDLLIKAHMVS--VDYPEMMAEI +UNIPROT|Q9VSE9/1-484 LLRHSSAVSHQQ-----QLLLLLPSLRQADDILRRFWRGIARDEV-----ITMKKLFLEM +UNIPROT|Q90ZM8/1-554 TIGHIEASPPQHSRRLSQLLLLLSQIRHISNKGIEHLNSMKRKNV-----IPLYDLLLEL + +UNIPROT|Q7LCB3/1-530 LNAHVLRGCKSSITGSECSPAEDSKSKEGSQNPQSQ--- +UNIPROT|Q9VSE9/1-484 LE------------------------------PLAR--- +UNIPROT|Q9IBD5/1-710 IASQL------------------PRVLAGMVKPLLFHTK +UNIPROT|Q7LCB3/1-530 LNAHVLRGCKSSITGSECSPAEDSKSKEGSQNPQSQ--- +UNIPROT|Q9YGV9/1-848 ISVHV------------------PKILAGTVKPILFHK- +UNIPROT|Q90ZM7/1-438 ISAQL------------------ASHHGREARALHFHKK +UNIPROT|Q91445/1-344 ISVQV------------------PKILS----------- +UNIPROT|Q9VSE9/1-484 LE------------------------------PLAR--- +UNIPROT|Q90ZM8/1-554 LDAHSLQN-----TGLRTSPP--PQDFRATLVP------ + diff --git a/utils/jalviewjs/site-resources/examples/estrogenReceptorProtein.fa b/utils/jalviewjs/site-resources/examples/estrogenReceptorProtein.fa new file mode 100644 index 0000000..0541d39 --- /dev/null +++ b/utils/jalviewjs/site-resources/examples/estrogenReceptorProtein.fa @@ -0,0 +1,81 @@ +>UNIPROT|Q7LCB3/1-530 estrogen nuclear receptor beta variant a +MDIKNSPSSLNSPSSYNCSQSILPLEHGSIYIPSSYVDSHHEYPAMTFYSPAVMNYSIPSNVTNLEGGPGRQ +TTSPNVLWPTPGHLSPLVVHRQLSHLYAEPQKSPWCEARSLEHTLPVNRETLKRKVSGNRCASPVTGPGSKR +DAHFCAVCSDYASGYHYGVWSCEGCKAFFKRSIQGHNDYICPATNQCTIDKNRRKSCQACRLRKCYEVGMVK +CGSRRERCGYRLVRRQRSADEQLHCAGKAKRSGGHAPRVRELLLDALSPEQLVLTLLEAEPPHVLISRPSAP +FTEASMMMSLTKLADKELVHMISWAKKIPGFVELSLFDQVRLLESCWMEVLMMGLMWRSIDHPGKLIFAPDL +VLDRDEGKCVEGILEIFDMLLATTSRFRELKLQHKEYLCVKAMILLNSSMYPLVTATQDADSSRKLAHLLNA +VTDALVWVIAKSGISSQQQSMRLANLLMLLSHVRHASNKGMEHLLNMKCKNVVPVYDLLLEMLNAHVLRGCK +SSITGSECSPAEDSKSKEGSQNPQSQ +>UNIPROT|Q9VSE9/1-484 GH28308p +MSDGVSILHIKQEVDTPSASCFSPSSKSTATQSGTNGLKSSPSVSPERQLCSSTTSLSCDLHNVSLSNDGDS +LKGSGTSGGNGGGGGGGTSGGNATNASAGAGSGSVRDELRRLCLVCGDVASGFHYGVASCEACKAFFKRTIQ +GNIEYTCPANNECEINKRRRKACQACRFQKCLLMGMLKEGVRLDRVRGGRQKYRRNPVSNSYQTMQLLYQSN +TTSLCDVKILEVLNSYEPDALSVQTPPPQVHTTSITNDEASSSSGSIKLESSVVTPNGTCIFQNNNNNDPNE +ILSVLSDIYDKELVSVIGWAKQIPGFIDLPLNDQMKLLQVSWAEILTLQLTFRSLPFNGKLCFATDVWMDEH +LAKECGYTEFYYHCVQIAQRMERISPRREEYYLLKALLLANCDILLDDQSSLRAFRDTILNSLNDVVYLLRH +SSAVSHQQQLLLLLPSLRQADDILRRFWRGIARDEVITMKKLFLEMLEPLAR +>UNIPROT|Q9IBD5/1-710 progesterone receptor +MDNNHQDKMESLYTPARASPTPDAESIKRARNLIKTYSESFGSYVEEIVRDDSNNIQSLSSVPLLMRNFGNM +DTLTCAPGSGSDSEIWKDFVVPGNSVVSKDTCGHVEISTKAENLSWAAAPLSREETLAKGTVTVPATVPKES +FTATSNTSSASGISIKDEQQSLLKMEPQSSDFCPYTANIPKLNPSYLTNTASTKQLGYGEQPDTSAHSSPPA +QKIVLDTARYSADLCSDNPLPQATNIKTDPCSSFSSFVGEGILTRASMGYSQQAIQTLPVHKSEPFRLSASS +APADSPFWCQSTGPSEDHHLQIDYLSPAGLHSTCKYSSTNAYSSYLGVLPQRVCVICGDEASGCHYGVLTCG +SCKVFFKRAVEGHHNYLCAGRNDCIVDKIRRKNCPACRLRKCYQAGMILGGRKLKKLGALKAAGLTQALVAH +SLTPRRLSGDSQALMPLGCLPGVRELHLSPQIISVLESIEPEVVYSGYDNSQPDMPNMLLNSLNRLCERQLL +RIVKWSKSLPGFRSLHINDQMALIQYSWMSLMVFSLGWRSFQNVTSDYLYFAPDLILNEEYMRRSPIFDLCM +AMQFIPQEFANLQVTKEEFLCMKVLLLLNTVPLEGLKSQPQFDEMRQNYIHELTKAIHLRENGVVACSQRFY +HLTKLMDHMHDIVKKLHLYCLSTFIQADAMRVEFPEMMSEVIASQLPRVLAGMVKPLLFHTK +>UNIPROT|Q7LCB3/1-530 estrogen receptor 2 isoform A +MDIKNSPSSLNSPSSYNCSQSILPLEHGSIYIPSSYVDSHHEYPAMTFYSPAVMNYSIPSNVTNLEGGPGRQ +TTSPNVLWPTPGHLSPLVVHRQLSHLYAEPQKSPWCEARSLEHTLPVNRETLKRKVSGNRCASPVTGPGSKR +DAHFCAVCSDYASGYHYGVWSCEGCKAFFKRSIQGHNDYICPATNQCTIDKNRRKSCQACRLRKCYEVGMVK +CGSRRERCGYRLVRRQRSADEQLHCAGKAKRSGGHAPRVRELLLDALSPEQLVLTLLEAEPPHVLISRPSAP +FTEASMMMSLTKLADKELVHMISWAKKIPGFVELSLFDQVRLLESCWMEVLMMGLMWRSIDHPGKLIFAPDL +VLDRDEGKCVEGILEIFDMLLATTSRFRELKLQHKEYLCVKAMILLNSSMYPLVTATQDADSSRKLAHLLNA +VTDALVWVIAKSGISSQQQSMRLANLLMLLSHVRHASNKGMEHLLNMKCKNVVPVYDLLLEMLNAHVLRGCK +SSITGSECSPAEDSKSKEGSQNPQSQ +>UNIPROT|Q9YGV9/1-848 androgen receptor alpha +MEIPVGLGGVSDATNAVFRGPYQNVFHSLQVAFQSHGAVSRSLDFPNTKYGFLQNRHFCEMRQENKQPPCKG +LGLFYGNHRNSDTGTNEDDIACFSRQSDAEARPGIFSESSLDTGDEITCKLQSDNQGVRASGPLLPGSSGCN +SGQKSSLACTSQQRETTSQSDTCAGESCSEHQATTISETARELCNAVSVSLGLNLDLNDMNDLSSNQISSTE +SDTSQAIYLFESSPGYTGVGLNALVRDCKCQSAREGTSTQQYDRGAMFKINRVNDLPLQPAPPRHTSISDAK +WDMEAGLCAQMEHKDSEKCANMDGAHSTSVFSQFDQLLPVNASHYSQNVSVRVEPQSDFSPILYKSPGIQKN +AEKYNVQYDATIKSEDGKTTSEREWGFQYRYNESCSTPSAPPRHCAHQNRAGPYNQFFFNPFEYAKRGVVSR +EGYSLEHGFPNNLARTPYSGSLKNELGDRLSGPYPDVSYRYEGERENVFPVEFFFPPQRTCLICGDEASGCH +YGALTCGSCKVFFKRAAEGKQKYLCASINDCTIDKLRRKNCPSCRLKRCFAAGMTLGARKLKKIGQMRAPED +GQGQGPAEAELSVSPKYDLGFHTQSMFLNILEAIEPEVVNAGHDYGQPDSAASLLTSLNELGERQLVKVVKW +AKGMPGFRSLYVDDQMTVIQHSWMAVMVFALGWRSFKNVKSRMLYFAPDLVFNEHRMQVSTMYEHCIRMKNF +SQEFAMLQVSQEEFLCMKALLLFSTIPVEGLKGQNFFDELRRSYINELDRLVSFRSKSSCSERFQQLTRLLD +SLQPVLKKLHQFTFDLFVQSQNLSNQVCFPEMISEIISVHVPKILAGTVKPILFHK +>UNIPROT|Q90ZM7/1-438 corticoid receptor +GVEFQLPYSASATSFRPSVATSSASGISNFSNGNNFGFLSPNGVQQDGFPYPGFTSPAQSSVPPQKACLICS +DEASGCHYGVLTCGSCKVFFKRAVEGQHNYLCAGRNDCIIDKIRRKNCPACRLRKCIQAGMTLGARKLKKQG +RVKGENQRSPASSTATTSSATPQPSSNSTAVTTFSPPPTGEPIFSPTLIAILQAIEPEVVMSGYDNTRSQTT +AYMLSSLNRLCDKQLVSIVKWAKSLPGFRNLHIDDQMVLIQYSWMGLMSFAMSWRSFQHTNSKLLYFAPDLV +FDETRMQQSAMYQLCVEMRQVSEDFMKLQVTSEEFLCMKAILLLSTVPQEGLKSQGCFEEMRISYIRELNRT +IARTEKNAVQCWQRFYQLTKLLXCMQDLVSKLLEFCFATFTQTQVWSVEFPDMMAEIISAQLASHHGREARA +LHFHKK +>UNIPROT|Q91445/1-344 androgen receptor +EASGCHYGALTCGSCKVFFKRAAEGKQKYLCASRNDCTIDKFRRKNCPSCRLRKCYEAGMTLGARKLKKLGN +LKAQDDIEGASSSSPTEEQAPKLVMTRIDGYECQPIFLNVLEAIEPGVVCAGHDNSQPDSFSNLLTSLNELG +ERQLVYVVKWAKALPGFRNLHVDDQMSIIQYSWMGLMVFAMGWRSFTNVNSRMLYFAPDLVFNEYRMHKSRM +YSQCIRMRHLSQEFGWLQITPQGFLCMKALLFFSIIPVDGLKNQKLFDELRMNYIKELDRIIACKRKNPTSC +SRRFYQLTKVLDSVTPIAKDLHQFTFDLLIKAHMVSVDYPEMMAEIISVQVPKILS +>UNIPROT|Q9VSE9/1-484 estrogen-related receptor +MSDGVSILHIKQEVDTPSASCFSPSSKSTATQSGTNGLKSSPSVSPERQLCSSTTSLSCDLHNVSLSNDGDS +LKGSGTSGGNGGGGGGGTSGGNATNASAGAGSGSVRDELRRLCLVCGDVASGFHYGVASCEACKAFFKRTIQ +GNIEYTCPANNECEINKRRRKACQACRFQKCLLMGMLKEGVRLDRVRGGRQKYRRNPVSNSYQTMQLLYQSN +TTSLCDVKILEVLNSYEPDALSVQTPPPQVHTTSITNDEASSSSGSIKLESSVVTPNGTCIFQNNNNNDPNE +ILSVLSDIYDKELVSVIGWAKQIPGFIDLPLNDQMKLLQVSWAEILTLQLTFRSLPFNGKLCFATDVWMDEH +LAKECGYTEFYYHCVQIAQRMERISPRREEYYLLKALLLANCDILLDDQSSLRAFRDTILNSLNDVVYLLRH +SSAVSHQQQLLLLLPSLRQADDILRRFWRGIARDEVITMKKLFLEMLEPLAR +>UNIPROT|Q90ZM8/1-554 estrogen receptor +ARGFSEAHGYEYSGASLYQPLPPSCTEFSIGAHQQQQHQHQHHQHQHQQHHHQQQQQQPQPQQNGVLGEGQS +SHLSYLPPSTELPQYVPSSPSAPYSMELGAGRPHGYDPGPQSLYRGGVESSAPPYSEQQQVVGGGGAMSAMG +LTEPRHVSSGSLPSSTRPERSTQFCAVCSDYASGYHYGVWSCEGCKAFFKRSTQGHNDYMCPATNQCTIDRN +RRKSCQACRLRKCYEVGMVKGVRKDRKGFRGVKHKRKRPIPQKNGGEGGAGGGQDVSETRPQGERPSGPRDR +ESAVSSLEADQVISALLEAEPPTVLSSYDPDKPVTEASLMAALTSLADRELVHMITWAKKIPGFTAIGLSDQ +VQLLECCWLEILIVGLIWRSIDRPGQLHFAPNLILGREDARNVEGMLDMFDMLLVTVSRFRELHLRREEYVC +LKAMILLNSGVFFCLSNSAGEQTNVQLIQQILEKVMDALGSTIGHIEASPPQHSRRLSQLLLLLSQIRHISN +KGIEHLNSMKRKNVIPLYDLLLELLDAHSLQNTGLRTSPPPQDFRATLVP diff --git a/utils/jalviewjs/site-resources/examples/estrogenReceptorProtein_aln.fa b/utils/jalviewjs/site-resources/examples/estrogenReceptorProtein_aln.fa new file mode 100644 index 0000000..353c68c --- /dev/null +++ b/utils/jalviewjs/site-resources/examples/estrogenReceptorProtein_aln.fa @@ -0,0 +1,112 @@ +>UNIPROT|Q7LCB3/1-530 estrogen nuclear receptor beta variant a +------------------------------------------------------------------------ +------------------------------------------------------------------------ +--------------------------MDIKNSPSSLNSPSSYNCSQSI------LPLEHGSIYIPSSYVDSH +HEYPAMTFYSPAVMNYSIPSNVTNLEGGPGRQT-------TSP----------NVLWPTPGHLSPLVVHRQL +SHLY--------------------------------------------AEPQKSPWCEARSLEHTLPVNRET +LK----------RKVSGN---------------RCASPVTGP------------------------------ +-------------------GSKRDAHF---------------------------------CAVCSDYASGYH +YGVWSCEGCKAFFKRSIQGHNDYICPATNQCTIDKNRRKSCQACRLRKCYEVGMVKCGSRRERC-GYRLVRR +QRSADEQLHCAGKAKRSGGH-------------APRVRELLLDALSPEQLVLTLLEA-EPPHVLIS------ +----------------------R-PSAPFTEASMMMSLTKLADKELVHMISWAKKIPGFVELSLFDQVRLLE +SCWMEVLMMGLMWRSID--HPGKLIFAPDLVLDRDEGKCVEGILEIFDMLLAT---TSRFRELKLQHKEYLC +VKAMILLNSSMYPLVTAT-QDADSSRKLAHLLNAVTDALVWVIAKSGISSQQQSMRLANLLMLLSHVRHASN +KGMEHLLN--MKCKNV---VPVYDLLLEMLNAHVLRGCKSSITGSECSPAEDSKSKEGSQNPQSQ--- +>UNIPROT|Q9VSE9/1-484 GH28308p +------------------------------------------------------------------------ +------------------------------------------------------------------------ +-----------------------------------------------------------MSDGVSILHIKQE +VDTPSASCFSPSSKSTATQSGTNGLK--------------SSP----------SVSPERQLCSSTTSLSCDL +HNVS---------------------------------------LSNDGDSLKGSGTSGGNGGGGGGGTSGGN +AT--------------------------------NASAGAGS------------------------------ +-------------------GSVRDELRRL-------------------------------CLVCGDVASGFH +YGVASCEACKAFFKRTIQGNIEYTCPANNECEINKRRRKACQACRFQKCLLMGMLKEGVRLDRVRGGRQKYR +RNPVSNSYQTMQLLYQSNTTSL-----------CDVKILEVLNSYEPDALSVQT----PPPQVHTTSITNDE +ASSSSGSIKLESSVVTPNGTCIFQNNNNNDPNEILSVLSDIYDKELVSVIGWAKQIPGFIDLPLNDQMKLLQ +VSWAEILTLQLTFRSLP--FNGKLCFATDVWMDEHLAKEC-GYTEFYYHCVQI---AQRMERISPRREEYYL +LKALLLANCDILL------DDQSSLRAFRDTILNSLNDVVYLLRHSSAVSHQQ-----QLLLLLPSLRQADD +ILRRFWRG--IARDEV---ITMKKLFLEMLE------------------------------PLAR--- +>UNIPROT|Q9IBD5/1-710 progesterone receptor +--------------------------------------------MDNNHQDKMESLYTPARASPTPDAESIK +RARNLIKTYSESFGSYVEEIVRDDSNNIQSLSSVPLLMRNFGNMDTLTCAPGSGSDSEIWKDFVVPGNSVVS +KDTCGHVEISTKAENLSWAAAPLSREETLAKGTVTVPATVPKESFTAT-----SNTSSASGISIKDEQQSLL +KMEPQSSDFCPYTANIPKLNPSYLTNTASTKQLGYG----EQP----------DTSAHSSPPAQKIVLDTAR +YSAD----------------------------------LCSDNPLPQATNIKTDPCSSFSSFVGEGILTRAS +MGYSQQAIQTLPVHKSEP---------------FRLSASSAPADSPFWCQS--------------------- +------------------TGPSEDHHLQIDYLSPAGLHSTCKYSSTNAYSSYLGVLPQRVCVICGDEASGCH +YGVLTCGSCKVFFKRAVEGHHNYLCAGRNDCIVDKIRRKNCPACRLRKCYQAGMILGGRKLKKL-GALKAAG +LTQALVAHSLTPRRLSGDSQAL-----------MPLGCLPGVRELHLSPQIISVLESIEPEVVYSG------ +----------------------YDNSQPDMPNMLLNSLNRLCERQLLRIVKWSKSLPGFRSLHINDQMALIQ +YSWMSLMVFSLGWRSFQNVTSDYLYFAPDLILNEEYMRRS----PIFDLCMAMQFIPQEFANLQVTKEEFLC +MKVLLLLN--TVPL-----EGLKSQPQFDEMRQNYIHELTKAIHLRENGVVACSQRFYHLTKLMDHMHDIVK +KLHLYCLSTFIQADAMR--VEFPEMMSEVIASQL------------------PRVLAGMVKPLLFHTK +>UNIPROT|Q7LCB3/1-530 estrogen receptor 2 isoform A +------------------------------------------------------------------------ +------------------------------------------------------------------------ +--------------------------MDIKNSPSSLNSPSSYNCSQSI------LPLEHGSIYIPSSYVDSH +HEYPAMTFYSPAVMNYSIPSNVTNLEGGPGRQT-------TSP----------NVLWPTPGHLSPLVVHRQL +SHLY--------------------------------------------AEPQKSPWCEARSLEHTLPVNRET +LK----------RKVSGN---------------RCASPVTGP------------------------------ +-------------------GSKRDAHF---------------------------------CAVCSDYASGYH +YGVWSCEGCKAFFKRSIQGHNDYICPATNQCTIDKNRRKSCQACRLRKCYEVGMVKCGSRRERC-GYRLVRR +QRSADEQLHCAGKAKRSGGH-------------APRVRELLLDALSPEQLVLTLLEA-EPPHVLIS------ +----------------------R-PSAPFTEASMMMSLTKLADKELVHMISWAKKIPGFVELSLFDQVRLLE +SCWMEVLMMGLMWRSID--HPGKLIFAPDLVLDRDEGKCVEGILEIFDMLLAT---TSRFRELKLQHKEYLC +VKAMILLNSSMYPLVTAT-QDADSSRKLAHLLNAVTDALVWVIAKSGISSQQQSMRLANLLMLLSHVRHASN +KGMEHLLN--MKCKNV---VPVYDLLLEMLNAHVLRGCKSSITGSECSPAEDSKSKEGSQNPQSQ--- +>UNIPROT|Q9YGV9/1-848 androgen receptor alpha +MEIPVGLGGVSDATNAVFRGPYQNVFHSLQVAFQSHGAVSRSLDFPNTKYGFLQNRHFCEMRQENKQPPCKG +LGLFYGNHRNSDTGTNEDDIACFSRQSDAEARPGIFSESSLDTGDEITCKLQSDNQGVRASGPLLPGSSGCN +SGQKSSLACTSQQRETTSQSDTCAGESCSEHQATTISETARELCNAVSVSLGLNLDLNDMNDLSSNQISSTE +SDTSQAIYLFESSPGYTGVGLNALVRDCKCQSAREGTSTQQYDRGAMFKINRVNDLPLQPAPPRHTSISDAK +WDMEAGLCAQMEHKDSEKCANMDGAHSTSVFSQFDQLLPVNASHYSQNVSVRVEPQSDFSPILYKSPGIQKN +AEKYNVQYDATIKSEDGKTTSEREWGFQYRYNESCSTPSAPPRHCAHQNRAGPYNQFFFNPFEYAKRGVVSR +EGYSLEHGFPNNLARTPYSGSLKNELGDRLSGPYPDVSYRYEGERENVFPVEFFFPPQRTCLICGDEASGCH +YGALTCGSCKVFFKRAAEGKQKYLCASINDCTIDKLRRKNCPSCRLKRCFAAGMTL---------GARKLKK +IGQMRAPEDGQGQGPAEAELSV-----------SPKYDL----GFHTQSMFLNILEAIEPEVVNAG------ +----------------------HDYGQPDSAASLLTSLNELGERQLVKVVKWAKGMPGFRSLYVDDQMTVIQ +HSWMAVMVFALGWRSFKNVKSRMLYFAPDLVFNEHRMQVS----TMYEHCIRMKNFSQEFAMLQVSQEEFLC +MKALLLFS--TIPV-----EGLKGQNFFDELRRSYINELDRLVSFRSKSS--CSERFQQLTRLLDSLQPVLK +KLHQFTFDLFVQSQNLSNQVCFPEMISEIISVHV------------------PKILAGTVKPILFHK- +>UNIPROT|Q91445/1-344 androgen receptor +------------------------------------------------------------------------ +------------------------------------------------------------------------ +------------------------------------------------------------------------ +------------------------------------------------------------------------ +------------------------------------------------------------------------ +------------------------------------------------------------------------ +------------------------------------------------------------------EASGCH +YGALTCGSCKVFFKRAAEGKQKYLCASRNDCTIDKFRRKNCPSCRLRKCYEAGMTL---------GARKLKK +LGNLKAQDDIEGASSSSPTEEQ-----------APKLVMTRIDGYECQPIFLNVLEAIEPGVVCAG------ +----------------------HDNSQPDSFSNLLTSLNELGERQLVYVVKWAKALPGFRNLHVDDQMSIIQ +YSWMGLMVFAMGWRSFTNVNSRMLYFAPDLVFNEYRMHKS----RMYSQCIRMRHLSQEFGWLQITPQGFLC +MKALLFFS--IIPV-----DGLKNQKLFDELRMNYIKELDRIIACKRKNPTSCSRRFYQLTKVLDSVTPIAK +DLHQFTFDLLIKAHMVS--VDYPEMMAEIISVQV------------------PKILS----------- +>UNIPROT|Q9VSE9/1-484 estrogen-related receptor +------------------------------------------------------------------------ +------------------------------------------------------------------------ +-----------------------------------------------------------MSDGVSILHIKQE +VDTPSASCFSPSSKSTATQSGTNGLK--------------SSP----------SVSPERQLCSSTTSLSCDL +HNVS---------------------------------------LSNDGDSLKGSGTSGGNGGGGGGGTSGGN +AT--------------------------------NASAGAGS------------------------------ +-------------------GSVRDELRRL-------------------------------CLVCGDVASGFH +YGVASCEACKAFFKRTIQGNIEYTCPANNECEINKRRRKACQACRFQKCLLMGMLKEGVRLDRVRGGRQKYR +RNPVSNSYQTMQLLYQSNTTSL-----------CDVKILEVLNSYEPDALSVQT----PPPQVHTTSITNDE +ASSSSGSIKLESSVVTPNGTCIFQNNNNNDPNEILSVLSDIYDKELVSVIGWAKQIPGFIDLPLNDQMKLLQ +VSWAEILTLQLTFRSLP--FNGKLCFATDVWMDEHLAKEC-GYTEFYYHCVQI---AQRMERISPRREEYYL +LKALLLANCDILL------DDQSSLRAFRDTILNSLNDVVYLLRHSSAVSHQQ-----QLLLLLPSLRQADD +ILRRFWRG--IARDEV---ITMKKLFLEMLE------------------------------PLAR--- +>UNIPROT|Q90ZM8/1-554 estrogen receptor +------------------------------------------------------------------------ +------------------------------------------------------------------------ +-------------------ARGFSEAHGYEYSGASLYQPLPPSCTEFS-----------IGAHQQQQHQHQH +HQHQHQQHHHQQQQQQPQPQQNGVLGEGQSSHLSYLPPSTELP----------QYVPSSPSAPYSMELGAGR +PHGYD---------------------------------PGPQSLYRGGVESSAPPYSEQQQVVGGGGAMSAM +GL-------------TEP---------------RHVSSGSLP------------------------------ +-------------------SSTRPERSTQF------------------------------CAVCSDYASGYH +YGVWSCEGCKAFFKRSTQGHNDYMCPATNQCTIDRNRRKSCQACRLRKCYEVGMVK-GVRKDRK-GFRGVKH +KRKRPIPQKNGGEGGAGGGQDVSETRPQGERPSGPRDRESAVSSLEADQVISALLEA-EPPTVLSS------ +----------------------YDPDKPVTEASLMAALTSLADRELVHMITWAKKIPGFTAIGLSDQVQLLE +CCWLEILIVGLIWRSID--RPGQLHFAPNLILGREDARNVEGMLDMFDMLLVT---VSRFRELHLRREEYVC +LKAMILLNSGVFFCLSNSAGEQTNVQLIQQILEKVMDALGSTIGHIEASPPQHSRRLSQLLLLLSQIRHISN +KGIEHLNS--MKRKNV---IPLYDLLLELLDAHSLQ-------NTGLRTSPPPQDFRATLVP------ diff --git a/utils/jalviewjs/site-resources/examples/estrogenReceptorProtein_frag.fa b/utils/jalviewjs/site-resources/examples/estrogenReceptorProtein_frag.fa new file mode 100644 index 0000000..efd89bf --- /dev/null +++ b/utils/jalviewjs/site-resources/examples/estrogenReceptorProtein_frag.fa @@ -0,0 +1,16 @@ +>UNIPROT|Q7LCB3/178-225 estrogen nuclear receptor beta variant a +QGHNDYICPATNQCTIDKNRRKSCQACRLRKCYEVGMVKCGSRRERC-G +>UNIPROT|Q9VSE9/144-192 GH28308p +QGNIEYTCPANNECEINKRRRKACQACRFQKCLLMGMLKEGVRLDRVRG +>UNIPROT|Q9IBD5/371-418 progesterone receptor +EGHHNYLCAGRNDCIVDKIRRKNCPACRLRKCYQAGMILGGRKLKKL-G +>UNIPROT|Q7LCB3/178-225 estrogen receptor 2 isoform A +QGHNDYICPATNQCTIDKNRRKSCQACRLRKCYEVGMVKCGSRRERC-G +>UNIPROT|Q9YGV9/522-561 androgen receptor alpha +EGKQKYLCASINDCTIDKLRRKNCPSCRLKRCFAAGMTL---------G +>UNIPROT|Q91445/24-63 androgen receptor +EGKQKYLCASRNDCTIDKFRRKNCPSCRLRKCYEAGMTL---------G +>UNIPROT|Q9VSE9/144-192 estrogen-related receptor +QGNIEYTCPANNECEINKRRRKACQACRFQKCLLMGMLKEGVRLDRVRG +>UNIPROT|Q90ZM8/198-244 estrogen receptor +QGHNDYMCPATNQCTIDRNRRKSCQACRLRKCYEVGMVK-GVRKDRK-G diff --git a/utils/jalviewjs/site-resources/examples/example.json b/utils/jalviewjs/site-resources/examples/example.json new file mode 100644 index 0000000..93c19db --- /dev/null +++ b/utils/jalviewjs/site-resources/examples/example.json @@ -0,0 +1 @@ +{"seqs":[{"name":"FER_CAPAN/3-34","start":3,"svid":"1.0","end":34,"id":"1665704504","seq":"SVSATMISTSFMPRKPAVTSL-KPIPNVGE--ALF","order":1},{"name":"FER1_SOLLC/3-34","start":3,"svid":"1.0","end":34,"id":"1003594867","seq":"SISGTMISTSFLPRKPAVTSL-KAISNVGE--ALF","order":2},{"name":"Q93XJ9_SOLTU/3-34","start":3,"svid":"1.0","end":34,"id":"1332961135","seq":"SISGTMISTSFLPRKPVVTSL-KAISNVGE--ALF","order":3},{"name":"FER1_PEA/6-37","start":6,"svid":"1.0","end":37,"id":"1335040546","seq":"ALYGTAVSTSFLRTQPMPMSV-TTTKAFSN--GFL","order":4},{"name":"Q7XA98_TRIPR/6-39","start":6,"svid":"1.0","end":39,"id":"1777084554","seq":"ALYGTAVSTSFMRRQPVPMSV-ATTTTTKAFPSGF","order":5},{"name":"FER_TOCH/3-34","start":3,"svid":"1.0","end":34,"id":"823528539","seq":"FILGTMISKSFLFRKPAVTSL-KAISNVGE--ALF","order":6}],"appSettings":{"globalColorScheme":"zappo","webStartUrl":"www.jalview.org/services/launchApp","application":"Jalview","hiddenSeqs":"823528539","showSeqFeatures":"true","version":"2.9","hiddenCols":"32-33;34-34"},"seqGroups":[{"displayText":true,"startRes":21,"groupName":"JGroup:1883305585","endRes":29,"colourText":false,"sequenceRefs":["1003594867","1332961135","1335040546","1777084554"],"svid":"1.0","showNonconserved":false,"colourScheme":"Zappo","displayBoxes":true}],"alignAnnotation":[{"svid":"1.0","annotations":[{"displayCharacter":"","value":0,"secondaryStructure":"\u0000"},{"displayCharacter":"","value":0,"secondaryStructure":"\u0000"},{"displayCharacter":"α","value":0,"secondaryStructure":"H"},{"displayCharacter":"α","value":0,"secondaryStructure":"H"},{"displayCharacter":"α","value":0,"secondaryStructure":"H"},{"displayCharacter":"","value":0,"secondaryStructure":"\u0000"},{"displayCharacter":"","value":0,"secondaryStructure":"\u0000"},{"displayCharacter":"","value":0,"secondaryStructure":"\u0000"},{"displayCharacter":"β","value":0,"secondaryStructure":"E"},{"displayCharacter":"β","value":0,"secondaryStructure":"E"},{"displayCharacter":"β","value":0,"secondaryStructure":"E"},{"displayCharacter":"β","value":0,"secondaryStructure":"E"},{"displayCharacter":"β","value":0,"secondaryStructure":"E"},{"displayCharacter":"β","value":0,"secondaryStructure":"E"},{"displayCharacter":"β","value":0,"secondaryStructure":"E"},{"displayCharacter":"β","value":0,"secondaryStructure":"E"},{"displayCharacter":"","value":0,"secondaryStructure":"\u0000"},{"displayCharacter":"","value":0,"secondaryStructure":"\u0000"},{"displayCharacter":"","value":0,"secondaryStructure":"\u0000"},{"displayCharacter":"","value":0,"secondaryStructure":"\u0000"},{"displayCharacter":"","value":0,"secondaryStructure":"\u0000"},{"displayCharacter":"","value":0,"secondaryStructure":"\u0000"},{"displayCharacter":"","value":0,"secondaryStructure":"\u0000"},{"displayCharacter":"","value":0,"secondaryStructure":"\u0000"},{"displayCharacter":"","value":0,"secondaryStructure":"\u0000"},{"displayCharacter":"","value":0,"secondaryStructure":"\u0000"},{"displayCharacter":"α","value":0,"secondaryStructure":"H"},{"displayCharacter":"α","value":0,"secondaryStructure":"H"},{"displayCharacter":"α","value":0,"secondaryStructure":"H"},{"displayCharacter":"α","value":0,"secondaryStructure":"H"},{"displayCharacter":"α","value":0,"secondaryStructure":"H"},{"displayCharacter":"","value":0,"secondaryStructure":"\u0000"},{"displayCharacter":"","value":0,"secondaryStructure":"\u0000"},{"displayCharacter":"","value":0,"secondaryStructure":"\u0000"},{"displayCharacter":"","value":0,"secondaryStructure":"\u0000"}],"description":"New description","label":"Secondary Structure"}],"svid":"1.0","seqFeatures":[{"fillColor":"#7d1633","score":0,"otherDetails":{"status":"+"},"sequenceRef":"1332961135","featureGroup":"Pfam","svid":"1.0","description":"My description","xStart":0,"xEnd":0,"type":"Domain"},{"fillColor":"#7d1633","score":0,"sequenceRef":"1332961135","featureGroup":"Jalview","svid":"1.0","description":"theDesc","xStart":3,"xEnd":13,"type":"feature_x"},{"fillColor":"#7d1633","score":0,"sequenceRef":"1335040546","featureGroup":"Jalview","svid":"1.0","description":"theDesc","xStart":3,"xEnd":13,"type":"feature_x"},{"fillColor":"#7d1633","score":0,"sequenceRef":"1777084554","featureGroup":"Jalview","svid":"1.0","description":"theDesc","xStart":3,"xEnd":13,"type":"feature_x"}]} \ No newline at end of file diff --git a/utils/jalviewjs/site-resources/examples/ferredoxin.nw b/utils/jalviewjs/site-resources/examples/ferredoxin.nw new file mode 100644 index 0000000..89ea348 --- /dev/null +++ b/utils/jalviewjs/site-resources/examples/ferredoxin.nw @@ -0,0 +1 @@ +(((FER_BRANA:128.0,FER3_RAPSA:128.0):50.75,FER_CAPAA:178.75):121.94443,(Q93Z60_ARATH:271.45456,((O80429_MAIZE:183.0,FER1_MAIZE:183.0):30.5,((Q7XA98_TRIPR:90.0,FER1_PEA:90.0):83.32143,(((FER1_ARATH:64.0,FER2_ARATH:64.0):94.375,(FER1_SPIOL:124.5,FER1_MESCR:124.5):33.875):6.4166718,((Q93XJ9_SOLTU:33.5,FER1_SOLLC:33.5):49.0,FER_CAPAN:82.5):82.29167):8.529755):40.178574):57.95456):29.239868); diff --git a/utils/jalviewjs/site-resources/examples/jpred_msa.fasta b/utils/jalviewjs/site-resources/examples/jpred_msa.fasta new file mode 100644 index 0000000..b269404 --- /dev/null +++ b/utils/jalviewjs/site-resources/examples/jpred_msa.fasta @@ -0,0 +1,45 @@ +>FER_CAPAA Ferredoxin +ASYKVKLITPDGPIEFDCPDDVYILDQAEEAGHDLPYSCRAGSCSSCAGKIAGGAVDQTDGNFLDDDQLEEG +WVLTCVAYPQSDVTIETHKEAELVG- +>FER_CAPAN Ferredoxin, chloroplast precursor +ASYKVKLITPDGPIEFDCPDNVYILDQAEEAGHDLPYSCRAGSCSSCAGKIAGGAVDQTDGNFLDDDQLEEG +WVLTCVAYPQSDVTIETHKEAELVG- +>FER1_SOLLC Ferredoxin-1, chloroplast precursor +ASYKVKLITPEGPIEFECPDDVYILDQAEEEGHDLPYSCRAGSCSSCAGKVTAGSVDQSDGNFLDEDQEAAG +FVLTCVAYPKGDVTIETHKEEELTA- +>Q93XJ9_SOLTU Ferredoxin I precursor +ASYKVKLITPDGPIEFECPDDVYILDQAEEEGHDLPYSCRAGSCSSCAGKVTAGTVDQSDGKFLDDDQEAAG +FVLTCVAYPKCDVTIETHKEEELTA- +>FER1_MESCR Ferredoxin-1, chloroplast precursor +AAYKVTLVTPEGKQELECPDDVYILDAAEEAGIDLPYSCRAGSCSSCAGKVTSGSVNQDDGSFLDDDQIKEG +WVLTCVAYPTGDVTIETHKEEELTA- +>FER1_SPIOL Ferredoxin-1, chloroplast precursor +AAYKVTLVTPTGNVEFQCPDDVYILDAAEEEGIDLPYSCRAGSCSSCAGKLKTGSLNQDDQSFLDDDQIDEG +WVLTCAAYPVSDVTIETHKEEELTA- +>FER1_ARATH Ferredoxin-1, chloroplast precursor +ATYKVKFITPEGELEVECDDDVYVLDAAEEAGIDLPYSCRAGSCSSCAGKVVSGSVDQSDQSFLDDEQIGEG +FVLTCAAYPTSDVTIETHKEEDIV-- +>FER2_ARATH Ferredoxin-2, chloroplast precursor +ATYKVKFITPEGEQEVECEEDVYVLDAAEEAGLDLPYSCRAGSCSSCAGKVVSGSIDQSDQSFLDDEQMSEG +YVLTCVAYPTSDVVIETHKEEAIM-- +>FER1_PEA Ferredoxin-1, chloroplast precursor +ASYKVKLVTPDGTQEFECPSDVYILDHAEEVGIDLPYSCRAGSCSSCAGKVVGGEVDQSDGSFLDDEQIEAG +FVLTCVAYPTSDVVIETHKEEDLTA- +>Q7XA98_TRIPR Ferredoxin I +ATYKVKLITPEGPQEFDCPDDVYILDHAEEVGIELPYSCRAGSCSSCAGKVVNGNVNQEDGSFLDDEQIEGG +WVLTCVAFPTSDVTIETHKEEELTA- +>FER1_MAIZE Ferredoxin-1, chloroplast precursor +ATYNVKLITPEGEVELQVPDDVYILDQAEEDGIDLPYSCRAGSCSSCAGKVVSGSVDQSDQSYLDDGQIADG +WVLTCHAYPTSDVVIETHKEEELTGA +>O80429_MAIZE Ferredoxin +ATYNVKLITPEGEVELQVPDDVYILDFAEEEGIDLPFSCRAGSCSSCAGKVVSGSVDQSDQSFLNDNQVADG +WVLTCAAYPTSDVVIETHKEDDLL-- +>Q93Z60_ARATH At1g10960/T19D16_12 +ATYKVKFITPEGEQEVECEEDVYVLDAAEEAGLDLPYSCRAGSCSSCAGKVVSGSIDQSDQSFLDD------ +-------------------------- +>FER3_RAPSA Ferredoxin, leaf L-A +ATYKVKFITPEGEQEVECDDDVYVLDAAEEAGIDLPYSCRAGSCSSCAGKVVSGSVDQSDQSFLDDDQIAEG +FVLTCAAYPTSDVTIETHREEDMV-- +>FER_BRANA Ferredoxin +ATYKVKFITPEGEQEVECDDDVYVLDAAEEAGIDLPYSCRAGSCSSCAGKVVSGFVDQSDESFLDDDQIAEG +FVLTCAAYPTSDVTIETHKEEELV-- diff --git a/utils/jalviewjs/site-resources/examples/jpred_msa.seq.concise b/utils/jalviewjs/site-resources/examples/jpred_msa.seq.concise new file mode 100644 index 0000000..90bd4c3 --- /dev/null +++ b/utils/jalviewjs/site-resources/examples/jpred_msa.seq.concise @@ -0,0 +1,30 @@ +Lupas_21:-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-, +Lupas_14:-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-, +Lupas_28:-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-, + +jnetpred:-,-,-,-,E,E,E,E,E,E,-,-,-,-,-,E,E,E,E,-,-,-,-,E,E,E,E,E,-,H,H,H,H,H,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,E,E,E,E,-,-,E,E,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,E,E,E,E,E,E,E,E,-,-,-,-,E,E,E,E,-, +JNETCONF:1,3,1,2,7,7,9,9,7,1,6,8,9,8,1,3,5,5,1,6,8,9,7,4,8,8,7,2,3,2,0,2,1,2,5,7,8,8,7,6,4,2,1,3,5,7,8,7,5,4,4,5,7,5,2,5,5,1,4,2,0,1,5,6,7,7,5,4,5,4,5,6,6,3,1,1,1,4,6,1,6,9,9,9,8,8,7,0,8,9,9,7,2,8,9,9,8, +JNETSOL25:B,-,B,-,-,B,B,B,B,B,-,-,-,-,-,-,-,-,-,-,-,-,-,-,B,B,B,B,-,B,-,B,-,-,-,-,-,-,B,B,B,B,B,B,B,B,B,B,B,B,B,B,B,-,-,B,-,-,-,-,-,-,-,-,-,-,-,-,B,B,-,-,-,-,-,-,B,-,-,B,B,B,B,B,B,B,B,B,B,-,-,-,-,B,B,-,-, +JNETSOL5:-,-,-,-,-,-,-,B,B,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,B,-,-,-,-,-,-,-,-,-,-,-,-,-,-,B,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,B,B,B,B,B,B,-,-,-,-,-,-,-,B,-,-, +JNETSOL0:-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,B,-,B,-,-,-,-,-,-,-,-,-,-,-,-,-, +JNETPROPH:0.44514,0.02676,0.50891,0.59931,0.03767,0.31300,0.54697,0.01490,0.41391,0.55820,0.01816,0.38620,0.82780,0.00804,0.16764,0.86436,0.00416,0.14111,0.96423,0.00391,0.03569,0.94587,0.00483,0.05758,0.88110,0.01273,0.13718,0.57335,0.02654,0.44509,0.17935,0.02373,0.80108,0.08085,0.00825,0.91351,0.06739,0.00450,0.93803,0.11202,0.00730,0.88142,0.41953,0.00953,0.55868,0.64171,0.00894,0.34807,0.74660,0.00831,0.27522,0.78367,0.00952,0.27786,0.54376,0.01578,0.49285,0.18080,0.01695,0.78463,0.05922,0.01157,0.90794,0.03565,0.02045,0.91548,0.12377,0.02896,0.77671,0.58102,0.05600,0.22143,0.82750,0.03376,0.07013,0.86371,0.02169,0.08984,0.81881,0.04410,0.14200,0.60784,0.05837,0.36725,0.27275,0.10034,0.53452,0.12405,0.28672,0.44961,0.07683,0.43094,0.40783,0.05134,0.55252,0.37353,0.03890, +JNETPROPB:0.59931,0.03767,0.31300,0.54697,0.01490,0.41391,0.55820,0.01816,0.38620,0.82780,0.00804,0.16764,0.86436,0.00416,0.14111,0.96423,0.00391,0.03569,0.94587,0.00483,0.05758,0.88110,0.01273,0.13718,0.57335,0.02654,0.44509,0.17935,0.02373,0.80108,0.08085,0.00825,0.91351,0.06739,0.00450,0.93803,0.11202,0.00730,0.88142,0.41953,0.00953,0.55868,0.64171,0.00894,0.34807,0.74660,0.00831,0.27522,0.78367,0.00952,0.27786,0.54376,0.01578,0.49285,0.18080,0.01695,0.78463,0.05922,0.01157,0.90794,0.03565,0.02045,0.91548,0.12377,0.02896,0.77671,0.58102,0.05600,0.22143,0.82750,0.03376,0.07013,0.86371,0.02169,0.08984,0.81881,0.04410,0.14200,0.60784,0.05837,0.36725,0.27275,0.10034,0.53452,0.12405,0.28672,0.44961,0.07683,0.43094,0.40783,0.05134,0.55252,0.37353,0.03890,0.52815,0.46401,0.03979, +JNETPROPC:0.54697,0.01490,0.41391,0.55820,0.01816,0.38620,0.82780,0.00804,0.16764,0.86436,0.00416,0.14111,0.96423,0.00391,0.03569,0.94587,0.00483,0.05758,0.88110,0.01273,0.13718,0.57335,0.02654,0.44509,0.17935,0.02373,0.80108,0.08085,0.00825,0.91351,0.06739,0.00450,0.93803,0.11202,0.00730,0.88142,0.41953,0.00953,0.55868,0.64171,0.00894,0.34807,0.74660,0.00831,0.27522,0.78367,0.00952,0.27786,0.54376,0.01578,0.49285,0.18080,0.01695,0.78463,0.05922,0.01157,0.90794,0.03565,0.02045,0.91548,0.12377,0.02896,0.77671,0.58102,0.05600,0.22143,0.82750,0.03376,0.07013,0.86371,0.02169,0.08984,0.81881,0.04410,0.14200,0.60784,0.05837,0.36725,0.27275,0.10034,0.53452,0.12405,0.28672,0.44961,0.07683,0.43094,0.40783,0.05134,0.55252,0.37353,0.03890,0.52815,0.46401,0.03979,0.40515,0.56556,0.03815, +JNETHMM:-,-,-,-,E,E,E,E,E,E,-,-,-,-,-,E,E,E,E,-,-,-,-,E,E,E,E,E,-,-,H,H,H,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,E,E,E,E,-,-,E,E,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,E,E,E,E,E,E,E,E,-,-,-,-,E,E,E,E,-, +JNETALIGN:-,-,-,E,E,E,E,E,-,-,-,-,-,-,E,-,-,-,-,-,-,E,E,E,E,H,H,H,H,H,-,-,-,-,-,-,-,E,-,-,-,-,-,-,-,-,-,-,-,-,E,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,H,-,-,-,-,-,-,E,E,E,E,E,E,-,-,-,-,-,E,E,E,E,E,E,H,H,H,-,-,-,-, +align1;Sequence0/1.97:A,S,Y,K,V,K,L,I,T,P,D,G,P,I,E,F,D,C,P,D,D,V,Y,I,L,D,Q,A,E,E,A,G,H,D,L,P,Y,S,C,R,A,G,S,C,S,S,C,A,G,K,I,A,G,G,A,V,D,Q,T,D,G,N,F,L,D,D,D,Q,L,E,E,G,W,V,L,T,C,V,A,Y,P,Q,S,D,V,T,I,E,T,H,K,E,A,E,L,V,G, +align2;Sequence1/1.144:A,S,Y,K,V,K,L,I,T,P,D,G,P,I,E,F,D,C,P,D,N,V,Y,I,L,D,Q,A,E,E,A,G,H,D,L,P,Y,S,C,R,A,G,S,C,S,S,C,A,G,K,I,A,G,G,A,V,D,Q,T,D,G,N,F,L,D,D,D,Q,L,E,E,G,W,V,L,T,C,V,A,Y,P,Q,S,D,V,T,I,E,T,H,K,E,A,E,L,V,G, +align3;Sequence2/1.144:A,S,Y,K,V,K,L,I,T,P,E,G,P,I,E,F,E,C,P,D,D,V,Y,I,L,D,Q,A,E,E,E,G,H,D,L,P,Y,S,C,R,A,G,S,C,S,S,C,A,G,K,V,T,A,G,S,V,D,Q,S,D,G,N,F,L,D,E,D,Q,E,A,A,G,F,V,L,T,C,V,A,Y,P,K,G,D,V,T,I,E,T,H,K,E,E,E,L,T,A, +align4;Sequence3/1.144:A,S,Y,K,V,K,L,I,T,P,D,G,P,I,E,F,E,C,P,D,D,V,Y,I,L,D,Q,A,E,E,E,G,H,D,L,P,Y,S,C,R,A,G,S,C,S,S,C,A,G,K,V,T,A,G,T,V,D,Q,S,D,G,K,F,L,D,D,D,Q,E,A,A,G,F,V,L,T,C,V,A,Y,P,K,C,D,V,T,I,E,T,H,K,E,E,E,L,T,A, +align5;Sequence4/1.149:A,S,Y,K,V,K,L,V,T,P,D,G,T,Q,E,F,E,C,P,S,D,V,Y,I,L,D,H,A,E,E,V,G,I,D,L,P,Y,S,C,R,A,G,S,C,S,S,C,A,G,K,V,V,G,G,E,V,D,Q,S,D,G,S,F,L,D,D,E,Q,I,E,A,G,F,V,L,T,C,V,A,Y,P,T,S,D,V,V,I,E,T,H,K,E,E,D,L,T,A, +align6;Sequence5/1.152:A,T,Y,K,V,K,L,I,T,P,E,G,P,Q,E,F,D,C,P,D,D,V,Y,I,L,D,H,A,E,E,V,G,I,E,L,P,Y,S,C,R,A,G,S,C,S,S,C,A,G,K,V,V,N,G,N,V,N,Q,E,D,G,S,F,L,D,D,E,Q,I,E,G,G,W,V,L,T,C,V,A,F,P,T,S,D,V,T,I,E,T,H,K,E,E,E,L,T,A, +align7;Sequence6/1.148:A,A,Y,K,V,T,L,V,T,P,E,G,K,Q,E,L,E,C,P,D,D,V,Y,I,L,D,A,A,E,E,A,G,I,D,L,P,Y,S,C,R,A,G,S,C,S,S,C,A,G,K,V,T,S,G,S,V,N,Q,D,D,G,S,F,L,D,D,D,Q,I,K,E,G,W,V,L,T,C,V,A,Y,P,T,G,D,V,T,I,E,T,H,K,E,E,E,L,T,A, +align8;Sequence7/1.147:A,A,Y,K,V,T,L,V,T,P,T,G,N,V,E,F,Q,C,P,D,D,V,Y,I,L,D,A,A,E,E,E,G,I,D,L,P,Y,S,C,R,A,G,S,C,S,S,C,A,G,K,L,K,T,G,S,L,N,Q,D,D,Q,S,F,L,D,D,D,Q,I,D,E,G,W,V,L,T,C,A,A,Y,P,V,S,D,V,T,I,E,T,H,K,E,E,E,L,T,A, +align9;Sequence8/1.96:A,T,Y,K,V,K,F,I,T,P,E,G,E,Q,E,V,E,C,D,D,D,V,Y,V,L,D,A,A,E,E,A,G,I,D,L,P,Y,S,C,R,A,G,S,C,S,S,C,A,G,K,V,V,S,G,S,V,D,Q,S,D,Q,S,F,L,D,D,D,Q,I,A,E,G,F,V,L,T,C,A,A,Y,P,T,S,D,V,T,I,E,T,H,R,E,E,D,M,V,., +align10;Sequence9/1.148:A,T,Y,K,V,K,F,I,T,P,E,G,E,L,E,V,E,C,D,D,D,V,Y,V,L,D,A,A,E,E,A,G,I,D,L,P,Y,S,C,R,A,G,S,C,S,S,C,A,G,K,V,V,S,G,S,V,D,Q,S,D,Q,S,F,L,D,D,E,Q,I,G,E,G,F,V,L,T,C,A,A,Y,P,T,S,D,V,T,I,E,T,H,K,E,E,D,I,V,., +align11;Sequence10/1.96:A,T,Y,K,V,K,F,I,T,P,E,G,E,Q,E,V,E,C,D,D,D,V,Y,V,L,D,A,A,E,E,A,G,I,D,L,P,Y,S,C,R,A,G,S,C,S,S,C,A,G,K,V,V,S,G,F,V,D,Q,S,D,E,S,F,L,D,D,D,Q,I,A,E,G,F,V,L,T,C,A,A,Y,P,T,S,D,V,T,I,E,T,H,K,E,E,E,L,V,., +align12;Sequence11/1.148:A,T,Y,K,V,K,F,I,T,P,E,G,E,Q,E,V,E,C,E,E,D,V,Y,V,L,D,A,A,E,E,A,G,L,D,L,P,Y,S,C,R,A,G,S,C,S,S,C,A,G,K,V,V,S,G,S,I,D,Q,S,D,Q,S,F,L,D,D,E,Q,M,S,E,G,Y,V,L,T,C,V,A,Y,P,T,S,D,V,V,I,E,T,H,K,E,E,A,I,M,., +align13;Sequence12/1.118:A,T,Y,K,V,K,F,I,T,P,E,G,E,Q,E,V,E,C,E,E,D,V,Y,V,L,D,A,A,E,E,A,G,L,D,L,P,Y,S,C,R,A,G,S,C,S,S,C,A,G,K,V,V,S,G,S,I,D,Q,S,D,Q,S,F,L,D,D,.,.,.,.,.,.,.,.,.,.,.,.,.,.,.,.,.,.,.,.,.,.,.,.,.,.,.,.,.,.,., +align14;Sequence13/1.150:A,T,Y,N,V,K,L,I,T,P,E,G,E,V,E,L,Q,V,P,D,D,V,Y,I,L,D,Q,A,E,E,D,G,I,D,L,P,Y,S,C,R,A,G,S,C,S,S,C,A,G,K,V,V,S,G,S,V,D,Q,S,D,Q,S,Y,L,D,D,G,Q,I,A,D,G,W,V,L,T,C,H,A,Y,P,T,S,D,V,V,I,E,T,H,K,E,E,E,L,T,G, +align15;Sequence14/1.140:A,T,Y,N,V,K,L,I,T,P,E,G,E,V,E,L,Q,V,P,D,D,V,Y,I,L,D,F,A,E,E,E,G,I,D,L,P,F,S,C,R,A,G,S,C,S,S,C,A,G,K,V,V,S,G,S,V,D,Q,S,D,Q,S,F,L,N,D,N,Q,V,A,D,G,W,V,L,T,C,A,A,Y,P,T,S,D,V,V,I,E,T,H,K,E,D,D,L,L,., +jpred:-,-,-,-,E,E,E,E,E,E,-,-,-,-,-,E,E,E,E,-,-,-,-,E,E,E,E,E,-,H,H,H,H,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,E,E,E,E,-,-,E,E,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,-,E,E,E,E,E,E,E,E,-,-,-,-,E,E,E,E,-, diff --git a/utils/jalviewjs/site-resources/examples/plantfdx.annotations b/utils/jalviewjs/site-resources/examples/plantfdx.annotations new file mode 100644 index 0000000..b4ed4a4 --- /dev/null +++ b/utils/jalviewjs/site-resources/examples/plantfdx.annotations @@ -0,0 +1,7 @@ +JALVIEW_ANNOTATION +# Created: Mon Dec 11 10:43:00 GMT 2006 + +NO_GRAPH Secondary Structure ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||1,E|E|E|||||2,E|E|E|E|E|E|E|E|||||3,H|H|H|H|H|||||||||||Fe|||||Fe|||Fe||4,E|E||||||5,E|E|||||||||||6,H|H|H|H||7,E||||Fe|||E|E||||9,E|E|E|E|E|||||||||| +NO_GRAPH Iron Sulphur Contacts ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||Fe|||||Fe|||Fe||||||||||||||||||||||||||||||Fe|||||||||||||||||||||| +COLOUR Conservation 5d1500 +COLOUR Quality 560c00 diff --git a/utils/jalviewjs/site-resources/examples/plantfdx.fa b/utils/jalviewjs/site-resources/examples/plantfdx.fa new file mode 100644 index 0000000..80d7133 --- /dev/null +++ b/utils/jalviewjs/site-resources/examples/plantfdx.fa @@ -0,0 +1,60 @@ +>FER_CAPAA/1-97 +----------------------------------------------------------ASYKVKLITPDGPI +EFDCPDDVYILDQAEEAGHDLPYSCRAGSCSSCAGKIAGGAVDQTDGNFLDDDQLEEGWVLTCVAYPQSDVT +IETHKEAELVG- +>FER_CAPAN/1-144 +------MASVSATMISTSFMPRKPAVTSLKPIP-NVG-EALFGLKS---ANGGKVTCMASYKVKLITPDGPI +EFDCPDNVYILDQAEEAGHDLPYSCRAGSCSSCAGKIAGGAVDQTDGNFLDDDQLEEGWVLTCVAYPQSDVT +IETHKEAELVG- +>FER1_SOLLC/1-144 +------MASISGTMISTSFLPRKPAVTSLKAIS-NVG-EALFGLKS---GRNGRITCMASYKVKLITPEGPI +EFECPDDVYILDQAEEEGHDLPYSCRAGSCSSCAGKVTAGSVDQSDGNFLDEDQEAAGFVLTCVAYPKGDVT +IETHKEEELTA- +>Q93XJ9_SOLTU/1-144 +------MASISGTMISTSFLPRKPVVTSLKAIS-NVG-EALFGLKS---GRNGRITCMASYKVKLITPDGPI +EFECPDDVYILDQAEEEGHDLPYSCRAGSCSSCAGKVTAGTVDQSDGKFLDDDQEAAGFVLTCVAYPKCDVT +IETHKEEELTA- +>FER1_PEA/1-149 +---MATTPALYGTAVSTSFLRTQPMPMSVTTTKAFSN--GFLGLKT-SLKRGDLAVAMASYKVKLVTPDGTQ +EFECPSDVYILDHAEEVGIDLPYSCRAGSCSSCAGKVVGGEVDQSDGSFLDDEQIEAGFVLTCVAYPTSDVV +IETHKEEDLTA- +>Q7XA98_TRIPR/1-152 +---MATTPALYGTAVSTSFMRRQPVPMSVATTTTTKAFPSGFGLKSVSTKRGDLAVAMATYKVKLITPEGPQ +EFDCPDDVYILDHAEEVGIELPYSCRAGSCSSCAGKVVNGNVNQEDGSFLDDEQIEGGWVLTCVAFPTSDVT +IETHKEEELTA- +>FER1_MESCR/1-148 +--MAATTAALSGATMSTAFAPKT--PPMTAALPTNVG-RALFGLKS--SASRGRVTAMAAYKVTLVTPEGKQ +ELECPDDVYILDAAEEAGIDLPYSCRAGSCSSCAGKVTSGSVNQDDGSFLDDDQIKEGWVLTCVAYPTGDVT +IETHKEEELTA- +>FER1_SPIOL/1-147 +----MAATTTTMMGMATTFVPKPQAPPMMAALPSNTG-RSLFGLKT--GSRGGRMT-MAAYKVTLVTPTGNV +EFQCPDDVYILDAAEEEGIDLPYSCRAGSCSSCAGKLKTGSLNQDDQSFLDDDQIDEGWVLTCAAYPVSDVT +IETHKEEELTA- +>FER3_RAPSA/1-96 +----------------------------------------------------------ATYKVKFITPEGEQ +EVECDDDVYVLDAAEEAGIDLPYSCRAGSCSSCAGKVVSGSVDQSDQSFLDDDQIAEGFVLTCAAYPTSDVT +IETHREEDMV-- +>FER2_ARATH/1-148 +----MASTALSSAIVGTSFIRRSPAPISLRSLPSANT-QSLFGLKS-GTARGGRVTAMATYKVKFITPEGEL +EVECDDDVYVLDAAEEAGIDLPYSCRAGSCSSCAGKVVSGSVDQSDQSFLDDEQIGEGFVLTCAAYPTSDVT +IETHKEEDIV-- +>FER_BRANA/1-96 +----------------------------------------------------------ATYKVKFITPEGEQ +EVECDDDVYVLDAAEEAGIDLPYSCRAGSCSSCAGKVVSGFVDQSDESFLDDDQIAEGFVLTCAAYPTSDVT +IETHKEEELV-- +>FER1_ARATH/1-148 +----MASTALSSAIVSTSFLRRQQTPISLRSLPFANT-QSLFGLKS-STARGGRVTAMATYKVKFITPEGEQ +EVECEEDVYVLDAAEEAGLDLPYSCRAGSCSSCAGKVVSGSIDQSDQSFLDDEQMSEGYVLTCVAYPTSDVV +IETHKEEAIM-- +>Q93Z60_ARATH/1-118 +----MASTALSSAIVSTSFLRRQQTPISLRSLPFANT-QSLFGLKS-STARGGRVTAMATYKVKFITPEGEQ +EVECEEDVYVLDAAEEAGLDLPYSCRAGSCSSCAGKVVSGSIDQSDQSFLDD-------------------- +------------ +>FER1_MAIZE/1-150 +MATVLGSPRAPAFFFSSSSLRAAPAPTAVALPAAKVG---IMGRSA---SSRRRLRAQATYNVKLITPEGEV +ELQVPDDVYILDQAEEDGIDLPYSCRAGSCSSCAGKVVSGSVDQSDQSYLDDGQIADGWVLTCHAYPTSDVV +IETHKEEELTGA +>O80429_MAIZE/1-140 +---------MAATALSMSILRAPP-PCFSSPLRLRVAVAKPLAAPM----RRQLLRAQATYNVKLITPEGEV +ELQVPDDVYILDFAEEEGIDLPFSCRAGSCSSCAGKVVSGSVDQSDQSFLNDNQVADGWVLTCAAYPTSDVV +IETHKEDDLL-- diff --git a/utils/jalviewjs/site-resources/examples/plantfdx.features b/utils/jalviewjs/site-resources/examples/plantfdx.features new file mode 100644 index 0000000..6a2e058 --- /dev/null +++ b/utils/jalviewjs/site-resources/examples/plantfdx.features @@ -0,0 +1,118 @@ +HELIX d4d189 +MOD_RES 47e459 +TRANSIT 6f949b +TURN 1d1e2d +METAL 70686e +SIGNAL 92c7dd +VARIANT 60beac +Pfam dc206a +CONFLICT c46c6e +STRAND 25c54c + +STARTGROUP uniprot +Iron-sulfur (2Fe-2S) FER_CAPAA -1 39 39 METAL +Iron-sulfur (2Fe-2S) FER_CAPAA -1 44 44 METAL +Iron-sulfur (2Fe-2S) FER_CAPAA -1 47 47 METAL +Iron-sulfur (2Fe-2S) FER_CAPAA -1 77 77 METAL +Description: Fer2 Status: True Positive Pfam 8_83 FER_CAPAA -1 8 83 Pfam +Chloroplast FER_CAPAN -1 1 47 TRANSIT +Iron-sulfur (2Fe-2S) FER_CAPAN -1 86 86 METAL +Iron-sulfur (2Fe-2S) FER_CAPAN -1 91 91 METAL +Iron-sulfur (2Fe-2S) FER_CAPAN -1 94 94 METAL +Iron-sulfur (2Fe-2S) FER_CAPAN -1 124 124 METAL +Phosphothreonine FER_CAPAN -1 136 136 MOD_RES +Description: Fer2 Status: True Positive Pfam 55_130 FER_CAPAN -1 55 130 Pfam +Chloroplast FER1_SOLLC -1 1 47 TRANSIT +Iron-sulfur (2Fe-2S) FER1_SOLLC -1 86 86 METAL +Iron-sulfur (2Fe-2S) FER1_SOLLC -1 91 91 METAL +Iron-sulfur (2Fe-2S) FER1_SOLLC -1 94 94 METAL +Iron-sulfur (2Fe-2S) FER1_SOLLC -1 124 124 METAL +Description: Fer2 Status: True Positive Pfam 55_130 FER1_SOLLC -1 55 130 Pfam +Evidence: EI4 Q93XJ9_SOLTU -1 1 48 SIGNAL +Description: Fer2 Status: True Positive Pfam 55_130 Q93XJ9_SOLTU -1 55 130 Pfam +Chloroplast FER1_PEA -1 1 52 TRANSIT +L -> I (in strain: cv. Onward) FER1_PEA -1 59 59 VARIANT +I -> L (in strain: cv. Onward) FER1_PEA -1 85 85 VARIANT +Iron-sulfur (2Fe-2S) FER1_PEA -1 91 91 METAL +Iron-sulfur (2Fe-2S) FER1_PEA -1 96 96 METAL +Iron-sulfur (2Fe-2S) FER1_PEA -1 99 99 METAL +Iron-sulfur (2Fe-2S) FER1_PEA -1 129 129 METAL +YPTS -> PPPA (in Ref. 2) FER1_PEA -1 132 135 CONFLICT +Description: Fer2 Status: True Positive Pfam 60_135 FER1_PEA -1 60 135 Pfam +Description: Fer2 Status: True Positive Pfam 63_138 Q7XA98_TRIPR -1 63 138 Pfam +Chloroplast FER1_MESCR -1 1 51 TRANSIT +Iron-sulfur (2Fe-2S) FER1_MESCR -1 90 90 METAL +Iron-sulfur (2Fe-2S) FER1_MESCR -1 95 95 METAL +Iron-sulfur (2Fe-2S) FER1_MESCR -1 98 98 METAL +Iron-sulfur (2Fe-2S) FER1_MESCR -1 128 128 METAL +Description: Fer2 Status: True Positive Pfam 59_134 FER1_MESCR -1 59 134 Pfam +Chloroplast FER1_SPIOL -1 1 50 TRANSIT +STRAND FER1_SPIOL -1 52 59 STRAND +TURN FER1_SPIOL -1 60 61 TURN +STRAND FER1_SPIOL -1 62 69 STRAND +TURN FER1_SPIOL -1 70 71 TURN +HELIX FER1_SPIOL -1 74 80 HELIX +TURN FER1_SPIOL -1 81 82 TURN +STRAND FER1_SPIOL -1 88 92 STRAND +Iron-sulfur (2Fe-2S) FER1_SPIOL -1 89 89 METAL +Iron-sulfur (2Fe-2S) FER1_SPIOL -1 94 94 METAL +TURN FER1_SPIOL -1 96 97 TURN +Iron-sulfur (2Fe-2S) FER1_SPIOL -1 97 97 METAL +STRAND FER1_SPIOL -1 98 104 STRAND +TURN FER1_SPIOL -1 109 110 TURN +HELIX FER1_SPIOL -1 116 121 HELIX +TURN FER1_SPIOL -1 122 122 TURN +STRAND FER1_SPIOL -1 123 125 STRAND +HELIX FER1_SPIOL -1 126 128 HELIX +Iron-sulfur (2Fe-2S) FER1_SPIOL -1 127 127 METAL +STRAND FER1_SPIOL -1 130 133 STRAND +STRAND FER1_SPIOL -1 135 138 STRAND +HELIX FER1_SPIOL -1 142 144 HELIX +Description: Fer2 Status: True Positive Pfam 58_133 FER1_SPIOL -1 58 133 Pfam +I -> V FER3_RAPSA -1 8 8 VARIANT +Iron-sulfur (2Fe-2S) FER3_RAPSA -1 39 39 METAL +Iron-sulfur (2Fe-2S) FER3_RAPSA -1 44 44 METAL +Iron-sulfur (2Fe-2S) FER3_RAPSA -1 47 47 METAL +S -> T FER3_RAPSA -1 55 55 VARIANT +Iron-sulfur (2Fe-2S) FER3_RAPSA -1 77 77 METAL +R -> K FER3_RAPSA -1 91 91 VARIANT +M -> V FER3_RAPSA -1 95 95 VARIANT +Description: Fer2 Status: True Positive Pfam 8_83 FER3_RAPSA -1 8 83 Pfam +Chloroplast FER2_ARATH -1 1 52 TRANSIT +Iron-sulfur (2Fe-2S) FER2_ARATH -1 91 91 METAL +Iron-sulfur (2Fe-2S) FER2_ARATH -1 96 96 METAL +Iron-sulfur (2Fe-2S) FER2_ARATH -1 99 99 METAL +Iron-sulfur (2Fe-2S) FER2_ARATH -1 129 129 METAL +Description: Fer2 Status: True Positive Pfam 60_135 FER2_ARATH -1 60 135 Pfam +Iron-sulfur (2Fe-2S) FER_BRANA -1 39 39 METAL +Iron-sulfur (2Fe-2S) FER_BRANA -1 44 44 METAL +Iron-sulfur (2Fe-2S) FER_BRANA -1 47 47 METAL +Iron-sulfur (2Fe-2S) FER_BRANA -1 77 77 METAL +Description: Fer2 Status: True Positive Pfam 8_83 FER_BRANA -1 8 83 Pfam +Chloroplast FER1_ARATH -1 1 52 TRANSIT +Iron-sulfur (2Fe-2S) FER1_ARATH -1 91 91 METAL +Iron-sulfur (2Fe-2S) FER1_ARATH -1 96 96 METAL +Iron-sulfur (2Fe-2S) FER1_ARATH -1 99 99 METAL +Iron-sulfur (2Fe-2S) FER1_ARATH -1 129 129 METAL +Description: Fer2 Status: True Positive Pfam 60_135 FER1_ARATH -1 60 135 Pfam +Description: Fer2 Status: True Positive Pfam 60_118 Q93Z60_ARATH -1 60 118 Pfam +Chloroplast FER1_MAIZE -1 1 52 TRANSIT +STRAND FER1_MAIZE -1 57 59 STRAND +STRAND FER1_MAIZE -1 72 74 STRAND +HELIX FER1_MAIZE -1 76 80 HELIX +TURN FER1_MAIZE -1 81 84 TURN +STRAND FER1_MAIZE -1 90 97 STRAND +Iron-sulfur (2Fe-2S) FER1_MAIZE -1 91 91 METAL +Iron-sulfur (2Fe-2S) FER1_MAIZE -1 96 96 METAL +TURN FER1_MAIZE -1 98 99 TURN +Iron-sulfur (2Fe-2S) FER1_MAIZE -1 99 99 METAL +TURN FER1_MAIZE -1 118 119 TURN +HELIX FER1_MAIZE -1 120 123 HELIX +TURN FER1_MAIZE -1 128 129 TURN +Iron-sulfur (2Fe-2S) FER1_MAIZE -1 129 129 METAL +STRAND FER1_MAIZE -1 132 135 STRAND +STRAND FER1_MAIZE -1 137 141 STRAND +TURN FER1_MAIZE -1 142 142 TURN +Description: Fer2 Status: True Positive Pfam 60_135 FER1_MAIZE -1 60 135 Pfam +Description: Fer2 Status: True Positive Pfam 52_127 O80429_MAIZE -1 52 127 Pfam +ENDGROUP uniprot diff --git a/utils/jalviewjs/site-resources/examples/unfolded_RF00031.aln b/utils/jalviewjs/site-resources/examples/unfolded_RF00031.aln new file mode 100644 index 0000000..69a7850 --- /dev/null +++ b/utils/jalviewjs/site-resources/examples/unfolded_RF00031.aln @@ -0,0 +1,126 @@ +CLUSTAL + +B.taurus.1/1-64 C-UUGCGUU--AAUGAGAACAGAAACG-UAAA--CUAUAA-CCUAG-G---------GGU +D.melanogaster.3/1-68 G-UGGCGCU--UAUGACGCAGUUGUCU-UAAA-CUCGAAC--UCGA-GC--------GGG +D.melanogaster.2/1-63 C-AUUCAACU-UAUGAGGAUUAUUUCU-UAAA-GGCCUCU---GGC--U-------CGGA +D.melanogaster.1/1-65 G-AGCC-CU---AUGAUCGAUGAUUGG-CAAA-UCCUCUC--GAGG--A-------ACCG +R.norvegicus.7/1-66 C-CGGCACU--CAUGACGGUCUGCCUG-AAAA-CCAGCCC--GCUG-GU--------GGG +R.norvegicus.6/1-67 G-CCGCUUC---AUGACAGGAAGGACU-GAAA-UGUCUCA-AAGAC--C-----UGUGGU +R.norvegicus.5/1-62 G-UUUUUCC---AUGACGGUGUUUCCUCUAAA--UUUAC----AUG-----------GAG +R.norvegicus.4/1-61 G-UCAGAUG---AUGACGGCCUGUGCA-GAAA-CCCCCAC-GUGGG--C--------UGC +R.norvegicus.3/1-67 U-UUGCAUU--AAUGAGGAUUACACAG-AAAA-CCUUUGU--UAAGGGU--------UUG +R.norvegicus.2/1-64 G-UUACAUU--GAUGAGAACAGAAACA-UAAA--CUAUGA-CCUAG-G---------GGU +R.norvegicus.1/1-61 A-UAUUUGUU-UAUGAUGGUCACAGUG-UAAA--GUUCA----CAC-----------AGC +O.aries.1/1-68 G-ACGCUUC---AUGACAGGAAGGACU-GAAA-UGUCUCU-UGGAC-GC------CUGGU +M.musculus.9/1-66 C-CGGCACU--CAUGAAGGUCUGCUUG-AAAA-CCAGCCU--GCUG-GU--------GGG +M.musculus.8/1-67 U-UUGCAUU--AAUGAGGAUUACACAG-AAAA-CCUUUGU--UAAG-GA-------CUUG +O.niloticus.3/1-65 G-UGUCUCU---GUGAAGUUCGGUUUU-UAAA-AGGGUCA---UCC--A-------GAAA +M.musculus.7/1-64 G-UGUCUCU---AUGAAGGAGGGGCCC-GAAG-CCCUUGU---GGG--C--------GGG +O.niloticus.2/1-61 U-GUUUAUU--AAUGACGGCUACAGAU-UAAA--CCUUU----AGC-----------CUC +M.musculus.6/1-61 G-UCAGAUG---AUGAUGGCCUGGGCA-GAAA-CCCCAUG--UGGG--C--------CGC +O.niloticus.1/1-59 G-UUUCUCA---GUGAAGGCUACAGAU-UAAA--CCUCU----GGC-----------CUC +M.musculus.5/1-66 G-CCGCUUC---AUGACAGGAAGGACU-GAAA-UGUCUUA---GAC--C-----UGUGGU +M.musculus.4/1-65 G-UGUGCGA---AUGAUAACUACUGAC-GAAA-GAGCUGU-CUGCU--C-------AGUC +M.musculus.3/1-64 G-GUUCUUC--CAUGAUGGUGUUUCCUCUAAA--UUUGC----ACG-----------GAG +M.musculus.2/1-64 G-UUACAUU--AAUGAGAACAGAAACA-UAAA--CUAUGA-CCUAG-G---------GGU +M.musculus.1/1-64 G-UCACCGA---AUGAUCUGCUCUGGU-CAAA-UCCUUCU---AUG--C------CAGCC +C.elegans.1/1-64 G-AGGCAGCUUUGUGACGACCUUUGGC-UAAA-CUCCAUC--GUGA-GC--------GCC +H.sapiens.15/1-63 U-UUUCAUC--UAUGAGGGUGUUUCCUCUAAA--CCUACG---AGG-----------GAG +H.sapiens.14/1-62 C-ACUGCUG---AUGACGAACUAUCUC-UAAC-UGGUCUU--GACC--A-------CGAG +H.sapiens.13/1-64 G-UCACUGC---AUGAUCCGCUCUGGU-CAAA-CCCUUCC---AGG--C------CAGCC +H.sapiens.12/1-67 C-UCUGUUA---AUGACGUCUCUCCCUCUAAA-CCCCAUU-AAGGA--C--------UGG +D.rerio.1/1-66 A-UGUGGUCUUUAUGAAGGCAGGUGCA-GAAA-CUAUGCA---CUA-GU--------GGU +H.sapiens.11/1-63 G-CCGGAUG---AUGACGACCUGGGUG-GAAA-CCUACCC-UGUGG--G--------CAC +H.sapiens.10/1-62 C-CGGCACU--CAUGACGGCCUGCCUG-CAAA--CCUGC----UGG--U--------GGG +S.mansoni.1/1-67 C-UCGCUAU---AUGACGAUGGCAAUC-UCAA--AUGUU----CAU--U--------GGU +S.scrofa.4/1-64 C-UGGCACC--CAUGACAGUCUGCCUA-AAAA-CCAGCC----CUG-GU--------GGG +S.scrofa.3/1-63 A-UUUUAUC--CAUGAAAGUGUUUCCUCUAAA--CCUAU----GUG-----------GAG +S.scrofa.2/1-65 C-UGGCACC--CAUGACAGUCUGCCUA-AAAA-CCAGCCC---CUG-GU--------GGG +S.scrofa.1/1-68 G-ACGCUUC---AUGACAGGAAGGACU-GAAA-UGUCUUG-UGGAC-GC------CUGGU +H.sapiens.9/1-58 U-AUUUGUU--UAUGAUGGCCACAGCC-UAAA--GUACA----CAC-----------GGC +H.sapiens.8/1-67 U-UUGCUUU--AAUGAGAAUAGAAACG-UAAA--CUAUGA-CCUAG-G---------GGU +X.laevis.1/1-67 G-UGUUUGCA-AAUGACGACCGAUUUU-GAAA-UGGUCUCACGGCC--A-------AAAA +H.sapiens.7/1-70 U-GGCGUCUU-CAUGAGGGAGGGGCCC--AAA-GCCCUUG--UGGG--C--------GGA +H.sapiens.6/1-66 G-UGUGCGG---AUGAUAACUACUGAC-GAAAGAGUCAUC---GAC--C-----UCAGUU +H.sapiens.5/1-57 U-UCACAGA---AUGAUGGCACCUUCC-UAA---ACCCU----CAU-----------GGG +H.sapiens.4/1-71 G-ACUGACAU-UAUGAAGGCCUGUACU-GAAG-ACAGCAA--GCUG--U-------UAGU +H.sapiens.3/1-68 G-ACGCUUC---AUGAUAGGAAGGACU-GAAA-AGUCUUG-UGGAC--A-----CCUGGU +H.sapiens.2/1-65 G-UGUGCGG---AUGAUAACUACUGAC-GAAA-GAGUCAU-CGACU--C-------AGUU +H.sapiens.1/1-63 G-CCAGAUG---AUGACGACCUGGGUG-GAAA-CCUACCC-UGUGG--G--------CAC +M.musculus.14/1-67 C-UCUGAUA---AUGAUGUCUCUCCCU-CUAA-CUCCCAGUAAGGA--C--------UGG +M.musculus.13/1-60 C-AUGCGUC--CAUGAAGUCACUGGCC-UCAA-GCCCAA----GUG-GU--------GGG +M.musculus.12/1-65 C-UCAGCAG--GAUGAUGAGAAGGGCU-GAAA-UGCUGCC--AAAC--C-------AGGU +M.musculus.11/1-63 U-AUUUGUG--UAUGAUGGUCACAGUG-UAAA--GUUCC----CAC-----------AGC +M.musculus.10/1-66 C-CGGCACU--CAUGAAGGUCUGCCUG-AAAA-CCAGCCU--GCUG-GU--------GGG +B.taurus.7/1-61 U-UUUGCCC---AUGAAGGUGUUCCCUCUAAA--CCUAC----GUG-----------GAG +B.taurus.6/1-67 G-AUGCGUC--CAUGAAGUCACCAGCC-CCAA-GCCCCUC---GUG-GU--------GGG +B.taurus.5/1-61 G-CCAGAUG---AUGAGGACCUGUGCG-GAAA-CCCCCCG--CGGG--C--------UGC +B.taurus.4/1-64 ACUUGCGUU--AAUGAGAACAGAAACG-UAAA--CUAUAA-CCUAG-G---------GGU +G.gallus.3/1-73 U-AUUUCUU--UGUGAUGACCGAUUUU-GAAA-UGGGUUU---CUC--UAAUGCCAGGAA +B.taurus.3/1-66 C-CCGGUGCC-UAUGACGGUCUGUCUG-AAAA-CCAGCCC---CUG-GU--------GGG +G.gallus.2/1-60 U-AUUUGUC---AUGACAGUCACAGCA-UAAA--GCGCA----GAC-----------GGC +B.taurus.2/1-64 C-UUGCGUU--AAUGAGAACAGAAACG-AAAA--CUAUAA-CCUAG-G---------GGU +G.gallus.1/1-63 G-UGUGUUU---AUGAAGAGCACUAAC-AAAA-GAGUAAU-UGACU--C-------AGUU + +B.taurus.1/1-64 UUC-U-G-UUGGAU--GGUUG-------GCAAC +D.melanogaster.3/1-68 CAA-U-U-GCUGAU---UACG---AUUAACCAC +D.melanogaster.2/1-63 AAU-A-G-UCUGAA---CCU--------UAUUG +D.melanogaster.1/1-65 AUC-G-U-UGAGAA--CCCCU-----UUGCCUU +R.norvegicus.7/1-66 GCA-G-U-CCCGAG-GACCUG-------GCGUG +R.norvegicus.6/1-67 CUU-U-C-UUCGAU--GUUCU-------GCGGC +R.norvegicus.5/1-62 AAA-C-A-CCUGAU-UUCCAG------AAAAAU +R.norvegicus.4/1-61 -CA-G-G-UUUGAA---CCC--------CUGGC +R.norvegicus.3/1-67 UGUCG-A-UCUGCU--AAUUG-------GCAAA +R.norvegicus.2/1-64 UUC-U-G-UUGGAU--AGCUC-------GUAAU +R.norvegicus.1/1-61 UGU-G-A-CUUGAU--UUUUA-------AAAAU +O.aries.1/1-68 CCU-U-C-CUUGAU--GUUCU------CACGGC +M.musculus.9/1-66 GCA-G-U-CCUGAG-GACCUG-------GCGUG +M.musculus.8/1-67 UGU-AGA-UCUGAU--AAUUG-------GCAAA +O.niloticus.3/1-65 ACC-G-ACACUGAU--GUUUC------CGACAC +M.musculus.7/1-64 CCU-C-C-CCUGAG---CCCG----UCUGUGGU +O.niloticus.2/1-61 UGG-A-G-CCAGAU--GCAUU------CAAACA +M.musculus.6/1-61 CCA-G-G-UUUGAA---CCC--------CUGGC +O.niloticus.1/1-59 UGG-A-G-CCAGAU--GCAUU-------GAAAC +M.musculus.5/1-66 CUU-U-C-CUCGAU--GUUCC------UGCGGC +M.musculus.4/1-65 UGU-G-G-UUGGAU---GUAG------UCACAC +M.musculus.3/1-64 AAA-C-A-CCUGAU-UUCCAG-----GAAAAUC +M.musculus.2/1-64 UUC-U-G-UUGGAU--AGCUU-------GUAAU +M.musculus.1/1-64 AGG-G-U-GGUGAU--GACCC-------GUGAC +C.elegans.1/1-64 UCU-G-G-UCUGAU---GC---------GCCUC +H.sapiens.15/1-63 GAA-C-A-CCUGAU---CUUA-----CAGAAAA +H.sapiens.14/1-62 CUA-G-U-UCUGAA---UU-G-------CAGGG +H.sapiens.13/1-64 AGA-G-U-GGGGAU--GGUCU-------GUGAC +H.sapiens.12/1-67 GAG-A-G-GCAGAGCAAGCCU-------CAGAG +D.rerio.1/1-66 GUC-U-G-UCUGAU--GUUUG-------GCCAU +H.sapiens.11/1-63 CCA-U-G-UCCGAG---CCCC-------CUGGC +H.sapiens.10/1-62 GCA-G-A-CCCGAA-AAUCCA-------GCGUG +S.mansoni.1/1-67 UGC-C-A-UUUGAU--GAAAUCAGUUUUGUGUG +S.scrofa.4/1-64 GCA-G-A-CUCGAG-AACCUG-------GCGUG +S.scrofa.3/1-63 GAA-C-A-CCUGAU-GUCCAG------GAAAAU +S.scrofa.2/1-65 GCA-G-A-CUCGAG-AACCUG-------GCGUG +S.scrofa.1/1-68 CCU-U-C-CCUGAU--GUUCU------CAUGGC +H.sapiens.9/1-58 UGU-G-A-CUUGAU---UCA--------AAAGA +H.sapiens.8/1-67 UUC-U-G-UUGGAU-AAUUAG-----CAGUUUA +X.laevis.1/1-67 CUC-GUG-UCCGAC---AUC--------AACCC +H.sapiens.7/1-70 CCU-C-C-CCUGAG---CCUGUCUGAGGGGCCA +H.sapiens.6/1-66 AGU-G-G-UUGGAU---GUAG------UCACAU +H.sapiens.5/1-57 UGG-U-G-UCUGAG--AGGC--------GUGAA +H.sapiens.4/1-71 ACA-G-A-CCAGAU--GCUUU--CUUGGCAGGC +H.sapiens.3/1-68 CUU-U-C-CCUGAU--GUUCU------CGUGGC +H.sapiens.2/1-65 AGU-G-G-UUGGAU---GUAG------UCACAU +H.sapiens.1/1-63 CCA-U-G-UCCGAG---CCCC-------CUGGC +M.musculus.14/1-67 GAG-A-G-GCUGAACAAACCU-------CAGAG +M.musculus.13/1-60 CAG-U-G-ACAGAA---GA---------GCUGC +M.musculus.12/1-65 CCU-U-U-UCUGAU--GGUGG-------CUGGG +M.musculus.11/1-63 UGU-G-A-CUUGAU--UUUUA----AAAAUGUC +M.musculus.10/1-66 GCA-G-U-CCUGAG-GACCUG-------GCGUG +B.taurus.7/1-61 GAA-U-G-CCUGAU-GUCCAG-------GAAAA +B.taurus.6/1-67 UGG-U-G-AUGGAA-CCGUCA-----AAGCAGU +B.taurus.5/1-61 CCA-U-G-UCUGAG---CCC--------CUGGC +B.taurus.4/1-64 UUC-U-G-UUGGAU--GGUUG-------GCAA- +G.gallus.3/1-73 AUC-GUG-UCUGAU---GUUG-----UCAAGUA +B.taurus.3/1-66 GCA-G-A-CCUGAG-AACCUG-------GCGUG +G.gallus.2/1-60 UGU-G-A-CCUGAU--UUUAG------AAAAUA +B.taurus.2/1-64 UUC-U-G-UUGGAU--GGUUG-------GCAAC +G.gallus.1/1-63 GGU-G-U-UCAGAU--GCU---------CUCAC + diff --git a/utils/jalviewjs/site-resources/examples/uniref50.score_ascii b/utils/jalviewjs/site-resources/examples/uniref50.score_ascii new file mode 100644 index 0000000..4a506d9 --- /dev/null +++ b/utils/jalviewjs/site-resources/examples/uniref50.score_ascii @@ -0,0 +1,99 @@ +T-COFFEE, Version_8.99(Fri Feb 18 08:27:45 CET 2011 - Revision 596) +Cedric Notredame +CPU TIME:0 sec. +SCORE=94 +* + BAD AVG GOOD +* +FER_CAPAA : 99 +FER_CAPAN : 94 +FER1_SOLLC : 94 +Q93XJ9_SOLTU : 93 +FER1_PEA : 93 +Q7XA98_TRIPR : 92 +FER1_MESCR : 92 +FER1_SPIOL : 92 +FER3_RAPSA : 99 +FER1_ARATH : 93 +FER_BRANA : 99 +FER2_ARATH : 93 +Q93Z60_ARATH : 92 +FER1_MAIZE : 91 +O80429_MAIZE : 91 +cons : 94 + +FER_CAPAA ------------------------------------------------ +FER_CAPAN 99------333445778888876665554-23333345--6778765- +FER1_SOLLC 98------344556788888876665544-23333344--5677765- +Q93XJ9_SOLTU 98------344556788888876555554-23333344--5677765- +FER1_PEA 9964---1344556788888876655544-23333344--6778876- +Q7XA98_TRIPR 9964---1344566788888876665554-222222210056777650 +FER1_MESCR 9954--1124455677878765--22222122233345--5677776- +FER1_SPIOL 9965--111111--677777765444444233334445--6789876- +FER3_RAPSA ------------------------------------------------ +FER1_ARATH 9965----344556888888876665554233333344--6788776- +FER_BRANA ------------------------------------------------ +FER2_ARATH 9965----344556888888876665555233333345--6778876- +Q93Z60_ARATH 9965----344556888888876665555233333345--6778876- +FER1_MAIZE 99540001222334677777765555443--2222233--4567554- +O80429_MAIZE 9854---------23445555---11111111111111--1212222- +cons 996400012344557778887766544441222233340056777650 + + +FER_CAPAA -----------9999999999999999999999999999999999999 +FER_CAPAN 4--445678999999999999999999999999999999999999999 +FER1_SOLLC 4--445678999999999999999999999999999999999999999 +Q93XJ9_SOLTU 4--445678999999999999999999999999999999999999999 +FER1_PEA 533444568999999999999999999999999999999999999999 +Q7XA98_TRIPR 333434568999999999999999999999999999999999999999 +FER1_MESCR 4333-5678999999999999999999999999999999999999999 +FER1_SPIOL 422--2334599999999999999999999999999999999999999 +FER3_RAPSA -----------9999999999999999999999999999999999999 +FER1_ARATH 533446788999999999999999999999999999999999999999 +FER_BRANA -----------9999999999999999999999999999999999999 +FER2_ARATH 533546788999999999999999999999999999999999999999 +Q93Z60_ARATH 533546788999999999999999999999999999999999999999 +FER1_MAIZE 4222--567899999999999999999999999999999999999999 +O80429_MAIZE 222435678999999999999999999999999999999999999999 +cons 422445677899999999999999999999999999999999999999 + + +FER_CAPAA 999999999999999999999999999999999999999999999999 +FER_CAPAN 999999999999999999999999999999999999999999999999 +FER1_SOLLC 999999999999999999999999999999999999999999999999 +Q93XJ9_SOLTU 999999999999999999999999999999999999999999999999 +FER1_PEA 999999999999999999999999999999999999999999999999 +Q7XA98_TRIPR 999999999999999999999999999999999999999999999999 +FER1_MESCR 999999999999999999999999999999999999999999999999 +FER1_SPIOL 999999999999999999999999999999999999999999999999 +FER3_RAPSA 999999999999999999999999999999999999999999999999 +FER1_ARATH 999999999999999999999999999999999999999999999999 +FER_BRANA 999999999999999999999999999999999999999999999999 +FER2_ARATH 999999999999999999999999999999999999999999999999 +Q93Z60_ARATH 99999999999999999999999999999------------------- +FER1_MAIZE 999999999999999999999999999999999999999999999999 +O80429_MAIZE 999999999999999999999999999999999999999999999999 +cons 999999999999999999999999999999999999999999999999 + + +FER_CAPAA 999999998865- +FER_CAPAN 999999998865- +FER1_SOLLC 999999998865- +Q93XJ9_SOLTU 999999998865- +FER1_PEA 999999999865- +Q7XA98_TRIPR 999999998865- +FER1_MESCR 999999998865- +FER1_SPIOL 999999998865- +FER3_RAPSA 99999999874-- +FER1_ARATH 99999998874-- +FER_BRANA 99999999874-- +FER2_ARATH 99999998764-- +Q93Z60_ARATH ------------- +FER1_MAIZE 9999999998620 +O80429_MAIZE 99999999874-- +cons 9999999987550 + + + + + diff --git a/utils/jalviewjs/site-resources/examples/uniref50_mz.fa b/utils/jalviewjs/site-resources/examples/uniref50_mz.fa new file mode 100644 index 0000000..725d210 --- /dev/null +++ b/utils/jalviewjs/site-resources/examples/uniref50_mz.fa @@ -0,0 +1,30 @@ +>FER1_MAIZE/53-118 Ferredoxin-1, chloroplast precursor +ATYNVKLITPEGEVELQVPDDVYILDQAEEDGIDLPYSCRAGSCSSCAGKVVSGSVDQSDQSYLDD +>FER_CAPAA/1-66 Ferredoxin +ASYKVKLITPDGPIEFDCPDDVYILDQAEEAGHDLPYSCRAGSCSSCAGKIAGGAVDQTDGNFLDD +>FER_CAPAN/48-113 Ferredoxin, chloroplast precursor +ASYKVKLITPDGPIEFDCPDNVYILDQAEEAGHDLPYSCRAGSCSSCAGKIAGGAVDQTDGNFLDD +>FER1_SOLLC/48-113 Ferredoxin-1, chloroplast precursor +ASYKVKLITPEGPIEFECPDDVYILDQAEEEGHDLPYSCRAGSCSSCAGKVTAGSVDQSDGNFLDE +>Q93XJ9_SOLTU/48-113 Ferredoxin I precursor +ASYKVKLITPDGPIEFECPDDVYILDQAEEEGHDLPYSCRAGSCSSCAGKVTAGTVDQSDGKFLDD +>FER1_PEA/53-118 Ferredoxin-1, chloroplast precursor +ASYKVKLVTPDGTQEFECPSDVYILDHAEEVGIDLPYSCRAGSCSSCAGKVVGGEVDQSDGSFLDD +>Q7XA98_TRIPR/56-121 Ferredoxin I +ATYKVKLITPEGPQEFDCPDDVYILDHAEEVGIELPYSCRAGSCSSCAGKVVNGNVNQEDGSFLDD +>FER1_MESCR/52-117 Ferredoxin-1, chloroplast precursor +AAYKVTLVTPEGKQELECPDDVYILDAAEEAGIDLPYSCRAGSCSSCAGKVTSGSVNQDDGSFLDD +>FER1_SPIOL/51-116 Ferredoxin-1, chloroplast precursor +AAYKVTLVTPTGNVEFQCPDDVYILDAAEEEGIDLPYSCRAGSCSSCAGKLKTGSLNQDDQSFLDD +>FER3_RAPSA/1-66 Ferredoxin, leaf L-A +ATYKVKFITPEGEQEVECDDDVYVLDAAEEAGIDLPYSCRAGSCSSCAGKVVSGSVDQSDQSFLDD +>FER2_ARATH/53-118 Ferredoxin-1, chloroplast precursor +ATYKVKFITPEGELEVECDDDVYVLDAAEEAGIDLPYSCRAGSCSSCAGKVVSGSVDQSDQSFLDD +>FER_BRANA/1-66 Ferredoxin +ATYKVKFITPEGEQEVECDDDVYVLDAAEEAGIDLPYSCRAGSCSSCAGKVVSGFVDQSDESFLDD +>FER1_ARATH/53-118 Ferredoxin-2, chloroplast precursor +ATYKVKFITPEGEQEVECEEDVYVLDAAEEAGLDLPYSCRAGSCSSCAGKVVSGSIDQSDQSFLDD +>Q93Z60_ARATH/53-118 At1g10960/T19D16_12 +ATYKVKFITPEGEQEVECEEDVYVLDAAEEAGLDLPYSCRAGSCSSCAGKVVSGSIDQSDQSFLDD +>O80429_MAIZE/45-110 Ferredoxin +ATYNVKLITPEGEVELQVPDDVYILDFAEEEGIDLPFSCRAGSCSSCAGKVVSGSVDQSDQSFLND diff --git a/utils/jalviewjs/site-resources/images/coolJalviewBackgroundFading.png b/utils/jalviewjs/site-resources/images/coolJalviewBackgroundFading.png new file mode 100644 index 0000000000000000000000000000000000000000..0a6eb6cfdd6ed6d7a97941a4a28260f61c8a3dea GIT binary patch literal 527022 zcmXt_I+9Rs8VMt4gyU?3$7fe8pmD?Pe9q(ee-#OM+!VK7o* zjLru?-{14cu3h*2*RJil&(3+B^N!HcP$nUyBfNL-9*N2u1)Y2Ma0Tz(!;^Z1cXx-J zdw}Wg?Y^guvfRC@(P!It7Y`j|)n)J9tBE7JvckQ)CV2P8*z?}Kr?39K?yKmq9NfEi zTd1NStLJO6ca0BQ5S#5M89Rk7Z?+8o-P@~YNmwrb;I`9#$~zzbL354e!?Ne|CzJ}h zu?b@D-@7>n-nM+id6WbC%u@AnO*2U~w5kPd%APcw*I}C+m~}7_)AD4=_|b$pdTjp1 zb*9a2>e0d#uq%=VD`-u@aIrBGe1JWxorV(?7L3%+G}5@=v`^AlmmD~XKf za1Xbelw&tNnoIl*W!O{i(BZ@JQhL4AjxO(8jlS`WrA91vr;RNw=N2j@dpm|DyMSeN zSINGNW)Z4KUZ)|GJZ$vgR&~n@DYM8& zO`A}l#~$8qckz1&egiiU=4=Dw>p3YeS`=`!tM@UuG^4&0(Nb6KBBnmvsX4JHqYU0* zbaOC!NKB4;Rz(lP-}<#wHzusDrRb7?GO9$RD0usaYze zUAy2vUydqilkAVLgl)Df3iwFM-Nqp0mL)`7O_z2%ZW8i?8#MdQ$JfBIv#H~%bJ^8^ zi0kb|n1&X$1ic0Zzyhjn1F&jT`@8$~A`&m7to%NrhCO->f_A0f2Gl<(KzIiF0U2}f z{iXfaB6K({X&e_w%##UN20eXZpSo#Ibwi|G7c*b-G4lD7QV(2yJnm{MP(Nn6_WgRr zm&|eC5qdS2QW)dHA~oJf5h1wY5fM2&R>JR-a`^Uyw|HOM{clHQ-+6cdE>T<}Z*5gu zPWKuGC$ChYhscE6!hA|n7Lnq4v!rqp+?1lu>w|sJUnFnja+YyoJw>muMD_6B(Etne zzsRy12EGs56HJVkP)W4hju~pvKroxHfc=ZVeAbyDA*<3LBjf53(IKnFuQT#$ylIO4 zUDds$X;K#D7WJ8`I=+}#`AsGcT4%Q_cRC^#$4|#CY)YER`A4>)Gi$WgT-ts^7tx5N zsEsG>X2cUweJ|!>2E=%c=fpVV10vvHIw15BJi`z>Pr+~ zBZS7DC_m@A_AjhXdHwNnG8I}N&j)O@pc^x{{#}?$O)Tx^i_|>#vN$O>Yr;s+Hvjp+ zzVkA3n2jSf<9Cfj_nc?`dW;~@H6Y_gq<^n|j?C~J@Yii|)(tTqYx?~&{OFSOVCBaw zOX4mJ-|O;0;~-ghnU|%$U&b1IBj|c7jCYt?&BK+RlvT0Ii(Mt(!z_sN3q#NaxzNxy z02bUYMMih3;_zi^{pW07zpDo*t=1>UekQwF4f(` z0k1E4f-fh=KO0uHXZ}gwqCvC2%5tD;XV!ZgnI&40uXhxqtx`^J#!9!=qVY}@?Z08> zkprQSQhvm$dt}|GRxKs%*RYps$R(|DxlOg1OWjA0lWAxttrCYX_u!D|YifJIC}a*1 zLYN(%xBZH+u!tiKzIpT@RJV>&bxcc4%Gm}j&!Lh3*qNPxb)!8rUShWSI#bB+!xb<* z`;j$qp(7x<2$w-kaFskxb0ZJ7+acT@YuPvFHB5}KOU8N)+#n{hBM)8a3k_En_ZV8L~( zR<7*z@`9%jR>sY74Q4ULf>Yr`?>I2k zh8QkhCP~9Ni-&LAIb*N*s1Sj<-CHZA{3kw~F}L04u+OdCc8Xg_bj3$m-;o!R#{!?gLcmE=j zv@91S`)eAtIBzJOR+vODD0I6ZHge+`jShUCpCnUE%U}vKB6LMQ-Wf4Il>W$3^TM9h zntvm}XLIm_gT|3rs`tM8hvbXDf+lh(>7s(%g${(Ar6)Xe$wQ{ru_U?7Kh>+qkH5_nWjYx$;)u5I~Cg>Ih_H0Pik@Z z(KyE1_G!kY1RPPjA%L1!i;Xi#>L_s5kC?A~=keabZ0(2CT0fRQjxN%L?6?`pw8>*iy zc*Bi*tOGj;-s&v7%~f_DsRqkw8us>@L3cDN`N!3oSmB9ia->M-HyxFPj#r?Xk!dt3m6R>&n9-TW=R+hq7-*B3+)uFxX(p`D|;i2OH&+ZIo@RIS6i)8z;j*o4pt$%O_Xg}7;<*GAW?V{ zUU;8s=EGWb9~R1R3#^Ej!3ftdmmh=$0WCqTHc_+BK18WbwUH5U8UZ z?9{92w1g;7*ffBA;9uahlAzBZfNhncNaU*04g&c=`qFGX^GgfNFKt zj@D*H_^UsO%M&qT86>Y1ip6EdP@*af?1QU>PK7+P z{W*BfIxO>WY9Gb0+N6@*`}FK>mo0O^X&X^$ZvLW^eU-K#vE?)hZwg0_D6Fr@3+@#!*NM$eMS5Zu~W|>c4#U}~C z2#6oC4edR9{dI3r7 z5H(rEusPa6Sn~|(HZpm&pI~i2dMlxkCF3yg!7~;pYOk32=IW_|5l{T-!~^L5m>Mzu zzG|*Qp})$}Fvo&Pa{c6RzHPCcY2;J;i}-I%J%xK}95yf`Y85(9ZZm9l#PS#x2=;TK zeeLEOFWODce7`+Glz!WKJ^JW?mp^1RmT> zl=Kg5k?ibdZ+FPSo>DK)&`OdHO`EM=(>{^MintBS>18@+EI6UnHn=r^zx8Wd8(g8x z-ef%kUPnIIo)hUhqBnh&sk7s7%)0U=ZZ|*1M7?2mPc0ucuGk^sw-&*r`!eHcXczCD zu~y*|hm?zUxff6z4bd0Q@vlpf0mK1eR(WZEBrk`3<0%8tFZUA^4~^{Y*IUAwo)O6l z^R-c~y5n`f!8S)l8<&?Jm6fTK825z^jj|L(+1j3Y22&>Kpc4n$wO#qzY@jsUAL zW&WVotwtKUEK(yj0atQeKCjC)EEy;kHw!8a!)Ig|)#}%p^JYM5&qbR_QsL+uPx+K2 zPW_IK(Mbgso=vfPo}L+TTw;xmtSx4Vw8|2_U|0q#j(b{g*C3{__W(;|EfMR?k(zK8 z*geo&rk0wF!F;LgR$^$SE_R zh$RTbJAX9h%~W@IV={4_fp_%mW&GeFM&w1&8hv%Pu!2p{H=3AntLQAUkTkHvd2?=S z_TW3c*MZ_yH&$c|n~U$)@87I4!7a)11-@G5DY(L|=b@2kG)I4`Q*lexv=tNW$I~jU z7N_Sn&jR58RH?|SG(x;mi7pJy9rwNET|AmurS$s`RFhU2 z@jqcoMMl9t>wo4K$mi$h(dFqvIsLHp?5TWg%{uBQL6Y!z>xf?pzjkC)4Dn=+cp9}I zQ~9*?e9Pfj$4E?`C!VcVp7W?aT3{dcScHTV*LvZr*eeUta+t|tJ z+t_iTy0bWUlXE-O=;0(wR;t?!>zst4fh+IGcja6LwfB4T+^)(XS!SsL-~!E}(QT)9 z@tiiW{Gs0Jp@C<&`1-7{jVqa?v=?~&Fzxe}&JuyKcNKJ|wF~b9Eiy?91ddKIv=`NL z6i2u1&kAq5oCa&acB*pWs|K;D{hzxkgk)iKsqhkfK`fr;&6f`Ge1pWb|B~t|l7^?> zHGvJ2>OZ*YuhY)fUuclfRr|p|*E>a1>r^}-oG_{P^@8h97#~9vKj%J=A~Zhj$zP1@ zlbTK%ZH9D_M))Ag2am!;1|fHZ&v=#Z|63uQ2IU$+g@OWDsbSfa%$}=F1c%l$8$1k# z{Cv3@Pi~#Fu1He`PCrAxy=Dm1wC}r!R+5=B^BkGU=|n~OyT`zu1l<=R2TieSqO&jn z-2M#;0}85;(m}*?X?$r@!l@~{VdN1TyJ6McPaek0b)cY|4(AtWC#CNFMl5AqGZWEk zCDNtkhf2^l4#HQ{1Fhr#de7uuWU;9db4sQE_ARee!4Om3(WkOxD}u@@;Gc3l=$K&E zy^h?-P246-{7xU}e}?I0GNmAPc`?3XR8Oe@AwZuSi60fiByw4(d%FG4mr zPN})WYHan5i$YMb`b%SyO+~el||*!rBEM`2`4mB(&i81WMG{Nw!xeU*MDd{j3s5;0>$nS`gu!4a*! zUS`baD&;Qy!PUdL?#oqM&eBX1Wkq9D2R=pK@s#w40K8N*NFw=8)=})hVcCvH?h*`5Ch@P1E~m!y$Ax)Aas7gI?l?wihO&jSnl*k^4m|fQj>WalU}UN> z{*T0|R6ubS&b&qw4NjkrjZyoN90(*^(jO~%WQNTCCyRBDjfAG}>^7iwNn&In)i^@; z)rt%(0zU85u$AV_8_Z5xWx2`ZdS-q3($hg)sndOrl;I=JyFDMY=*{G{G`&uz z{=gN0V%;|}Sr->vH}8_Qqntln)xDG)rk{s65&4uf`WjjvpGE%1$^1WS#@?o;=HD{F^KSj5Skb5zgu}L*4L`jD zBm){@>>guG3JK1Rsi(c1=hfX_aY)%h=NbNL>r2pl20Cb>xr=purL%S}|ix}()H^?6Q}=N5q0)6tFo2NkY&%TpFx*dpL$)fL6{RA z(CcNq8Yn}jr)-vy;Ir>t_%mXb{<$OlU&f3yo({r3SOl87ub!%$OMzA@#Sd>Aen{{+ ztxaJT_*o6u&ukT4Lr<17iuY7?ekFBs?F!30_3PX{626_^x{k(92*Tp~eFa3Hj!qh} za3K>Srm4)I zJ}ab)2CXglCP8BmUCPnegHNu>Q&SlX8xiwAwYrVB*t5qF>|bc}UvyGK za@1qyQ!U&&zfNX!3kfH;3q!{sjJCgHv*x-VOU*%mo5zM3%*ETajp?nu`5p41e{s3 zRcyR5Vp*xcxsa|8(Laz_=^C??kb0qV+=@F-q|Y|zAA*HeqhGd@!Ff$**n{~y_9Ae~fp<`I`fn<6{{~3?r?wyOiEVCa<%tB!VsSD4D8NVA_ zHQS+47CXjzNw;9=@L2U;VC#_g?!iJ2AO};;iQga{cPoI(72)F zqyJ1&wZAcP5dV&RkQRjEFSA@Xlz>1a{l&AAKv%1`%jrZD?NFt3_|rgz# zSL8F|-s*JUql;R1%wTilJ4IH<9Ufo5^0dsb@U=dgq%U^3gYVCWbZQJ3|G{?y z4a(jeVxUEGcELv`#sIWrA>BIjn7EWRT-EK0GH^XtwN>ap*vT`MrDTu_aUqz{jY3vp@~& zyB_4HdjaePd6>o1_b?QYfLct7tZ1FZri@5OldF^Zl2eL4U&0b$W4SxnA^!NDwFK{W zV;*E%SmyChHi&ex*l8|ByUcD3D^GEx$Frc|K3myXj(eEzPWGmyFRBz8c~UpMNZhV zC{b7y#*0jY@9ga>By3+a?FRtI@!gx%b z3f)Yh3&`~ddL;6D*28PpKjrtI*xbDKlV&2dxDOi*-Pr%L8bW(=`VDi>%eY-D{~(0Q z4(1{k}}n!%7?fYc1~G0J}zN5 z4z_ZY6&a}sRPi#Jqg-{9zZsw53`J+8oIcid@T0kXdy{Ipdi^KA)AM>E!+`Dc&3~|n z4;0Vl9d`wH07iUJ??5u!SxC&hYRvE-*bh)xo(?Dz62O6cx4La7q-yO!x&J`cBagoW zr6E9-!eltq2cUF{?(u>JeFbDb$!CD91rJnKJGFvj8I-fqJ?m|y4%j~Gr}!juQ+TRO zYLTpUeOJ3f82UiW8+zQ8O&OH%T_h9V+J8B!JQe~52qeMbhW4z{YO&5)_=2i9v>FZ@ zvz9>Ni^4Gh!5(AIne@Alk~_>fm`9UX>qp-iIvDA{2VLn^FrkOv!~9fZ>_Y_ah$4*g zHQPMM+#3HVtP$7K(&e)vRenQN)mJ>xp;2kT{Gx1OGY8$};f z@;O)Z>DM+Yln_Xr9Wq;%{}1qJF~;?!07vanxM^yX3IJ9si`d!+k|fMi zlM^qH$mx%8g8v0DKx%%ooqh0@vrM0|Tq4bCO&^Pr_@CEnC@WQK#Tg+@8U!=B+F=6~ zNQgs{j{-P9?FTmsC}P!Ta0=14w!f)Ojr^5{?kpz&?I7NBkC+5kcR0$fpRW@rXB#VBH@QCQm6|Ha~d&(WWkWtx04C@E=uoSSfMYxlGKARPY5EsXM< z4u*okT+%CslKlm~RS9PCr}fUEL5=En{6?F5!srnf%M8ylMXs2-5=w|no3Mx&cWQGS zE6{iSdK1O5+{BT#-o}@(dn@&9p$dBzjx>AqdV8|gv1-o{Z3l%qd5 zj|}dQ7+g)e%$Q#aOxU?+*^CU+aK_6RvNGP882Qu`wQX`9xD!0>4WFmqtE~Ja1&uYD z&Y7^wP?}k~(qNBJdnbU+?6AJ>A`RV9w^#5dC5iJ?KUioQ~B#zgjl4+cFy8sx>H; zolv&8Lp^CvVekT6JT3toelA+a-~HY9$U9qJcU=xs`mI~})}A4r6|&}){fYh1Imy=l zvUovkaO5h%qzeM>2J9hDS*ldwx@V1mf-v(RF^UNJg241D|s)V~V%z_|=#v9_af%0RR0U z>SfGhUUWtz6PoR}!NzeA$H31=Mqz<>QMT&8rmkhs$x?iW8$N68MQHM_jWlMy$p~s> zMok||8Tw{x58uZB3NmawkzIaZ*EKgCtD(hp7WOMwyJfU);r)qSVE`P+=#$j-NFECy zR&pCRU~|PF49rj!r+Pv!E|AoD4#_)WJ8i23EA&}j(nn`@YnzRg_8l`-I<-P-m^CrY zlc!=*%9w7kO*UfI=i3}nDv?i%&Va%ygNMMT(th}VGlFY>$fp|76z)m?G8PFku5m{p zO`8fc3CH)>;Fk+xB*XZ{#P`QYWjbHjpBg)B+lR#w)d9{U z9$w`uzvtBuukfv#j(EPgi)mw1Z`nwEW{ULu^({~l{&=j;cC^19Raa3Lzu!xp$a?n` zRO>NASy6==eu_I?o%{lj3K(YPYXbHp@$XcP9Hs}`0UCphDcYr z@3-&JIDeHj$HO`e*{FarXoeQn_Yw_*Ridic3!Z_qn7e^>$C4kvV{;T?$%H_M(5E;u zj|^LQ&P-p2v~&pkq)rvRord4wo6`v*r^i$sZdCq&HNuwHFV?3H;C z|FT3|g}vH-xqlXZBgECic;*r

(Z$g_!W80K$^;z!M5 zd-gZ}!1}lGuS9Ps!ZuVrp2T(yv;`gMWZa|?O3kVcpF+{I6J1kU(0cK)Y1B!Yq_&sHgBC;(i!u3G{n zH1K&gf2P1U$L|C0*p8QRn;vxt`AYuWMDRzzwvZs>L5(~m^qDe{z^|DyKYTcv8ZRJC zV5X=(f{3Z9gKj>}%D${PHGIFj_vkZ}wq?I2LRw4VuV;qvNjIOpJuz3=!T0xF|MJpJ zUGwssjC5*AJK=^Sr*;8tu7VpA6u@Vxe0FAyiL}Xk1`DOhCbF{aASl?l&aYw8H}!At zfn;rp8I0-mW<&#zb+!PEf>}@wjKJ#%!>$fG7RzwG3vVMN$aqAUEVoxsMwsY0=s!() zpGPr`>C6#1kSf;rP30Y2ZERV~RJodJFilX?&ss{sP^e*>F`KsWUvv^;H71q1Z~Xk+ zalRa>Y&l@y@GI8Xox`(DnOH4q^Im5-_$44bnCvb*5un&S9<-_Ni0$3&lUDvtv+HLS zKSUyj9%v4r&)Ni4A|@&Gy??z`0z<=g)v+z_BFAkv-!%zd&**;FoTVXXL7|~u z#vr_Z84AHO6D==}m-*QiOdbXdJWaw14w7egUjAu4HjH@6Ax!txbi~S$RY@+9E>7o{ z0PoZr!Qx3>BbB5aq>CJF`V_!v&ZG>oOLvpT7-eO%pLPp8>TvZj7(^fv6s2Qd2c@Qi zQ&a53J5oQ_fVZvla$Ju$urH&>UgwI8HxgJ&ESENMAP~5zU-<=e1pxp~tkJc7DTUfJo&P%Ut7(05&` zXY?PGnM~qT|M4UGm2J{Gh+ti+{W^Bg1Wd znQ>=g4y+@OzojOQTk|NKm&JJq^KCdw8+vG!qVl=9KqGQe3Yq%5zWe{7VWF{AYC$`~ zLmEOV=RBHlem~gzf@iA)uHe5SsQMys-t8e#oAZG zU1gi-ClDZp_tyR?bTR1x|M+1A|CEtTkFj^;{S>c9X}W&!)PNnY=JB~Hf}tMzN|A(Xyl?U;W~qMzV187N{m8bmkl2?>Oj5z z1@J58v(4*UM$!x0=IEL9H3IJphD!cso=nZR##x_oN2>BkNp1>B@m>YuP$;nmUJCfF z$k&8hM92$I;8zewtFNP~A0+xdr|e-GvZ?9DcWaWaIv>NMUVwHCjEP=Qc2J~DAgH^t z7ldyzIV5PfQBi(HT5b`%c4bGbIt8>@zelWQ2)UwF0DK#aYLR(v^@q6B)^2CdB+1_l z^XT?cL{)(P+zM0r`^0rTmqbQwwsoG9(I`he2xl79>=d=@z?cc(;k9bfBpLSFRDc{pRh9Yyqo4Fh7wX;gD3 z>JM6&7=5hX;B5i2b+azykC2RwGYd#-zo&D<$PxI?$lUkmRx@o;Y z+v9~5Npx`2aC?Bb0xfl2kNafG3OFe_XU#9))edb=0U7CQJqe66;aO3-fiD$9`=&W& z-egVK+utu2Y$3VA$uwnj^@3(KB%9>u+w+K53pKo1nvSn5mdzN%n6d39ot~QL&z%Hi zG2504r*-e^cbnCF@xq_hkzLFXe~?+D%XBawT?fBPPw^@+l4xkxXl)nf6lSv4kyAV7 zr*aDH5IM#+e38^K&`+}o#TYw&DxHFSKUq~u8zZ3!>9UStDwGI?a-U;`0etNhI6nsJ zr&B7w$e1(9fJQ3ldPYXmoEg*Jw}9yr=U*}C@^ebjazg9K`JlD&ja2T5*sE`p15vWZ z(tN;d&zK1CBfIV}3jwOiHmNs;-F+|pCYtMq=a4wt*pIFLJP+Gx1g8k1RRR3Q;lX~e z;u$z>l5_L>guBURP-902FOI8?jr`I3vTky}KB7jHI`NvGJO;5kA#ZYBm^6k-=D4po5zC34H zGQNvU&z3DzhE{m=oPJ)??S%1~mV2{fxZiZFpa-y*6;E1Q-hAyeVE1>1z81E&z3Hn7 zXNZ)>Xdjivb&IC3izaD7PX7%S0XJexYFL$btE48T7f}*K`~q$|KIeRc^7!L`S>cj> zGVklSmcKkZRC51|O{J$$@ekn{Q;>hIoG$m?CvCN2H%_dj%KEd0BZ3} z>HyjX{z>K<@{t3U$LNV?I5vkQ2&FYUrE*-v%C}gL4>q~nF_;y4ylI6zxtN)%z011( zP+sSa-Ne8qK0Tv#NR!EBN>wP^mDli2E`;+BqvYw^4I(MZ^lXT`<*naZ<7{ zLbIK!p?x0`G>7&L?%%l=#yXTkFkOk%YV6>KINd=ziN}2kZY%}`idk(u8&37T5}6g_ zEZHbl<6@nRS*N}nUCaaZp7H37S2BnMMArY()h^JYj>26v`cT|SuW|^f!OD)P*|W{? z$Ov=tl1A9@kupDM`a8l}%Ac~fTdzOYaYy9Sh81D>?n`9rEwhA-$~iv}h?GLJ&^SJS zm(??YSU_^sL55nx&(%0`aog9g74Oe;Ys$sDs6A zn9mENY0~=aG%h{#PBu%CCTjv_A0!t&YY#Brnm!hpD8d|L>iZScEA zW0`B8{=Ei{U+kB1QAbr|UwuVnhMKLTbW-7Y!DQ&zM?Y7vV9|o+Z zd@xTg_i+rZhA}q}*G?9&JLmj-;g&m!BD0B~O1=`Q2(d3(8Cx3SRpZ*4=KE9}J71<5!NpyKY%28HOBN zqdWlZH8mU|uAZK{@6?8WCmw|npTT$ww|p2rF$G|Q)ll){d#ngQe%UNMQ`)V0wpEhu7Q%25*MmW6i2_rJ&ayf!`ch->O zoLk{$WpfaV$hc=CKuCc_3n;o)zM*sSOt5J(WIy?-jB&XCatPB6(rIY_yIg%V=c_UMSfiI((j|lT*llX-Ro1cGz<dR=ShP@2RVIpy-+w1#o>+bGq)RKQ9F{o?X#o_|{%&Ta@?1Itj+-;OKN_ z(bciBPurqi!XN)O>pd414#w% zqYi5<*YfTR!WuQRpfGvvdifJXfL>JKji3c~KV&(s=Y(yod7vABd&~ZjNGR30+U6CV zW+H8+WmF)n@Zb8j9aJIBRw3jiFf%u78_Z^{1@Py7{;^5r+hjspyH;u{)*l1R*3Q1) zzrnuC@z$|6R*^`EVRXWmg|DA&d1^fh(!QUGlFc9f(h zlFgx%I{UXsk)ut+@_$E39#eBQ!q0oH>?L9b3|E^g?SED7d8Y0|X@lVr3)SamZg9Bk zU8(hbmuE=WfSp7zLD~px#1l5f>G1J!(02F z{GOoLzPx)mU9oTflu6jbmM8}tRi!0*H8P;77x!+?YzUH2H?=@06^FpD4HNS&D!F^ zSiSeBLYnZ$mAQ2Q4N`w#Y(Ly>eEaaYe&Vi{YH(6Us#dgd8*u^p>W{ELCwCsYr@DS6 z*N4X9F>BCf@Os~m8*}>RxC_SlOW3^gXZ$*xgao@XHS2~dUS5>h9zF{_Px8Zd9v^cV zTk;a2GQ*Zh){|7Dch3cekY*~A=59)BWLduAr{5{e zXPv9GFQBOpVBAl#wEkY(#4=gi`+fQesjiIg7}@S@qwL(x@145$%JLI?=?Jo=-iaPH zwDoVjY?`tBo5I3vJB%jDxngOfsbsMDY#t=;~lPQU=_deA-Vc>ZcvZI;?!?n76CXhF7iu_5h$r@p{m zy#@ZGcYa7u-WsiUnsLp^Rtu3{N!yRadE#*_!ye4*4BSn|~v`7#U4fj_{eOStN zKXUO@=SgQ0)GahV?uuMZ+TiYa2A)hZlMO{Ham1`Ne^@K_JK7s7L5+_zh(Nq|>KlHY z$$+ND89!-+hRe86gT5*J

|8njp9aMy zmK_N_Niywl-)){s^?$B1?yTm`;8avND*mp#9ElWDXQ>nV`eO{G08O8E|JicKpPMF% z{5?Z!W5lz1&r8OS-uY$Kj)bmmc^KHajB0mmeEmNyQYwege#inER0)AYy^}jPtxal2 z4`^m0QT_FWb%O$$6*Kz_xqszi<8=SG`f+oYIUoGg8sHCPD(A&cad7gVmlim>vr6UQ z_MS_WH51?Mhx(vd{JgfMb33hfas*>Vr?#UJa+YphbC@`09`V>u=MqmpRkX2L8V>y& zLeN!8cg$)vUCcU$#=Qba^TIEe6i%bOs;BY~t-~Utz(b>K98EdVAoae4x`s$95B``h zCq`l9(N8Mgp(L75-Z#4C*`!uOlJf-|LbO}%hmfaX$L(irN)5jXQo3sqPS^w3kHa#j zK4vjfnnKb-=TirV2#5MWvB|Yi)4O9vjU_XfEW7DdAxbXZJ783NL1=eKJ$!hh&@lUN zyJNm7+9XmktD@ENoU*dPMlZ;C{;_u9bNl*}sg3u&v*gYZE2e*X!2#HRw#dM-@@v!2 zL_p%(HBiYSE38y8utfGpq-;nZUg)7PA=M7$@6#Spqd$;;OJ$;{?6RBSiobnsJaS*F zaed8k9-n-sgJf$;loY>R8P)wAA{pQ#}#^6R?H^^Zmr6X5PI2+z9 z9ur|Ce<9Zi)`q`*Y_;n+5LvjJ;M%88nL?!rc$W%DXj1tF3~%z(_n-eVYEe&rM$zU& z72kpIOA*Og-K?jDc5Q#J*N<7aTQ<#{o8>FQc<^l%H{9yfK2as{)AfD+w7T^s9S}ns z0&wz(x+@cE0%_-L+Bf4S^WS9Lte;V2eJq1WU!P7w9djFcDZV)*mc;0kNvmLfsYx3H z8VoskoU}qao>DQ_9jZo;HpKk88}Dq@x_HK9DX1QCTI5D}slTSHDV`8;&MuaV$a;5W z%&y6IMSHg|TzvqWWlB0<8+N%{f;Kg(ZWq6dlsbs`8nH4Al6tJleXLNbw5gaK${v!W z2fFb76tDSUI@-|ua&qhJWR?|Dv1CKY3pyvu8LIxUKSA~KI$ZZM{d@C=^A{xYFqIp!M%ag zGwfD6^LQjEVE-s7~dO&2f3 z6*%=o28-VGd`UbiW{ID#-n1`jEz!}^C_A(9EGeZ<&!|_%&$hRu0!l<^SrgYAS+z-@%_leikZuQ z^XF5Psh*{pRs)5#x=w(wY=cH3maME&iNsn&p9`<@UR9JxW1|eLZO*Rny=MQ5ey!RL zPP!^D_IsY~zsQ17^(zbs5ybt^-!-itQg9Z@`KSl-g%xhF^-W^X~8)I~lc z4=myqmL(3emom%48ylm;(9PKBM?l_->MhKkZl{&^SlM@%*nSD)y)KPb+PYU9Gf>^{ z=re5X`Iq{as>TE_>6fJ?^Lec;=mGZQ%~U!C4tam}Y~8zZ&*3`?lV2&>m3P3LMu42i>YZ8XDB z2-I&&o#^yhJOXj{5#0z|`nevpzBf!0dTW+y`PeWW^~? zq8~$%kmk`OAM-P;b|_z4;Zo+*wOCh#tLH`$O;Y-SQh@9$5};hw|2kJt10SkFBnP*%$HfWK&%{R~Uha!f&# z7E(Ypq)w2V@<23vOqyTlUa)*Y$x-9W=JZY2bd|5Db5U_ZT*>hQ7?F>?zV}W2sk!lP z$6$qC$Jp|7eR%fEfk4R&%hcd7a~Kplp3}#qz>;X}8zDH*O69$xOYz(DSI&O)mv&R5 z=P3y=n1iI+#MgucT(^r~CqZ>mZQ!5}^NVtf?*@BLEPA%YLc^3UF`nFCH2oPjne1LY zeg1Nbh!$@f^;&BXXVWa7b*=-GdjF2p)f1!Ywl0?BUgMpkPvSwb9hvZ69t$}y*4Lsj zU9~y1HzvVf-`SLs9xIMLzKDc3l5RJS0lvT?I5&mx&_UDfi*Re(YyLOo|BwlNR;Ih4 z;pfM*B`W6OCe8SZc0156%@kR^v;=-mtWWaGc@KeOu>c<@*8CBrq?QpLHDq4pmyBWa zIHf(hp5~Atug3MsUiEB5A*kaxJpZ#|tv5@e8d5Q5g48nih_U0B)jK7A99-pt&PeaWJ`ZzIM4Lc|f1xb4!eqmHE7XiO?fYB&8kaMP*$jioxez;ep#wu#qhh4q5_8M;}4V=y76)XpOhbh?Wj-|lE47K*WO6}zo zH=#NnjbhEx4{3Kecg_l(Y`jx8HXQa6UTWG4vy!aY3KY1RXF80K7JV4yZ01wMNi56E z#Cwu&;RQas7?Q{^025o2~Xwa|h6f?s~SP3XZi<|Wog2s?Q5 zYk6Uv+1R}=@^r%)*Q9nWKi&*zXm`@Uo>Bv3IL=@?{cJtqj0UznR-S;+^IV0&kefF< z+GF+uALOJdaPC2r5W1R5&eL2b@04-%o99YtAgkn=x#+pE9#sKeQOWAtg@V<**!y)% z@A5|4JxpR1(!hM;zG?1jx9jbfmq(AE7s^&kJ*;hHpuiuybaO1Rs>oq6BgEMve1GN- z6V_+~{h0mu)&l`2+<()*4y6`DIGWe`RYq3r99 z{}okIkgDn|lcfzB@7*RTiyy%i08wF}Nut`je0W#2Tq$~jSXH3p_(e7;hO6;c^pJ}( zn|%lHeE8u*Xa3d@Qmwg2Ni#Xcv`c4p|4o`4=LKhaD)eGd0l{GwVwuV{3Rk7s{u%fc zk)+aN!v%mwbT9?|H$*g-uEYJgdq`bcDfQu9eTx4_&&+dc~s76 z0olM#_}8WvrmW@?G5M3FgK#argz$+b^H=6dxgY_x;{#AQ^IZy$PyK?_OjMB1 z+_GA`{31y`M<^6=_W$x9-SY8BPrL6%x3pt+O7*Nm;Nk-|tn%!`s5_GEv}Q1vjZn1h z;H%rwyMFZ!=S8q2?bPlcp(>UzWP2&9f7wpz25BFgTt}Yb3h4J1ekae(smO4 zS&~mRvr5S74RPj5Jaf>+S7Fd6;phzAHfPQJo5!qBesp*5tb$?5m4pa`-~d9!UNZTP z(|ZmHRTUR9n#|?G6>=d0y#q)S8NK{H4+?Ip-WUg=zf;w^86hfHb$u-;7C{f;rCzlxQtq%P9L(t8xWm=*-D zo5NZYJl59}dzW)lVi|;5cGEV!jDto+abSVo_si_|hIYK?owV&0J^>LCQeViV#l-GT z4WG!)wJh?L46F8jX`tjf7*(lAPzTlD~Y3!Qk&V!OMQ`nZ4+7k;i`^51T#d z>Z(-c0G-ZrKpk=Oq0%fxDCFx=+g(eO7mp9w)oRBDlxFX2%Xt`A^;z`)&DftNcPcvI zybV>9L5V>ADliJj2X4MK8o5r)A@utjhd(gmP*_)g{g-O(+7byx)GlZ>$Je4TDhctE zZ$~;8>>YpVG?UrGI#+M2Uo(SA-|0B64+?zee;Lu>E%7}5?;x?fNU^7C`RIl4^Zd?R z>v`F+zlSU}1O)Z9B6KUurWyZ+A$~>UT~Ido+fypVY~jfDeOAq!_-=aJKB%J0*^OnB z&YpcPqx5kMx0+0ZZr&I!M#Ra;Y2CJ>R;_kfQ%RB}6oGiRLRler$jFX-bt6jH5U7`; z%W8cS>a60&^U%^3ajDa7Z4m|?9751->Trg_E3&9LtI#hwY8#M&MX7H=#y7keOxJ89 zTF>gQW&eqP=KfH)7 z+p0oazhA&pKqxFrankORwg6n)R9$f?3)k&)6Bfh>*+^?qslGDB$*SRN!^9E@y2(C1 zteQhAPA~hsuj;SO$+diD-l9m5VfMv+A(AWsM3oL6v;H#=Ap%mE8V=F!hl0sQF?$Qn zksL{m^K{a)l}13C){#)GmBWxezb2?Y|6Kd^o>mCc`vEIZbwJ{? z6N1FoGvG$Hcbo#ED9XKXy6LcVl_Jv)D2KbGah3>aj$T9}kbJAEuJEN~YO5M&9;k5d zy(;jZM^S9Tk1d^Ram4C@?+{g~=~AG?~)}ITm7JezigL z^fKI-WWVNIk*ap;aG;Z0boQj8VpoD-xxBjl>kD}lXlA9YO%?)yl#i<5Wgn8gz288` zIm86|I2W3S2%52o$KgT|ud?Fop8r>X1FSCJ+t$eSJZ0JOW_dvK7>j>u{0_vWDA@s^pEQ7e?%p_Udc{{8 z=&07}Mk=#cz|!aoqQT!^d!eG5Z6g2p5Bn2t3Gi7e7>m)EPOagHf70- zb^paoxW0)s-o8f=9BdrKW78Swz2&@jbd3%l5=628oC=GhPo@tPRyviQ`t9w;aXhW| zH9P5L$do``ImY=Z^CjOs?>OO)NzdI8nx5Yed->|geR7IZ+$x~_Rjp^a?g=mAu-Y3u z+aWe87^OUhI#PPahB-vls_7fS_mc*A!?R@h8#J-pzu%tJ)# zuDWHnN3VUG%Dmvw#8d90D?Rxazz$U+dE2a9)sYr%uwAG3y8~I;@9455yE4*`xEu=G zO`PbtQAn`4#)H{DG?2H?#0TH>t~Aj@PX7Q;Ml_|T3~Ei1$z(~XZONyGk-y)e@y*{S z`8m3JwBBS)SNBIWNHFAH=SYbaO98I(L~MnM;QQ{~JN{A`;oldQqsxLmUHl;o9c#@- z%Af(ROA4v0sHPJo3Lg#lkS}SG-!E~{pt6)Ci>FWVh?C9TBV??p_($d^D`P@!FfHA=U8D{7jRNmbbN1LSY~}O}@G!Yl6kUAmCX`i&9TF8I zUA#hnW3iQ88&rZJ)j#0f_O~8k8g51xzt`~-Ef-#1dljK&;9mEby~Co*bPz1LB`a# zm9>J*i$})!IJ(nx;ks05I!wAyxdQ=tDtV#d^h{>Zf6ewkj!9YKN2Fz>XzpTn&ih{5 z5OewXa2EP+|H8lE*2{6vgB7Z3XJJksj}1>*1dcv~)?NsM;v3m9LdELks!L z42s$5t++aw!ZE^4YR0Of`IJRi=Kqh9hclUc%SdIFE@8+Ps_p1vEo(2bT#CE#rlkM& zryWU(1R}^%#2C@?(b2mr=NYEOj4Xvh|2?2 znqDVK4hpbhWzWc%y^fKE*2{3ikZw#X7PLVf&2b847ig)-m{rBn^jj{87Gim;zH3th zfC^CEB%3o7Bbh%X1a^sHy>u=?C?0_i#h!bDl(Q6jqWk`GBqdvo7M~YV zbM_9XuLOj``is+Kzo(~j9OeekU(c1lww@OzaLm4)R&X8c`S~|Or#t4gyPaZ~`e52< zcgWuHGxNv!ea>&$T|+TNvtbGvn|MVY)dA0PkEH6w8(kwFWq%dQF)zQKO8LA&M8@zM zt0fL^4t);v#|>VGT9?BNO5nC7fMJQD4mCBMIX;Qualeid2{b!~OpB3)t5|2sJ7!8| zbnvbv`*qq2iMVI08r`iuxDlOxB&fEUYo_!A+Y@MR5NFKxAGt7AL$O&+gHC=)1q#*q zzOb;>Wh!+1S4}I*QQV%CyAn#>#8* zi_hH0#;!WMkbn|35)hx{#HE=C`zOGrQ$D;33y!MNKaFz~V8eRSD_hESUF`yxY;98I zJD%^=k*1FXXx%broAnBYpI=qa7}z*fu-KxI4r?c%lVA9_@aW$^XbUplz!ykLV8l4<{r@p16aWytBlEhd6PxA69I zzXg4xqv-L^n~$(vdxE&UyM!bfe#$CiVSepOV_|bKgMy#@!?Wbjs%K^}^VnQS6KAVW z@(`TSzS!-l)+W$C)c^x#&)0Thxe$}6bos`SKd}p z4QbO*63&mdev9Jzrzrq+h+mfV`8hjkDkCubOk-7bEe8~uV+*xvj~;HxOszg#s}JLkT~JSngFsS@jbk4EO4Qy} zF&e8_K|hLcm8sN7{H;xc_Xs$euwmFk*Rre@ijGcqgu%|94?y#^b6 zPk&Rv#K|i?%%(bQ_P^XL><+xMpq(W7laLVWmz;-vR0PzVWrD21#_L^TWWE@V8!MD~ zpAbzirzU;BY2yORt&XN!-)goH>EG=wcEFtu)jA5-ZJ4@5aaquLma3nnrrodUI5SJw zjk1XGrULRE?>2AensDTaC1%dwQl}9g`>g|LB&<$L30Q>#PNt8WSZUIn!AFx6GRU?S zt$vw%K-n;Pdbg-+0)0l{4-3fJ8v;7ze9gzrH<0<`eb+9Q92|giJ8~PzfYNlTp<4+45uXcJ z@;wvz^)i{Gl607Fn9OG9_NBZz{v>L2_+?@_-}c=!e#=yaylsdg8}im8tWx}JHgRm1 z(GB?}l!2;_S9Es7S)wgqZIY2*QoPQtutV$m<(=H=PW<&Ywa%Cvq6fdpUM6*a7m0ml z9jn+hd#LF(0u(wi*e$O=^QO0&Qi&qdyjkuWmr9#IKtPaIhMa+zGSmytY7FD>H-B6D z``1PBO7#6=A#3&dE|U6br&=lcI5H0=II9jQ!0o7gp> z-*@9hJfX6>J)1|>s(rAXcj3plnbGrQl5Zk9^LK98yi*?8k6mP0DTvmeG{gbkmJntu z4Msz9FxK^p4&&0&%B?@?cB@xD>od~OtmMsSWz7p#Jn!;m_$P&`ct=E4=`rOy+)4ZK z77`8g+&~^vp@*c@$|psc=8YL1h!P`Cp3jZo#!ymzga@RE$bu>N6mtw(|50E zmlYX@{iJ7ae4GqYN-F3rL@lPK4QNTj|8EcOE4Ig8i>iNVk&@X*Ce4nDuAa=IW;SFV zyDEl8^&ZtPb%d(GY8&JOPEMWzRGxjDm$^pV^08#cFOl6P=MV#KNwnCE!DB7kiED7; zPFSzW*HOMJ+5b`0j4U)p0Q|BxJnxiV^8r z#NCz7$P&NbBy!joxq39zf7PvYQjk=(f~Wedc-P6CcQSpn^wq;*h4_*j!;!v9Io(IX zlfoyAKmnNDn{A=ASj=QLw6w{0DAUFzpbTs=ZZCX^~@ zK8_Mdm%*9rOhhS;vd4{5ezQY66J6fvy@`@tt$G7))%kJ(zVv{#~!}Zl&`nBP-&LVcB>cFS;i~VK4Q=`>eWyl0gU3AAx>zQ&^k=IHr*yb1Lxj z7k^MjYa6Gns|E{ylo(kw<%y7dhm}*tHs^DDN4YBB4Zs!~;?x0822ot|hS7&FuheY3~f-LA&Ded>N5Y{5(4U3FT3g`_zQT4yR{ zNs@P9FhWPy8~N;+DUQSWZ}&Wc_vpibth1J1N;XN?rKb9GXF^hEi9|c4Kcu!+U-A^Z zc2r-j;A%A2Ew@`G$bjdQi!%MC4|zH{_^{>7MLB6-wbhT=E1AxMiCP$o{0i@MZJbMR z3mR1bdW8m^Wc!3h+Vvf8@jsXz7Gab%vKZ@CD_0x57bC6|g}v7`TdcbP`fv{4(&~~P zx4g0pS()20M2Ll3u$jRlkfDVrQ`JSbF@;f0h@o*7o$|k51_CeYj91k-=f}tVk^Q)Qk=Wex&CP#9VpOj*q-S8* z%q)`Jr6M^s3x5rxoI^xKOU1doUV$%2n{94=w=#VJ`=@n`ukMziA5?pBgDYNY)!tXN zeD)P7E)~t^4{fGtVByhSGq;X(`BU4UxDMDy0`W|#ALa7Vb6LNk$sDDc1#LA`q_-ma z(u?Rph(UT=OR1LS$1+uD^Z)aYNUHyid*>5!+(HRaxprRVMt2F3C=f=C#s6^IaQ8wm zs!b{W1DQ(CWiGN>$2fP%8NqeOCpB@Pn|Fc#367iE#xsV5IjAJ%$~>>XPB?~~wC`yw zB!HgDfvM&aCaZ7aB!fPBnjZa0T@Nl0bEzSQZC*pUU>Pj}|??*HUlV z5%IG?%jIl({n?uP>7L?$`a8j^-co?WyPnO=o}=p+HJpM1Cb@bEPqpPdq8bOs>X%)P zf0dK5d2yP^oBV>xjj!pHj}#;l;#Wrr&j8~$@|`5obIMGZ-EaQN5-f7I*?;8l)6@y1 z6oVPfHkiBf$*eYY^(W-1L5INR*qy@4@8ei=Yi9-!fRI26)~oMuF&E!r?@WZu9^10l zOHHeHU8(<0+pp|AbbfIjLK+htP5GUd>;}KlbDt|sv?XB^NB+oVChUkRFj{~>GzqW+UUVMX6`SU2rESDc@5&l1T@C$2>x z5h?*3{+?dZm?3UdV*6V6yC7j%KJjzGR7$yt-j4-)!v&|1Zl{pNRpIKZGyIQ?f<%Uz z#x#qjSX{&1SbL*;CE26cNVMtC8t1p>>aqTOd#B@5BwA+n$vuspsVzl6kvZ5ORCQXu zmgR+7F(ye%Kg9@4ZUD1^N6Q6t#9-<>=Pk~}9!9a;Hp93;85>7PS&XdM>NIcTcBf;mAGbfPOEm`p%68B_x zr$xIOv@gk1)4msnNCp z{3VeVqm0n5<3cpTa}f9cwcoB|eQ_BkYS^OD0lLPzkXtM_Hg3h9_o-tqbEona1^VCi zT&t$u&#T9DTb8nO-tMZrg{F3nn@WmzQ%I|+ALM3RWgZ6eO%Qy?_Fquk|HwUl66a)N zNBpilo=TQd-qM9zi0ZYmRguH>V@c{SBLC~b8N8K@#orFLY?~ zJy4>hAR(Fm>&%W@*+f%CbI~rba6C8QDWW}wz;ie|ExQDtNX&4#`Ov%szhXuW*`OYq zQjZzrsVPVV7Xu%=v*|hVsEjWOa|-F#EsPNO4-5L-GnaI)|3%YJuN&JQs+IJn2i#vS zo*b?6Vqn(X&$cK$7A0ZEMC1(W8d6Jdfs)9h4zch`^pn&jnoo4rBR#UuRGLKNNRs4F zPVc&fTsTy4XP!SvALZ4_?tW_{X+3}lpJa}LNU48Ax6EkZA*iwC5juEU4 zfAX5LT|8ysaA|eg1{!hr5SR_ob&bjaHi4!Pb7A)I4r^Juh#CUJ>N8A2vBj8huSA+o zLgL^XE7e;rO(VFKf3-PVGmSYj#vxD-!OA9Gsxfz7?6<1=r0S|_!_r+(L)}`th;@gz z434uYz703)P<<{uC^XMDh^uHzpgxAMsS(;`kXRBx{7WxLxS~!~-;cu20z5mhP|Mmp zD+mTUO?;UgHp8CP#=Qz+r$R2uyN`}VkP?ly489OIadD&>vwk$N`X(&$P}-l@qi=B= zTfg#XxIuXM`NG3>3olxWFTtIuMr7qo>Z|q(_n2-vVkMeBA8pTlJbub@6!=ue@65Uo z(Rq`4(dP@r6vff|kl1hhS9Ta8d}X(NS}J`yNut#XRWUF9ty1M;nm+5;H*%#Ko`ibB zSK}XSeYa{+>T^xv`+2BFQ0G{ZmhtT60HctMt=(l@3R1C~h27l}!cd?D&1s2fm}6_T z?bKq4Q2m{-a=9Fzb$8!{EQPf^YBIeZ?0Cv}%aND3xBogp?`0CXY2u0?8G4SFrRM6B zyCbvszsqn@3O{u{rS@x+Uy4&CX?d``pGh=s$Xy15Y~a!5W6IHEwV%<@G*H~chL}iS}Er8Ph7mEWiP4F zF|OD%mmyO!Z>~MoRjwUq0FR!0nHY=b7c_g0DRcG<=7_p{>YTORj#~G6KZ8_A(1fTp zW>g~tyl!IqUx`ljcK%mPhY~egx!yRSTCN7T8w0)k{>^*+5YshAFSP}*I3Aewz#5K| z8tgJ{J)hSaWDy?F6Q*X`WV=zqdFURZHcI%nv{kGN-Fp2Yhol(}31`Oc#kz&1z8B!r zKK0D?)WU-NC|qS6&UtmH-RqVHw{HI-ORq`s$oZKOJIvKpw_tBK%$ycH z^}8bEiNwmLrfnHdbAUc#5#MQKyi3Rl&5(TfW>ko_X9Nf$`o}_vgar~4E94-PV!%-! zK>b)bHF!TmO}k=$TYm9cBRB8R>F&3p;0>c3KIXeU~`W^b~97+ zPj8SAj27Y?%c2O3Ff0W z_wIA&PqrG=JZpR#J+sO5ckw;!@|FyG?i}%_c#RE&aMYh2_t{4;#XB7^8#J?SG!X&n z#WSzjTL)G5pp%vRnPro{H^t7$)0$JVDY|a1CH_o|Mx0`6{WTS$BpB~R7fMhCb^n|| z|8!y-c8`*)G*~pS$ZLaJC!Y>p-ihg#-3SMbs7Ulu2K|*JA1uv(`TKRWZ9N+Jj$pvv zZRG>|CJj3mPZxhvnaeck7WvF8zR67CGg*a?QM5zEMI4irUpEFJEPUzDGfV1x0!z9? z_g)VjybB{g)?2ZgebL1)qV6TcH&ynWwfA4t|`yr*dZr& zI>*jY{ReyzG+aAVJe8xNH=TJlDPmc4$U=r_TR+?R{m>pZmKVRNA^HjTL!uJ#I;+TN z9GZl><`iCE^ePJ73&e6ahG1Sgo#lp?dArn_zVnh}Vjy(o@0I4K8Y;T~BuD#4`2NAG zrzZ6MINzw<>))Ok*q%LZyfYmg7D~Y)GngBdw()Fl6`Ol?;~ASJNSozxdvr@zK8@6k zZshPo$-qqVy<{x^U{^)%q{jl#RI+pXL~l~N>kHQR`+s>+ z%lZ54Z1S)8R0y|9Vx3VNd5&}H+46Q^y zddfD(nh_pITOHQIJ4EBR?7q0fw5Vn4|K6}y{`4NQ_Fy@n&rgRM{;O?Y{$EjS^zu^9K&gr5>Kyc%m%#RjY35P zR;H!B*B^%eOg zP2U*Mqe`?sH&>}xbFZQjY$vKs58ze)tt2zmnKt!M?EVfR!|0CR zrX+G`xvUX?C>iI`@iDw;lk3qpot)T7Pj2Mbn%GDegXk+$NO|)(pu@a>`7=cb9Me#d z3ct11pudFL6IVlo12*@il!I5(QVc1gy~%FGPoK%!L*tyZoox}xW}_5OK;NXJp~{eaN9TM#P85(5<7 zTDEQa9t=^@|A1dGV|BCc?xK&IOZ`7x1J6Q_Cbz9@O0z0b^4d%P50f5- zTZr!|9XN7deo5MMfGGeWG(hpVSM>1A0pLwf%g zTNZIPmlgR5)#7i%_%d}@u-(7jpNuzOEQUUjnDcUD9<;n@jX4f;p`n&7xn}pMvd;I- zx{jt($ZN4(Ituvm(HqmWTHqcbZO8aL^bhfVLFENeww&&~T zK)?$eOEhe81E+d)@uNkxSKY#>P2V_RG(9a6BWD0M01y>ycMlDd5UHJU{D%6uw?T0} z&mo`eVa2;2>*TQd$Qt=aKG)Wn8ZN8zX;nUSzIf($v*LYjY_r-cUmk_NvIbDRsv;Qg zDWAhYnVib?L#g1mvm8`knEg(ruEZsEmK(*ff0dH)j7Z%*d}fZt(;0uAQiJXrmwhJw z+>48NZ&UUvEaeqt#RkgD3J+xwh(IWKO=|r6`intLLEPbEz2>#(;$gQ!M<_+sXqLs<;jXzHJ4OYNxN-tLmSw7$ida7DPv~)mW`r32 z_-gXHc&AJjZk5koSJw((DX+45GIjS+K7);hRmOA2>d3#E5%EdJz0Bxc*2Y59szuhu z5*}>uT4+&m%OJ{Yp~m&qAvW0Si*)1k`d`Gd==f1trF1`N$tS}c9x}ZD*P7v$9@V88%HaYBKD*(H3GvUMcdZ|jwf?9S`hgd~-~~TA z{hYdQv4Zcq^aB$_-L3n^?}95ra9!uZYs85ocewE7v@g8whA0?RrnVQolQauQTR)ma z9^TwCIvxI*wljUz*Sc#Z`(C;SMp3E-uSw^{^2LFeO(uQ0qj`Vn+8`gw=8%f!{UGFWn}0(#n}sz(pSZvswt`TL>1COR=LhU?}Sxy z?m|iHG&7^tZ+QO6tv|jCj3H$0K<5a1Q@h zeW<&fv{0Qc{_ntUP*5~KZx|}Q)GQyA1f_FO+$xxz_}Crdg2z$1snGqVnABCjLZ#jCyJsXqWXPxYglsV+%~ z$x_!PGgg~MF4TqD1Di&w!T8SbXUdr}zMST-+~i{T%PJ~`4sT$v!Ge0fLVi)HU&j#z zb{!8}LVVBb{9ZRVZS|ft6%o4f%f(fJ6GsyK;AQ)^aI(I)oELIl_$4CVxSvS$e1YD~C8otpLnOMHLjo zf89)j%i`@I=7q|77i+krw0pVIUy#88hjjoF9ppv#)`b7AaK}W`?s3Q17HPj_rnz1J zAV+c+%GYkos!MFp@~H`DNvId7D88G-|7He1 zkyP?n=dYYLe~P>TevYpfJXOrc`aADwC|JTw`I(yjSa0>3@x5k;A*&`|L5)as45*2; z5C~KIj*oa|D000BEWC!{22+-pohu~=v|_}+AH<^Sj4~!x%gQUFmzAps%Gmog$Y zOFG;`qh@KPOl+pD5wFJfvO_{T#*qeT;luCp0+q1-)tDb9>9DEvQjK zB43J(9pM$UZ%Nc)RH`3suC?>91nF-=b$l83$iZh;XvcvtCKU~)60K9Q~Xv7cme%v?moRm|A9;NgaeeKbKVy9YPwHKayW`N7@!rN|3wcS7wl^N;fquT0As{ zoh~VNZU0d>6c*sH%*hb}n;EpWyg47~9p)&aU+`4%pX9;jMr4khj@J{7F43LaZ?Np_ z&``{3RtIo{onMo7F09pkQcJRlOJk{&N(j!c?LW1X{p`}z)QI~Rao>r$E71iY2v7MK zTcfY`J>UXM=h(fTp2}{!rxePSy<6u;tH2~=TxXXuKqfvlhxUGPkYZt5Hj!az%1px6 z4{UjQ@UaMAE(^J(lT_3~d+iRB2?btw1Kc$0tt?UNCIJ2p#DZHP1RBxynva{iAj&WD zjGgSeqpJFE%MGXRx9zp0`Hq#+Z=4&EU~{>o3t zU;tKO0V=+@sNBg#d;C^vc198#G^jcH8~SL~gk@%EbY~{Rq&vhwoGlRcBfYg3^{CLa z_}EN*;G)6ryoS%^kJ}-o_C#VvXJqiC#8q7)>;fwW(|;kLYPJZq2y5uGzY3#JQEpe? zA%iXLEZq}k58c&Bn@{>LR{mA_?)^?SQYCxSM6R7xR=2o9XXU)JF{XIJc=HH`F(-N> z;pCXiw!@O8YFLw7rQxb2poVzus2Gs!X{=L!RrmuOTWm;3s?ZIrf@qPd&XAvF&E!rG zFeILQs!_SFKkI+?Bf8~vVq3xYwK`B@7`e+XPaF>smAd$tm(I#XS%D_0HdHb~f8EmT zcP^HnGq#u_F;4bN-I@NEP9-(q!SL?T6Rf4aEubGL@ZXXKN|wQiy=P@#T%V$Pk(HSb z=xt?lGI9m8jF*?6tXXh4C5nWTDtHNtx7=*6B?D=><2rjW)$YH4=sIfUO=Os6$@-x( z-!xRwc-p95;3}^5;{><~MNY4wEYP>1=*RD=6H$K9Y<10G^yAMLp!VmIJK=iOn{o!W zm37s8xS-byQ|^tkGrp49GtWZTgW&iU14L~unTqPvpx8JeDUmRpFtWAdJ%sEerCAJX>j6*v_d9-GJ?_M`_R6oI+u!3baF28(*0rH*6H zXn{b8Mc;!Iy~4+4Lgt?`?ZpynI+C5TRWZ)Er$T)%fZBs%H*px+@*3ru3>RX0@k>cMv5&z$AG?Bgc$c+(He#ttKQ?{ax3`9Kc9ES2@VB2^x{`lJU1)5sw_KpSYdZO~w1(wUUZL=udAhJ2BKj z_eA#ij1l_Mje>jLK!$N=q_qb#L`tpjN}E{~xPM?AAa4Ce>5LVlk{aF}iV28C@UtBd zCbhD|l@r_piI)^mc3nMB$L=Up8|uG#ZF(cQi6q;9Z0%bP^h9aUw}fA>qf@V%z{>8y zs27CXu$UPKZU=?m1Q&CJ>t)cr#^u~#-UA(4mFdmieO>H0A&_12fvxH3$F;OTy|R6- zL0@mOM$Qv%u*{DO=fpQly)(^5%lK}Exo9FL7jBmikR$QCaI8SwzVbZjz6pyAQ0Dh+ zoDLd~KXDN|5!wT8LnrJUbzk4!Yzw|RlggRw^huuuJ}oap=)XCdyBSX{BeQ?Cxw*gK zkW9qoC%V1_6FyX6X+%zs=$RVf1~+$LP}|3yv#(&VL=LC^ScDm>2e^_KkC&h_)**Sc zHxGps7-Fgd@`pUVEnz3Uy0Fw<%n0z#tP6NLRHBM!y^%a8vZz6QM8kQCRIIS3~h7_4hNs_(YzxxOJo2AbM@xr zty5=XxXNjMoU^TN?&6q@a$lw41Z`Uyg$>%R;Pn|9j}Fp&Hk1uiM`?DHn9fLx{g|Lna`M(A{45 zxWNM!Fd8?68LY>CX;~O7;J3R5-2>~wjPnrrP?!x~gD!C}Gb8@v{s5Oun(1n+mPjS) z!kB@2NWE?37spxIAFVIXELQ)$J?r9+eHnp2I5CpAEL4ZM@pCLK<9>P)Agn{3Sxf&|BOg5&QHor zyqbYbKBqn7g7x_WS=;1Iz0Sq-ulbn1Fn)0GG>my3By??W_!_t1G!*6+hL|7&ar3JZ zQ5J&RlF6MQW5@_hfut}Ecc3V~aMsEaDZ=eGr6M72DN?uMDXx>Y_ZglYSxhVZ{-L#L zVjOG|wWkjp75jTv5BV_vFMF~)6vXZz{%8L}k1o*%Q*l_*tB19gby0T^uO{u7S=ISw z5{f%bCK%K36B8N^jyDo44UoKnul6Na<@1QSpY$ad=hvEXIY#G{bM0|MVX52VZ@DKj z4zv}RFNkEdk`nr7F@Qw*AR@RTMs(pJ!nshK1t8;n$=7N5!nqOwd-}Aog_0hWCRJ`Wa*iiL<6Kk$%8eWNHJZGw`3Q$6BqZJu29Jli z4(q^JRh)}xLmen>kQst;yp2?@CK_O}PxtcO?pj)NS!h8`Y?xa8M|v>p<9~{1$*F#S ze?DAeTDPQdg+s3B-IXtbU|l0!SZmElo?zp1msEA5y|bAc`Z=CMFm@nj-`Rt?ZEdC_ zb+()de1t#<_cOyjmDK%~mUjCE=djvFR&1?cg`-1{{fs%Rc(AMIey&q5c)ZN7_x>8m zB-V>$H2C~!O7Hb*D;)gnclp5=rd(rU=lYtjPYP!{sLmPPef>(R{z%)4zVWx6GKTr+ zrL2!P&nj;zH*WEfOe1m1^YYVStq!<%2+xYmsE?EAIh^0_j$ZhW3SAhv^F0_l^yw!^ z4+c}r^7;0M;NxF$&H}*ka08oS%o$MOHk%z6KcG&^d}Tq1UzF8eKp?}No*0I7+2IBk z?Z1cTkB+_(dOIdwSWG!y2MAfE=5@>}EoR8 zS7o(|$)*n*{W7M6ge*U?lggCBq!dq;zw@q>Qh6#?kfZz>UMwj7imXKWRqhK0+=l1Y zD>>DdjA?COe8ERn2?7<(P?&kuQuP$fAu-{1sLB|Vq$cE!Ha&&e#ACl%B=_^lowo6H3QYr|ZFpkDy%3cXJqMvlKlKwxIt~;LU z|N9$7%BWPxY9X6@jcg@Z*Ou%N_nMbvk85NlD}?*Dg=>@SEtK%S_Q;5kYbE2_^Y`xa z{r!902OjVD>vhiaJkRqyPd6X$kP+o4YGoU0_e$o}_*)4>I?Mv&JR2)6rcL3yQy>UK zvlfgdYuwk3>dWClv-AFxE*RkK@;t;api%Z$U5x>%gvz}g@r!c}0N3Bu1G&c!CKz6D% zj8(bJT<%+OV`lF5SXDDjx3nRRRYZut)LBpq?a(*o4CP%pUnD2B`j>hbd^UUHI^-g+ z!L0O`3z^Pt0CVngM!`8)H2c`+y0psg(~6W25qHco8#xYB z0t9#b8~sm@n|J(O%>jvN&_u>P)qAJ-1!_L&HTLpnogM>#n*t{WYZV?E%~sXMLCEFSnL5kaRAeME^J39i`PMHWKaZ=A>(gpAI&V)N@S2^f20suwb|tc zL1@fxUi#ziv6b9~x1$<4)B&+(PQRqXPD=&_;dG)j>Wne3d%bOXU#1Q%k+^e2Q;rzC z3m>&@M!01fbib`K8?;?RzTAnJ>ddYYKICxo9QAD(0j0kUgNHxf&s%i_#?|vs;7Z!u zJ}wA}^Vb}lcKPvj_Bzh`0m8xwzgK>H{fgDWCMp--#0m)nX*j?WzAzG+PW;-9Pknnj zj*aEohQaZN6Dv91$H(3%>q8>L2$NtLK-s?fYSZPs_B2<1n}KH-rZ z5~W{j8@psHmFR2?6gt5L-zh^U;=0wp_E@0SgF zKLnqZqHaSHzoj>JPLff5=kzE}iVrdcB|D;W0zPt>zsNB;uc<|Pn@-~|sod!5>9wHuih&^ZrUlM3z6frqyD-oN+nJ z$ysKh9OEox*&pBu#~=Is@T!Bzq%!m5$^$Zuy0u;!z5vFG5#aoo$PDxFF%-^OFvijbyW!{bHkR zyR(kzPcD?BbQdRmk26LTf-G#?vC}tlwncc#ARXk3Xgh0rIPr7$=IoOphordrqA0cD z&J&~G@QRn`7SCDCoMxT>xHiwqHJxVp=UlCg>fn2$qBkSrHmoncw<)X7h}iHrrmKc` zCHmhDDLCS{uP{b` z{C*$3nAcZS6uJMMf29t|QetSIy-@$RL8qj%>c*k8LlAeFv$l&>WWzD#-kwCQ=|-g{ zyWG&doEKgnT@F=-Wq1Tq+Wsa8?OlXiQaUcV>Dv66{twF1SF%v#q)J*X zwV~Z{F^~Cwi^CUV@jlwidtuF>BtwJ~@o0DB_$VF|@mj*LqUHS6Q#@Lby-Eop4!=@1 zb@N)Z57|*nku={E(>t$gHeTD$UA<0j5XapbTQ8v$y?)bv{X)s}Ucr0A`m7Jli!G3;Vj_6szVK)nlPQN`#^ zVNhB~_Qbke+LAQgpL#yf_}gG>3+9+-pf;*FaZ1%CwQel(Nv%x^0L4(jKf0~~0Y{s0 zbEmwJX|N>b)~OFcVciX)q2?u{15U=ym5rGNzfK@M0w`&2x z5iz?ItCwcC-$tyM0EZlqVKRK!617T6(tQ~*+-A)x1eX!D_jY*Qc(`v2*kMy+5&?E= zB%!9Nn2S!?oVal3cxvc>C#hQS)bu0`uw%wXrO#IO7)&)96fz}9siw_(E~#~8+oS@J ztCiK=57o8YLz7v`t_!IzP-PueCmE0cUg7BNO-$*)67)Z{?c5-zCrsGClO;XAHRMW0 zui?a7?Ic_sptN!RsBZCA?PS@~@hX{94$E6Z_pc+JEh~#F=3LH;_Uy+~GfOeT*}aGu zP1(1F5yt)dGYvv~XRKeye`XzrnMs^@e%g(1Tb;<+Xa9roJU!a?S;6cr#wLu?`=Q|~{;509Kh%I^JxdEP%1hd`) zW^{nRAtdRY6hx(~RSbCWN-;oGF10-lFG<4rQ6CbW>@l?rwN*_N?Lj5s&RU7bI&3U9 z^XzLd-8tFT%G#&1=j7`JoSOT^Tq|Cz?)#%(pX;2X!gWs0!p77%>~M#X7u7wFkJ2Z` zRz6&OxlInL3SK$wZ15c0D8u44cZocJ9)!S8KNOu%VZK^Aqrpq@~mY-#ZL*5WKV}imZLV)8C4?drK zPf21r(1T#0*L8jKSp$LSrZbTFzNGZ!46UZmtiFqyaj8zdBs)U2nL2d=tA8M-xD^Rhq)H~fTiP6TQCC#sk4>N=~^&i4|{q=VC z0Ks%mbKvk4j{qw!Gl#!?DdtIsM55e#F-T4jbT$R*O_ymP6cK7@I9WCNlv=$u5tx0Q zDv^P50Ew?Ml0%l1umB6{_1_+!oEGMY|7nt1$MF)S6i>HwyS=KmLeg}sTmYO`{`*~ z9;sJ(_0(_*_n?$))?D6xUj2ERpeaSJ>N#7N zyt>;C)|T9Fqh^sgN2TxsDfx=k>XzyPy#c#|V1CvYnP2T*@*E)toDBi0g`s*FeX(eD zT;U6pen-yvuLAN7H<7^MUf#14nMB>A%BfjO6uhONA@CH@A3`TBDz zQHeqR&I5G8==dEtq3~ipv3~)R!Q^udi)ON0fp(?cGST|PuSr*nonXTQi>sdUx`==f!#?^TARM6X;;McSt^!&XH_jfj>_E_@J6G~ zrds}NS*$lY_&e^j98If@e>rqKU%$Q1T5I?M=v#d4xFS{TynM4_Ut>35(+NLTOma;6 zF2c-HPO-RA*a3-38r%C|w}P^MqFD}}yoOgcxGF!EPOlH2U6jhwV}NLElRam_*s}Er zP88!x%n=^^Q3!!1JJkG~oDhH97!LRKR}UzF{?+}pd&3%anMFZjbxYz}>*(9?o$niB z8BGZR2MLr@bNhc0;B0TBUK-uRG3l>X^7A-~bJoa0 zg~tG1A$RN3I8P>J_G|+TYN?LGK?G6ERr*9J14Ro@Sb(6M=N0B9Gl1J91h6XuJLQ%Q z!tx-*LGe*c(A@~3$m?Nga2gR*uzNYku+UvC75nTc?IeW$vRR!LpJUYaFD!wy;!f?# zt#PH_K|D@3#;Rkq%EWnYjCWaIT@ZC#n$OGB2`4?_t5nSi%|OGV7<_l68&w6p-_ry# z63JE&;bt6b?U8P3t5)w97RLl3v)Odh{P~;0FXx70%k5Fu5L2X&HB7S=HMS5XPJ^d&Lk7&yTTPxov5_t4Tl?jNd5b^a*_ z-GoJ22f(W1${v4_of--AqG^OVbwjhIU}c};$0>;DIBsdNHeYpRd*suqnEvxp_5PF3 zmp@f9oRwAan^qsaF_Y0&XyrOERjaM@F`(1aH-Gms6d5(+9`7Xuu7C zdUw6JeX}%RMM#7{xbm$rw4v6ltp_Bg0FASdb?oRR-fg)+sMZ~^t<>HYTCb9PG<;Aw z({b9Nb@P<2Qw;7IYpiDwpx|}+HQLq8X%N3}MkMjI(w%0syqH!SrD2Q9e^?glUjZCG zC(c19m6wRCWv~eW*qkIk$P$`A=2FQwM>1YSu5cjdCw+gCS|F$0SSgi@=o`~ij%Giez?EWS4WQFQ% zi36=WC0-#xRFwlyfw!0cQ}%^frNl#BZ+w-AFwIjqVTAY#g-9vp!&eznz6ERx|DiQ@ zr`>DAJ65lGkHy%oSG92oFapZ`rdVL5M$$DUR;unI#;6?R^P58xhN0rRIs!^Gm8YYS zJfRm%%S~vnf>>Vm8i;{Ehsv!rXC$V~nLwH5VcA&a?{^*~+a!}68#T7^b>HcH?Z9IB z*X(?7;tL<|A5)gnEMKN=I?Ng}%7QaDf&dD*D_ZW^&(jAEL$GdWg$(RR{D_qDgwH#S zLMy{i%U?P4^5{VIQP=u{QTonay+ClLwGJ=5!uf;c$~VOnpnezQO~#kO$zuMq(wVy! zDqK3F+J0G|+QW6(Nc7wxq7g_+vF#!>LfmnCNmZ0O($-!VUep%~?XlWyyIudYDLGry z!2SDr%K4*Lc)F0ut@xJzXo(lZq1o196iNZ?#xHCK22qJlNR$-9pi42_gGjIOXV>ld z1BE>ls=Z3O7BJL95y~JsxIuAhc3Z?1Vjxl@3ge!CC=vQov$msM^*Gamv9zyBtG3E+ z`R1LeuMJbHYo6_5@U4*|zm1!8SneW7v*%(3SdWj@4Olm$`fejkPZA5#8hC79ECd5j^gRp z(Zgia?DBzQqxM!LFE`ZDxsGv<&VQ`xJSFv_Be_VINguynq zlw?U7a_!;>Ll6DtN|!OEna-$%T9Hv_`>~SQUm;0i46Rc=2(+Ur^*gT$-e&~qhx@i4 zo3;+8KqQjDfCX5FQ8of5qJnpxOM|MX9qpP9K z#F8|-w~x}7Z)XXXp1P?g9^b|^Q#YxOXMsMSzIIW$vmKA;pY8uCsR)5GyKGo?q5h?3 zomYb+!lu%yv-iC9OtG)LGKaB^uoCo}!twFmr@IlxU$>aC1A>;AS)UF6Fn!O8>#nav zaS<&vKSkhMvJ?H_r!9+^etYD^|h2E5Ku5(`G|a_|A@aBUg{$%D{l4{ zpdud@5xH^-o!nEBEPm+kdgDR&56_o}#abDPc}k5dFxi zr?)rF{QQ?Lt2cp|RlgP3o!$D$tZciK$jP_TXyp{!`$K@(Amlk$DnwenTE!&pGUl$p z9M@MBA;#xkua6Bk`riQcBNS`x(OWx^am3F;OYRivyXlMD7UlX6JxNV5vaz(@-m-y4 z7rfU<SAb8u+Q=vxPIp^@npJA?DL)uyN_pf7pE~mvmWQ(@EOBLDWS`z+uO2=fp)V8Xd zNv|(GXsHq0wJL7heif_W@I2GF)h7TWdHB@0`#GeHFQ_-b5#Ho6D68c&94S-V=NYSo znThmyKSrk>} zc^&lAvXR}mdH?x_b8~;Xpex^UB47|_R}TJO_*xGl=C0tuSE-U`M-WkAbcBb93vyu& z%73Tf^>CZW===`UW19m1SNgi2%KTTz1hI?M!73G{{7%#jqeFz-|^rt6O;>10upJB0kfMl}eK5e0s|6X|xleJ*of4$Y)~N zKii_*>S4}*CvuvT973iNIf#&Gm7&(i6?@wZs1~ZO1w3sZ&;^qg=ZV?1SHOrIbYj|_ z*rm7Tzn}<&YJV_-!limsg)w1q84Tk`-|W>2sKEABwXtNAe#<+w!$ep~%S1+mA;o{+ zV9sf2V&D}q&!wbRcV*8M?c01JA@DXB2Hmws76*HZNSt09YyP+2~|5`2ZBEtI>D9;+3pg z&5ljvIC{^TqZxiG3(ew%S0{?qEUP!P-DqVluRpyu7Dv6EhGNBka1?!v3COuWMcAv= z$yCgoy8K$h!BOxEtme;_7`15&-@?`NtJ{A&Hp9V{WC30$mI0R7Vnw!ql+ejrc=*7u zqY?5XV>RsI%*L0{;i)+Wgydd?;IEo^hmjOs9dw!e=tR@9qE7mAqs*nMycddS0nOb| zGSOR+Y5kFtd`v59kI_n2g}Fmo_}3AuO)~Bp9oFjb}XZ%Z+ zvV9eQl{B&!v}l|(lSQJ`OJ{GMGABWvb+Z|w(SnWd;)9a(0*!69dK(HT*%tCP2)AzUioOFxf(2-MS+quulIbc`vtqP%D z0*=s;92F%(G`bJTReiHt;^^v%Xgtkig%iB%O~OVcY*_C~S+PD!tmNif_amr*-{-JR z&r|ZET`3uxRoh)S%RU8mw$d*72ztE&4S3iPA~1spZxXGv9rC~(G{FgKcVouk~=B6uYfHJgC?o4e>Q*`%~?+IWop)gmAJsaS{B@6wbs_!^e5i2Uk0Ws1T3E zzm~3JWCV*^?5zgc+~9oaZPISK(w+I`OJ7UYMdA|69i4^^YMxrHKx6gW4DHG=uA-@sn1C?hGOnJf>-MERHT9>Z zVE>x{q|;w7D#B&`!fKDxwEYPClt!M}8JbTNj_5x^Q~tttW&&9JV+I9H!-&_u8Ncsh z%@Co6B!))wKVTaRj~{*8;uuR@mGt(aJ}QziDs=8S-k;qKa2`Ay5=Nq+_qpqhv=uX8 zzLM9H0!nR5;wp%%%?2wGO-5T1PoY`&`I7RfA*^t2@`ydc)?q?^DVyO76Ix}Kq*$=J ztRNAqfnJjyw)8Q#v;9~mmKkGV`*)8>;f0$XT!#<;joejIbj~CqlT2?MA#wQRA};P@8HON# z;2$?QyC!|CleyN`NEiOn2hDQBj`(TEou$5$PmK0?qj9)bL(Nce$7-frdFhL=Rr8;> z%0?n$7Q~3@3%Bw$nX#Mk*DC_T4=CP&o(PRks)_(Z>lR@vNo+i8ty2%C& zE_WdE=?3 zGAb-{^#^N?ma&FmJNGKBmuv4r|J^Akoc^1ZYb4n^tK~`*M3`Emwkz@_qVoYMNGvt1 z12;|@#STD^1YV9%gCPDFs1rsYl-x|siFIekl$3rymSf#0601ksv_b;I2Z{OO5hcsY z4Flt@+njlBe7afMYONuIZW+(uiWKaFT*#XP zos!biIkK8_BvyIxzR1xi)cWYBZ38;e+{~_2tJUI3wLO;1^#IWQo?I#mvwqQvEV@tloChfiIA814L6!Lp2@`RO%q!nX# zF2?!N$;XUhjjpDc@nBt@>)VD^5w>x!<{qu{F5 z-~Z|8t%KW)A>~7Q?QEik3_Ff{CF;KqY;&}u6nQsBhy&sr>UFVjuvgX#t94GQHfx1M zc|9*}A9r_~cr2H(x!dPU;lsp;!N7KWUo&C+t`KJ1FFcE$(X@%?FfChqs8GrCZDCJ4 z)FY<&^F1xV%KUAUQgt>$tTef!Mp3T(Xf`pEN5{u~`3$NJjKV8jb65Yc)*7Uyl@E?F z1@zCM2uteX&|Cn4aJPD|&j2W#`%w!3Hq$7m!HRx4`3-eWD*qWqMk^d%IX0)bPTWjWTSI*eZhzYML2Uj#rqc%{s8KN^Ftln#> zWX;*OrwGy8RP|DWTw7no$R{pKJ^J03rr%ABKos&dZCRDcr`>yxQ*VzZPtraw8$M0^ zzz_}1>lxO|ke3txtc{-5iWvWVD6q(+R58SW1of7N{8xP9E(2X>-=t$+Otqe?F7d3!+;Qod_R*D0-W zd};uDw#Y`!-3^C5f(h>Dv+w_{9fjxpKkfUvuRp3e{hSmqr2D zc+}U90BDD5J*1G-fQmVo@7^#7NjYkDOpkk2>5ez$}+i(gfKC6i|S?(>BYr6VE(LSnYY2IpVoERbd zc{LfTP#iNLDu|y?-$qQj<62MF}G`i)@ z#~yYO&)=jWUg@5)xc&8GI{Q#gea#;Gw)-c~ywCT0)af;r+?f#KQZ)2^W4(&ha`&6N z>Q)rrh*^qdtS*#hKj|GHLRV)dxW9^DlP6qT8U%mCiu;nJNt91#2;&eVJ%b`h3G>&! zlbPh(bP0Wq0Jm{4QFZ!ZG11mRs9KTKH=r#8^`7O8J?7ILhOSwrwLc^jJ>4B{Jbt_*4-X^a zeNiD3lVs55F7=e_nF3dHEKqe#lfE_fOm#7ES`!uX21pxo6C&11 zaKgVTPUk0K4%aBrJ_lZtRKB?yed~S0sx=JboW}!bl5m&4c*$S)R{L~&(ar_xcR1sd zePk{Q-Pa%+02^y^W^2L%Ip4|l`Nzq=9nT-VU^^K?xYEEVD=IPMe=Kq6x~Ir9?n7Ah z0?AheLDE*iwa5`!a?=rWo?3WhxU8UIAXR@gn)%n?&Tf!g5Rf24y@u*n9;^y`)=f$F zST=O(^eK(&rp53RL{QSbiz4tKpl)!u8$r$6FC#AAD7<-{)&-W}_s*Iia}mCAmpcNP z`=DDf=U1Lns@`Y3&9OJ}PnN}B=U7dYs$H5RR)*vM7v#2#4@9jN_rI1#ip7~d zW3>?O!>pWn9kvabC;j^%{qD=C#TyOp^a;M%Ut+N906T1wSzUb$xkQ!KxkiwNt45#A zhSN+$mVFaXyAU7hPP4OETc615Bb>sIOFRBfj7VmUk5lZ~JcZU3vs9)MdHq9FU8DO- zpI?{ey*QP#?%Hf`q#)!NTffTyIcQL7WT2yE_v?W8D-?|ZE`k0 z$}hqRRuK(njl;c7Y=JWTumS0d15cmOcYN-c8_tAe3WXvr=_pJlMjb-5wtM z-TWE;v$pCBlhC{VJ1W5I`46??>M&Q4WraA|bP(|dpccAoul5EAFSHFhfe3qz`c@DVJ7erylhRbER(&?Zz0dw|(^n-S*Z8~_; zT55C;w0_0?gn4DwcJ?9s`-Op%exHdG_UeUPrHCoP$z0a+_}^Uc@Qmk7Tww|NWIXQa z*?HGHdbR2I>N=6PdX!c>rbds$NN5+NeZM*~SZsT~{-gW2r|tZzX41u!RNTqE3n@o+ zv6A~*1O4WG1u-f?JYAV9?FS(OQG&}X{wNRQe*DbzZWJc@l&M2^%Va6^b-dTu<(eyA zYI2RP;2nV&YwP7m`a7KC#^uW?A$OMq4<3)cK8b&~qXKii0d|I1kq+eUac!Qac(>@* z^oWAwM^_zi%BZBwMR2YI3pu7BG$$UwS16qJE9z%_?aMsajNjJpgPib-X7*WyYs1v= z+371`0P*UUFo|yCY|=9y(;13G;wc$x`Muy#O)Cpr)dG|E*O_;rGN*&xh=*6O5rRgK zW=Zao-p-=qpysEn)4Kz|3rLK@;V&HAXi2UAZe5UHOqS3v)t@c6!Fm1td;{Bf@{_dO zCsNsh&QChI$D&m`q`28+RhPA#_2yE_sl3w#rj!I) z35Mhg40IB5w2x6YY*&3um{*M&*yXiM#utvhsmWXGq_(NX{j~{P{_g{BT7z%uKkk!- ze9+6I<4lm&7)pK)bLHX$m`GEGp7nKu+!m+>*9aR}dC5TaZ~F9Fb2aKm_cw<);8Tod zF_NZ{lRH0KniJJw^o43y;H^CGspxL1qt1kCX^xs>R8TM9G_FfxG#~K*bcdf0Up;-J zS-9^c#ZJ6g`Ghw6tU~^}=Jhd-08ay0bkJ!@9Myqa+;1tns*>B=jKTDnzbY67 z{+1+GIM~_kIRnL~j?ePLRY!8=R+mEI-mhK%s9zTnE=yFWs zukipr?trV%7pvY-)IHZudAzz?yg0BSUp*RMI@~{MP<~(l%#e2Bdw@MjC z7M`94ej*)kTQTK6t4Ks18`_l1VNI@GO~`aF%m|IJLCl=O1=IUzpLB&h>SN%Yl#>Wn zSh_~~3c77<+Z)qly^3KYmfdwZ;9YHqYm<9go=^Z?PQ@HigAag}X@<#g3xZRy z?66KdLb6}@z69rSz2$ne3QCe6k}GWs9)?nPAOMo@?Y$2Nnl#yM^_<%_hLekYcZ{xx zZ4DUwyMFAbnVbZwUw63yssir*ft>`P75$-}l}k)@+JBI9J)sSJyG2TsjcaVazs)?&?%>_esIgpUV z-TLT~(}gY$V=cFU18Th56_F{D6y>L3^k>%mxpL^AG-#UujQ~&2tR!OJ6^{o(>sLJ= z+*SPi=eQ&uGqFB_Y0Y(@(*c&d23|A0JWJu?=%A5O9jZ`_Yk7oa5(ioA5c2r^V}4=? zlw)O6gaC;vAfN0{IM)uFcD(;HI~%NuxTBW_3Jd!6WNkm|P&0?OAyiP?)-uK(*m^qd z1nKBcWv#L#oRe>?36E!_m#hi?tJa)tF&ZdXK^g^WCN~_Y(^eSThNpYx!~-P=3zP@| zjCX*f4;QlXW|MRjNOZ~7#`D(#AvEMn49YXpT)kFMFzu|yAAku| ztBSB@eNkRMu&vZk|Liz_C6IIM=AF>HOC%{Ljs|UQmj*&E=&LrC^}<-7jCESGb^R*S z_+N6h=CTnczHfE2NvgDZ_B0A=Q>bHwK)Wxo@*l6Nwv)amW4|wt@Jg(ay8>RQd&=Xg z2TKs;1^ITbCjexE5Bbz+i$O0qBx|2u^9)G4u zP?__yPyhRnZdAHr-Jo3d6Yb_5 ztBg1cnkd=@J*sMq@`PkI6P+W?%C3wDALuME!$ytVYFB0!`v~ z47Bx+D)8Ip^{n>^v9DAV`c#yS-+4{^^(^QM>_2>S;|ib3?R%eL%2u2!0ttYxTWQ== zPLu1vZ4_I9HK!~y1bAdeau?ZtUSVUe#s~f#Jo;V91!o0ER1oI$ZJ>p@b;0?&_>XIb ziE}onnhZvgu)%)NuZ1XR1c~rIswq3u|W7wQhPZn5py*@J^wC_A>VEJ>tV)l#V{yjs&8TAdP z-e$_zQ_nPdzuHvwRhlfj1+ywAo$ghA9N+S7tLb(z@%ru!MqB8_`FmXwi5oa+zauw` zNiWH*d2asp(|K*KXZF69XN&w|MZjz6el2MgZ=a2L@B{Owx_ez>+`wUo z?0ZHt$+w5p^9`YCWN>pr5n=Ihhcs@_rO;0%;pTSd}gzTK)q{?=+?_X4t9ELYx z1HSAc-+Ybi9iqlSu9cm<22d9 zGjFNTcZWh$pfo+!?yi<=mL*O(sdjl<0h8(%*>~J+!TGKYA?++m88{#z?2B%LlHo;* zXHS<_I1lx!9cp-4_h^iq?XibBAib(P$?&fchHKT7Wg|bch}ZgmKB)bS9^*>>$@z5Z z)fDR_SH>>Y>_`7gYhSil5Z(e@a^>{v^Oedq47L2tnOY~ZX=<34b4x#*w)-W&t364G z$tFv2xrljh5?puGCNU(&#NdVfH@5oVXHAjT^Wsl)pa1~Ne?`p!-eo7?`+_M`T5z-w> zxs9rc^deInAAaa$I&o{i-hYHth}~+4eMyk+9bwTj;#ijp?rTnOiDDV~ zy=1rdJys6O7Y{viL^}5+w9HRo3{I*9WSd!O_+a_9yk^{i>Of zn?;AKNn2(^ZHTCcPcC1U*9lt|(>&3`d9LQBFv?7YJ?xsSUFj>v7enDBr!X_GqC<|%EpFG<3%t_4m_Eeo3&;1DJuI`K1{n;p(+}+)JckeG=P0T^KfA@PjkGVPGNiqlQX9F zp5lYc`cVGbt;@8*DnG^Tn;W(Cg5)rEU@?g11bgw{A;=8vPai<&M=k#mCt}GtY*416g#j&z4 zs0lS#I#dQd^Zq8F;P$OVB7-qQu_;s2+8b=*n}l+)039 zl-8|o1c+j5Q==5x4Uv&HIX*Z0O^N0eF_+}C?jXXGfBl5 ztGob9A<}`VH|f`m!T|DD^OE%Ph!+8Wx#0Vp$|#SnHZXro@v&4qz`jheWfhc7=a!F9{9J(*aD`D||d)6ox?9LRqa^dmw#+`};zd)+wJ-c`S`&F6>_3jfNk1K3g zET!QGxOj||8J z(n;=;3NK`MGf}g~#{JbSuG_t6V(-O7Da3SHazF1lKS|DyMJWC*uJ}s9$gkH?53&ur z#ANd|Z9l5-_b#z%UVge%@<5pPL>jNC%q15v;Qqs>y0yq;e6Hoh9dn3rSsQAJMf#Ey zjy&rXOQ$NZWz~v1Cfu3ue<{TUf59ZMC9KyqBzVM_9}3JC-332b6JlRZ`3cs5$*(;d zpe5tt(rSdiw$@Q_&R<74eR z{K`cRnnfrVED5`KCOUrSbVv9mlN>0`jHP-T*qIkdL47fr8G>4aG|G7XX#}L z%BZqNYXXG?XAUVMWKB}~J_i|s@)44??Fo&b=m4nkBO_^+tIWo3ALZDudN5H{P^xs? zwsGGpjFVLflRnsGBuMmO)^<4 zo!E#X8P~$EJUUo)t2A{2kkA2^Q+&Gk{__vTBOP)C%_BKLb=D^vZUw6x$w?it#CBgD zrW)AhPtR9|bo#C;sFoaL+rWs>@PAxPSbP~<&BPAsX}OA1(pKHXH(?i=@$`P404bNL zn}OW}+nBqXpJb`!^9R4Llg#+vxvL$4JWw5!w8$OFzY)k8mL@KD6aQQ_E8^qv;vhFR z@5hs7=aOwiyBt}RQJDYx0ori=M8RhqwQ{*^70!?{cyIY`-C({Q*7Nt6nSuCLL=Z{+La{3l=ixW|_n#qhD0O^zRzH;v+ccBq*z8B0owNw z{ziSA000+Xm+>%jGNdELk*AP}$9^O|KaYN*SvJ7RcpeD1#V~V z!dbsQUK*UxM_%WWzaCdMHltHEz=) zRX6qXU%vPV-!Kxw8;)ZEGM1T2f1CJIxoJ_wu;kx%AvO_14#K`0yWPm&b%MQeIp4R+ z(oHsZFOX2(p_eD3pFnl&74RvHXef{ZMv-F$pSuf`BZ-kG;1kno*0w8_qrk||^& zJebEeo^8ASK-PrGk>M7^XJ$hjr%4x{mrzp#U5)_tVe!7?cA1| z-oG~-@~xc>&=6!M95h*I2&_!HXy^HK?+ErpNVa@By&nc}bs(x7u=S%S9gd^tS>_}t zct1pF%7fl*;JGn;>U^Vd;^-U$_dT!extfrjr-rnD&vbCQz6k(yo^_}1&X&EBii{;M z9o&;lm<~Pb+u?1Z9CX|WjSZKY$?5Ar9vo;;aeOLPXJY=ggj;Kdf=(`^w1pfbTX5V5ckmz7U)Q`+!oE33bn%N`Al8 z+TJ`8r$K9JxN2CmRmw8EH!7JCe(NA@^u#Q}IcNWZ^VyvUK~*ohKR3hb3=x+@mS~K< z!fcev)bn!3CsokaZKzDg66HVG#VYP-Uetvu zc7IuuN?tkoX`BI~;p8$Nm5#;W?OENoRgc81o$^3LA_?E^TE@uEt$snTmL7)V+;OTA=!MNUOZ28-UQfZtl;4LG>pRsAvRi*g^ zyF#x1y#_rjVPnb#=L!W593cc*F%#AX8udFqmqb-gimvSjN&K1c6@ywY6vr%y;Ef;H zCoXFr`QNj_{$}NUfAU3Zh~VqSt{}2|}pw4S2L&;BGFGekqEJl&C z(>%s0vQjrM%ReWr@Rh4F9>5FH521$wB3Mv=+wzpj z)&C*88$$GVTpMRD$uE|@Ng@+sl9c>Ep3XcP%Kv}=GnS-mAySrz5s@*seJ^Fn*xSfj zj3rAN`#Pm)wN04YE=#G?MsYOUAx_U;3Qi@2@&1r-QlY^?F{{^|+qX z2|k$5fG}43BpP0;-c@CSLR=W2U$y!ZDJ;OBFw;PuM5a_1hAa{0OI#9>G(N&kbdrx) z&WBlk&+d^yPdGB7I5mBDlc2O){{`4FM)rp&55Xk}8|-F3*|19fJ@VP)FLpb_Lw?*$02@-GfFra)){p zyj*9MO+3Vktdf$gQEB4ZuxbyMJ`s|?Tig3*_exa`04wxCg#d_fwJLUx+Xvj z3+dn~_^5evvRE|ea(4s0{{88qpOQCX3+A+^^~f+PE{sJc5{QGdT8P21x%VO)Ms;{gGA;B~SyyKYT zKYuWz1HX&Z{`Tp#_+U8?$#{tOfsyeTE?|0qDYOGc~JVA*VTE|&UI zIx>{~TjUvotE?OdI_sBOB?u$D znOuaqa`i?goz-tSRJ;h@9VkI^?&fwMicqI=@^83y5BtdrL-QBP9Ush^;d&S;)>aMp zp@pBJn-*GxIMysI4xSp&9tWyUIgKRUt@&^Bwx5ARs~;m(|`i~Gq5_6C`c zHNNO$ZV$RUR2Q)??@OSJJ?2`GIJ;;$P%!f09sRu2cah_-iXJ<`BPTdjujueZkbiZY znVL|Wa7_B0EO#TOK*j5OT+@(e`a+ims{Il=>2$n+bPAGol+dmC9N|G7cCGZ_p^%ao za1r-1{BU#(29`48DVhoVM(d=-2zi-gD8Z@+2=1;0GvUX8XeB-K5xxWrmqKIkdIjK* zmB5*Q;7<;x7_c7)U8+0KiUG#Nx0-!Um}!{|-qy3m;<)un*e_)6r$!QY`KUwY4F>}1 zgd(N48)cah@NoHhmbj?{xU}fBp6ARdBxfbrhs3%tK5`eL`yFxIJjp#1@*+%dS6%RTlu9w&mt%3yl!|I5&zhB#}~kT3knG_URC$o zM=6Mgt9L{xL0v)ai|NTr`NBQN-nkhaa`-K*Yjp7R>R{~m@&eE5JAT4W2cU?Y#~P9N z-tt#6OO8tPkQwH0^Qq4C`e8L~89oWGdROua7KYiNu$R=fV1_J~L5!(qn-lGwOk44# zac_BJoaHo|3TFy16ecQzvM62&>(aB2TR8&`%~H z_ZHrKmagUK6e?29)-s7-wyRcZu$Vx-_$GVq>HGT`l_POOot=JafU%&2%M~0M?4_lkS2uKOeYnAd&X`N(s zaPLcDC8z~Hw94Fe0(nUx<8`rz4}*cz1vW0YKre`HwZdod>Bzks39n>zkSAoA^3{gX zs8_(+{b}mkXeRr#KjDSdti&jdn-U($5iA`Oh3R_Y*@jnYTYXkL(N^y>{Z`Z@bjW8g zsGTXT?ZQ7Lozfoq? zk>?6Hgx)e$^q#%NUK3p#c71X74mH5Ub=#6WpB@8XpF6Nc-!$;MmNaWkM|)!Fy;1$h z3u6MVw{!tVf_=bqo6v?OvMrAk#1jwjH27>dVScz+q%!AN`w!~Z)~QYl(lMD70vrU%nYBpWc0FNI0-Zu7q}?jRTXYh<@ch&SNYe*uZaiY11pc@%Mah zL_|*O#*Nq4!w2ExFpPrE>vECr^&`p6NHX*Jn6flWqiySi)UD|sp+`VrgVukhr^$#J z_cH+rtsKP`-&UjtXZn6uFrA8&HKIsKYYr+q_l}A=?D_=2boAi zYD_qxNGHNa3CNImA6{ZEGE(;XoxGX9mZFto_Zw_AKt~#>9}60}t3DyaNf3h{hU4{! z)>^cP`=8bWEshqWw>=hmxb0lFJ1+W~XzTt6km%P=XOZl9VVTK;o>)fjwyDQdlU{=1 zntxqAx;q6FunL&PhI6JWUjrOx`Pko!_xB~^&`%r;y$^B%lR<>aY=tUGNP~d{LKGFx*CBg_KaP5fc8!Sieo>{;}dY27w5X; ze6%DDkABT}C^UWEAr+O$-`+kuIivY#=??Skdy^nO`q*FQY7k-9_{LO&oWyV>u#y-^1@|Hhg5u{XS6Gbc!6sCEE>5?9W%|O%MKq)>`1cPDb@rs;1f>-G z`nA4)z+GI6bHhPT$G&|<^wMJKWAWVRPuJ~M(nqg-cn=oe$Ht(i zQD+0?3?j!wE}#|6KZW(_hE{zzL58odTn_PuD zSMyfQ&9u@{3Vt|ZuXfdEdGBr)-61T|(2>FJIy_tk-l3Mw_yFTBY)>-EI4YGzoCW$D z+r7rJspWYi9N4$~*xY{pQUe*a5;4X|5TSgMAaVBWLFov7tXCiEOFb#RFr#ac7 zQJi}F?w5y)X(mtleCZp{M&fkZPSz}iSyLYJ9FYR2d1!Fgb(M9Nth{et?OS!0kBtc( z40{o46y=N2$D16eQ@%+$vL_K;cQxiFUpdXe?N6Ie`A_t z2`8E|TVA8m-_k23fa5V1lydcSl_L#k7&1KNNU+f!0GrMayaj`YEG)nX4Vx`u6QvGp zqM*l`+;)#0Y32Qmi0Dh$o4!FoO*WrV`saRIq#04xXOe&Wth)f6zwj4pdB(VJrS==7 ztpfMcd})97l)q*it3)F*!|H$`h}RdsRG?9uFgGtyDjz!$!c}0_Rtl3un5(K(jiB}E zuTv^zNUZzt8wVvi8yI}w-GL)gnnwgO)ftYW6!j$_<#fjDCd^Q0v4Gv82koXKj>oMT zWyfG6?T1#C4-KyWsKbCVj(k-Abg46MCP5}r&Op;vd;bhc=Y7oTuXFS4Zv{pJycx3u zIyAE%+i`46MJSi^?<2oJd+c1g2lr=J)P1~}QLkPVRV`i^q2U*=#Wc7OE0%~JHex@G zuZ%G1V@Yo+Jk^PqL+=!R zt}QjQ#hExLktq(t+=Nee4B6%K>;>Oi3?&kJI1I*^DrT#wUb@%S7+|H)N@0 zAJ*OWU32hccXLU_(G zgJ%_^iC&KzkYDrp-J1sXNtYP{3(gSoc45){wHiQTahz*QK(;8}DXaID>UYMa0V;W?WeHzIS}^~uH%k(xA#xZw>5T7NpYZmv^|c(+I`{!{Uev_Lso7U);_mF|2ptkFX^ph$HhHh3IlNtsH33zuKHy}5!X zi*xZ%@$8D{7X`tYteR-Bnpms3sQFjwere8{Evq)8pf>;X7TwC>X4svv)i3^r$}?={ zG;mUO&aJnlDt<()2;=_l|&+7AzIBIR`rsb`v_R z)Ke=>0Jhr{7RTBt4L_ttoTWVMmB66h2{Rb4#a|lyDrrdg)PQgqj8(!%)uOm>2^1Y$ zVSTv-UIEWhz-QAYBsih@^h7ocL&Aj1v{U{*%ECpE9Xya4tGmogm@C7g&F+*>)LYr+ za>k)b$lA}ztk|E2rBq><9RY90-5sy@JEO|v%}#5S+>JZ=ul2#v0r<_fo#c%&i5B;Z zXX=N3*pCdQ6er#wMwB<|2v5xQFy8Kk_>OCD39S4Sj3w+(6W0p(!Ytyo>YbjQwHD9z zE2{H~f2)d9X2d#f-Xghlt4c>%D(^I-sQ3^n`OoH26GF!UD86FciAI(su6@8jujS;Q z2?{gAd|qJuKzNUdLz4I4zG_qCFa~urrCo4g(RmU@VHtm^`!N=lgcM))a=Qw!$c2%n zRv+fFALmJ7B3xdB;ZylXQ<1GVL*IUpVeNbqLU{42mB=HZaIe?d7Orrt zzNI+e6A{$)3)@0p<-c$WmcS8m{Z5!=IWpY#PNx2He7$Z(6s+#cSYgZ&xSsQ^1O>$z z6UGK2`#buiZA3jE?%9@Uv2TS}ZBJ>^$o?hP+n_k>ED#335ScY*&>62#ELMpMt1|E|Pd zHE}cD>&w$D_N*+xd>T>_Lq`mTO>H{=9-Q3AR-1B6F%=PC=dyf(vvQ4|uXZ97Ig?YC z)WY*=SErUI{d{-cjow$fm>#h&SZ+bxEIMNJV#~b$3+k?eW9Apt+CPv&HErcUNm}eq z$DyTP5k+;q#ivvWhUYhK#VSg}0_HM^;7N+=Mv90bp(^5!gTvH#B)$T?W=e>Li`T#= zt%|w)hs6*Bel~Yc#k30+HRc%%Fkg5y6KrFjrq_%t48@7H84&a^sH!)rx2&83ry}vQ zJdKErx=n|orx2OZ5kvP>w(5EVt{X?pP8rw#l@ zD;37Wd>fLvvgxBw;~GjiT2FM`Zou8L$j#Iu-38YpI#Cf}%0je z!=G`rbgCa9$t@I~iuf{a=QOpYgAvZQ35mEEe}f&!(u6HWX+hunM8j51hFe0qfN{FerhjG5nxnw+s;%xDE}ge0LBssCn)-zsnO)y7`Ue7)~m>Wl31 zcV7i&e@!oOKfzUelWiNVZ}p)$(U`D2eaG*>lr0cvGH%EqBAF?VXXL2}*(mB+LPsw+ zVHHk%-cPuIqbHH~e(#)&#@wsM`ynbbfx&66*ZP1pha~h1mG56K`;-7|zRT;-)Y3aI z6O@u1nGEwZ;@Po`afY5DUP?ru)XId7nII6gG}q*&R+wXZGEtLtDX2+h_f9c*N*Diy z3&E=*HUmClyFq?cS8dNq{tXKdt;wudQU412RjDk*TTB>Qu*SNnh%@MV*L_J=KpCUh z4vGsMks-%&eW*)Zc%4}R(9*&xk}~P0&pVfhVcC7?(*clk8i5!sKxeGcOp+2DPy8t zzNe{(fJ1&dsJTPY(f*na!Sbx%60&e{tNA z#&{6R2u{5n(T}DClY`LBip!ylZ%dC`{*dUq^7^v&%Q{C#3<39vj++2F=N->R{t*KB z20tC%FhTm| z)Bx8Jl|Nm6;yHW7r6_>pm>|{rtUCR7tIrWUaKwFk!@!ScMJ0vVj#h$(TqQcmF?wa?HclaJ})0u z5bWe{?yadr`FP-CL`juFX2Tv2hHBq6-(D?Dshp62eD3})efZyy7#q<3W%vD5?AYCM zc&X$w|HsT^Nm?*HfLOL8LahBeD7b7tu?zLhyfWG3*yTF}exlm5(z5nchstI@jSy(zJav|{>*M== zLxYjSRd;UIwi~=Fyj8uTIT@C-tI5=QLaR(hrfEJk8t&$Ivo@Su{CVO-*j~ip@+{-ebk#7Q z4hDk`E`_LAI>jlUG0EpM17R#kJ8&PSh!w@owPWsZGG59ASY2XprJeF`epPT4iNgJ6 z3-A7BbA7FD!oig?XX0->oj7AZyrt0RYhtTvD5O=GU{_oo!GB?(Jls2=@Kn_qo|dxT z`h}fX9;l(IkC8G3(%;j2EWAg!EFDkNNL?>~4kk4eTyYuY(8P##WpDuFsWcpvZiu5- zv&iR}*ol5sLON+hk#IE(?s7Bfsqwt}4AKSm)92Z+=`-&|#=%^fb}i`~CbX0KExz^M zjanJN1CL9v>R1{{LIFoxd~X;lzaPK4?^!Z#dSXw~ykwSY{~#m+$|VO9#Y>$V^wbKa5WkAm#Kqy}H_NoK<~pTlgC zHc+QIttsM@@%?UM=?|aL#;M5eTyHy%8qBn|hUGED^MP&=6=~-lzL<<`&q|kzbhE~A zm)n;bhPYD-rWqi5r@!&fj~P_$=Nt3CT%ctC++8nJ2h*e{YR);=;aWsRRh0h%v-Ef6 z@XNhafg@`6xq+FSZ*uGCacQOW)^FznJ6TXEVOn+@2X|iHIMuXqYse$Ca0Q9fOzT-u zO-3!pPTggVI6I*z*la-pFdMn| z?t{N8bwM>{E*XD>u}dm0Ye3yT#{frZ4nCbb4?IPc6;(NWo zBuJ2;bsCoPN<{CmG0L0y3n?9Px$@dwmFGDE1&p253~@ZodX`OiuM^oU%X#6R%q<>x zR_zuq0SnaCKc%KB>&Z_&9&t4hg>%9JK&b{u z>UhM%1&e@&pwNdWk#Kw+t0TrXC-ucrI$HNL_&0_2@V2|3E1dEJ6T}|29SM}06|?iF zB2Dr|^suOx=_S~$1qr>~HBODN69VZ2ALlXt2dsfXoF<;D$6t+(7QoTR&eKW0-mjaopc263@V1Ws zmL>0c_6RyE5fc%ap+Tj-7k?!adENT3^xNC@H20^aJA=GUGrcp)JNz5zted;THl90< z$v*=yt6J~p?$`O*2c^9oVYJ@Os8kIU!YF)|H&&~&=#sO45;u+_1sY69p@bqogo$sV z*knr|h<%RC$1LqWmb60l)? z4luN@Qr6El;tw6ilwHc0aD}H0oWhaR0hYxp0DJ=lK{t@_PSygTe&|KL{T*08T{x1e ze@&I{O6=1xiAV4j+;4mRWC#6SGvXPY>ave@NQRI#AV>fh;=R&;Jtn@%rv{#)P`K9+b^k{$+H#?o0GXz#ZC4#Z>%Hv6=2Z!?s~ zOc|+Vl&lqW|MHc8tkrjSt zycf`E+uwR`_rG>2WUE=oGBh5_y8_Yxr_S-+@8F_hT?=S$Zg)Pi#xy3LFMN6@dcw+m zNNKt5k{U6-sjf0cJio%oarznUi0#<+iT^5R(Z(z%*N?=ge;N-xVGwf4IHAYTrynK6rGOCEhKl(NcJ^bmk#$CG;2z#B8m1&J)L! z?gC}Xz|_vxB|yvTiIjc zkowe>Y`4oX(*%i8?EHa3U_7pcT2S$ZP8{Hjya3E=@udezzx$-)f8D+DJLbmF-(KeJ zMdgUwK{w(SH!qhNN(pfFeXmwI=1_0Ou+-d^6_T&rCimSoDN@>$AqJOYZGjbGza!-jp zU&RMZdOi~XZsmaK2V^<*5}?Ytcu7m-*mi5BkT@>Ab02gwztRp`zSxYU=9hncf`L{& zarA@{xdZRhmr72zjlO7=Px@60yew99nW@~m$oaTd@I^umym72AX4s3)fGQI!$)Xv# z!vYayd$faE&+6T7>|Q6jQQNBvKF+_FsBQtK%>VABPl1J zT6sT7w5!x_u-Jhx*}Cf~*M ztz@pMUDWa6F@Z=#G&IVaE|o$O=)%a7L7-8sf<0Cu|T};ulF2m437D2gl-Z zo32l%XYg4L+xI-DtL&nGlYVwM{lF$(FMsGb_Rds5EJmr~m{Q%rWYKY-4DqGvzF#iG z<+>d{OA1|h=|&$+aw_9Ng;<_D1nZ9s;KZ0BZofQO%8NcQy_8qFo}s5j>75m`TIsvP zB!2eYo6RjhJvYGyrkA}lXzNEuY#1EWSi7DW?a33-gYra2oTU!!)awHlFz^evEx+_? z^Bd3J01>OYWsm|q)qr`NlouNf7gLS}+a9HWsiPEYscTqotJ{{ljKZG38e>f8Ha`9@ z;QQE!bjx=qi#G6PQE$<|qfHhq<_{KbQWYls`gqtO?O*+LANH$^1_mUUO#v`T**8bx zXPju!hS4xcRuqvZ0tAy{^b?(Ry8l|J&QB%o;9GM;DB&NfI>h9V5w5VtlI~^Z$8}HM z^(31n70KBIj|RP7iLY#|pEOSU<1mN~B9|fZn zByafrB9@rrSY%>3vS!Oj@RF|pMC3)BrBo!K`8Pb)X@JF+bhcVupLs$?;bn#MO{|NR z!SVe`7jMpo<%vT_&=XP;oG?Z^D`_q)5E*!2fdYrh*d?H3EYT|I_mxwN%HOr>aR$Lx zHu%|~pUj5#?%;8*cLauV6v&y7GJHsE5r05B@~mpV=a`0QTqIn3cfJ3V^FAmHTQCSJ zY{iUdn@3Knx4x1HnU7c1b7tfs2;KVcJ*-{<~-(WNs z;_0{cX^2ldb+Ad_?n=ht$DW&;=}iAGOt8_(+m|d>FG9ty;j#2Jb?r?Y-aZOdGO)`X z2s-rwG-k8ZJ4>wnBH8cQ9_XJF z7M`=r?#^$YyAb}v;LdXn5vezj@^YkFy(D+T)4-$wj}=CiTYPbD(TVDB4O`mt6^60& z3xgiVvkluwcCZa z?vi=8;a#@DDJ>O`*lAkQ+>O?2F3DT1k8rj;dXf-Cfl^iZh zMm$Kt|8jOORRsYR0G^cmeb4H)!fQu7uqD@lbHaD^li>yr88*aP4kS1byqj1_I}-`8 zzyHLV6Xw*ZJ&z+o85xPV(%w-YLD?StX8be5*onbf&jRkM1?_PjWT>h|_v7!%WTl`f z3(DYX&Xhi=eI$5Xo7Y`^IB&3FE-9MsA~BLNxDzu+^n4c+`Q%R(N2dXw(}CWLVS}qk z`_G$n`t=RNJ1?)Fo@&~t^thAHoQRW(y_@(-xU|xLj=23!SSKqg0bnlcGan6ga_#%h zRvRScbuxT#{0FAp$tz;{H=WSY`Tq7*+HoLK6(Df%KX@qcnK6zvV9)LUSES{*KEkxX zeY~g9$R{fGBFh3r8itRh0@gFx2V`7w!`?GJ%>a1-qmcuRhO0mP+@>G?ONIa@5JZ0k?`ocNi^>c_Hg-ePGrm>iICwvPmV>|C<8jzP6AP%uK* zhUGFt!os5nqoDKSP1_BBrV+W&Q)bOUJyHqRK9@1-kEEE~Y4`u$<@YkkJ+t89IYRo} z`dbY*9FM~pNr;~j0+7hZbOH(PK0PC|JaZw&(jtE57|H6_ctS@dWI4x}WR>{r#igN* z;A;klAIV)HMSPd6c_h%7K3co5^G32juc-_*3jckB;A%Ov$;Jff2U5@9gH&p?5nshQ zKi5;nKt=v*M!xbS^^)zN;jKHKAGj($9A#4KI* zoM+|g{(|h>(frL%(n@eY)^uv3vAN(kWm>H5$`aZ-B&;e?de2&Mv#W)du2+&ZjvYl4_*p*p?_tGM?GrUI0E=2!8h=}hds%sVF4hMoCs5a zAmWU0-dDk7gI2kELLZ1R{6RV9>j@WJb+1D?PPCaYazr9@2}bQVBct~ zEI9Yy;^C3V$_*kA_Cwl~ndSi6^bgq(ccEHN+h;F4r+!zq&1%xH zokeYl)k+?(_#|Y{JG@KoVB`f5r&_G+xl*1!nG3-Q8S@wUvs$2l$8zVC+&m@Px>+8a ztUDrKBhFIF`+#cLA4S|5HcJmpC&TG@&>4WHGrU?*>k`4HzNXpBeVC~m4 zG#ADa*zy`t?lAI!9X25xs1anA|3%94;&+wm4&wsg>Gw_zFzw=0eurdpfoIO*MS1nE)c>$13QY)Sf00RfJAXE8k}%uz&wANok99odcj%*%*Nls zEcoB5eD0C<4|CV8KKV}gM{Y&r(}WndBu!H(bfWqBY-iuvmd_%o*L09!$?;OWpZGa% zj?vp^dGv{|z_ETctAHnkLDtiPhr{8d*H2MurA&#@ZmF7kNn7~!a>JR0cPvtc(OkSG zagR+U$_jHm$AXf^iVuoUyhA#x&)Kejcs?rYJ(1;TH-Dx5SocgMYXV%%od64e;B{tz ze89Bp=(S=G->hIvyefP*xy}?k|B+LFV-SKD8D>)sc*Cgls8d&oHQ3coh_5|0=UouK z&Ax4}KSsX()bQn*h>23?+WHg<(!1v~8y#toVB{y=3my$ELOJ+@Dx}v8-|g@eKEib+ z`qQHkT8FX!;&Ph<4fi5stnIUj^C!xj6A@n$&fxMRmIP;O<%MeQ71IfAoy@g#>a2aj zvjsN4Ya3@x24%z8NrYQueTlgvIrp}g&JTsfEXx%gaUJ{1%7+t9^&UT}5kn>!)*BlY zzd&P}&-x?)d17}|Z(2z`nM7 z$^d_r-47A1Z_;e1ZvYk2_cC(;jSZLpH0j&%sz?e0F3)bTl!^?f1)a8}6gcLNCNat8 z75xOIui#RUwE~f&?h-w|nO4estKbg7O#8g1esLR2GmJ@=G$!QVgj$tBDD@~lOGcQ?rvUJaT)?8Sk`=o1hF5ob5f1_gbMr-T<#0I?x@dQl( zIVQr&qpeV)uv$?j3>b<+DMwm`6Na(n$m(FX0V@A;k>TL;l~BIDjG6%LBZ#?yiyPIx z|A+Xj`LTPygCwB&*>5WG)UXn^y)_EJ1u99}#Fi`scJg9VgMf5nKhh%QWn1bdQP{Fz zW;hUP`uc-s!jH7lXYZrU(Zc(5tHFrZ3D!3_3@D)~Rqbcn90T1BzqguD3s2Hb?7Aot zV<@4rGM?bUO2S~6pC1&B{BT0$p&-gM#N?m^+^iWA0`szVj(|ij0Bj88MMK5kMcBs2E?3h zEASJnyX|f@Ba$YB>y)4ljegZ1x#M)35sks}ozRHzv9S0P@Vc5kXaq=MArq@cpm#}} zBxcn8aVNq)EVvLx2L#$*&&M9IzP-VXvJ`Lg0cWKnjYVyK1lRQe!k`b%mSC=|tv~%{ zYy0{~5Fufks`XL(+Rv@zjhag&*N9tomp4y`v4)u(AYpW*xKmt8j1TyR`Z%N5C9+jd z7f6}mx@iOCA9<~&wg=v@ZCtvhwzq%e9}s!q%#DgYd7U8f?~B3$S^xTdFpLB=+mml- zd4TUpCf?}T5heq(m=&?Pa^b?>&}KBs_yCl8eZ%g*&fvhvYd#^b*0Omh zqqMzq@aCqfUfw;Bd#Izzz3FQ%%&461w_S)m1Y` znU^^^I{n3+oX*qwnXuIE=YO<~w;(d!-TlhwJ+J&Ew@y%U(zVv8B_buKJ)m|QLO!unSdzBgxSWkj|)6f2m zEt9eT!Y|4OB|BkA1cA;Exk^6l@{#^>uvPxQ4G5&)?(?dhO`K*@!l$Ngyu_Wsl??uJ z%GH2)n%nJ#5)t*P_2#$UDodAx5`61xPK#B+k(~9P=2$?5x!wCWSJnFY@~;4)<0I@V zXqTGw*cpV~Yj3MNgWetA^{F4P#le9)U+@mhZ)(Nt!@E~~=7;6(P34S9-%7gB`PKuqr$9#xvy_a@}N)GRFP20mnndWoFNQ3FtQrn}Owy4!K0| ze~$%&cM}%wS63g;rWsf>*lb)UvBrY?VILH+=yEIpbgzz_t(tcrFkOFN!2W#WJy8d# zeM5#*f$RKI0Bm&;u<2S=QR4)3bmb?}^L|DXUu7FM6q;1=J0*4Pek!lCL$e3|>)6Z> z=4tET&&%Ha65=>|Nz1OhG=1=f8*=8J-!N5-h?MaV}wVNlLsk>~9HV5!1J0mctu-FBLx!UUT=G#Zs( z%G%KD$x=GoY!Vy8B9v;ExjM*0dAQ3x5~4;CuoVs_5Qq*gP#;LqlEv5+&WGcOVw51h z`>;Pl7N+bg_>D%x+Q)q^Kz#@XEK24gTo8l6rmJ)LCsPm^%|Yn?CTO6b`8u*DJnuf`{ z(|vy-VFp+0wG;NiOY6V+ry>=)m_7vJCpOx)qk<~0D9Ww4)0|K1R?gOb{xZt{^=I)) zx^Eadcxq+!Xxmc85AQ6--v_^46E^YElrD|$N|c+yk6TYtUqH;cR26(jbWbS znSlvgI~B{$A!4-|jE{8Zj8-M7^Rd_L-%H;1WK(Lhm+g{?u+)JxIt*K`t+MEl>ss~i z5cZ!w&#;H@MHrkT)_TYe)>-j3)no$87+*g;>7GFriR_kNZ$(* z?6Q;*R|-guv%PbXh=&8M;GsAa-|D-t$k$+@lbLQjDKb2)(cF6MTRz>VDR_{Uf9BN}oNB`$`$P25bBQ0E;SCydW@MqF!cJKjfg|u2&SUL0`#w~U@iN;=+B@D z-9h1lIlrHPxP0+WUcHQ`SnU(FA9-unff55p#UhseP1AC+PU+*EI6=6XokM*vQo;ib;A2quhu(z(qmC6dDX;jLp(D&T% zTzNEZo$z-mLrSA{KVhsNW?)f#DejoQ{||2;${g(fysSGDGWcl!Hm5Gj#V5p~Q>Lf- zqY_Y`xojSF&13$UzwHjF_dH6yDgSE&Av2h(vUJJ#d7kBY>s{Vt#uKcVXE%4rBi%87 zxi3JxUpeaL;~N&~)m#8gp7C4Nnog_XUHv$_lrbu#q~C;BO#&U2_4T@fn*H~Gt0ZRp z{(ef1qm`I{S8cU_g?v4>TxxLTap^DnT<=M}`QZ72Mh{xKc%Zu@pKq>Oz~q+J!OWbA zdHxce=Yqafv_`-fl!kD*vpiSo*7dhas`Cxr?>IOf$d|8@L0%8+(~`5i=WjJ}^NSV) z%?0Geel?&J9M9J=o>Tuu#Rtz)H^90e(uF8i4izR)N=Xq3(xb;TA~caH;sQ^4KxT|J zO*i{SUH46b31NfF@)-&moZ)Fga+LQqS2$ycsPnn90x}G)`Im<_T*>|gk5LD|%w>rh zO&exdFooYh1F`x4zncI?-OQd@8ol>s^6w&GJDRTQbu3@%+qoaVyU5FH4mfJhgT_3*aE=LoCHi|Sxqx73#Mz?scEQilAOiek*f_4hO`-Cj zz8jxJ*6c#P_aVj)b36`2Av7(;!8C<=r?9rXzn*;VQf_)JS8!?rB zUdj9~qXs3nI?7%P9`9c79XL46pb&4(*!97&r=?fBuF)rtcy%X!XKW*?!|@;==aJm@ zE2R8eQT}OaOr<9t%AH&J%k|AqXf7f4&ttNVk!?AON9t0o$Dl6&(Ls{P(~Jlf9Wp*B zFI0N3gvm8QM8rHK`=-g{X7CDNz>Gv()&8mhXK^Ap#ffG}K@df?eGXrmT23Oo|9=l{ zO|ReD5*0DxB#f=Yc_jMTpO z4Hl7j6~hF$1n^k91N{iFzmo1Jt(NOPFqGDM``I$&=ik$u@^ZBuSeW&yR0+J<(EZx} zls#o(=SSfDAg7>?P0d;We?w2pIG-KP0sqsAb+CiieRcbLX$4E^%Pfu^Q>=xH(op zQioch6z>(uc;wN|2hq-Mbj>`4C%v9WuU<&CUqwF$-d^`fudq_L^%+Ck#x{fDAe4f9 z>9B-?`K>VWFQI@T^W1dr{lm*|L&BZwu7vCZ%RmfvUJ5}!?m-&7l7`3B4K)g%&#Ye3 zGjaeb^&Ix$Mhz&oni_TJY`5P|13@5;~C0lnL zXtJELqn>RGHVp#IvSH55(60no{WJ_LtUrIo#& zKFDhkI~H&{7xQtVII~c2_m6h05v_CZ*s7+|IuRdJy}k7=tb((-@`;P4z5WAuFz|8S={=`R9IxyB3iwzQWI2h!Kxjz76)dgL zQl$_IZ;%D3XD5o`c26U+3%_0-eIkx4E?|+sD)ndrz%jc9V${?0%392Da{;i%J-dW zH8*}71~I}xS;5^`QsGwyh(*!fPT95_-C-#x@+YBrs|(%lBZ;k2ubT#+dveYOfX^em zECDW$!B;J#N9?}sd)-V$cCO@k=c{G;nY(nJgso2_a6(o%eA0RMzeD0b@={-`&>h-h^)@(Q%&k!Wz)&my4 zNf_+q-FwSJxw5hhlKe93J5EXzo*Fz>Zj4SoV6C@N;}^x9f*aS6=mPZX2S`D-repzs z&&Afg^MZd!%b&|tT4q`z%u_}$`Q96H^X!uDJQIH*7ysm9(_+oxKhfcwHqlo?2qgep zBBg-YS;YPNdm>2^-*DHE1TMMDKcpN9o}XO^4AOk3WKepB_-Ur!HTSmPd`%&|?pI1( z&R@5FJ~~yv9OhGh$}N?RFyP|+9*w158*fLKp$Qpa(TmM~RRJ>bB= z_CJ&FBj|I<>Z6hUxfj8{0G+^y4i{irBTOHByTC3!1{ggKB6k3PI(Vs5PzDb9jLCpE zl)ma??+?l=xYK^l|Bl ziL%L-kYkIGt;2Eby?r0&_5OV>zdxP2oXf@WJdekH+-}z!@g0eV5#q$F-Q^oi-79z?*|Mt$i3xs!E6Bq}*6@QIZZ+1=ndohYx z2V1}M3(4!xJctUQ+h#d?&&}nEmoG|InHaVHItG*RUYlapMwCJ;OK1eYvg*%h zA@+d=8<h9_( zFd;r>GG8xl%}WO2yFJJT1BC0p`IO!3`Ifx!lpzt?W&ZV^4P9dqSZ?**cw0Z3M4H6| z5Lk3o+dhac6#LfZy~RKoV`|XKP?_#00P@+-JUjWcm(;Jf_tj-4Y~;%%Pu|}5_^jo> z*$3U;9`biRb04-rp~XVrF4p_EWc##vsA@hSat;`*h${gCcdb=$$wU}%Fz>NJ_<`y> zm$tND6@0{ebWmT>VW1U%!lpWizk?pvpn$qByzyEbQ$drp)DGIG^&)!weI{PSNf|G) z9iJtb-em1D*-JipTC&yqADv?Y7-6i600vfeWaeWN_5;DCECa}xc8KR1vMsL@^^^dm zNj74_O9#j+++9GU3kKlCcWUj-&A*fKLAb)Tt;=ta+Z(;DX6bSr^G+X|H?DU@SjiE> zBs_mrdChzv&bxZFR@(QdqOpJeV6-BEc<$0KCCpK$kw~tK5^&mCQueKxp1e)~@=bd; zf#)H(AI_zURPdE1J$%$thL+vA{1GCO4)9Jzd+|x6qDVgh@6#{u9dY2_)m|U0fQSu$ zk8Zbe-#?O5VN7zWAYFsK>$M#TxRDCNlIO3;{6_~Q2j5|Yv718zTCt@P;&EMbW#1j| zpiKuAVQncv4S(kQjVCG@0m!>kLQ5hmX3pD!x&4Q`v0%fOdDDM$=@77N0D|_5-NP9B;37$ zZVb+fuc?UZO*fccz5dw}c*PIK9s)mnYr}^K(E)-%a$SDtU5;%UezDdO`mVf}2_uJ( z#d|lvF9DRBKfs5UqS`;?H7h!Jc5J_enKCBk12w)#{$<*(l*J$4V9F zD~pwS_}o92E~)r<$Et9~74Rzs1^2<+ zgmBcO{5j5z)8*bPlX5^xYiu3 z5RVK+JqxFy0ad~Qpyvd`!N=tx;5ef^Yyo1>StAq;)3rY|@$oRw>f=9xD{OPre7T-> zY4?%!tn^t8wtJ< zThn^{W5BeO1F&*#L}<+$2-<>hG_NPMw2Yqk@NY1H_^u5+7(#)vOmc%WNk3NA`9&7}?DKRxp(?Y$ zIhmO1>SN2Kr)6C=LDu{f|{seBrAX%)HO`qFOhd12U zx>iO>$>8%d35$Wwp3Sf4YF`fCjE3z9E~_!@feUXUXVGD=?$O+mYA*01EIuO>-Fa+@ zB@)_r2tizZ0ZJU=pz1ixkHz~&d{7g;SjtYB>VH6z|1D_C?;SxB!ul$;QkbE23Rxei zxExyp56DFb%gz1JTnKs^ehJtaI2i{-A!yh;e2QeP$P^v@^`#&aK#~`6b^~ggl-VE? z&5rw8m+v5Ppr)zPV&hCmIq;9qG2$bef6bRM>}Q(9BjO&7rwo_}iit95`{MigB2yc) z)3GPcI3SOfAaFi~>{)@s?#sQF50!)cUdybaJ4M4%N9&f=KxT&)<20}Yv$S~hnRwN( z_dhHbF9}sVTAd0Z`-mkC;{}$pw0#)!c3voGGw5HeSRP$qIE1zir%za4M7!=SguzI4m>ac;}ssU z4e*nsbVhLkItE7P`{{4Ak}=@kebk-+dcU0G1O~W5%0a`@2~lWl2*C%PV$>R1!fMN%<|k` z*`2P-Nar7PZ_>aaOP_vO;CT3>aPWpR1rF{M@L481jUr%SNfjznFy>X^b6+Yag?>so zyk69h$K7nqxdC3*c*7JmdGmXW`_h#rgR=%!(Z@?LCfMeqYPOgIN>==P&x{EXUH>8h z*WpP!x4!r+Q*-n>t`3)(F|0tzhn9m1=?`nGP(+Bf`+2&xMF*Mt;D0&JW-uNKxPDfh z{O7z~ZObuQ*LR`-o${0`o|>JHcfknbD)`RBS=A;=OLetRNH;x3M0b$$ z3}eL?8hB`F~*>c@*>{z2W|s^v>p7dgZ6@r19seKMsy{ z+=Ttl%5{?5mjFRmY{$3ccsP5Joy0`|^{H6lds6C{>?3H&2k^o&Ekl zJ!kJ*mU0-*n(l_Z=Zsq9FbtOIiLZ2a=)CB;p+DB+pta}?Q<`B7?h_;kvnPNiG6a3Y z()cZliniPjR&RoFBzM-wm>4RQKG+Qxf@j}W^aM`olt2`vGGLmrU6zJ@r$WRJ(0+}6 z)}NGrzu|HxNw@kF#Y)Vk7B#7 z4*F7^s$P;~OL=amJTtr|)@Fy5M)|+7!dhDvTRgP$E@ETne6PWq}SYyjLZ)b+S>AI5)9t> z7;~WCoV>gDP4e&xHFRMJ{Z|M7u19p|XLopA(`DD!|HX)bL-WCRI;f$hb7pT~ECXV` zzy%~=XaFl__)X(z(mZ5h-rsNYR}8(APKkt6!&OmFh27u= z(GzG8GwtJdoslORn^bI!c@j9^cZq4NJGGv-O8xBfUOaeVRCRpGh(olR}w@aUI{6l<2#76Z`>ARNVU-R zY_mb!KphPp@xxCIaP^cS#@HRbFn*#`3AB+3j09Tj3RnSh>`e;kn8%QWDN6kFWtk8o z@86~dlf73OldBUncV)Wf>jQ+n(nTKpNmDePlhyoWpRGdq3m z(*H8KVDR+s{x+;uV<#|ofH);k!qmGy?`YnCdS9D7wbOQoF=iy&`fj(@1?xbM+vR)y&tx)o zBGwp(T3Efih@=Z+8-&XO<77W(-74}WUnQ$?ig4~XC|oTM{_a|zOp3fNTPpu_UBb;! z#B0mxXLmfhbKsU4M;Dptv8=!@Cd6xgg@2drEYAyL$yf%)g4>?ZVGsrx7dh6pCHQC3 zs~av)of?5m@O)7ousV`E^ZT2DMctG8zr(7{D@(~VR%+bkoX1?KL9!)uixyWVxYaoG z18{uamlLPx#de46eEd~*#0;@1A$DUCDdARh6yJH$uA4$u2XoaS{96v zas`m7F`?EYWk4Sh^386036E0@d}KCb8r#>qCv;SHyP>&u|Ba(qbM9Sl!53j0CHVnRX*dU!FeOqXX&ggHBj5Di?cB!2MKl_?Xq-I^8L849fKWv+(b@FPL{P-3!?| zKLdlG&>RcsOrFDLEM8f&dnyu2#-90ir-_(MFo02buX z{{s-g2VgZPN-NtvDKo!8DAlV@V)X-gOLNH|0rW5e$EiuMZ!hZknAjtwD9Sf!HWkvyEP zq`S;VRKNCCuF87F46ihoce4SDDuqey>xG>w0&4l9oxHW=4pP2ZU!XI3$v&R{68%*? zd*#apnoiNZ7KODF=a)!+_`}yr`a37>!P5aL*4`&OZRw`Zm;J`mO(k#@-LJGWx=3rU z+HK+{F8--%3K1o{&o}LV5ZyU_$A99V;R@|~APW@+IR8rs@afNt^{%^qMqC_3Jqy8s zFcYxCM?tzmF~It#N+t%=up$m}8FmB$VNe;pVL~=uf8usO*?X%@6(#l^8-hwI?KeXH z|;J9D9DJSdj2r+8U`5Ss5IcDXvj;QdiKH}K~B2= z4gOm)4%2x;7)tX`vi*rMpy4}!^3W{sy0W26K2>a*6WtSAOsD;(NO9_U|9F#aMu%#V zA=Rst#NI=t0y;alq+zT=QR!rmqTz1be3xx#hLzPp&4pY2tW=`^Ak>)|7jW<|>Z~dK z5~kF(_jh-Go#Hh!ZCfyFRq?5X_S8ih9`0u^^eCiX00JusJnX2{z zmRqn>>R%2#Vk6iQ8?y4|&h>PJzbyOp?98S%hLz|7s=sQSw)deXhcsZ2P})}6V-{j zkMi$dTXsu31`-9mzt+BANbJf`tF|vpK)6^Q?>DDm0byRF2)gRc>37M#UQxN%!3sOL zB@otAb)_AnmKE2<(<_9o(+5}IRb_2DMClkjBUvnut|N1d^5g->Z$d?zP5Dpk^*AlG z`O6pMuj7h~Yb(K=&sLb@6*f&R{u|%`YaWUeiVP9h)aU5|0j(*78#mHwDM%cgF&pvL z`#X^d=t;1AdIm@;)Yfi)ii1Q9o5-FtfB$P5#EF5iy!4fuZw{ zpTSSew5FM(>F8Q{bs3JQWYc|etv&B5C&YOFQZKCa7VYszx>?=ePZ2DZ(p?j8@PC2Da7aM6`2rx`Ot%6HsmI_q8%*x!c$Mcb*8kVCT6U%{YPFGibv!dr$`HF7CJ6K7BKJ)9|b2 zyWiph+ahWxqF%+8^d`5tI;Hs_~y-fE>ML%bG)9tO4$Aj#V5sW#}BA@5SsZSKX zun()HoS(2Dn{@QQEeYNE$(qHiU0lC(T; z$DA`X;8YpFyBV#R{9+dP-p^Eg-`fvwBj>hTLtafczyQLkwnq5@~Sa_G8n-9(82LAJW%PHhijQ6)RI?gNW_& z3aL;&6Gk5~GWJ;_VThlruK(3zCW{-7N{O`2WaEQ3>l$Rf!7#7EPPt_SDKz4M{7a+R z>a*~!65v5;fRogz-l(seNX#1q@zflMg8GOK5+M%PM-Q`Wx5Tq%?M z8~r>WSM9ho*c{DBA({Zdk>QrW^a+D7u5r1vi+XOe3aQ!ye&BY6I2$3ms=cw^zrhG$ z8wc`KFXe#HAuR|R3hYbaabpm4ng&4Q@zv#tvHbucspKbIosVMECQb0vOiimaRl@;s zb}_SOM;m9t?~oj(3$oJ(t5m^1Yq{18!>A1cA1qCRX_H?=&mF~YLwiRKB1JvtnqEQg ztzUf}sxX~ZD>cc=vcK@7E7uL;@M-?HbaE<1kyYatEVAF5{pY=DtezK}nn=%Oa&sQ# zionzHf>Q`sD%(d0$LMRfKQeqAui&tCwJfvCfoKO)W@U*qh1U&%lcX|aKt%R zoLo+EZWMdQO(7rs@{c-xsK2FI7r^h{hJoCSwAZAizN2?-81E!{%djx2>kdDtxiZn_3e0Q{c~j`RTuRtWq*| z$;aNjoerk3ioSBerY?7&<|R}1FL$jkR4?%Ku@QBWr?vFyr{#*?=NnA}uK0j2jXoaY z!?bsOEi2U4AZcKaHX|)5v#nsPgcOJJV*YyffmODc!Pc$Jm=ut)c*RDxOQ0KGbie2N zC-WJP{+W^Twbh2`9W~AU@w_ZudHNQii7D~GTOZHfal-^aro8-@UCGt0xf!|WjWr2c zKYHWM_v!pvXH`6%I?Pj<`8H|pY6qaWFA%OjOS#tEzIec%g1L%9=YeI*e;}ZG4%w9^ z(TGal8AUHiEN!F5O=#_AYjScPjQGw>? zg<5kK*aL@~E`*2KI&l2Yry5L;X={UmpwJ_=eJP5~kN&)=*5Rb9gp~Jmz5C zu9&s>CHmN~Da8Bm{g_Rg<8XQylj8V{VRVzzty_CvBpV?-n`OP=V&U3YI$j)lY`&V- zwxi&AXfw$QxM1qKKpUzf>y;T?-Q(?de#8dbKYK2+*{1bLj&5by;_dQA`o59Be~U7s zT6mS#R{vc=)&2BxZ_sBzQnTQ79Bd4k4|$~?vr+2G1+uEvz>rJS2}rvAx`e)y>pvS& za|_0(9~3STiNRK5UwunrfAAd4**<>OIT~hz-D0)|{0CieDA4A2W9T9Z8a(V@a8T2T zfNUx9)Y9ogI1;e5$r1ZEvDi(8FirH6G(55B9MBEY143urHn#@id2*-aWY2brkVhZE zjQFnfMC~}}++S-ZuC({^)NXr9eZbUT^SBw*d%R-1MxGd`z(K`({3uHT9l1oo?%m&e ze+dH^JQy7V2v(q72hZQ&63t2v1!mZgG&D#aw`sfeLHHHkhOaSb+XhQZ^3?`ajHi!B zk6^>mP`I1}Dl3J=Gr-*`$b2_gd+>z%w6C(|%wk|mx^UtCm;~!uUO+Xd25r&7l%;#1 z{=SA8`Kqs+?kj&;bU;Fc)b{UbcVDrdSiJtdvrC0w#DBYx6A zDQ3OgD*UoQvO9-1iV(Df{2KZ1^OPM>8?za+6G3fR1iF#}$4`TsT+=Q}*H9NF&Iz+S zgUyC(`xoDvZXUX7UT~i^bC?tiC}0mF4sgxBN1S!}bWC~Uv~nWwrW4tGbAjNFCC(wk z+qsI_iwc(53XvrC3`3!v4^4+}GvhO*W0te8$!5G?opr!Ne1>Q( zeJMU3I1=5$U3XrjCH*z9ss=-_l+iYQuczZEG`RZWA(7qQpXw(u&4XJN{Zr{+=}nFK zL8=UH5uK^WGfUe3|GE+tKWHEjlu&S{LlR@j(L)d8ZLkc8a|ICFa_0T+{JV~<%eIWq z$xd?9aEkVcSADQ)<`d^|SBioFpX-NHu>Ih?z^#=cWR0$eJcjjF2>Wr7%M5=|aJ#ZW zAQK9`!~-I)DeWUAmEpHLAq3xDfLJ#MZONy!Uv$ln)ZPOy&|_o^vNp37$cG>V*1DLZ5}Sf)Xl8?8hEypeiJ*F&n}*;Bq^a8V6Y)e9-{K3; zuoyg+PxA+vXQE7q`JSIk&wrl=ICq|s#~xV^pZa>=B^h5k4VQIhJXe}%@=G5$==@oF zv>^*nFUX)^zbx3s8FooRHC*N3vK)iMn{^X|)yDTl+4xeBp{%~dcPbG^k*IW0SrOE6 z?L_fIUDHu__phZ0=P;PG&F$sSff072!7%nKRgG@vFPdG*$+h7p{NLyO2-pr>NwnH*#18yd(RPXIWBn`>ZDI##*I#(+0d4iHVH4aMwdq^oaQW zli55I11{U*%WEIIUV<6i$44NwH?#2ZCEketVItHlb4~UY8skUR<<|N+5JB=vs7O0o zV^rka5?F_tV6_11V95WVF%>wDEDOp2?j#^QNlHyhOJ+sG_88!tSAdhmA#7pd_%7uJ ztXawIw5cSohS~7cyF7lnz#{MR?A!~t?kxAipnE+|Il&@x2b>-~{G}W4BOq9cTaXRq z%Cf!<>ogc`9VlBrx?)CBqm91`wd^;MTh(BDH%958~kVTl}p|SF~ z+}&7?@HHyaHV~Srfv8qRQPxH-^74yjklG)EN6-q3h_ZunXd+(xo7El;8$LK*1prkD z*baxG^baht&QQDahU=EOr%n$K^_x+Iy8fSzmfM#sG6a{cOcX@8<6uG;M5hJa_GaO_ z^>6?BfIdu@5c&*lg-a1Vnrk9M(Fn2Ftfvlf4=pG#Da~y9_a)A-4)o3k#-rV?h-g`? zqw9K`bH|i;EzqD;fCk#2a4W0aq=zhm-}eT8uF)EwH#IRHU!U`4Lb!kqs;0(}26hjF zF=!kJ=qcxfmZZGg(EjFl_V(2B5(4B#JjYg)MT%BjBSMQTYYkEx(}CD+Swm=<$CDjI zGa_@iKIG%=+U}^kt%|m&x>xAyqo%w$Y>H1sIE|UvD+kM4>aPsAv2WkX7aW^rC2OK@ z47U$n9m4KkNOByLw)KnOeh|v1IpqK0m8{6{1;Ex4-CGFFPhRJ!aVa4d#nr?SY=V*= z;l7lX@sltXV)$htWJot;um}Ubn~mraF)`ayVqY#pFA8(?8R7uPQ%!2r})7b z+jf6GZNCjbT5>S*LT}zDsF{p%z2&^x-@bC@UuQ%Vg;O^qRJ{{7WP0MeK<4sC{B zzPIqMBuvTcugz{B?xjb4J132R@+HU@U!A?jzdEal65F<9B9Se@3f(8K>;$TMp=D7i z#X+IAOC|cx3in=?a&(fwv_n&x%3q;77NF!wWFCQiMzu2O7@K}7#JXQM98QdOBxAo4 z0$ekmd?<%3eo9Lg0GsH-7+Gy|)TTXKVnQ;LoEYKGr<0GXUUPvN|IEjjJuu^6obW@Y z%|W5VcL28i;PjV#mqc%xN@vMHl*xn*7A~5gxVjCrXh0+!9)TvYyz{o(I|L&GaM<2; z3qvUYEHyJ!|Lnr&KkNDe>kUZAM`5hG)I~3>mAR8??VPur;Fq{h6blt~e*Y5W=C>9Olf%o-T6d-Ig%NbNY#@XJodoV;!A^+OE zu73XmZ?<^p<#iJH8v3rw_aX9#Y3u@0W&AZ(Fo8G;UbmE~gvTSh-%w8x3Fpr`@PZ)0^->uLTv4dUZ}%&*ZTR{v*TYlPJ z^z|Z5#EZ@Niyepvu?UBix8KQb`V8~Ci|KEI&VKu|duwm%tjuI}bKT4u*!zE}4o>cCeeKT*-u5l&W1&>c zpV&Qq?|x=c7)wZzj%XjHpBZE#n(=1=&E8fKf1ZoZgtf#v&WMva-a) zP~mBI6uUW*3lRhZtWeXN7wcvo308b7UZ=;5I*=dz7$;x`ke35nC~^?5sVVOH9WgPv z2Ndvt9?`n#gzaS$L4!HOeRyfYDZpx<`8#CgXH_;6$}c0h(fQ@`RJCa8CTkku0yyH= zjxc{RQ2IAwJu^v{vv)A8x+qLT79hT`5aKj5wGi>N8?Iy!kW=^yMJ&PM0mv@*M0Z{u zh^b<<(7k~as=qiW`XB~!l>Oc5ih!;Oq-Y_D&0kEOvG5b65Vi1}eM5UH)&Ek?+}7I|lGuc%WHqoRqd%W;H7344Vw9 z-MGL9Z0GfmLP@YVI`P)AC4PZO2EopP8b&V~y^4XyNN&yDc{6cHbjX#_zBvCxq7r;1 zhf*}%@me>5^GH2apRjlQS#k6k0 zYXiv5ZMw?vf7SvP23bO8mDf8Hi<%rT(GzN@WFG|stIlD5z?Vh!p8jzfxcoO|<=c_Q z7*i-pBXr><$%S!;QeJF|EH+IGG0$NLID5&812bV1(D5lxP>}pk-qR%;R(|D_`%^_O z{By45WF%q86lQ~P0I5fLyW|YG00T(dtbOQOa$oWKV zqQA_w_fCe=46dR5fj)g-A?(dgIV{WQHtZy6!N-`*?Z&tLD*I0s)T^F@%u6$mZ?5=q zp38LOl{5?XGbS{OW}^N!8TMG+T+t*N$Xj^3P!Lmiev(jM5~ce#chxmMI%@C8Z}Qvvu&@YuKi|6PR;T5mEMsgC7Y*Vvn7^({QVDo98=0|J{h5Shhv&#s zJRpz-4f3s>g++JI%t)Rb0FjHoo9pmZ4&x9IxQwAkc!)E?FhXg4AIMM>uyhPYA?p%? zi79q(dJcXDoL-n9q@W<<(@;$J|(6CXI6HM)_5`T3Bp zz7E$kIVGjWmYn`nzS33=H#S6SoYqq4=o2>MDre_US+j!zyW_8kQ>=?( z%3Ru)u2W??M_bMLbRC&L2uTZK6VTb}(A+Rs2??5iAE%S|;^?awHPMTQ6JJ+R}A z7d7?P{P@-iVJS~xZ^{Atj#<5QA{zoCIg7985eH6DHypOAEV8}d5j zrOWui$o~K;04~VYGAMMCsiL~c0A$dM6QuT|)8kotd8FB}rR_u@oc=qi9B(HUv9swp zl3{%)QzO^?^6!DfCnCs4Mv;IsgKigU%f~BRlL+K95P}R)+4?x=qsg6<%Anib<;^;` zA@D7bC{*pT}N1|~+7nxngJN#TEZPfT- zH%5g9g#WS#k~pncVI8X*O)k}}U2~we#NHol=wTBJu_>x^MJ9d~9!(f?n+%!`?N6`< zs3P81W|_^Ta_pi>Lj?NECtqZ`rM*cfsW2w_TiNu^r*g2a)*Oe5@|biQsZU@2@yIhV z59G_{t&xiEXbnOvtBL+RbzEJO*yh=i)peEwsvXp%ru)mC%k?$2x<@q~YHjj9tKgN7>N!Zw{A-<>U1CRBR zr@p50gWhIEF*sxEoe2jxG*-)&l-aci#uc4%U)EEKWxs7W0y1eR>U*Ev4MbB4J7RxXaWDd{a2zxPgpE!C~M8-c;);{~V>Ht zrGdpC{oa%@_&O>Ee*MUk@neV`Jh>o6NsCNOO%)JXPyR|$Vj6lCDmbCH&@7(?EDHdI zvk75$?Z7J6j8=gE`sO9Q5aq z<`;T03270AD+y~ZFr>WyUHjvo(+y384xnSk5e{x5F)2JhP23@eW`hl%+?ZVi+N{3& z^H7~YJ4Wnv!(J6;lVSbyQQh@4Ou93wE)8-?wNql?bxL!5!mmnUR?!MYEAfiAHi*`S zseaFo49a@)I`R)#+cw=x)X&8%B=7bW{-&aw)TD-rxR4j#e0;hV&Z8jAbdJ zjU?HO5r1lpCD^v#K25S=q2;`t`E5QsuhP+8pbs+Ok2Q{QNFWG3B#Kz$-z1JM@NycA zm>1p*ZQF$2JL7VmlV!4>M|^#wehadg5zaXnkv!g_<-pu6&T6UiH)STP(!625h3BF{ z=Ov4Gh^o8Ll+=sHII5PsF+yjNwSZ0?m81VXw*#i9%hHg7x1j}&suw|ymb8$2-QP_6 z=n>*AUZM$AW1?nY^YzvGSRFJJ6%lAare{7fr)yr#OoJY?`%cT6eMl8^_7ys&b;q8* z;!#w}5U8`A2p$mG1MPm}xBfkydS=!8HxCTP*4DnrH0C+}P>T#jzp)!GxR!?9ZIj`r z%AkuJr3_@c?7CxP&o;?^Y@y0eeL zC|$j4uO0;>i|Fz5RWL7BF%#z2^!ORZ}<`NTdwu%>b1pFz| zS`fxflXwMmEEU!9Qb{p+*JO3Y>iSdSGZrZZh7xoTAUzTfBE2A(q&XW9x3ZR}A?`U< zts9S#7xefPKgW}4LHWr4aly;TEL+O1S`}}3i-bAeqr&IBn?}2F)hBh2B`kWpr^jl< zL=Bprk*Ih8P_Gk&GOa-DYl}D}Rg(tFHj*xc9+z_53mtdP_$oT`7esNaX*iSXIESQO ze;#ea_jz=|3Twa%Z3cI`@$bHsD5EMO8ryK^;`XV{rCa@vh=nCeMv(K6aQDn&X+0cI zPrWWHy?7s#o<#c?y?~H8h^ZQB_lDGzE_;^H^F;IJckeym6d<@YH06Nd^@I|TA3C)N zd`JdMfwTFLH}n6Wdm}`nx%3U;OLVQ_!^j*DOL$*5{L{kO?88Uz6sPMofQoP@kGuY0 z!tt_72riI=_AM?DNUfB$nX0(a%wj%g=g z8X9u4wocnvElm4h%q}O)1sln8ur|ldI=+qm;Emfuh%A5K-iul>O(pAzXX{nD`)^+P z;M$Rslt_^_-&_Z8m8EN}OZPxM9(Le$QYe$ZVVAx?6)`cstSs_> z9%w_%nQYE1_Lk<#R=4?4+KykgUhpZJ~{fekWAk_JLh zU4Q9%fZ2hEdyH87mteHEIG{|q2}qT z*J!YGzO)$6`tiVcIq?f^G)De=bvuU9sz76+>wQMes`_FC8xM45pm!E@9YmL5qB~DQ zlNC@$h~^h|P^A~CWnK#r@v`V6c|P#{=T^I+`BT7w%^`w>>cs(mT)--=Ttpi35jbw_ z=r82ClRvu>@v5p%=*t%+%(|DmC9I?mcy%Iw!9qnBS-*ZAIeAXi*k9mv`ul1ztq5ED zQW@8Slh-@v86=C5COL}1<4Bcq-CDBuqxp(-YBgpbt-~CDfky2({*4XDn~n4VL*fG2 zQtiXGD3FNZK=M|4+8MnP@d}AR0GoxRD0uY2K^uf{>;CF-$)*j^g*=H-N5zjNUFoQ> zUudBH-2OO*6f$Z_A{JywF_P(4+)w7UqZ2$Zy?IlI4UuXdKuy zL_X%VtmlE&nD8SmQ^NI0ZQ8&_BcTnm@x~8QVK}(E>OvrBL*u057L_F&jaY z1Hz{jsvhzR1M3~f>%~Q&V-HQfGANnH=61E20`5{6T5uKFkS~n4ypllduCn8m((kNM zcrW*z<5=ua%6bH3_NTw>|2aOWNh79QwS+?B+zD=wnTTX6^M?}}@&WZbIN%RQR*yTv zGJ)5G#0|JeqJ1c!b})nw8^+0HaAut;qdDMmc=9|KQ7Y~<5Bi`@}JN)+mP@?#)hO^4*wjF3#X@!;Elrot&?-qqn7PXa z7oQDj?c%sPX>!Xp$H|Mv6tX>|)RrbnCVVGloDvM!f($=qMP;nN`QEpoIi-4>5xcNa zt?n&-o=jrcru1z0QQ<+L&W!aU6n@c2)~P4M2l+^q;VXrup#=I%+u`OP0KsHo*HybZ zbFQEk@u6qt_l!!&k3Nao4+$lnodDV337o9Y{X_~yadhde`Inq|$kWUTh;%^fq-wPV zOH$^o?e|E7AYc1C93Ua#H&Klp*cd(Y0e%IW3N#5JspMeK3uGdR2)I+)`Qc0iC>YGw}pcW`S&@RpS;kzY^EAm##-xdR|9V_b;$YCeF+s7ccXaNWqk7XApp~2@^s zuR$>$ZK3&OC(K2D7*JX*|6E~jAC{d$gbe7nh!b#k0N(2v8%j*MbZdfB35}-2lnm8_ zcOUnH&=En&SYK$!P=o;cQR&GU&2Bm&E$)uPbzBYaeXU}-mLe-_P)D$~EJ{w$%0tlQ z)5%{JJZZ8lZXbKXIXtKMAdm#&@z({!saG!Hv@G*W5-Np5(rQaP_o9+Rx@z~OEpgP3 z+|mmPKY+XD1h0HUpU?jTA_6@KQqCYM5G@TmP)&{9@F7Zvwqd5t!x#at8Q7}%p(l0K zdkRbH8DJL!0iJ4!0h_v)Qm$5r0Hr75jK$qi#tE$pOh-PA_h0E2d`U&JRadl6-}_D@ zWbUf;I-*w5az!xIM_KGR}Y z=C$WWdb49Iks#5XD#6M;pWOrwZ(Z#s&o&h{(esrF^Y;1uyUsLFT*YPJw9{4E2nr*; zj?NCtt1h^`g=AKi5;0Qh#Ae6LVxWS%teZvs|fz?3BCnva5c96iPl_w(c zBT-hS9mC9oAb!E5n5yL3W@m`w>T$3t09Ybou{8`8Hf%DsaFE$)W-Tn5 zEc&vNYC^OaBK-GPeP*L-qz_vliapCDJ2H{)vl1Orl6OfyF@vAEynTYXpzD0~hgnW1-UdSU+iD3XR%ezh@8VII4 z)>Z|T8Kxso#G&9=w!AH?N)TgXFcp+md<>}Ec=Qzz6&nW_*=W315J+cOS!E%C$C>Ys zS>Ij;6#JHx$cmNSWQ8LsXmf?vMttg!3A zJL&N}d)ahsPd1h$cD26mY(gCu5~Nc?;oFbl>5R(0iu~Xmw{IdVvN>KoqfkYUJG>_b zgt|0@1YEgxQATRs?_ z2JOqeK_8AKsn-?wn=GS}JYue;{BL~+(pJ^!sn4w*>Kc4*bxa2f1?5rGmdPJgcPr)+&{9B z=Th0!;x6egy%OTT*rfRn#d+%5m1bn{WPYoUTYEn9@~G5im~?a@u~0<9*3cHF+i1xN| zus7BQ@d9N8@|lOUNwaOw?1LdP*6 z7rAQpgXgW^cw>mQ>yvM1JMixL4WJ0Q89)8MBViVTPs*({-H*TZ$pkF0`5M^~M&Ac&YqA`VjtgL6DQ9s-}~nIveI zK8Nb2ViI3bpgRfqrfTtBy9wy)1&RU~(n?k`D2utQJBYF1f%dRf=qOH-Dg)W2i)*&z#&k%7pio0`7Uf&_w zfzf9TRh|Ejr}GY{`v3p`IYufoqf#=8BU#5evRBEtHRK_u~qRb=C%a#!h z3Rzj9ke97wlTGHa=kMwL`Ch;OI@c8!$MZa2k8!`>?hpKP{PwcB^8?RchuE8#WHoNG zk<5_ES~pk4dR%u)d9gu>*cJh<#^yT1q*n~x38zJv-d>*0D8o-7M~>g@Y`lBM4g|DZ zvP8ve`7As}yP4O+=HBMM7DwMA7}Ye3zao@#`l z4Bp;7vt|~<$^<5%l1BNA^&J%VVJiG-fM4BpPXS`!n04NOFgLL_EPHy^5k3V`FVlW| zZIeSwWA2HmIO?1gN>4 zYfeS@A#fD-#&9(XbbG>6%}yyLo#`*{-6U(B;nF1x^MI^fYicYg_}$eCStxmd|I3>K zaY0~!?uGN1-3#`dV~~q7v>mV11MDFuV38Ub^!MqnQ!~va&B{X( zzY?vqKu-yX!B8~ao5M&_E>gmu;L;Lo%cs+SK2aoJz-~^ z-K?}>JbZ0Toq5zX&}o<-+8(-wtK|zJPnbN_$G*n{N^mO(wyKW9vFRHkP!0NQ>xFi{ zMOYnbe48Mo1>i`@0LkbuWkU=!_Z|=p8Q2If1^}E3@Py?Qz`!!ypL-Gze{qN|7-6^z zKKquyiSwY?MR_uF%XR20pBs{83oR(WH z#`;4hyODY!o8#)agn$1kdUurWX}x0~)%R(eL-kl6GKeE3kkUvot;b4X%jX`Qmkv2+ zd$V)ezsLH5NC=5)LE^@v)P>INHw)<72dujBovs%Lks2i#i~JUB zew)*4`w!GPXRNrm9!$n)1w4y)QxNa2yTK?)d&7QKD&Y0SA!nq?aRFe1EbV#5n0(lU zCZ&-8@4VL{9W>2#kES?uZQ2rH6E4`NZL~`XOUVc%KW@flgLTza5U`D(#iK^w)V3gW z(1|WcO#No6I|9`1Efx@Y+Aga&jf)2qRY)0nI zPv(S6j!wU!ja-Vvjb9p)q{@jYQ~G!}+0VfDUhKY~7%fu=>$KaM4d%;hU$|rhht*}w zLM@qOrpEn2cp@>J%Vuy!3*+{Z=0(u_D-~^IqRG7$@V2GI=MgWz;vq2kZ!=E6lTWa@ zNstP$B%Em0o<9}c>_SO0J+t0lvEBEl*incCWm@Kh#9U;&GM=8@bG7&t9kiThfg&;> z3BPrJ<0$S)Y{uYM&a;Z;T?-ok@mvJZC=vMr$PAdVo*y1sguC*DB42pg@h;jhJ?n1A zv2-TQx0OXhqkS*OG#UR>M~+{dgo!by|J zFG|erNh<9YP1|`yDFVHUVXb)x>od-}pXi8k+veTqwM-q;;n#0w+e;F99;Nm3EtH*# zdlQu>)|Dy;30aWh$S@b40UPs!VXg;kStW?(?UImCEtrj6|4#!WZ3=vgZ2mDB*0_s? z3K7vIfGgT(O@9@M$pF9G*GGrHR}^f)^UG4b9yjmo+qq6zi%VcmE8&N{by zqg&4v7_b9i!Dg|VW>WwA7n)+@?ct;i$V_#lbA*b?H-S+0Q@WhJgN`^flBH^DjvuJr zsG5SnsI{KCTqwWMvbrhen*2DEPA2Te6yd${f1)ScIRZBVCn(}40ED8tvM?7L zf}^u^u`4|ZWrCy+FOq>om!u?ts zNK~C~XcOHp$n|Boc}ruj>Md+6<8)W#+4P>>V2T#M5)v50IhfM2E!s{s$OIN3g`=foPx$#JT`4x1D0Z3kFs; zg^x4NS3mzpRMel9VPTf;RWW2uTzoc1IUykP8#I8r{wP!J!DzSSafN?_)MTGU?{KQp z%e8ynn!eoh>}LvQs+ag7A!`*L1LoP6=L}rHnB=S_6)(N08iORQeXR1^gEL<_ep5_R z2A0KxF7Hglz0vFcjCMP2YamaMo9=^wwy})?ThDA|iswwsbCN1WV8`u1+G(5&msMG%l6;lLgW z#9GKXBQCxy*nm4JrX;`5jV<~BxXwhNx@}=<^5NEB-+~s`O>0lwfstCIw9^_m=SYzD zLW`aKk-zcT;$7M*;AM0xjao;;?9t8oY$^cbCHn&0YSl^SYqgIhq?RcHg9V7AyU#1$ zfQ0dvIURXQ%`P)yKQDo0p0utMZr44bTi-ts@%o&F`ruKyqbGr6L1ZU@3K!p5PWz0r z=^Ok-mLL0oyS66`$ITttV969#8$T-(y{X5_E7ZGbn!+W-yQ20o14S(O;WoDA8SL&@ ztHU?K(DnJZis2c%KJdVw+$2z0gg@&$5Jdu1git-sYd_mtSFl78ND1h$dECgv zXQ`+!mQs|Bv472Q919jC={^GsukyPyC6W8QkX}Q5H4ZRY+GG9{laQcG`-VNaqEOfynzJWjb}PX-#8B}MPJL7e=`0ssEO2fCmJ0Lt3?(8Dt%|`16FwN zq{ewuc^`7vJPVk<8DYS1N!O?r$AA_0o#>g=>1;JHQ(x_36xy8hN7c94Sx#9tSB{8( zDnJ;Y{z(vEW&!zIM>zTB!o2oR;OEIrGyCqx+|lwjAp(?HD<6)u7$@)lxdqmamiDr> z;Ld$N1S%I^f9O{M?Z$?^^;wIDb>|)z^8se$DEmX3UZy;P<{GAVw^*&P=H_3NZ+n-0HKV!e2UXg=s8z0@MD$gqNCC{P`y zXCLo9zmpXodL^svmVmO>yqrA@z za6TspCts}18&ip8n}g({oF~V315jFoH-O=uK3Wf3f#QjV%-0czCxlgLRKLJaWwx!KbY6YV2}-6%3245@vSh*rQUvWrO9hZP9m>31NAzGa2x?*?gz%D*mE6r@YEX0yKC06^ z=~M4BrAF2=K=|lX9X^Lnl)8M9g>bsg1^^z6O#T-@{Tc*N+gYOCyTbb2ZG_=T2(Gb# z;5EJ+w*Dkd+biV0^!cAR*bpfXsnYePO4cIwu+%z;mIge^L5}QsjBNCQyt!6h$f`v! zW~9D3(ydkBlHU5IV4`J;o>+a5D`i^_r+qQv#}YyP3skb4`hR&M1htL`KYH_mIqR8q zd2s(G(E7Lth5O@V`emWMVxjMja%WZ&?{qOwcONg{Xf9l9-Wa3rLiY$bj&79b5w4_{1%MmELKXQhi|Jv7nbbss!({g#*I2h3V^ydm zwHRc94;X~GeswqfW0xqE&p7bqKf%Iej~E+b%qImT`dB%g#~`D%%}>_iWpl%f+6L&R zY)WfyCIKx6R(1Joh4}ya42E3*h?OIs@aI&*vbl88k@sI3j5g*owO@h4pp}@)2{f2F zojNi4F9idOJkh<+Af2ZO>cuWcD&eEXMBk*hPYXQVOw&s8`p*VcOagddZ_%rEw;zv> z`%C08im|Zf&o6TZJA5l9QSoKS$~3aL$xVy5xHE;SwjJinG0jQE*k5=jly*mJpmVpg zi>N=eH*cC@bwg7V~B3ur@~7QW3zsF3MFBhKq|JZ-BUwHN1X> zZIsokquhxGh1y#C|cGB@Wclxl!k8Nk{k%Cl5G!?Z!<$ zMjH+$)cyo0W+ZOp?FE7v9t|L{z771?dvOIFQb?tbq0R79ALro+^}WuV!}6d&<2wjM_(_5~r7dzVA@hihfR&KJD% z;sPU>rZ$62qruZ8cu&2T5AjySl0fsQ3)E^QciuVo+=uwF!ju5$8U|~Q5e}uL#BilQ z7C8HmX_?GdOT*9cbl)XQqIV{QjctMWcE_`BrLzT8M4`}z5tRFYTs~$o1t4N4?yDTZ z`)KgjIctG2GXIXwJ{?g##>EMFw}dkYneNHU7L7YX*?JZx>FiW>jkF02eK70Nxx(Af zQ0MS{$z%;1ZN4tv$}!|)&M4OUh14_l^3;a&h^qa{Zb?O!!+8tf@sTYP@hiC4D2pSc zepUq+aZE9(od$#nvS<;ej2XnfhX$Z5P}?HtB06%|jj8-{yG4LH!U{p2798MzV6_P- zr1mXfZeJ|jP6S>}0c<9S6kU6aA^8Bu80FoK-rHFikRzy(2EsyqCSQg6BEW;Ew(EE1 zyjr?IN>bsY`HZ8aOk4WW*^NtK+L~|0m##lk_Dxx|wgUV0_YVg#`(m2cu9G4aQ|`pL z3AaH49dA-5lk#&)|=^JER8Ld>zjkQ z+S|kJ$FWbj!E^N~$i1UI0*=z5`LfV_J)7pO0#IJYtA-U<55=c8GM zcZl;i-ZCQWQKT!KdbCf@>^hqUXJNPr>fcc6XYS{gL!dvuOYSqs)c?D2{vW9Xso8g5 zGzv#h&$1-sTlYU;)TJ|T*%VglK8mE)0yfRP{cx^n0Dl3Z$sQKN8w=1kxGKkPscX8& z>5?WsTtkI$_ozYTI-x^7ASlt2C%j+aT8e@B=x+1OYNQdw(+x>adJO@IjcitJ*j0MHH{KLRi8NQ6L^;>=^ zjc5wtxP%&K9sGCP)NRYQ<)88&NsXu{xRt!XcwbESHVldg7=gM36w;#KFI_*+4n&ts zgt-&`l9h2gm(fB>_KKowdi2;`jJ^*lv|r%SZuD zqo?Nwzs`qI+E6wBxLl!@dAt-b8z7SYmQDE-SZx2<%Z0_EW<+7lKW!ZgtbuDiUB4 zx0_*6I;`{*6*jQKtrlK4Zr7!{;Q`kvJ79{6GGfWq3LwA;*Y#^w!1-QkYgtc0ruDWB zhwKy|eB+7}nBVqhDjJJ{oycqj8UxJ=)06w?;D%4DM7Qn|CVdcnguu%I(_0td-aZWh z)G`L~(s%Wsz2*w#%W?ueO`%8=JK0mE->wArda2lrv!*DkJRt@#jzebwQ z+H(y5lGEh;ZHP)#Tppgt7Q6DQH7pj20{UHE@CR1G>74>MN)U9-m6woqxr>`0yP29e zKO{J1KOI(%%*EHvW@GpmuQHqIFk%n?d}2dvBd|<2j}kMh_-8%zc|xG(4xRXMK?H#B z@eRT>gm-w9Q$LLiFELEZS0*A)%~8{C4nI{4@*uC+Fr_UdW=?y%>-I^4h@E4QGbKPT z367JRHJ|H^=X#&@FjQioh7$f2inf$`dHUdv3ICxSQw{x{V_S;RP1Zn^f9hTI^5nT? z)-Y{=(z`g;|B%P})N|Z3K%G5JHZsd_pfkOM5Ib*v^Q48bvtL2%Jspbo_u}90bE?#& z!?L!)aAdFtoF?A|0EPf6OI2;aPNkB#TFdUjIeqcNA;_t3JBFpTRiAHVllk43(|+9_ z?gQ@KAS=Klv31D|U-)0K*jo!tTK~PPJenZ0KlIesD z;625RO#$y_x5wpPmm;Wp71s>&lk@sRQHVs4F#I!HlOSgu2h-fAv1J%~t^ugOX(C@! z#wvc9kv4PyssMcMEraV}Bz6G^avweAZpLkV0OLmu5}puB^WrEuTLlzZG$=vAJBhAW zXbYB#nEx!P7dj_Bq2VoFH&;a@POR+*K)XaU!bt+f!RE=kms`X;l~QXo}zR zShuy&;-@`&p(Z=pvdcCkV(9vbU47?ve z2RIkqztJU#Eog6DIMC)c@U5c!F^N$}VbuVMr{McJ5O0#^-Y$S8qVtX(t7Yq*$1K8k zUe>?yOiaQ{Q93~aV=GXvN@g@FieC7*jpG63wZi`;MBR z9t&An5CG8ZV`)!;z>c!;y)x09rU=Eh&zK?2O14jnX>Z-w)0L7pwLG+b`LUR%N6&>) zGI6$ttM^G?V-@5ku_vNg_1(T&0=r;B7?2UV3LJ%TqJ}<@uX+&B2=P8Wi zr#!}r%Ef#w?|Vi}WK$>HJ!ebxjJDq<=@)OtOMNq>?=72wX4za?j z!e%$8IZvBG;7s%hkT|4NfS-~g+L>ok7+7;Mb@N8G^2aA3nL$Zv~;nM-8l$C4~^ z-fIMLZsqN79iJ^{QXcvAwVV7%3LxhR3=Qlj;D49No)W+sAucxKeZ2)?w%7wqvnYqN z#vzW&`rx=(Mtk14UghNz%Sr&b+$(6T32=7D&kUaPQx+wH_9;0bw(eC^AQa3A?r^fA z+}jEb9k+k})`@sP$?b66o&;P!> zT|w+xQgFHVc9W;%L3*=loAbYhCz)-u2Y(%62%i=Wo)-A21w5>b_0Oh_=w!DB&Ge;U zJHEG$R=3W_LgG(_MF5P58$6PgdKxgmo>*g81nDKiKBvIpI0f3Y?cE>wo+=f3RQF$L zgRWNG^sDA?Fp2(kD=hL(z%Xc-ssBe#xNw99GwhG~8+7R#Kw^0<;jGXgcT*0s%V_1Y zoSIiP^m>imKJzta*|oiAm^-+`Aj=7ZNY#c!6j_K3K|GIz_d>y{C@<9xB&%Cy zKPYkJ>!1museKg~=bN-h39g>C1cvYKI_-H&MWv%~NrfCraeE#v3G9b>cD#QBFzMcA zP|bPc;k8sq)*C}AzDv&rx!jA=0gI;A*1nl6K>0a>U^k6eaKSK78s@_UKgdRLJN*S{ zyFMwR={{D=CZiy&-r)OSFv}pmQi&^;%}|bo`PXfS9)&={WT9nDA+C-_#UCn8R>NRZ zVt+GcSeJ2`hF;4Hgn+aVBv8gMTq`YtK+AJ7Vl<1uJ5KeWA_fR0&USYWDL@qgzKyolB-dN`cX3!Q-3HI%VloQ)E|t zT=oIl>LEGLFg}wt;hdy;x)sj+9Amb)X_5+TlRxtN!Bjalp!FAQy!&wGcB8LNFvK7- z&Wp<1!i&qnd#xEl$|HKrSb?Jt@y(SxD`b90$O+b07=RD zYt$#EUp!0PiM`u}o{#mjHe)lHQzV-~KmtT__2m%9ViL&jB;&`g64AuB^y9^7%48Or z(i$UFJ1B?ozInmNtVi}MJ_a^K~= zm(|V`xO-WhY)lQUkD5mTJ zrMRDi5Uq|!%{aMst_Cgu!MQJM!8v43^^Q7~_R@!*r~BEyNZIJ-#=-5vy{jjgv2+YQ zyxmj{mgv0yvUbA|-C+YJiq95Nd!MY$I;xjVTF=n6J|aPSB9%17?EZP*P;<|8Q6bBZ zS0@)@@+zC4_n`0Q>S>@z&Uz>$ZNCCx*t~>`weEkV?$K2O?MlK9sVcLaA5<8{uKFZ} zkuN871{vOD=@2e@N&%)Ng3SO;xu7!T8=*+T=RA+E2GW(&&x~sFK0pp~QBF)|Ne@_k zl)S8oBcA$xR!&SKA=UbM#GeOI!@)=Y;I7WBS$aB^I9FN~u5EL`5SiqMTgULYm6}CV z!$gs%5h=)loGXu&`irMNeTsZyI$a!33C`pGjeIc5a3@9l?zuT*Iu_Qn+x{&s{@PqT zJOs=rza1GQ6II6pDWf0>T)r@1$4y0p^CaqKxcA5jDTu_##%Qhc9)*p~gY}a5sl%A zTM7abTKkj5w^?5R&or=jl{~S}@``SnSQ9{?hQ$94>sHd0X+>I=HD(Y0YsO6@US9)* zYy<87{?I9#0$WSMbjP0O>#H!%zPoE4c|Ux&umI5Z`Ycff37Df+J0pSfVYtiN6{xwMjGQ4wysWGwO6J#SOAdRcp{22pmpb^R&yX9R|PBx_!Z}zMbF?g))P;_?$)fJu|LP(RCs< z89Sku4EJTGfq>`>Fc2EG&gQJNCux7xaZW4zK!TX1NR~Nf8@pxy<*_|pHsA`^JL>cW zJcYWz32x))-w;fK|KYY_I8gyxBn>#tCDLsk00FrSBt;@s!+Jr`FXK_TcO$Qf zbZl&_3k;U-vD*cX{FaIc_VTx7`e%KG@kC1G@W|&GXN_LU{U_CzX?GvoTDUE4;rZRf zO@1wvM=t6T@ZaZW&RB0Jn8wYG4*Fc#yl+0!(mj1MiiYR+8M(&KOv!2E#sWfg%xbUA&vH5s}s`zWn;-$PC_Fb7d9hmHID4M*rK__kB1A%9^9@dT$wC}K}ww>Kr+b6 zo5E(01rk@Dq0po@8wNq3VN`$k# z%dINJ*RG*_l$rs3hvkdfn1F1LEPuII4zQ%gR%hw$tb0*iA#Pe{Og%z(>mqt;K9Iku z37{aO$SnmDFtfjLT3rS>S-~n zRi-|9=Gs1Rig=58=3dM5hRc;bj&>aMqTq3-eJVD=Kkn}-+dPG?Cx0G-*$J3=F_-<# zyx?}Z2vQ#Y{HZG&O>1_Hg>>8NbixsYKuIcLAc|yzJ(DivLRtP&F6x^M{Cmd;;gY#M zRMG6{JWFc;qHr|Oz_=NZJ;VFpnBsrF=&RC6tG8*gr1Nw~5^Yr6Zq8*%xE$wJLV zzm$Ma7y75h9(-jubD`>`Si9*Wk?W`L*wZZP(!|RC+UszcG8TCQW4C7Ugw_vt&rc-}9|2s}U4dUW1oA4E z_>`yf>?3n}x%Hgj{M5gSmVx?`ao>BFyHb62xxKRzy1_ws8}6W3ajWk1^fU&}mm=4NQ^w97vPY zp0aU^;zP9)7Qs`ml7TnpJw@&)mWD~r-bE<(NkA-LGM7^~vHqtN#F-;bj6M;C!oCfJ zhUn#!%7dY42JF=`_UJG-5?{_*o(%y|P~7!N0{Wz1U)r18n{mEkmr_FCu5ofck|v}b zH7*#>FpzN>dN`#}h`W;lJ8&zJ(0=xYskG9%nTX97&0Wp=B2A|NM2M6q2B zs62CPpi=~}ORf{x(G6VL9Bv+4 zO0gZ4it&8YGWoZ1XV0vi=(th!JP1V$C>>oT59Xjb&xW_FBI1mDax$`eXcs@X8zC|? z=Pcz6glVFTE}s<71dlK8zZK&KWAE4GjfJ1eK-(#E{<=q?L;E^__yTCTP8(Za>0SZ* z_xVuTx{lY7v>Uh&9{1{cGW$a#GewN`Eukc6mM_QuXPHz$e1)iSL6^;qz)0;DpA;EL zmH|slKcV&2wggX*BbR?`&xxpmTW^L6QtjMILJ+#1AOyiz`$M;0$O^-8PdxRs_Y+Ts z8%Gv@eJrxY`kcn|R;jA@cEQS@;RJy+$lkm{<4!N)T(I3#<-^7sS-NlCWd5DMHoljTz zh?_;tup&H|Ky3b6S=S&ZJliG5o2%I`diG0wo%OS_+NMJj*~_!>Y($ECr^U+7v480f{yY)EWZT_ye!A{bK#MF^2Wpe&y=#n4>re!-{P+!83UG3*P9^-PcuUxdS zKe2+PZ?|L<9`EaJyB5|2uD{%fPKy8@1_eXX{7HgY@y=9bXOV7;gCLfpcMBe(ykO0DrjiwY$x)dqvj ztF%CIdstXbDc0lswW^h(DZ4scEQUU&WUcAjn_cG#Ocr2YbLGW9>`^8#S?N;d!m$m2 zy3_4!^ekwd<9I97s~`6>i#ZAk5-^Bs>;0Wgn|2rq{HdN)yf9%no!)SZnp(}*DDJ>o z5Q+7`bcd2JIvu9W%|VbhDAL1SH~gkn;@nro=_T3^**s~)iRqpzUv&r%WwG#wWg3;k zk)_647|NmSHRIJ-Hqx?Ris|Qrd!GCs#!IbZcFPYR5A?DjtfAJujn6vsRcT4^+G{XN z2h1XRM@lf)b+5TE)bR{xtr+@I6E?!%&$PiKZSb#}C=kCLQ}SWo5s5NsSdaxvaI&oR zeY=624>e^G^Y{FcX4mKcQ104(^-4Q9K<+l!@Gn%`-2UH7dS|P&nBv{)`)upjvtCLI zKe3VtWcC*ceqFnN#yU^%e1l#brH2zB6 zG#kc{w9w*$Ng(Ifov+6+DEH>!-s3S8y4#Hn7Q+14Gqs=;s9^Hh9PoT``dFbMBbPJ`5tB+pK1JKF-txm`SO<~At7Hpf+H4sQpY2YjHXSX9CqUG z9I@7HBI0H9EX&GiNvG}Yk3&4QJ&yhff2OS;2w->Lqpqj`hs7-nNx*SA z8N^pR$h9LRW-I^V2{dReDoKe35I^rt-i{L8wW>^6ojZ(vlza(SQtttuTWoM_J9M+` z4RF5whi-Nxx4RmkbY90o7u+byf(#g-y`1y&C9|f633YT)LoCe73HTiEyL<$!IUu4x zh=YCN@F3WP zm!q-A$T7JeJyhmt1Q99s5}rcp}xK#eA8F?VCX_+5JEhqL%bOl-jO#grTeGZ56~YubvT1_J;nQu z*z~1Y#hq%V++t%4TNn-qW&)vnMxyXH*qf3WX*s#T&GQv zPGh|!kKs3f1ijN>>HfurrfmFh*Q^=j$+`#`JVTO$#Ja;`@3cAf%RI$Ycf1-a~kfVR%%`0X(eysDsX2akfGXbM4@!hYHZNJtg z$Z`geR1*{ZbFY9ljX4v2Kknj!GEXCboy7d~k=ZTvRFNZb<>6M+ZL3a%yfr_#Hou<+ zogQ9^zA~Iss%Mmndpl+LnQ)-2VKe3Dn+zQ)?`?JM&9C+Ejr6_V?v>s9vBx88KswZT zz8m}G8KLvZq3D2Op!o_Wq&UG#)tC4z#jZf{CZR1DYPL=q^l@;KbB6EiG7??(b)*Bd z+X!Y!X)x}xAUTY0B3oGuZgqASi`{}C2C->yTLwd~my*}MG~*I};B7T4+-Egj^gmC% zldjW6!Xtg(N=%Llo|9-U%DgELh{`jo`ERR*1>fr8(a zr|yTiTzWxaSvPQokMt+(EVJ5yH${i&kfWlj9{?Niw-^}B@A4jdL9g)sd9A@0Y~^h# zANCgz4QZAeNF{-(-dBYDv+;bz-MF(Ru9$8*=-(u`VWOm$;Nq=5&{iBvoWx_WROA@> zPht4JW8hCOMtpW68;M(>0MVmGFrHxbEGrgzd#ZBnTF#OjR1Uh6G6g3FQ9Lg&;eG?R z2jxlP=*6OYy5~ zlONm zK53^2U9H9o#K*oELt()qe?{Y8!4UE}v$p5BY5j!`g^yI&%oG0TB+u7eMbH3e>v&ww zdQ|qG?1O7Qw3fN%P#=Iwcr2z)V3A@H@`bt} zjn3D(e{A|x6J8H>R16`YU*e!;HZD10CPY0l=w=cuND|u%+I!Q?^8DLWvwbtp=Lb?< zUA6GL&5ij_R?mvJ@@Wy5tA)$=>3xEVbZ--{Dt1aCq&%~bN;O+&f23LM$jp~)ef_9o zo7yGoH5`KIkjjdu%@i>Lz`hwpj_vq{4oP0mDCe7}%4mw+TU=CHXlk?0Kk;Nou#$7z z!Ik3=eJoO^k>Eo@%bI7h-b)4IYWZahMz%rzQhZ8BsX7K!sd$jBbWwGI&mwPk?6k!X zvE622sIN*G^NC%+AFSWP*2DKITW7of&R4Bj2SXyp%=#q3{5KRd0C)nx%aZ`8-k`S* zXKaRo%EiUgJ3c2qRhXpE6HRxxX@RheBTD1G#??uW$qF!(XWiu)YOGeP+6f$vtLawb zIhfY@_m!2^$pvv~#WOaoo}v1((q+|eTKs~2)TUcM)+T*$=A&m?@}CZzRdWiKGo6_> zp}Cc{Kka^9n#f3TyD#`HrL1-PVrRQj#8>xQDg8iR_-aFKm@_bzdFHw@I@@W4T`Slr zN;xaP-*olAvUQmmJwklfyaOZA6lkwz* z^7yPyXMc?PA66~9r)QM2f|;+xV^oqb@mtsXoQXrf)(XJZtb+s3wj zIm2}K=U>OCo;&~-k>^;Af&Yo5!9IGuw8{YTo5z=}Su0h=KA;qK`VJ=y$r;>&Sbepjs>d zeHTJtGzt+~-V7@MhuX5`pJyQ44T+mKMc_`U5bQB-Mr6-X3l!IMd~m!=vd!m1{c1)_ zbK|b50=iMbYQA5*{dC&>gG%QGKRc^D%NL@LzU_}{6Wo;j(P(hNVdykc$91oM(9Vqo zsh)*m^M4$3-NK-Mv?BlLn6sCIkNoM&pf`yyOfgFmKNjBRq1aQZ3But^j+<5Z@>r-Z z8))_axpUM^03WXfem5xpQUFLIdlvU+w9smPErpnZN2Mmn(qr362rO0N1OgN?T4aQ< zIC&Pd(}0EMcj5Rb2!;9#a9SDTCH!#K?kz^_ZfTZ8?c_hS+sAKJ>tY|j=HXF@oYx8P zzXp(g9&2KmlRrLK@7gJVZ2`TI>2A0C!yNLclWSTO_kRS;0^Hy6=hG^bm2l;H_iITn z4x*~40Zr4&!$o^!o(sW$RekfOm(d)vZbdaMce33EWnt8+!D zsTilJiHW|1ggX=D)}x`w9Hot$#)!k6pwwzhfmF8=?S`un}?PJS#Xope4k z`k$qu#7sZKqZ8HT=t3_<>M(FP?R2suh?~}SRl*dQ%zR!vjHevuebc7W`R#j?v^b)b zx$P+`p$s_u_cCw97N;cL@=PozWzXiAS=)=9=+O^HG>;a3EWH3_qrz6n zB;hRDH?IfowO3r#`MH=G0|x)4K)NIkqPS&8r|D0oM+52pO@jJQYC;8`Fz)@mhk0i2 zjo0S!>C>^~(-xSHEU(K@xg1Qx?^gfw{S^-&d()B+cgPSG&vv{QpS^UyJRXEac=Q86 zXRk-C+DeG)cAvroFG^L%nD8lV|100LkFHR9p0@j|=Ix?Lu90<#SB$D{NUruR+1JSB zTn;MIf6=G2Rjl9}C6$_mcOi0^#k1RvaQj0wwnNdUsc^sI5pfg7wpMuuwu&k^vo`Ug z4Hm62IKg2V1b|SULsPWo2Nk5+{~$#LZvpaN(WX3*ZOaf-9j`!nV@H61^tH*&`SrUY zkn&rCi$?F_V+_<+quP%-mS8;F3{P4T^3H(9nR9wAJCF<-M|)D}Slw5kLgnn*IgcY4 zoKNkQOJA3Pv_?c_A)|lR&!N>SU$0(iHo3H%l=<}_4elErrBz}nX@9+ACY*2SD``CQ zV?NK2e5o@B3Vz zywpd?ojFht80b+eRlYad`}U>Ch*HT#6(b%WdVZ{EZBO+R45|7o9SK^qTobGnAo8m5 z8qTeKKmLi*dZ)g!s!bW1rPet<%DSM52f^xV$S~HOuWvNZCp+gx!^w0Yc>4cL=!gIc z7n*7P4*$T)zzqPAtgZKqJn{4_T1>b!0+NbxVq@WSH9vhnL^8wocdPudL_I)kT#<;E z3pa~rHnyJ>e*&U`u4EYuyc?8A)4uR-I>A+O4~Jok5O8HyB`$y6#b4OcUZo z8rYdnrn8;o$4>7@0wd-1>c&s5wYXKi>?^82oWF!n2$A;p3+m1%|Jb{mNkk9~A(fvkbvwwUV;`r!l7K9@JEC1dgY;8%fYKms%E!y~q zKSv%E1dg+)F38~<{8^j8U4cgpqIgyyo9@W|FYY4>vmRZ)LDG7S3~TiNu?KJIe9W9T zwgr<`6Xf?B7xE_y5>QpT{X2y^v9*T9lt0X?ovdP$I(}vi9UiD3e*A=2q(8(uSc1<-%zyA<-Gq}#GbpmbM&pFnX%jDP)j`y zanpn+`lpFxlB}u@c#4KV*>S*Gg8ovF0y8LMv5aOXqZz=bW=S{%dg4C(4y*zIo2t0h zz&{62rB~5w9G0k*x0-~zA)5+NTpAcQkp{nf?)FRoTO94_-wbfjOIyzU!FxHBf_`k~ z+{tEm7paQ%UwIuw(eK@Ky&^Zevzq8WGc8f^n;3E;NZpjjswQ%iquOvRdD4yCHiAic zxtwAG=KW2mfQmF4G?6#c8$`j)8doAZp1TN zPv=5nBkLB-wy?|F{!m% z7Y;G4(}eB!=Z(ecTYg1TIA@jo+x6ChhuR2{3p;9N^$Ycvs2fW6d~mS}EwTM?_{L<9 z4+QyL>HSb-U-@YM?jL16#F|A$(qU;=qwoU^7z~!QdnLmP#ybu1JLwhV2|{y322_K^`Vo)n7EBz|B#k?V?n&m^k%;GT0!!XjNI zefdcIwR1Oj7AnlOH|h1)hMZe2?z{PZUF_}JZ#CQy+O?yy?Lz8QhORx1iv03HHFCOs zoDdzF{1rSAUGlGGix257g{JR1a&`p6nK&l0xgr2dNAoc~&(#+UyO^6O?APK!%p`EL4F_&LnjZo6Mc~ghJi!dj zHhnSHF&3sF$FUP=Fn7R^js`I8VQY)2+;E@pf1p5~PDtEfE=c=b2Qki~X&g_-#m>ABM2@qQ1aWaE=2&pa!o z)5cS(r&Mho2y6Qu7=FI6-F9PXx_!d@=I15cTB!v9W%{HJ%B9Wx;p*9SFN!`8Fz=6s z8yL^0pF-(r88+(VcgZ`d=l@c4TBdy0pHNt#FU^RW(;JV35TgiP5m9>S9L9Idb1NlP z7acdF*xXEuiOovL3utZf#y7X($eJ$v1Yd=}&vNO}hG4{Yg1I$9ZR zJihf7?S}7dhqJKU%ihObwkz1T>y&hl&X%$<)t{IXSdg^Yag?0lHh~c2oth!L z+oLV@htY-&0L)Qi)d#NV4nMXtY z{$YP+Y{}L)vSiDivd$FQm1LWtXtfh#3uVh-7!lE88Ow~F7?h=~k*yFimJr#OY(tFf zyXV&LInN)@IsVacoTKxZ`}4lv*LA(FBx{Snu-QLrE$bhFMO#e*FA>Ih*0F^4{%+P* z!?mt+(3s54QyqV(B5)3b8!^E*V$?dqVXlju|?{ z6U#dkzIQCtK@$L>xiSz+WWp1hEx$5&v4J~zrYK?!M`Y9lFAf7ke&wC^`kHm>Men_| zxZC!=7)GU2%1a3x-6`E4OIu{UUcLRjpk6=0e2Jo(lKjS8y98D1TFaK-yC<>ARd6gs zrgC9IWDU`s7mNryulc@)3b@ZV>V_qP{JW|(dM2t2G<1siQbcch0tzb+TAdCc)*vTt zn$RFWwL+1GbhcS+e_eGq@9c8#8D?+2=1FdTnlYu5Y(WR z*L6cD9-gO^T(dP;fCx-|J~ieajdVM0(UlijiPsz=Va(kZ7!|PSP0=iAs}t zz2}{Wp+lk4EZxRV5Cfy z?ru`LfcsBRkN%aD{$ir5ZqSh5N!X2JB;XvKBO7ANeolLA1-xPk?8m9IbgtRiEriMT?~y*fvVsHb87LB(#Q13k$l@Tb_~s9-W_C-v#*`fif)qVy z(k|OS(bC<0QhWzDyo(kcK71Eo@b%_{qM%YO>&ZK@+X^$AJGa#)255u6l56gV`IfwN zXLYPY^ahGOGZ318p4G*MwVXh&*ud?_T`sH94)rIfh;zRYZgIA<1oEZJ`b{u3L#2#D zN;2>Zi{c1gJp!hOPbr$nhdvDPLN2xBDelgG8he|(P^6TptS+dC2U+M86xzqg)z&v_ zljlN@8=m+8>^JrG!8Rg?ZN<>sV5`GSR$J)2ODqv!QxjA`piYJ=P#C%&jgIy1 zyqIg~gvL89fo?yV)rh^-z21I*=+{%8+kvo*S|1sVR+QinsgFqlVQ{$OQTZr5Qv?)s znd9A*i+4yr1QsRz^Q?o;Z=dEvqI(!_i4&@(5D2KSK~TOOiRL(twgs#ju|zL?B8VtH zZfk45NC%%32D}IeT>47#Nb6(wx%c0fk}E@YJ3}+4vR(QpTX>t1m1jQn(h`5iZ|e=U z#^|1@)Vp(f_m=EU-Xms96@HOjxt!8-8|Ionu;z0^bv1plR}z%|zq2Uq{qzPUEAdHV zc&NR9K&Kr0O~mmTT5K~L-chII#KIgFcMXgo({_&;Ur^RVhCTp;WeeDPso($ymKogQ zUiA_QzL9)R6NQO7QbXq_r{chQ<3RcgkXJbGSK5^u@>P;(sZ7~2fH;_!r{eZfaH~N#Z78#!Ol;Zhv0sLholw;46=`M*2d3!Au zyOSon`_8YasQknLl32(M=`trhUOsEt={m0?rf5ienf-hs=sz?(nV%c4eXv)OEZm|E z8r7DE`|LtnL%{~Hl8a%=9pH&;PaqrDpAX@Mv%UYupyjovf006~g- zz~Xb&!00Tx{|uRYNG3~E-?{?tbzzbal!ab)752OZXK#qY6LX@NuVJ3iRsU@$E%Np0 z$thpxnh_eTtPL(<{m~&eemlk;Rbq87T#IlO;i3AztxC621-0!!VcKdWL{$dhNb%b> zx|Rl8erd4}%VlMA=YL=Jb6n9Vu{T0j*QEeq-{*UGtoj;YfzOE{5`&2k3;b_i-k_c_ zQ2|wLSATl3Es_r2Ix9~<5oRB=c9kMNpgC?wg@l|nkA$$b@dyj#`i|)j%HT4uU~h;8 z3}WdNyR-$gS-f$$S;wtJAYLX)wqQMuxDT|#PdrB8qdRGRg>9bI?4_l8ofz() zi6c&2CX}>Bt69N+6EWmw4RVKd zx8ZAp7uWs%DT#vJfDE98eZXNV=<4Th+CyL24KHeO%M?GIR8|B_+P$*ZBJk$Ny%ovS zmz<8a9v7JecpRNGE%;z$vuRnR(0xkf+oFvrJn;&2I$QIHx1=Axd7K2EVU^KJ_33-Y zde)d_y!~jsh0VAy&>`A%dL=7fvo(_>x9kX2DD=q!4#uWe3u-u&X2;h0)y?32>2XL_ zXeXUyPvRLgygPKh@sI2-?irZOLhi&84Zf0xa)l)jE`kQ6&4HgDjbsWMU|NsTfJ%1} zmoEnDR_of+$&24-E6XA4>aQgil}1qj?PUYD@!p-HsFwio+~E>!XVp5cSD= z&4#q=w>5U{WPE0$E*1A>?)nwo~Kog9R7{+yig z4rc{jJe0;30=ivc=Fw%RGukLf%{H_`s`f_kYH-!B;7-cHiTXzmEUt_{w;SIiCbsRu zPoH?{;5T){EK;3hoXr9{9E2Qcxo^Mt@?RH+be$$Q>%N>h=pb<9-b1Q3L|&o`*_3w^KgOeDCr= zVW}f;%?O1E%m1~Me63O^UG2A6EKw2dYi08sPb@K?y-xBy1j%Qaw_e~R6GiCB5FfzE z*_*~kGM;cx0noXW|1)>5S$%g^7k!c(r`-9O3yRPx{_lU>vE73laL4|q>Wy-}+gpM6 zp~tsQ87E~v=sfscG+H+hn8b*EBi~K?!K?dp=}R35zH^H3R!#oN95!A6>TrI zD~+-Oa|mB++0ja3;PMxd3`$ta+BAZ7I#+LNZxKeApFu@#X;W`)v()Iqgy%zzziBHwZQWpoWleUN2$cL%< zEXzFW5OWd>qTZ(dt-tF+yAqMnS`yN$o_;4goVfLnpf?;*!TU=hvaDW}K-^3^E{X}_ z*VPmfZ9l$8{JUk=vvM@H`97%JTf9H$;25j5&)l(thfzGgSTfwXhVL|@CqjHyf^aK) zk?SS(0--@or)r&RWRqO;7=s*YcdqW7{pzDLQ>UgkFM7(Fk}h@LBP(O^Nu^3FXh(s#R;!Oua16lJMoJf$_Xc_`f!SB)|ad=X2u-}Q&w%@SNT=(o}!@@OE| zJe!}j*UyK%gpz2IASv!I`PWEx2czD-HT91^9Hr{O@k7D{$*-&9iYZ^4;2N^{zHM`O zxuPQa6A}&*Vel_VsrS{-iRm3>`#+E}fr>`IW!#PG$2a}dV}IAm?v==XzPPLQ=>*!= z$1{JeWU*0$EEMyAq0d~5IH)U*P-H<+lSIPs9U!2rY6Ct>QRL9juIk(c`6C)jW;r@X z=P76PtC4R<4^QW1A#nZ~Cvwgu+9snpxPMH!zY0BK;>E<#4_){mYJ1|F@1r0CD_Sb>}WnfbGzlYb( z(Hh?HazBxIu$gFp4zmmgZDRbaza*C1sYYh9sDDS`01fUKu9aJ;coC2wyW}LJ)djg7 zV~wVHlDyu)yWg&j7)jK5JrCqct>Bo95%p8bzNdKPZ|m{n$ai-jzsiU8Ox&EM<4T3-b8J|b9NRo?x3K&QL?q335Yp4nDgg6L} z9(}(E*c||$5HZX@9bhK6AuHCqudf)%?QFON66r6kNic$NSw17qj6ozhRE9`7O%!%61%P4DVkEcr z&Ph3uVE(S-aje6o0SIEXi09V0VJvZN*W;Gs-ao+#x;0zXckkA`gMD(f(E{$35b)C> zzN28YHrMW+*tjD>2kUmpA63& zWl>)otXj2vbl2rN+O;V;znSq6=9cRR^G2a>S0TJS^cYDM;WT2 zJRi0zF*AI6X&e*3G zm`&fW1yYKqJ;wbqX8iL-ui0!jbeC+;RaG4>#RZF_5uo_TWmS>Wx`f6$R^&OOdw`6m zGO+IfVZ?w*9vFU!9p>#&06*OSj)$O%4lij?HvyJ;b4Drt!0hkN87%T~<2^xsdGenT z%h>cA4Lw{mC}`?iL@&23PhgxCymTyG&(3z%qc7^L+5$L;l(^769;eW0im0tJH$Mp+ zQC^efj1!oqbqdZCDH(RaEDS{}n8VotKd7feB<;!8x}2?5f!WZJB?yt7eq^P!t{C`r zoJVWD?+M$P(ePc%E;C~ddlTR5Z7D`gt>QU;-o?e*bo(* zERe0wEmC3Zo1UY-Nt&JW^0A~j3c#&pYpx51r6|sT4|iweJK38~#h*z5cWSF?L(PqG ziRMS+g0tVDt}Tbj{F~eueTsWI=UH!W$gGgOBJr@GAlV)X{QcMp9(9i ze;uIMv)8XR|5WUAP_}jRgOnm9mvN$cL!W*Fc^NojMha>#mh(7Y(?!=w56#&E@l4fv z771VL@?^RQ4E;3Lb+50ArwBTp=qa+@8Z4M-|CB1=_Q0S~n^{)pI$8;y9 zi!8GC#JyeEpGW*%X&ka!@)4-k(hIIwAn}1PgI{rgT0G3PV)U?X^JztUg%KOuQ%Dbn z`2sdd>;wEfeOd*mh`&bdFqUKIifG*3w?kjUd?638q7R>-Bd0m7l^rEDO{z3I%Yjj5 z^;#nti<9(N0>b{r;qh6f7M^8gloso{+}w>B+m+gD}$c`2g32aiD#{ymo5<7u$)=ibqRL7XJ*W9%XV+_ zg^G#?+$`_${;A--*eK!kC>9TEo-60T2Fm4TY14y!naJ~3YX?e9U7whLD(2stIfAfS z5_;51Fbe##@8xUyZU)i0@`OI9|xeH%eHEIL)S1$-YYd3hZaF zQ;}UKD2>q$!13>RoXq8n?7F~m4SkDQ++p|{g#GcY04!#BvJ72gzC5I$Dv;4#UYc2) zK>h=uEvQCv+jj6(yB(^5q5X|EB%QQKG$oGdc-!fMs0w^2F!O-$yt1Fpj($WO5p)1r z+1>3OQqAuD-QcVl{@|rfa)O-2b z8WK!yqnVCqf)Ud|AI$oiJ6Vz9-_p9spDF=E7Jzh7s zNCsoP5!ag00aNz4`U3j1c1m5!- z|Ei+ijoYS{P?SJ9O7Sc!Lg_W*4?lD27}40_(aEJ?$yjjff!$ZvAt-&RW>sFLbyl}- z7lnFWo*9lFzGr0_-q#lH#=m`6dr#tsvapigSiQPaQlGdXc_70ss*5qs$XDxRx)NV# zW(jN-@LvIzLkBLAfajpL&?I)ww$+opVr!f!u`JXp-7HK5OVONpH&1tjK&;y8306Lla#kK+X;csIa zJkUHEQ3|pAks#R5zenx`m+O4FUYaDwH3vkH|IbT7qh)010pIuUpy)v!#BgX38pRL< zua{>cC}69D0gTYT1yxW2c;)4fElK>S!H-sBl?J03p_Y3xk%4NEMc>yecSJQ_Iuy1l z90(75l{|2*c3|;0#GWU9Yl(G=Ju4Xbr^CoAEyCSEFm)ZC(z(%Enf*;-*DQJ+UbB&N zdWY1Pz2*CI?003Myp|iE4mNGO#00q zWmZlGq6jMp8KfvQ#Y0MOyV|_i?)m!o(Ve-;!OqH@xC5aG$-086^tY}*HlZm>nUrON znK5MI_I^VZ_1)fSDX?^-=%m(x+p(4SL5tW0E!W4=*|JcP=Af;fM1V0diNuLxcr;5N zWxh1`&C#{^Y|(OEtMjD=@}ym6CLl8p+gejDmesjwSr}~5oB(9>Jok^Z*Gc7!1ss$> z$n_@{Y#a7H%pc+u2HyCIt_Ru82`z>gdGVfc9Ajy0 z!J;s*!wzjrsCq`sR6d7Zdx=8dwX#}6V$T2ancs?6@O3`s1kfN0#cW9C(Tj~Sz&=Rm z%DIq_R!`JhK^ZK~;fJ^GxxG(XLreH!*VM0kWAoC&`lGB$-0q$ZuorryXP2n`}&+(+O2y*R&qbt=uCDVKYS;cU*}qN(64@G z$GcCRv#O4%Z80y%uzxY#;JczMMr~V%34-Df{WhDbGavGpJXjkl&Q{E6bq#*K=6Rb_ zw?f56sPCt;wb$RpQ8A`vJsV4r;Vh9yKlxiTy zk*7B=AFt%YgY8J7a%#~$<-n?B&_MoHMYL5|eV5cx<2;FGmP-|R%?Ndb*;dF>N`DyA zmKmYzMoy=)P5Z04Q+}7p$`-fUfcqJ>$U3^H36x%ira(z~Sv9sM$;_&2M(DBiM<-2~ z5J_CsEApcfZ%{;ahD`9e1%t@9_I-rvrJAV)`?LVG{yvrNvZ~D!rq%WohJZfE+S9ob<^gX@ zhdNrvUBJ6eR+Tg!kWoB>B)t~Gff+y(Huk`=>TE;bO?cn`!1MQ+tHvwtpVbc=%IUHK zSAs~Ptzozey>(AXSVDe6|6m8FEU24JA_oB31p~{dK-nrsO9FU5%(kxH zjliaeqE89;>J5+OBKNsM5?40x#P$Z{us|b#0d!j^4w0-#MTLEf$ww&`#Bo_SGIg%I zeC^JeT}+wNC}F&_;OOe!^GCG}#lJI#bobTvg{emX=$UTv^NT~S(K~_DsV`%CmGm^s z1O*7;5p=hN^3H2_p4nfNhwQfKcLfN4(TFo?!dg@^QwdR>PnKDid+Ry$d9Be$HLlK7 zit7GjSAA*`a_3;_{x0Sv{M-QT}MzRK%a$=Wu`i zS5}5af5_IdRCn1;_$HTKn3)Z&M2 zjayIImfbZwajQjkVNaEbJdN#FVUE@6qKGz-FdO}>bPqsV2D`s%MpNrm*$#y;LIC`fssbIU$HHi=Bm z)`qZW7#B-Cjtv&c*353uA4lk)BlYj%Vf?Er9)V+G8f(Ul-!S@SM!1~y+`?R&w^Dm) zsAGf9SyR&g{r16saeY||&;;fSdS@+flw_PgJ;crT!*4p4Z0+gyi=$!!l{Xz z6YVnsArhKolo(=Cc(lkyJS->by-)i8j-qW_0&vY66U#iC+Ua9}CFRdJ=irA^EzMU!X@#in1&+ z-n=Q$w`&=2l6<*T-*v3d=bprS$5Sun12efGirWyFGW@V0+G^R{V>deDKl*s%HS50OWu@7rAEa;*8E^!Fle4lPFeUfhq9Ns z%GwUj-l&53dABI;vw3YJAL{YfLA^&Sij`N4OKCaW)CzHwA zre$5-wA}$6ABv~N{{}nYkEBpeA@yvZ`qoZCX8Z$5qUMbT(8MW7_(!vh6P2(&X3Sl> z{@j74rN@f5M=G$F?CImu4AjnPB7L9SAt+(s<1W~>ieHAT2w5}V9o7lsmqYzP@$+D7 z&=W*wp-uxj^G*>r=C{k>rTRge+42E!-vdS~cd1`xr$0paq>}f)b`9=hxTw9d>ST_I zZIvCtxdGN|U%6fg%|H75{B8e{a74=mQB_kT>)Dj#J5G(!Jc8)EdsgfallLd7X2q#8@i`zCt_bDH7b3+<|puhQM*|X>02s*Fxp5~%Go~rc1fKRwdnag z-H6f3G#%!x%3vH|mUTdxGu5v>DE!`)73z+%qS>IC;pxlT`mCzOuI=`$YMK9G?JMOt zZV&ayU~w&j29>$Gf9c-%3iToF66SQeS0A&jiYwhD<=OCD5*3m>&2uqg!j2`Ki)n?vrS4>;Wi4L$rOL zI|W2qG_Hwo1|ID#OABh~E;si?7CfZ32q4oP>MP_r#32_)#4{dY23?ybPzFOAyS)9W zeeXGUW7fJ|=RW^;E@!)d{wcSq;Q^bsUuw2lFmYka7?{B~sR9^XjH{Q!!b!BpZY-39 zLw+(qAD)(D_tr!XkRa$kzTzTE=xzbfMDUx{9dCkLR;wKFJT2&5L~VDr#}F7hc-3Wa z@*WIln+HybA2L>`_)=()dAlv~!&~t@3BP%vJ5wSO_`YU#O;2B4E_G(5%A0WFhd8es z-#nRih|iSSsSNQ=oz9#1(f%C_zVq#EQP7)}E?%!uR`)2X?})qdt@;amLi@>c>~(H% zc0D9cbl$AceJs)M$I2>*T$~9f-WwkQ_;fI7+$BND*Zqsy$n`vyh7kB$J8{vQc(1ii zKL8HSiCcFW!PrGbPRz7bd4_TMnk=PLO5q)f`D){wyw{Kpc1`@A5H}2r< z(5g2ltvL%~Di&5tLeX$y4P|WZ+Z?t&Nb!De#G5cT8rgzh#2M?On{9Xe;sU;2C6mS#l zv`_Uiy6WWlgS=IdG#w&{98NszoYmP5IU*Y0{W>#mDMnpo0w`TTEI^*+Xn!YO&am zrD%O>%2u$STJsu5g=FkZ5>Hj&r#lvy`##u39J!X`1T&7vKqkkMU$H0EUxTlOspl3I zBATRPB>?L5JP`;%DdayBOIl+4J3!M|?P-7CBsFCS!Dnvja@Vo=o|n;#QDfv<msP|%YyaBuz(h)q{Wql{wKxCjXFY%Ty6qypz=8NQ48J1k{A>2A%O*B zI&)%xSv2O8-Azj9eC^FFGb8L{*8xs}RLcO)^)B}CRs zfd6lmXhTmpA?qxk9GgCwe!cGFLQM1`6Bi7YraNzQTp6&~?NR%Bla_xzE`i0rEJ$_~9F&U2A=u0Qf? z7gu%VkB1Mg)#sL>C~L(*_FZo`ol-MrzlrT-u2p#6@ZNsYM;cFFTn}_sY4JA*c(0th zrMzFFZ5SlzQNzk~sbwF_)PhRa+5M$&Q5>=-pM6wa$?eC&oq!@-=6&;^T>iFlnvMTG zSQ9%JbT;)XY7cP^hIY^!?=ageDiobzF zmvMqY^M&6S#3bbVsj@ibiMPiATe$8y(l~vgvgE0r2cIy}q2i$tuGwit-O6WgFI11S z;m#K=X4WRNTb@i^%7G* zw;pJ_i*v|bf2x%KAOmx9;?pzk+dWl_6;PuWyCUJ-;+@JBB5C1Su5Fu8X*H;Dq{x3f z7yTlKF{ zc_wNbRK^vnaGb2$=U?ejL-c}*z+dNkCX7Q`^Q_A4;|sdl$R0oUu@5ed0}O)5FD>_t zZz}{FQg%Q0eK$#BgpR-oa#OUYp%u*5V^m23Aw3QD(aLi8qC#$4OVXn2@5W~iXyw*c z@Mz5yBXo{$j_GV)42pts0%Kr_(P0T7CrZ4?BJQ26E4#Po^y~b;*6-k1D3bD9*@EFx zcU;%`BSJfzuMJrPeXP~W*fAONJU|4eF3~5#--7+243nV)&vioB>yqPk@L7X@h$UA) ze%*|W=b=xMse@;LlgiX-5qj5I&#Xt9TsD@mQ~*Lp6mXIMR2SOgo@qA=mt*g0rb(eC z7YKIyZ>gk~p0qvLFr7KAuWJi))6J3rZxc<_ry^NK#4QM-{vPkFKfpF6Q6bTye+zmR zgJjJd2$YdJB1*-4=z^ATR6$IZWj?I&1NLU_ZJU*_fq{V=Sk${ZZ& zj85(RVQ_kALgjS5c>a4IN8DD-Kt)AQh2+voLG|)=?|mA2iA$7US9dLuf)7VY)Rx_+ zXL|Wt7(32mDG8GWdnhJ7qZp}1=z<-8U!~As`k03Kxwn05>@?pUm5L-FB-2eB@gm83 zVe+)PAi6){IZ>NQZih(BQ*o3O=!VOg)F=GEokp%*@?ME4Mr`84YUecrh{j*n6Sxxk zU-JuR)$eKy5xocX2z2)r+Rww%2+f?5*&43Zo8L_NtEC z98_`wrq}M?cPsi6(m$RQ{FPg~LTr}Dtjv(R+=z^o_L}OD6HyibQWWsL1(`h@{+ zU(1r=Z-2%PD_oPk(@-g*-hs2(o@HXA#SVSHB;T3IIg7RTI9#1Ba4_jrngH9)*JrF} zNA123{KtfFe}KEug4*L|GJFWLRR)Mmuv*Yj48SGo+Izs)&Km;bh^p%inJJ-J2f)L^ zh#|DtA$ql#g^@2v-#s{j+_d7R*%G4P@mL?PZq}sr)q!ny@<+-0qnl~kH60fgSS-~= zK~p!BNlpX-5jS=o9ZrUjn;v^SVUjPjA}TO0%CaF^X0y~36uk}~5S%8#l0KE&*#m1Q zlOOm~AZf85cTj?WpV@t7eiEJ5B4;v@9)_#qwp6Cr_c7c{Z4Gj=AeBXU@$%i&380hj z%dU4h+uf%pfZLs=xKrA27xw1fL2e9u`z7*NC6m7!|kMdZ{dK^|A5iZwJRIyO^NAz1ry` z`$7gAEfoHsFD?&HuwofU!dB>d4=?U0%wWH~PAm6%8?d%OE*r#djlj*D+JZly6)f%k z8zlFvo?{5t~A;fZ<8s--fhoT^=r%a4!3k27|xlBX!4bu~dL|-&%PbY1Gp;{r(G@5Kj zmyvC3GC;FPKPiT>ZS_4?rI06~NEYciz>EQAWL^huUjnP zomymW#c8)-2Re34w*a7=g92h0D9#~}F;XTnmIw6-`woKB2#3yo=-k^zzGDN3vEq<- z4`E>MbD6CAEOFXcXZ&m%GBpoeBJ6A))=0TdX)F}BRu!qfgj|Kn8=ZCSw<$NIb}`F& z?rM%Fo)i^D$p7gNv?>|Ty}qy~pjYP!bFR<>^sbnK>%#bOVlT$`#vBoX{Cm;a;l&^i zk*N;~_cTO1Yvu!#Nd&MhE-LRQ#`#mVSNEEVQ?rY(bd23i8n)IRDtub!4`1n9x@XHQ zPJ}VzVe;Ib=kVdtrBY>NdO5o5BxwWiT6@cSj?2TUS_2grqitAAr*H zzaId+AC;}zZ9DPQ&u5QYfHh~M`_uK%J#$WFqYdh}veiIoAKA-W)8NVF8uNr+o7q1a z9PEUtziVwHYjkk|wmt_ep*nRk=k%6mt>f589J$4#IY8>C?|BtB*o@d-F@O7Aikt}z z`TjWa%u)!==7qw0%UJo>DX~N+IRs#!g^?W6I`(a=>_`nQ*~b0e!`6=Zv=AOw3CO={ z=aK+N$sX(}%}L=dDZkNRAF{2C%tTK($T$Ph)-@W^Q3kwn^C5P%x#_)4*_ysh*RYR~ zZi|1`1zrRgyo+)i2g~kPi#R{0+FbpYgSQ7o z!Y%T*v(?nVMxPw&0RjiJ1gQO@PRFG;^CLHap&zNMNy>)5ohi4ORmwfCnVOXhniT_( z*dG<9AYO$Y6h~k_U6Fn%3nL8ud%pFLqcuYd-G4Kw{P92$XKtUFvm3KS{L*7Za5-fF z)A{>Gq-Ka`wYna#E8+0WGJt=USf?6Gl<=xmeSHi`3WJb*>X)=HNI#KWHrNt*PEzZm z2dP5BAv`4**vyyje`isRR39^r>d(|p<2Zr)Q)CUb2Ki!$+xPCS zSNaWDx75bH0ko2Y}sFBf@naXGcwR(7Ju*)5juGX{ld>419PzxQech$c$ zb9qMS&U`s!J9B<9m}AFch0Xiv`sn=T$M(9&mC_UMGPC))fF#L=m)MngQFVKH{_|jC zWOZ(Oy`l)0rrsX^%mxI_`qBb%zPIX5mM5FxX{);t=@+Xi^#91}6%Tz9GQImLICj@Y z&Bv&a`lQyAHdmH&y6c9r`;FEA+c4QOg4w1 zZ`|y0Sk};~Bx>CX3~p>0^P=8P3BN`_Kot|I}Kze zdcyXrcRT ze8F5Ej>}mNr|HkGva&iSXsw^jSy>gDn>J%EICpcj=;3&&s${oC^E$0#bvD}A>3{Zj zh!2oMOD=%jEhrTRFC)z_(R;3gqH;a%>=gS^wl0`75UM(d1Dxb~Q*-ly<0LVU?TsD! zdCIaZ=x+8g5QP{(kTH-Bup}SEeqTNK4Xn-B>M@^=%Y6&?t#nFW8_Ig@Kb#P5^V{ah zM%=m6kf&O@W-B2x(ns&j^uKu)9&D&4wtUSFv}SX|I;XwI`_sMx`D5ADbx}H zm4V+g(A2K;ndASt_OKe#&Hu{XtFw$LB2F*n%>~?igVo%MiK#zV8>`Xh!y!m;5ZRww zI6swXI}j9B-)M=5{T+WdyUPge4D3>jTzbObxdiatLyVh#kj0AB?0;pT2_paS&Cs~X zfm!n<)^|G~d0sFJlM~5|QU$O{WnOYqea!*pxy{T=PyzpctE11+6AVXgfDO%ia8ZPl zX-BS3tzJ|S)$IM+LG5Sge?JXL+O7h7x0vsL=z-4u1(-L0s}34hC@U8Bq{E$4v*aSQ zWG#AuTHg9pT=VL7=Bjl5jBHSDJ)P3we<)S9zZEM{9%WeEt&tO}e{&X-0)*DOXdZ+~ zh|_s!_LAU}x@cjcd{v1_HF_HjoR_Z3g6OOphklTom9Mx2&S?shDyqt~yDSt$kW?mh z6$_#oP}N}nK{gjdKrdA?AY?oGST3@OBeYEaLr;ktgb~|Mc?MLxi0zga#N`kB5-@L_ z49#4@({{2_NOf;#RgPWJ6&HtNgz;T#BkL*wwn7v)dgwtt zme3~mW;(=RbZcrlM9-;L->fU-^{r$oPg90O4(RfT@OGQpSRSejP!-zIQRKjmc=HDJ z{}47hNvnHfPNBhy+wmGqDo4Xr4aXV-RMtCAi~nl?iKYv^Tk^+WVbYz$EuD^Vs2okN zRr1JUw>M|N|CU^-LdIIDnhKe(!T9z<%LN}mLp$9@_O=n{>n_n+Jx$D#w4Te*&#J!| zDBeh`$+nJ#<|83Zym>!`!aqoDJb>OGs(zlha;?Sf?ZiU6Ud4}x!1=sh8LP0b^$lFW zZftoY0v(@Vw{MoZLZ1j0GBNb=b?=0GuGqvLMm;mmrUtIsz4IEoL-EYl+gd*bc(3N- z#pnOR%iq4)a5?yx|D)>u+pZgBY}C2&Qau$3gvGO-uR6*{x>LmK8ZCx%_S5w^%fD8R zR-ec!!CRnp$fE#?_{;o}ZJnh4XyTh|!zsr0AJHDMpoo(RA^2^Jbh!KN_F)|e!@^8q z)-dx66gzR;tUhp_{t>gDSLGJ|Qx|_PDp@>8}0_*~Sxp%DN zX)LqqE|3dY>$+Kl#UYU(%`PVoCT(J;AO%gj(FZ+^wQ`CzpRm-o(t^s7RB%<0*98x;DG(2uR{5! zyZ&Bo%YsWAmW|H!tsha(iC(X*GZ=AgD?K>~3jkp1T2%8i^ez~_(+0&Z>&8@&<<>+Y z2%byjNQq)Qv?oHYw3{;A=KoHCC<*$$VuD3>&CM(!CQa>SC}xDlTi%vZbg~4Eb5xIp zOSbE^be$_LPzkUbTGy8IeB=O{Vfe@H{I17>cx%raDh-a&sg0Zg#uS{bDw%Jfb?pYN zB=qv+rg^Dr{Ut!YeXObVMEZfzR(QX`4`#w`*T)v&Z0_?nMyh1X9*#R57n9??rMd$q zf(Yz@qOTShMhZ+LUFkpbFM&|`YQ18A=`KuWBZW44UNynxsW%hfx0tP*)u(H zhMacdXTBIdcmqMpu6mzwjf!JIkKMo-ThC5pCP4_MGzI<+wMOX<2cH4t_jzaLx9wp2 zE-mHaZq~>7e5Vl40QYa5haoS*zy6Qhnh+EL75M`Bqr@4QFs-3&W{6gI&wN2`F9xl4 z4tnU5t#&gI1Q^l=5=rZ`7Z{~)J&i!#8U@FUJg{?P2|K(h(C#y6#M3q;o3(Qnf|&1c zk;}CPaUcj;NL4>?)QSF_nqD!UmoBbN-v_jsEsZd5f;x`tWeFR`SsH5|4!2_Wo~4?ICwT2b)=p1Nq1|e2{E3vf{x5nl~2H zda89Frd{5heO094aJ!}2MFOG62#(QA&nt$mSsv$xSNEsQ*7E9H68!k@MuH8nqVLfJ>qm&th050=r{@coF@0nQg^x@&J z+Z6MHSs>}`(B&~6Nw}l~oJEjb%*)0aJCX*da3eRBHs8F)B^u|L{#(Z+=-#FH$^p{$ z)^o|)x>u)(Q!qvCkvbW26DrN0o`gczJ#o;ZE7Y{LSZynRi4lt?%*LXxq}@?y-uLBbk5-U$7O{q2~GAQb*ZO+wmB? zPgi>KwpBhvBS$~3yF}L~3V5W=@TF9C*43m4w}3tmW*&y@nuU=P@Mo9PNs>(qpqoXH=}4)&_TpO@y;a&*tf1A>n&1N|SEisa9%-Hvm7{(GxWX%|4%a(N*B_(B>Fk>fc3l))F zAvwk_vPT&EzHj}m>HYbA|2emF>nxqac)hOc`FuR?cVt9-^)>1;6geci#F21yq%)U) z=N$#2=k(LRb5)V7a8bNor)RY*EROu#D(md9qSO#j?3fo0eqsb+5^>56jas|oqj--z z!xcY|L(t1RWqSY)t+A2>w4S(-8J`C={Es=b{0d1@rwx_%rC%KREW)wT_snnCLW5Qp ztycF&dxRT&(?JE^q?%SSx&zxBUh6FX&MwJ|>FiF-ivZBhD)7U^pi;ON+MYQ-DN8?X z582^k7UK>-n|~bJTmO`JxDhAm<9&x7Q~#RzDLX>bTCw9WEjh^M4xG4OVSmMonqtMp zb^z}S7;$*?Zk%cApt^$ORFeUNCBQKT2Co@^7?D@sZXvixCWiLjcUajy4X(H44Ud%b z(lmnFPTX2QB{|@t9cDI2DEee@FOkqB@B*QVy;2do`vF`Z!_@6p3{D)gK_mU+6C|(} zz#(I!gPTW2Z&16al>jCt8C~t~oAjtKVO1}%^s8)J>|ST&9|*$-E@RH^iO;&Bq!g;u ze<@3@E4|WfD77pT(1Ov&B^UN*LWmD2Q=iWOz9gkgby^(gldAXp0Io(&mD4|gI<>Yl zxQWzfUx3rIb8YNRVTW-V9bScRzVKACcuLgi$ z@ppmD!3e|7Q{m-Jd+;-@hfCeW6Mud^9zE6{(T5@K@BZfd9IeTWoa#-X3BS6#`1bO_ zh4?=~5gWT#GY&k|qvGpFf|p|Q!nsH4Ews!85C2^-TJhph=@y1@ox9^6#7^=ua))6e z?;xV$j_6`Q30nZl9y!8cJDYHRLc^~}g3wR64eAB(#sVVhxa^krq!CKAtA@JIp) zBb%2RebYo@7#wl&zMUWj3VJjLu+8pOQIDR(|9YD_ zDsY!yb<;754i|z`76h@#05(G*A=+M36c*|V6UfXyPNfE0B1(IhmcaGnTvO{W3osto z`SOxBFj|9z200ge#LR7bOqO5}*?XfBA0R}j`$@RA~N}%9YpY#hbT3ALzfaZMC(gg_6u2945sN?d)c{r`s#nt1toz=!qpd&ELJd zTjmk0xkJnucz;E_{_do_uq@N>7k@-rrOmsgu~!MvIn(_ZD$F}TJ92527gZ!!zPMU& zHlu-V;k9odYT^%XwaLH7&AsPc&%+B=zoIH7!m~aB{#cH%akI8`d_pKlr5SLfCW0^d z03fD{vYlfzA<|(sHsw~|kL1BJ8Ed9!fj74*h=5#7o=<<IaxI1^b4HXqD(P(g))jl`lu(^2Iu?hsu z7iX6ZiJqsZ5Pe>^-@C&RoFqRF7R2Fz1XfLPGtHHC5b&LF7b!zet{Gay{P&XeVwd}p zDh>63cP{KYbdpL-WKmQnFglE_An}#RaP^&k-EW(OU8N{u)@M-Y6oK)7L0x7b@B$W% zTfzS065dw-KBqwBN>q}rR^Ly+TYUrDoE%V-ccR!sO7KKTiZh%2x1>P+4M4e|mX@!5 zRm~2)q*WX`9y|)*ykPZ@i!`N``7BHsv6-*F@VMuDmcaNd)*%x##;J&vom7Zopayy` zijWyDcoux{7g~R)vzmr_^qioRZKFtj zD2oiPx%K(Xr#bNJHI-d%*2bUs^QxOGi&X2}cT2?g`R*zlxwLC zhyuq<3`8ZkEsH^{ZtY0^IjH?q6mIwM?t@Us#fd(;Yhs9xN68xR&e`|U(X@9n93<}M z^dbb?G#v;*Ij$Os4P*A8d70ChVJ0$YS^M-ujb zqC9T{L}s_C&>vykJdHuPlFWBO8nsL&bee*Z#Eaag?q9(bC1nFM|QfBCaGhNX|f`@`2$mBLL=u02_8!;1xbbw%91>?3*eU~A}s zVV3jHo{VB79A6@pNGc!XCF7FkX!=Q)h(Ub{>KUZ#2OJQyY1}L>ax>^U*o$rF@b>Kn z<;f2M`mR4{FIutPH&X3S(FPae*X#m{IsW#u$IS*96_a^w)O)J;G=leR2JXXrZQ+Pu zTj=#=wRYtLS*p|6@9*VEp+n$sRxic0`nX6S(D1y~f{HZ_YS}6Tv{B~%-tigszMHM5 zis89&WhzQKkFNT|^F2!e)zhn4w(Je`)!8wt`gFmLP5X9z>0VZQs%zRg^90B_Y@UpP z9wy9dt3$Cmx(Qw=)27)=r+swkGnHqU5JR)I6cNdzE{Lg@5XsKJ{YSf}f8wrJSm_#q zIgR10fba`NS*8m9;nMQ2k6~t127>5sL6=p2W?h-^L1Ln^^Dg&`MH|cyQh%Ur?q4&t z9(D$T=m~8e$-DU?h(qo>@Wx1qpLF-xWN&s~r0E#g^OGka?fhoHqUcjU*Y8_@>?|Yl zjLcrh2)Fxhr|LZ*dp#E7Wco^yIoqfHu#KeLK(1eEuXiu}ao7z-keg6ym(1+J2f=s_ z5ibUL6LOFd^m?&;6eeWNTX z&|l1PY&@=bM_t?BuKSZdXe3>s#xLD!_Cqgh*OHDoCHigVZfSfbfbrC4JV3o zWFtWzp}mQu%Z!*$ck59e)OhQRBl@irqcK_ODOG}*j{_$}c1g&farDv%=U-3j)m}I6 z&aNWA&fJ|JikEBI8rbeM8y%)pbDs2QXVS5D7;GRJGe8XS({nyAE)j(H#1-(2*9-L$ z8$3rR_c}y>!K{sx?|{KxC)*AB&DWQ9AyPrEcS?}PPuSPIqVu!>7KhlX!!Dx>)MW6B zQ*8Fn`MRgGs7QPR9bAi4nCi;t24l-)^lW=1acdU?Kp2jh9kmKPl*7$!aKV@_)7OHg z>num3q1Urs-WeAmy||eBj%Fg`#!{e-dBAT|+lCW$0B?Ty{us7-R^P9BQY7Y0nOIKf z52Lwz(L>sQ^O%1x-g9<7sIlMu8&zNA@a_Cw8V52oCV2Vi{YFOg2{bGI{@a!&lBR6q z5@>~uf^UQhsdlHrIAM6gsKxKbqA4zs>tUH@KgMhUwP+ywEd=QNmfG7XO zaxX^u(P~0&E`H7I=QV_y1iR2BFKjNJwi78$zMC{mb|$M`AJ~8RB--44%;?P{+S$fX zUk`@7)z1;ic@;Dp{b-Cd3`nz%vLUm&4AL1K_GY4pkF_eKP;JkP7_b@Zud zxq!(Ghns1x!f9nLDKRQPAkxcV?F29y#DTR)4R=^tl|E*wihxVb?YSw!`zRAgi^yc> zVD`HYkixqB>`mLd_H-jBPxUfUUZzTtG&cMC!FCZNA)(>vtS?X#* zOdnAly9dLIL43qPc1EP6rUC&DaEP1%+~128DV+Z(LCWuaHKF!xVw6K+n>Z-bM9kKL zxi=kE!HB?aRakMB!myuv^}9b-?d7cjN5f#5;o8nbY1}%Ts@?-#?CSqSiB)HTz|Dl5 z-q{c{dml(?wNZId%Twy2t8eQvvvy_%We)Cu^4-etH*h+&2>==fItB!PGjIk9bff3W zrAf6HhA#d||0bz2E8PA7c3QL&Q1+^A_77jp*j*x4*$~Xn;5duO7a^zj0%q=>J=S;-@#sMqcmCdOCw%hh zsJJGom}cyx{I~T3e>ft?+J08O@XFg&CKh z0KN#(Eq@SB?Rkv70oQi{17pAqaI%MXS_lG}Y0iC32~v7V2C3Osvc@k{W9yzC-|+vv z{^oY=Uy=BRDMxP3WugNVE7Q82W0&W~T*4_5mCSbkhESh459OrZK8wtT(io)tXAUt7 zc||&EZA1luJKhVyVT|A4FR;%h3n#m6S++p>kYIKOv_(MU&7~^fjoS=Bkp)5>@6#^$ z$y}%^^nPBNYr#Ser7{J;P=QAwX~`q2GlCz>PDVeWv%)_bm!81;!dlo6g`A)wbkN)< z{rAnG9*@x|->L3?QN%^`X#iV%Sw%J41&B2kp>A>HX zV_#w+v^D`!-L#jdoE@*R-Gl##tf|;eB)*1`)Sk3L%y7`!xD#fzrz~AfBLKm;Ty84> zE;4avaOS-pU&AOeZ^keEr#S)WS`~DpSCuTmZ4!JI`?=OP?lfY)`W3})xBAii|1&x; zoA?A?R=`8VGo9k6VcT1Es;DX$j_<4li&BF{7aoFmSq#8@blF{=I^1yM!IHp*gTvY; z;2h@R4N0{fVPGn0L>VIhl(tNU6(M+o`^Gi!p`0@6;>Rp_=pPsGH<3)k?V0K_zmgV4 z^f33}*|)%FujU#8Hv8YUmi;|9 zFyHV#>#yQY#*gL0sep}%9~a-OUiX|x3IDz#S9K7xrD${c%}$WyN=z(Qv70e<2NjK> z77To*GfFBwGj{!`9kEJXpZNE8wmOxgY-3`^5o;rv=)c@@R=RIYLwSd?=6(1Z;bE8p zf9{iUm)DMK>jkbFTo+j6Cb&mti_Sc50eZDY5||0voyRB)Mi6yaB>u*SVxW)PU!iB8 z!^%c4q-xq+*(}|318O2zf#EOw?2uf|%1D}UW%zY?nFtJ_e)Eyj%>s0RDVP#9B9F8g zXy~eyXg-9`giGpyGYSnNga=2YGdsK^LI+-uu%uD~Y5E~Y@Xd+EAPE(WxXwiX?ur13 zE~6BJNiQ1ygl=HbO&`g5(^)A*{1Lfp47^?S@;!#B6AyJ1-Eqk&exVS!tR#DB44&wh zapsx033%-;>0wH!5owMB3T*L1O1XcRxww_*@AWu|g$2J_!LwzR)xEO5oLAXdkz?33^C=SgF6^L)`H z+gGI8Hg#h35Qz@`&C)N-wqh&<#NjJItq(hTs&k~Y9E{`TDD{DBTb93G?}SlBzs=<3 zo+HnXjsiQhlU=56&+1n&7P(sBrkx>{LPuHxq%~X~304N~b0K;ddV6Rlp7&>dDIBIP zaNA(nk3C#>VvHgijTQ!nN`P#ql5A-T_5>-S3&DcF$gJ3cvo$m-$-p(glaxr@1)s_a zY>|Dzt)vQsW_%>aDhS-kQyjQ7%rMSeUk_&(eudxrBzErPwDu?7ckS`3PLY#Sd&>Kk zb*xeOodMYvZCukOT>5s^a??phH#}|Qme_7zaUuGN<;j)W_O&!YHGJToTX^_LE&gG->7k>P09&LSQ3-A54p z=@Q_#3Sv$cxmBWk`1)eShUr|4<_$DX&Yu6xkGG)u{zv81MC95D?vJ!N`&u$+&e@bAjKxP@9nT*(l~P^FD6vZuM~3QSk(K^i%-ydp zl3nrCK>2|KVJ*$`dM?n28C4bJq^T~4&xPO%MFt#Z3nSgC2MDN*eeU)O)N zwX$Bo8c-(AYX5v{<`gFR{;aQ#Jw{@Ex0|m0_7FHnl(4(kDeQrJutod==_0Ypn-D}t zu!Mi^(&>GKo;?r4k09rCj>&!fwwHz~FIvZCtfF#`LrP`8bXH8;K2^8hAyoZ2dnJ_b zXYk&&r(N*$No<=h4?L5|CiuAGtKGVc4hX>V3tR9-T;oxp!xO0R|pn z3JJV?n3Bo-eh}~!=<#{*O~41DcSalO%^;?o3Ed*oArh)-zku#W+kaG;ov!=2NN8^`9G) zHD_W)I4iqYM$lk9FB4szWh$Si6tjPL(&q-bs_v`%|4@x`1YRp15KdYueR>^QJ1Q6t zN;cQie#Ya81DoeDC!-FtQY-B9*3HWM-3@=1)w>s;H2Bq}+8#Oh^vq;^L|g7g+Z~^+ zktw%}QhPgkaH3G!U2^c{C7%h0cFQF#-k7KHc9sn9UZ|HW`b%}^#V{CY)GL?s*kFD1 z`8^|MjW_jp;syPha9o)4U&>8<2g>xd^&41A79Y?*>-?Ws7}=ON5w-jvYjKyVfc}Lr zeH!?2vvba*HHjJy#WA)nZPp4XN9Be~S9GM9wufFBYNdOZM0zzXnw_tOqDm8)_rjJE zzB?r4a6nvEVBqF^lNKRMWis=YXx$*I=@rrgcr>swm2;_s7NRL6Nm@YoOR6ZLOZILE z6!mE|*dw!wA$n|I`!CwU%M3^EC=lBK?cKd|Zq`G9G_9bravmdKt}^T9Uo}LcVwr^^ zuC5h`skTwQ}DQP((?QMObyhd?Il#^pfHE2h7r-UySIf zV58uW<(XwaE(t+H1ql6s(r&;xVB<^(`di{cA8@u8u!2K6!J&q(k*>D1WG)mO{=uDP zk`LfFzzPGQ@)v?g_;Hj$P(sJ$;!=_^QOM%}EOb4)Q6cH%_hz*FF; zXcF~k>uT9DpZm3K(xph`r6C1Y86Cg;ahNxW9aA&<{tvCtd>EQTS!dl32~OWoARm{= z6xTAbe$MRC8UCcNoNJhuaRq@jUO=v1zNa_=%gkrjGu}rAo9WX%ws`Mg+77J)tW`SQQphk&#KE{W_ zipRkIAI~m%?BohEd;N6wH)1t5LIELn9!z0m=8N;IRotQv^X5e#NwX zrZ!aOoGw6fI23rM4YGr}1qa+#PcM3JHA^j&qFeW#6^e> z|8+_f(I8F;(jp6|XB8sJV^@n?w0!H(v!R4G51_jD6wBFl9WB^g0Mn^@S-#3l!1{P# zA>(!5&T?kQc=cjQ)7wB}ex-@*y}GygyRM6zl}F~P=32m{lpj}Wn_NyCDdPhHbr7N% zZVk7E8ZHuR98P|+n}*#Hlj?Jea&&pSr;wkec|H_6$8=4YGj`%>Tr^FJWO4h)Z}1Xr zP%L%Z0g4F=BTVKO^lY*Iy~N*mgMprxK1@J2B(AU1{L!X9f6#WpJ=XJzM=zdzfPlV&VYqmPTaBP|zm%DVwng zLKGAW^=M`yiA0Uqb{k#{GKe*^`iT9ac<2iClY;1deQmxoTnF9CI2-4zT^ECf+Q=-t zW-t?M<}3wm^-rZBU-M`UWs})4s(zQ}0nizqY3z^H(8}k@1mtx|gE6nZ#plegwy?J= z_(7!2e)gFIRLCi50f}=xe9x{-bUg;K;rrRjX286@G)2f}APawX%vE!@2oDc$3wGj+ zp|S~dHE3YsQTleJQ=mn^!*c`-^J*I9=OMi9ItuL%DI@ z5eGqM+fE#c90uR?EjDcU!vVuf>%9!1GsE76wG3K-kkD{Heao`mT%>0@jxKGhAR6m4oh$30wARxCg@eq)n3|Q|<&nM*j-`17rg1*m|OlyYY#lAaC2H}H)Ha~TZm#<>` z>6ARLooU|Ef)>iQ?fYj-H<4VGL*Tw#q6mP?z!H${-eccL0$NbNaS}iU_dW+H%sc7L z?}Vd=o;Bu?;PsN_{k`42UXQi)?q$l~^@ihjK7y1oKW4ZY6TSq-B^e1B5SM&3CII}U zBpy;Nn8>#mJRwR4wV8l0%4i9gihm;&WrvqKi)nb8#<3;!C$@ye-qZ{t??has!L?}W za97{a9ljaL^G2CLh(nhNA8`iT+K7O!A9P3g1N{9ZJ2A>VC4nRf{BfcPsV`i+T2Mah zmW>Tmoa#<+TNBAYExExKbj?@Xz)w&stn7XiJD~#%l)ppFYK$;!dQEmBL~(y5xjf$o z=F8y3TKRdhG=+rH(uzn3OJkSZ4mOR0ye5a;z5Qe$WqID?#^SM|KNE(uYFmi{4)mIF8{yZ&G<>O?FHuLPB4_s0V#l_#BMZ5=erhGBpYB#=n=+1o1(bd z@kbtmU?>M0QD)dsd)AOxNo+H>sWm<=fC$_{q;yS^b>)+V^S3d5DwHh|elp*;c#yxl z|6h~Gc)I61tUF;}x)B8Akzkxfb1!$i(7&1m-e6G!NWkQ;C@O*}Pa~LX3rF~y$c~i( z^m!$}N>+V*eP7jf$IpgT#zcIlMW5mf8}!qnN~q0~O2jRV_n~5~j=Vo4w(28jxb)R0 zgY>-mM(USRuIBr2zkhvnW-Td&O77ORK5UduE8L`8T8ncK5_+}CnYSdm-soYTW3cg8 zsdweyG|$hK&sB&No7*vVf4Qh*!g(!C>A+f3XjbR7mvm9Ao9PM+7_<7rt}T*`+E;UPBu_CzYy5b$kGYIkAeQ893+cV-VN)b@lGWO6N#Fsn;sN{^# zOZ8b^zdFgCBLT43TPR}noC%W)Nc2n*iEt{DC!Vxqpba>OnNq9HYiMstM;G*} zz!2{NP}cbCnW@*2e@>AXmb|qum=f=>$1`U+ZaiaC+q`vTVfIz|Gb4!eCc48A1l7fTSuVeD4IyVe+7H(UnZD2y6I?PXy~F2$2hw3jd9w8R9ho;xQ|(&$mi zu8TSk5&_Sg;Yn6NCId;bp$?uDFnFdBT?8JoE3cSAmTnwmWQ}i9STR4O$V3wDkA6-_ z$A90978e;0qr$J;n!oeY^)GmJzd@AqiCl%MQ7MAvnbQH}$aGP6{$05<=H9^EYCm^G zCo5RZRB#0rU&Y9gj&#QW9|XGo&UM&NV`}K$W!DC=N_@8jI6x@SN2nd0|IL2-bgV;{ zelK)+sl3GY>9!3r`Pe@>X}n;>cI&|XLT^f0c6Y%AI;QWLPp^&mc+`dum2!?(QZx+f zTjqZq7JrR@;a6v{(s+IJN3#7v?cZg1RQd$Gdzx53A36Z^n)S{}IAjCs$fU+#Ty<0m z3yk-dvKTUL)e^W%d+7)L>)1pfH=CN{ow-3t=YsX%wu(_eX?)Fc1!7|tD z2m5H!PXzp4{tkih$$U}8ln-#j7hA&ZQBBbVq^G>a6tO_%9yl${5~;Qk>8s4207u8nj@ z<}Bu3@{t2?mf2R2PKg#}{)ivk^9vPR{ul1;&BexG6(TY`%_)-z#Hs@*_A)}25V&w7 z28B4IQP!FVDN;s#L)UFW0AN;9)jP`oQz6}9Moz7$I*0k*Mp}X)SnUr0x0c(=YVgzI z44zcpMQZ+(2iM_t8FqH#9;%t<=g6J~>t_psd(1#xWI&Xkwg;X_c*U$3xd{?10AW4@ zCb&T8R_3}=4SF+2m)J8?G;=oFjFc)bex}}T&hx41&EE_(t$EMHd8FfC8D3keLzrf} z#5(HTPf5)`-t-m?r|r($6B@u4tQeiUSA4KCt`Qf@OdFO>JG!PwyLOzmi5;>hYdW+ptGJAElHA z%F&oRGG{Ov-62n%+e(|kNVM&gb@0?fz<6W>RosIxbpkIn@w`x!wa}j{iOYK)!nO}L zsP6s9uYZ0`Q)1+mh7H5Jbn>8=HN3B4C=&Y92FM~(=VIbCu72*K?kF+TO!VV0Gfk)` zzi)nM;GO0Ib*Q>3T4C&kZg_do@s_BhO)5ub+6NhO7L&(j)ieen6Rj$}NB6UU&hmL=f<4K{uW>zvpWfV2)y%32{ ziUF}s^(;?R`>Yn-Mmf6R2?5l3s)yc&gEandiV{)0R|r4i2jBE-K|{w(MDWBb3F2?A zl;#I!=5DHR$QWdKULx-{PQD{UhXjD9=U7@@`OjiIwP7Mn+ArrV7DGPWfOLO;9hpDA zEdCL^3OS73m%EBlkB|xU$<+d%s~)cS9)A+hN{>oBZ+?G&5%ekZ>;^gP#gC_OPyWy8 zn?zCZKB3&h0lCSae`TI!dCM2f-Dwf77tSfflIJVJXcLL&j8=pS`pv*lppg{)h-el? zEJWgXfr;J7(YDv{Uc^Ank95i4ewU!G6tEyd|C3G4-o4MDJ7U^KVu2yd1(}NOh!T~HWc5Ps+ig~% zu{Kr9e&!bzRDZs-n8=x{ODigL8IEw_5B>X~)%2;s*2g3jHTqODjla+RY?(wjmHxU< zkK3KDH}=Wk+qPl)!0=j5NvF+THx#?BagJ|t_j6PC>js8Mr~Ri~#lGMJHc8Mh;t99I z5Rh4qSr7&?ARBGliY7W>!d+l*0~7EBZ#d^lJN1ukNI|lDz!-Wq20%G)B@!-l-#w)dan$7&yI%5F7RZWOLc*IUyBjTo zz|_>N_5zAi*uT|JR{LuOfYU1|72bwT8uzeCIS0(QUsu0q6~~8w{UJuiJqhs5A}afP zoITJA#)@kH7sH~EkbGqFDY}h4|4K&RfM#N|_VdAIk>c0^b#hdFG6} z6IWQI6aL$}3I#0j;uWx{p_KXz06W6Z_M!)GKKz&#lj?lyr>Hn*u7c}RH>y#c!v}4x zI+>O^+xe`ZRjjRNB)#!3Sg&*M10%sTXZ8)AdUEz7%5Ip}#R|epV<>3F^x>6;R9J!J zfG^wWb3P4HZ?6H{D%gu;IoN}g6Uk>V!u|rNdhF)pM}f>8Ks!be%foyKK}}l#9l;Y{ zyuhLiGHc`KwUD9ph8M(UKZbqN;%xN!*7eOC0yuo@QX&ZX@^s*(KJ=&u!V!E(Usc_` zJ75ds80e~A0#1gt3oqwq`>73;>}T^Ks2RlvDhxNfM2SHOApW>{5sDu1fS1LkUFXOw z+t(`Pp&Maa=F}O!L>LmLiv5#rgW3kBe=Ok7ec; zykE2b1Z+d)BZ%@Tq~`0l_jI34+9(i|dDRIQGqf%7#CK;M3d-A0vTAIBEd!2k*EF0C zn!D1Se0q6tVf7c)5r@$ua*pIk@1brreC{oymhVGTp#aF9IWkjjYU5%IGYf~M7u6<{ z;pTd^gT`pQm&vDN<6l{uHuIO}5%UHg&+eCO4eeXFO5CiwUK-8UW<{VE+Xaq(?|z$h3Dj~<9bGr z4-8SRx&J%b9+Trflj&52l!b|g$02d)F%VPlzQVr()oX_dpHE>ruNi{MR0MGm%r!yl z#rL|PdCW-?`x6J~7)ie2m2wiuTZrGo6(=zO!Z+p?XsAYB=irP_pnCl{I*1zOc}b_+ zv@}4^pUkq(rA1L(UHhM=_i$0`JnY~@&+6Sgz|fRVocSUsv{@Xc#^chdx)PZ65&xj< zs}`q8VyACVGGKB(8@}WM@H&vhsWa(*E86Wvny+cEM-6LJyd#ZtnU*V9L3bedZD5}0PP=s#;(H72GOq#7Szy$vr5>TH9^K97~ zC9ML@Gx1N-KHfdWyWzPY)-{@mm;)AQzcoZRBS9BcqFK(+8};ADGfhrBc(7QkWBVgLkjc+ zAfuE*k8+caKrBH)erdY1^-4zR_Q?+r+?5+Nz<_TMHKx9NgNgIebjhQVhO$_PcLaIf zdc(HUR>@0(U36R%*?|)Sm%dPbw%8_E-dwmQ{)vU>_cz84tBG3ihol3ip)Cb9cv7yp># z7;$AU)~jOp^+(r))b8#!DTA7amJRBOSx@ddgz)#bI+g_J{$l@Jb-Y~^i``wFn+pG{ zC1}MyyW*X=7c%$A=`F}JNZti~dP5h_^O)h8a~OgC>e-N%4vZ~GY4Oq$fquG=RhB`o z*~F9nIkj|4*%fNMZQ8RGn+v$SWcuL$F|e+bm;75I(j1$VEV>@Ya9JrXD#TqfhIB0S zY=G6F=6FJGWPzF{esU&0g-Y>etH>QIXAebj?sO54rB9t4ls=TaS52T71xPOwle;~? z>+t(j%1n_=JyfLs48x19;oE1HA5%#xgJ|@@Bl7N)5{RqDdcZ-QQXzrS-jy@8>>dGN zD+fIWKv`#b%}3-9^dhdX2siV+vqzrc3;J7`H|rW=~iib4#HFcmd^ z?^I^2pV4A83# z5s-IIB%Zf_9;Il5sD+OGLPLdGtiZcgD}soNkm49tYMc9=uGDy5b^CQm%bF)=E>!iIZI_Dfww**r&H1@2gzm`d6uNWXU-L8&x18XQ1c2V?mQf z0bx_F>=CrWa6P|&tg=kGS6d@GpO#8#T2_|>EqC`9NlCaLCcxBt>@QSpbp0Frz1Sfc zjbR6$eKwH6jZGv%2*Ne)c;b1?j!Rl?3lTiffla#&j8otwJ`>Kw+r5LJi~Am`%FK#wi|JyhExy-*0DN7o-{}kY$5`eKM@V zQg?^?p74pR&Bbd3HkX|WZ!$ROeJQNC2f*b_4Lp{vuuT{h%rV>bBE~mx3Gg>lmnW66 zNd1PduY|E6Y9BJIihVYzvQ{^6vyG(Dl)dhF0|d)_z`>OPA<@o`AiL#(2nV+>?nV^x z{B>zlFeu^-1m|AJLsyf;5v0UdgUjXhBbffeMcm^lt7@H-%V6kTGv?~O?mnpqhH^dr^U`9 z=f#={Xs%!oN)^3XF4;&M$@#Biol@XL1+~xq9~{d(KLQCHK)gnSkA8qv?lgEa{FS$d zGX6HT7KLXWoZS&0U~oRC;C|c!92f$mX6Mu>;!*l=Jq^K#+hzQt^WeI-5pp()vq3y4zjAXf*SvtKc8485n)oyMEH)U^Dd4&4=3`mP3Zys|IK0i_W=Bdss-#d* zz*)8q0J93K!J{HSQr!KN1p_F>BuyiT=~dCZ4;UA2fJNlV{=UgWB=FUO-y+qoeH;fk zr55S~GhWQUyB0OLYn9BDra2;SF<;20O4MgX0Qy}_BZSh^F;*Hh*ACxNiVvD+K zH{pL=YvThy{%rU(BJttgLL$20eXABHSzOR@mv=_ctGJ2IMWc5&EWMpYZeA^cd?&Z$ zEH&Z0t$u@&mOX`QCHFtUjZ~e$<3=1vI~H@CCRRv#SOu#G|78HX+kkBzc0`R+a95+Z z0F6~5MDZ-3@q$ivU2L1rDa?N_rY`OgDs6q>Wy-g5`)@XJl}*B%Au zB_5w{p~}b878;zws zUTp!9u*2C4pZB%;n2u?D%@>KU^;`LF)ua!Q0Od!BlMVZJxE^fV0j&waiiyJIH|kqr z9*BE9o&J>h_-QdXRzoYtP!L3Udf}GF@p0FqwxO99Z!F^?X7A&v0j<<60(zZ%V42Yw zzDMt;KN6KygZ-NIBpxTy`oVMEgXxeQ%p5CH(9bZNcw&_D-W_IE-!$6$(uxOvk}e$W ziv5UI#~Fv%Q0WENVt;!SU^NqW3R_hX9yUYB@Kk3>7G)meTiOeR%X9sxgx=6kc5BDj z1*g$zej4<^SefjF4K)K*TD}K81Is>3F=zj}*V?GRP_Od1f9W`Tr}M{nZ-I!XBl0V*x;P$(*#S*?r~h;o`f`w3oO-G5TA zS3chUgs81z;oX^xv}ZhRe>xctF#}r{UtYq{>qY6}5vL!gvgaPR8qVc^CDpWwMJ4+O z|6K%NPXj67_d5A#_7~KQ^bd^>jJAAD$hsm%^tTZF=6Y*Ey^G!Cd(&xs61Ags6%t$} zf6zC@?iXcuJsjEI2_8>$tdNm;+uRB>!h9R~!yJ|D4fo}CnWaH^k)eq7%QW6vMk0vy zB@!C$%Sza8!z!s#Eq{u}JqXFVn@!sXlN{yh7Wx zFB$)3fjCYtUa49xZ)kF2*03iB$1E6%Pyt2gR8Xhm$)lGtgUlj}>nU#JJXsquL`TfG z{`YIW!>;+)LFeViI__fS*Si#4(sII6QynbuR8y#bRF-OCLu3!QjR8vS+UR1a<)235I=M{I=`ebQ0GG*O6X4 zaZk1Cf2fg6It(<5pxxhEmKJbB4Zja+^rH6A385)WLg+Sn))0KYw7hr$Hh$!Ku;p$O zvp85?zG~EK0IN%XO+FZOI&37lh0)Ll(8(gs3AozFA!6e0Z&>41(sc)JRu!(ALLSh` zPph$7>GPYIfIJge`6omrP z4SlTdUHnw5;O7}Tv{f#0LKzNk+5A5yKS&D4b4#ro?DY&oJq$XJULdBEbtLn&Q9G%YC6M=ne!a$((5l8^XCN9dn_vC9qH%{rd{ z$*ho4VO;m(!1qku`NLf6j~;Ep9vUQ6Cq~-DOwGt?}6@@+Y#S56aI z5lfe=(AUgj{f9L>=PQ(Q7_)<%nd)R8>xCBVf13^fYt(~R&NuJbG^&s{f9G>+Ulp?) zz@DgVzN(h4D=-f%)>(C96}Z%8u;N9-&^#(YS{l-bAc{y%$R`6+J@X|?Q85OYo>^RC zsXwK2CmKOio94^*E}OdU!ti^`39MQad5|cVo8TTpnDSexD?(!$I?4QxwbMhUL&Mf# z-W$%@78_58-4v(rE&G&i-%>&IYFqjL&U`e8)sCzDYxeHabF<62>X~>F=?q36j_+41 zf|XAr!yq!BA##uZ#ab*7Qg@#zg9ccm(QnaO{rlH*emzGW932SZSvWi*2>=*P+k(WS9}9hT+!m$9L7!svx99 z9|($BRxyFp{J|TEW@>%~9!o_$bG{#beec+QHsbRbpgKO6=nZ<*U$qVa49<@v7^1&0 zC%>eLin--~5y8u}(0^D~-2a_C$wIrs1F2lkN`%t8UuZe8FepmV=XT1^p`VdQQzo)1 zY*RnEr`TmF)dgIds93A??rbBixcI`%2A!%@V3!V7V$U$_gO3f!Vc)~GWixh>@`C9J z(G4`cCps)L3_q53g8CtuXZZC^XJu+M1%k9nX*`0OP-FBs*OBuDaWjX*`fVgAwqPFI zs2C7pY9uhke2bwb7-jiujy>bv1F74v&%hRU_-XwckLa$$r@_rck=V>R0|Pf&LXaE} zX2GeXi-ZA(%nbt!H0cuQ$Vy?`OV1f&h)D#9?~&Q!BO)j9p@J{7OyNbGIEd@L88lw< zT|3{(?LNgDx%rfBX&O?0GRM`qDK3qSpNUuXCTJ&VH=WouE?h9EIt zY2Q~MN2LiSUTfY!uPema#gFFcu8Ky_Cg}rg;B#2BHPHC5I%W-wv5>ZsdD;HO@nrHS zIl7zwKV|1@LnJtwbyjXGhF{nK`SQT6w(Ne{x_cvAF<)-`@!p9|@6w_Siu((J^@L%z zL>`r{3O1TI;rOf2jMAPpA8+GY&lVI6dDl?r zEqRB_(f(f?im?t8ir^S4SH$>?5jeXQiTiG##~StIXn&wgYts@GrGBoomr3@tO&iVD zWj0I)<|ixL9Db_d5Y$#B)yDF+Aw)oQwAG#b*l}lg?U}~ArLK}hlA2d5r9nVcARUFg z@6s$wKtn-n0MKRL5^uA2fG< z!hZH7ubV4@zm*BK;d|GrwqL98iy2jPUkp%;0I=%cA?o4tj-O>@3V*DB0$tp;uh^v8 zDZu9eD@1D97KNym zdB;=v|Nq}iBFaqmIwIq6vS*}>V`P;*;vgBB*+e8|7U$TqQlWCP_sBXNd(X(smUTGi z_wxRH|M>lrTiv>Gb6wYYUC;4&+#g{dPwOZdEu5jZ?+QaRv|jL`NQgdaqvA&ow`c_BFWU>PDFvU z6%F>Gw<)D8&l|qe0pnZHL!clx(F2tW^7t!#Q}Iw@?Jx(TA%QNlU#4+viy6s3Rc482aQpn6>Y z7rO5uVHjwk?Ae8Ra+(AFoQk!uEqs;AL#_M>*l`d!)g~7u8|8!lY2&Q;j zpaV*@UJz9AD=D)%hyYd?+IqE>v0MSfF{;9?866}0FT3w;idO8JwRQFZD$Chd?BcNegZgL)WVrC z{YdQ@5!gL6kw{8oovmzGN8G|FHz9g8CS=aZAZN-LLVoJJCHp5TChQkAhd8==n%COo z*tBsrnzUQf@}!XL#adnW&R~E(H7$43z1)q9M(lm(#iKg&Tu_h>HN$x`_KWa z0{|o$VW_23{}lO$*qSCx|D0BwDG$njPNKCIT;27@wAbj}z;Fiw%Vx)Xm5Waq(?RIo zVA@+rCr!iBA-Xx&W#14IK8v<*_o)4-NB=HM1yt_b3$%oZSo&#fpM2@#klzyqp=sil z9vcy)5somDC{w?iL6vcB*~f84oD=6$njZG|w=D(lp#CrhSibM|QL)KHt zPIS-GlVQConw;w5|IxR-452VHCNO`rl`AqSi7-aMX!&4j*9;k&;que|2Iqa&qxOD+ zwKJ)fOl+QyX8sEnW~>%9M}n=9KV6Q44dnc<5R~2-9@f47(jJiyQnMzZUQeGODS=7| z!p24K6MjAagAD{B{(z1iOP{5QI2D3++B-#sW~jZ?3NlRE+$ZDdBkT@_Qc#6|O|{Ee ziz7$?Y;=FV7l%suc!3v-(gO|mJu+3S`axPjU+Yq4qxWt?5FLJ5BlgJ)$!>+mm$Cq*g4O$U?n$ZTQhBfLzpaTMfn~l#vWEg_q5jhc92u-%$Y_Jz~rU;=|7cCuMA|T|(_$>@SXa`cEFy#Ov-@Op$%-N)<@xon{l*MgYfZQG<1wkA$GP)W z>dYkDLCrrhxmtI~8C1%Zj&+%3!r&?rE4;TTnf8sHaBiJtNZ{GW;|9ex2qN?(y`k71=bvbgWxxcTp`J*~nR@RJ=n_^HoE zfbMp-qzQh6fuG7|^#%p0Nn33Qz{nAoeu`r9)9+AIY+6_99Mw1kJQAS-FhFm8a6+J{ zF!`+Y_atDKQo3?`dA|C&LOh6_Jve@)g6xDUN=AZ!7GcYvV}GCO`e zqC=}6Kgvjntz;EC^_eHV!ra_^&SzjfQcg*zNem&$TlK}DAD=7^4qMG7lHeWnB&0mSwn%imm51XT@7)4$AcpawGRXBtto)FOGfmacv6~p zXJjl0X7KrdvAB-N`q{CZ;Wpc6{=}<|2qud;`?SVY_(Hb}V|Ez<7+J zkcSK8j*m_O-#5y3Sx36G2zX4nfUb=QF2aeph^^vz6?4a$70h|)1)HoU;Gf*0TDl&=MSeYGm*~cf-K-I^L)dmrnD@p zUBN0;qpUZ;l-Z%4@-G0Zvv+#N<4T*%-Kx>l1s3(Y*5n8pBG?yiZ1h3FC8P%t{DlY@ zDSH8-zTkS*tVE;rG_tYuO(MQd_!}YE@?*_E*Hy{2#sjm@=iCJD-38(`o}Qti2Y`YG zRdIT!`-slq@$r}=L#T31XY>ucm4uW3U&7zOyIdfZn@!>wz7qPzbBI+$B zm)^=qe6lJZyI!?3n$XY2AtwU?O5eyxn@?`-Q+_nW!><%L*Iawu9&Ha@+3reM;jR}k z=G2-(xkM*)DoAdA|JUYXqGHH*(H9|Jx$QL!MALAAY|~%!1}YH$xGv1ERJsVvY3fJk zpxdyjXY59HVg6)c&h^?Pb$_!4ul}xPoJTZ(0kEz_dNnH|4h;Iec9m5(L2K62aF!fv z!6BeW8wFhV%&nNMDr6XvL^AkW%%81sRh?;~Zb`o_$?R?gBv{DkPLDP}TQMraHuD5$ zHJ25;ZrUT7SrMg?zTv1n3})7$L!sYA^+Kp|FY&PGZg7`9B!-)>nsrN|S;CF!!GWUZ zxIH%CVf4J<51wYx_pi&BRwed_=eq+tl{BYY;@b^6x{R{!{|$^lW%#92JP;U5*r(w` zv5_b>a+o%tt`WgEYqbz=EZz-i@X)l@r>$oj2ZLwn2b_bU*ixRkLcCXiLx_B%6hRyJ z>#NCGv=N1YmbXnd2MZfR;Pz_lAhY3Gs8qo$h2d5x+_=~sw@`o&G$SasQoct=yx|Fs zPcA+gxPh!}k2^71OT&(E;GzvW>co<9fb+8EsKhY!ciZVCupT=FpDJ?$Ij)mnjEDKX z(R0~pOSOG$l=xvgZ~cCXw5Xi*H|){a_fRh9xo=v0D!p=~y%1$)atDrnbZ~->)0O@< zFQJJsBiCE4W1G}dhZ7mKNq-3smUK$Z=iVQL{Fa0K%{^U}@r_FCE7(c_(OGo||E=dC zT+95y^A>}>tOhAb7|`j6p{jW>f31H4CeIZsiKerM(wUrn#fkuEO@%NK{)VO}a!#Q1 zqwAj_!_a3qDL+B>Sg1TL1LDndfCQv3RkGC_;b3MfSM-?L7|A`-D0m*Z5&4*Zq8IR+0}K zE<1tD5!Yt;^)j`WWuK{)L7Wojzrqvj#Ltt>gYL7HrIs^hE-zLC9En1E13?DdT|Zw3 zq4OIDC!xrc=>&1Lodk_D| zoJd|daUwP);{a+AJgtarnTn8nl^uOEM2m9}Cj7Pn3OSOkYNoq@!tH#~oN=n#y zr+v7edjl6|)Q(qX(m6L2+$&jo;#m#p$&M}Dt+u~;a0(T?(qNRAPposB>dwQ2{;yPF zZRNL#&*`ve_!VrW{mz<5Ufhb#8+ScCepzokV(HUy_f0dsXUwkDBFQ}!)^s0f?giK+ z8K#9xQAv^p=L5=tfxz5afX6HfxP1ZI%^xY7mFiEFV=7V7`sP&%jorGOJgF{_snH@r z9Jsp5QP^O_GVO+j-KAudZ>TeFCN=eO*1-3mt)dTgN-t(rxjO=HgH?-?T6R#MV*gd* zC_cZAN0&64L@8%$>wOzsyF!Tf+Whz@8p$I@D{oT?&OBRod&ybST>rss(H;`!NYe!e zvZs6pIvX=b%GI`f!OYy|B|+qkf)tQj@S_X+2kbQ*2Y^$kz+35hyYc?D=92a1~3EKfk>4+-bGR!DzOs4 z;(h#o`9+rhW08A=DL%IzZ}c(EvJ|isf1lyX3_QgxzZk9wZYF*K;aMt$&p3Vl(gI#- zunaqDbW=8Xyab7P23REFC`xdDpYuj@|9Q8aPa2Tz-`Y*jMehM)Mowr#U@Ug{Z(&Ib z1t~7+nuxw=RLyy{mQ}X3x3$&a6cuA=W?g>e8grwv3BK$}8Dl$vKR)-xryRX3WxPzi zWN?(@7*oQ`hpwK#CSlI3!zEJ`YVs@c4@V9%X+gW$z&>&Q+b73OJ(SsZYPMD^3BWG6 z3b!{};7#3EW||hB3*n*rJU?U01DO>LDF%1b~r&g>vm%$3+l!Vf6k*HWQ+O z^zGMwEKVE=UL?u+cOhbV>^)&9X_5WhekiAV+Op;MRwxO-Yh#U~2#PWxCbxG7bLvFw z^i+PDxQzvCN+L8g2?B!^9|fCS1pndr+euqCQX?S^Bqu6{z$7G-TO0-n0uDW}DgFOK zT|eEp2(z&y;XSXJ1Ga-I^0(y|t5ofy=&_$uO;Tfe2rKVF+vQxZCO8@g-A_;&k25EQ zg#<0RMgg%jQ0=l-fnf{S%v=z4fc}sIVTQAXjI{m*(vbVWh>vZYH+#LOvZC0KvCwnl z&PS|4@%H`0Sne;Mrz&p;5obCViRC1!9TeQzt5ctI$?4c7--f|%b}ks1{=UdJ!LP(qAQPq=cn!ttz=l;LPH zoArRKF1Som3W=CxzdgXeJ>o!wOuXd+{H93l`f*qUNlXZ0u?x=WVdu#rybpr`rfZcR z$f|5mNaooNtYcgR*emtD`Xzi~gS-+93FbGklLJxso52kur=V5Hmc+bocodtHWefh^*$xU7GG@`JZwZ7Y`cIOh#XeHp{Pw?+^gCXWB^_>X!iH$ z^L1ZMgp|^Io(rZS1DNB1eHoceWhYDvm_+1(oc^veuofaTlR&VkK`PG-1-EN;Cn?El z+cw$ilW@ddp+1NqG&QPBCh3LTAtqt=_bn(9+w{2D$jyuFJ-b4zJ@em2F6V|&VW3n& z$?eUZ{AUvMIARQ1rQ9n}bL>r!Z6Q%_Ye4pfhA*c{?eZtp&%lnjcC!mJ3OwNsHxLHq zmk}JJIs~A;m@wx-t)cla?;R|@Y_xJ)ZbU2OPXCe&yFcoWTK~*hmZuy1!tz#bV=CIV zt*zA?qvB+|u(ErLiQ$!=>=B6m17jgM#jo}JKE$zLbBwNAhlJ5y_4bYgOfdULS$1TT{q zS;%S?EYMo==mQ7DZNnD_ULzBZg1#y$&zXKcXpo&)SmX=&Rj?n}q>)~CZzgp!T?g@I zr=}g)tP7N8>INLymXu+Jq&g{KeW1S0ZN)}{nSk62!E1)=3T+u6)NuM%=?BcSx&9Rf z;5CsmNF|Yy>}05#C@+7yxK9muZJV~sJtCf%9oGkasQRq3Ryj)T-fHeAmT!xXq(xlsJe(9nzM7hu~u1dSG(B!g_Gr&S}-66i2k=%dcs|p z`A;F*9$|x&C57{YfcJ;nsKuvaY`nRq+v%{N$Gs;BZ~DsN(4mO5FjVw#ilc-VDU^Pj z`+aT41Fy#}Y1lt$CuYU&me$iDw4bkzR(fVyV`n1B--1l(M5zq<&E0~vX{(a2qsJNe zONz4`6|9p$&w7-Wwm+JnGd*)6H6; zWfQ(%-IZ~LLl5@4tjr8ols~v@9(SA;WgDJuX^s88jHnRFpBBQPpT;Gi>)u^NS5@m~ zM?B63vFsRYB^0Hk=2f%QNses{wu@9YIHlEV7`!`Md%1~IKpIEgFv)v{t{>YCL@)v$ z1t!SyRysjmUBV04&M7U(GyaBB>JpKK34&>OD#pSe=?@~aD3%j+-vGiMWf+&-LO-FJ zD4{ysei^5F!%E9?Bl+e3GC!F#{>%LA!3R*2X96C^$%gRzOUX50S$zJF;q}`TpX|my zl3o3Mv4hhYi4cOZ0N^7v5mWi7!fI7F^8Wj8cb>ifFQ3%Wjri6`wI;E!zu2c&GZ;*Dg_GlUgmuiUr~rQ! z#rU5sG@aSkNp9x2E3j>@On6QYa^UwARrUcyI{OM4cWLez^G`iL{XF?lnTwz+mvi3K zIE0`0;uE5H#1eMwg=dDvR5c3PR$H3ccuTASojKAddW6cij`J)PH17zbz0u zuZ?)CN9=5z9l|p&+w{7dTjTMFBNt%1Po#6k{2|jvj)DZ?Q1)A7Jmo#Az5PF)vC=%A zY~BUd4mYBI;xvrTwEP#G;h#~cp`$-|onQ6{E2tr0s4<6Ws-7A|z^gWZNSVr}F!*W> z*npMkG0$XyNtv^HSu*$%5_5Vy)z_e~@|zQ@e>Z#ji%t>kC9j**TkGOPUe|>8tc_ZM ziIX)UehqJw!JT`Y@(Q=a&CYzLHYEiFRv#8@mqlNJ+4^r^3dyzoP0nOY8`Pr-PR-a6 z*yWn8_`notx(|{&Vt^_6lqi`v-^)5AbTYt<1c1}u<>(*~5vZf&EbzKTnGtT!)DgdA zyZ=ps82W)U#0&`*Z&#pRd-idxr27rintU+jN5rDIW%{N96H^eV3#`+mu-LLq7+7cm zTpa1;OY^oLg9icxuiVvi9_u$?yQcrYrRZl>eS=9!Gy}zBhX0BAKHiEcR-Z~(aoj7H zR8C+D^d!-vYL1goe0{HKP zWritFZrvcgmmYw23zb^hxD}$a`{Q5&{pV|ui!su)Aia>ZrZl5+^Vu@UU5vhArRv0c z9wwE9iIfjxDFD5NI2p5=H6tcpDU9YldhP<{lSvCx=NMk{(a@%W#oItso_x3CpMQQ; zea9fhxt3yy8rn`Qmg&X5`9Usp6al2S%A32@Yo2LWxfZ(75150jVkW;*`C2XW2>_XE z7Y2r>Q2xJn_X7a;<4`G}CazyMLsDvRM8F?WG~MGoF^%X`lw-!G1p|6*EW6fZNM0}r zfBJ~}$# zgWkk%)GbmSg##_GI6R2ShJ>Mz_}>3{J0GN{SkZFn{qHtB=7tt80N}Mt)oRbSp1GK% zQa{@DIJ0e6Zto@n#Nryr|6|nmgVO5*#7YSu;$5)8Y3<$svZZ(HujCUV-4DVh5vW&}UVXVt5RlQ2>FlZ4dXOzxn^EOvL$)NlLT=9Xw5wON8#N{q* zc_fwh1zCkNiCXYziU(+QqX=@<&_7m8$cf4XPhAN^3$zr*y9=HV70;jvBW`Mjz>IGi zQt2n3?VCXjAw(_DmaQa)!dtI>T2dMi7~}AlQlFv)FKPC^Yhv@lVTvmxxcU9z;U1v- z&i$hhRy^Zwe)nur%@wVKSG1H!o@y|G<6J&$oNLQ3u~~O6MKF+y4))y2=!a9wrt%et zsoY(mzC2U&sXRaAYmnN_b`D~l$)eI$py>((Eg~b>=?T!MnvUF<$PSmjJuQroIDyKDL1jx_|d$le!3C(Oij?bHJ0MSjkZa++vq0;i zjQ|-4;rmsJpkM&3Wyz*tGZ9qG3aj$qy9M6hIPg>()%9M^tS9(b<6!O%ttjQ zx6$v=!D}DKQ2ley_Q_W&svvm5w?E7w?{fF zxw2Mc*^&bX29};gVI`E@jK(@7<+9w^h3~6?LQt27B!U>Z3na74`^#{zLr- z7LcSCBN)X2sZeBt7kiHQ;Wr}w5s8Y8Nq^31PVGs1PU;<1yx`#n@_CKY%JgeZxm6Lb z?_$-Snv)3qBoZOF12apLcjv4>6TfAVr}gMwVNh11SGk5oe5K8}Jz|mmm0kc^SynSu zNuKs1UaqrC^Zu^ot+`-Q`yYVZ*cQ!>e@=F7|Bc%$A1X!)#5&u^Im&icD`AAwPvIbE z0lw)EL@mmg{Fjtr4X{sWeM904#R3e&SCR(KqajR5p^2~0*M>Ic^6%`4Oh7#*MdJURc{eRc$v1HQR7d8F|qT)^p7$kpV% zV~{^Z;0d+ z@X0~n#QaVFh2tS@>#im5g7a_TR!#a`zez+p$}fTPN2r7!n~ir_(&KwYmYwvD?t{VXKqb?To;QaiJbjgc;1cmutTY0l^gNkGH%6B~Y>$7o@)~bg1D{AWWvJw#db`!=j>Q`3I$Y@;s~l zkQ?r^4$d<~XE5aM=1+V-e8z>Q-Zwn7@?c`L=mLb_9-s!&$%3>#G7+B6#Y5|9PAAj}sExXx+S>#;epAKwh)Vv{rKxpNI?Ao*DPc z$?^)*elDV-bC%bx$ZjZS7gRFXamT1K{?YdpanfEKB-31y!#6H>{4dsGFMxQvEtHWz zIvtxDRV92{4Fu4Q|0S$^`3qJht?-(zEBr7?4~zW%8oA&#cly?Dbq$9LUMc4)WZ&|8 zx7zIfg(3)L4KG*$8J{3R>EKB9<{#2vQ!`3LirF%Ka25ANH5(=)8RH!$&bLMCt;VzS z#Y;e!@(t0rk$LRsAHIcfZH5*H!Cv={Lvh>X^2Vhjs5O6w#!} zmVXV>g3@&vMyVAGU4zgIiYYa0jq1P?pwU}jb-|0KZ4ge#YOr4-Ndqd`Ur?`*QHO%Q zp0KwWZASeDZ94{ zE9L=)-v1nH1t8jK>>*m@?;NYA=r_CB-Kd@bk~_7FeEmxkO^)`CG^rs}Y~10gBtq@M zrnemVdm74$)QJr3!*f3XPK$kN@Ful?hB@O0&~?Wq91PpEM z9N`7Jj@*bK4Tv4;?oC;PbTN}-OI4pRrd@WY`Hb-R{haRA?dQRrl)bg9K?6s&H5!dy zTPb@5`0hNX8ROw%YW~h1llwW@s^XkvyCrP<(IC&Kn8pa14NhX1^Ng|W@;5}`i}zZz zK2*Z~QJ&$c4ZfFP#uEESvEC}hjO$}W^a%!KM`Ol`3;Y(bQyM_>B~pd{;W}u|{{c7G z+1Rf$FYE3;3qXiB5QCcG_6|2O_Adktp!q=Zte)L7oP zJo*{hufuP{dg5iMeRBG7F5SYtGWecP%DPu56<-vTN;F8M>uXJaE=ihbNrAG)`94X{ z^nF5Wf>#tOV%uAMI_YCDH+ewQ><#w&4Z*gTYmcSKZRDmPYU|G}h?1Zg265(Qi47Pi zeNWYv%HvXVq`yUFIf|FRGDKo10{L;;X4wx`!kMmlwY4X)Mj>um6|OG0h?e|zWjA{1L$WeMXjB-X`+J_!Y!onKiKl3byaRpOvEA z85|*YBC~m_k80%8Wcji^nBsAJ3X$3H?3FABeIk{zfk?OWE?nkI|MxAoYbQ~=K%eT$+6o7j8TOjPif49oT!a2hYd%lH zCf+H;e$3_;i9}T?^@mo*D}t=Qs+UnLGm@+4vD?a<9){ zT_Jc}zbfmu@^(79Yxh9Aj^@70WF(}BZ7qXoF4FFn>{MxPK~Jl+eAor(o{C>3vceJTa}U>ho^oRj!V4OOT?cAPIemyzxyRBp5m}ZX zqT_ZwR*-0)HS-QyR1N8V(0t(V4_GJLVDDX!Co#4Nu_z>8IFeIe0Qg{u*Dw_)NEl{V z#j6mHI;ekolY%h{gkBIa1EkgHgu}53<0k#QevmXt8$;*i{+N9IXuhmUv%hH0Fnem* zBG!@qe3e_DdOVGa2;B9rLJKNdFG-0_&}NC*DS!LZ3d3{F#I5>#>xq`J7;~uay~2tA zeW*4dOK@F%QDdv`xyT{pX|d7*zdUd7Wp)Laknfx>KNf&Z0gd8HGlqA=iK31S^H;93 z1pw{ar>Hk++q24K%E=MHe9R7%3Sp>~D~QSS6WoVC!1ZPCNYC7~TAQ+!Ev;DWd|(vG5uWy9)OxWD>?cXH}5o-Di#@T7DnS z%4*+4E7}|yPa^RJ;7Jkuzs3#3#_e<4k^?=lE!K9D6W8KtyNAt0zd5 zcBl-E?#{jr#%XC=mx`Usugw{2Pr9xT*6=|clT${48807LO#hXnW60XbGSFR^7bH0z z63Ge_$e5MGHLyO|xMA}~{&iO|d~6GZtcZbhs*ssA^{ovp&B|u?_hP&%@M1?GfT?S) zjV@J;Uk#*dc(CX9nBvx^UvECx@`mYrb(sP}^sv-QCX+!~<}Tu1I<}3R5^XbXRPjaV zmH1cxRbVGjzHN-RKAesG{?NgEaE3s5P(N1bezdWWWjm%YDT+;z#8&V#i`hAdKF+73 z)O7Mp#I?onHFL!Y1I>jP3fg@PHOdDUx}!mG&2<)PxlnSg3^OT_fNc z($7dU-x3+}tI)IS<}S~TZ7$7#4$-X05ROm+`I{4WF_3Ubk*vx)&U}Qs&}7#1=vJ`a zZ`XeYE3O;s*W3xS(cb1iEbEv+U3hRjt)9!2S-9U=!{#?I^XT9lG2kzYjG>YVMN+Dh|hsv5=ER)+bH)Eq4RdzUU@MA<-<=cfbFCa_miEEyaI#J}-miYntQ#f@qN_nI_kGOcd(8{l9co{M&U_~=On-~$d!mWN zFxapdl0%31VFS{k3-UfOAwu6gO(llz>S{V<@nD|$Sj_P8m!Nfs@>54k%6Q%OKTmbw zTeg|tRG0%&26bzBLTk`b{7z+3H{U%js|(_1hR5ZLqjYILTX!^*>BrLPC{jEx(=UvQFD1Vt4d z7_TW$D8-GeU0DO3SVziU9|qEt3d`Jr?!G)#8RmU6|N1U4Zi3fz{&RJ1-PK4!Rk>v- zxPjO`ZVY<+`QF*fCuj7B6ol}cIwqTCf=d#L&0$(qn@Wa~i_zxFd!r){iDmWQXPZf= z?O=)Ih{?s}E6*PBQAexfdfRaU~!=%4o9NI-vqfsj}xzuF$URNhz4u;MiFzAK`t_sZgp)mGBL$RB?_J{|g zEK?k@XtfOUD~Ko?!@}>=i_+Pcd-e7b`!0EZ+{EJfU_BbS_Fok#MC#3Vnfz$j4*q@r z;PLHJMM*Nof)!zsh`C2FCx?;S7!YI5V(>@hBV|Bd4~2bX@HB(6yv~dLva*D8^=^Bf zS*dpY_2=7cADoYg=JJrW0n1aJrC)>!Y`ip8VZy#yB+&;fY4k4vtot^3s!La)>gK__ z=M5$+#sdwHS%#6FRn#Atc%Rl7Y&6*|Q&aP^SDCYIoQQ3`QwR z2{pbV-fF*WQi&og%2nf(nY%U#N_rgl4FjTFa+C>MjQN>jn>~at=AP3es#7gK+v8*5 zqt97>XIvV=0xd4gp%Ni=0eg5mg%3fxP94p0IWZ2#jX7g-ZfhYzLUJHiOjm(fW}?a) z0pe?AwqB3Z!~?tRk$E#*wMXwAwVhBu-_n^XGR7g~PV$zlCtPh=ptSKb_pU}1$W?ao;QNN9Cy%4_OqYCRQtUT-@ERI+1p`}SwUT70OJCE|C) z@5PO;zy=6uGD_ElzH!ce%w_~rZ9=|H;j1LuTCJj1hg-CV_vBnxUiH+8o93AQ$x&f) zGJ`r#8Trath|>O+aB|-8MVa;Z{D9KWS--^KMfyx-tgplG0|XN3d5*i9#Jj}-K|YxI z6Uc80nJrbB#@F<2g&bqnWiN8GpEtMP^~2-h_m`A0uFFiizlfFyJEcPl5C zL*$)(raUL+p(>b;Ijg#ZLOt?Ujk)o@U!qV~Ah{eViRP`L*Yk7V>3R@9|3-T{|0DfW zDSztGuCGah=&AT8>=@;W7xBoK!TBrO^voOHv!?p(IVz$h#?&&O>BMB7Y(_sk40%v} zs7A>=QY^o_pQhk97+k=?G*h<02Q#cH-ml>$2CPa?f2+$WYucs~^yj-JEpRXhtPJ$J z_nd;2l93T~NnY$PG~0;^n+$k05x-TFHbU6qc4}Md8^&E6QG^hkV}<7samsc|oAC~l zX1Fm8qOYe3{zyRBBeA!+%&740*ql|EIrj_VLf`H*i`}_J2j_bCDkn z&Z*NpHVf1A^AL$h@}K|J81G-=dT01l5CY@(k@ap$+8NXegPi&RL0_Cb{(B3iA{tdW zqclvf??3fZ1y*Vyv9BCT=VX3?J zA@JW#x7Lj{M_1;g+sW3YB1oPmQI?);P~m+m%+KS{BSP<|1h&LwYOr?dQ>o3Eo-9(N z5P4c8>g(LWud3H9F=go(1vg}jbBUjHBnpe|Qup$a@M3IQ+UqI&spBxUDqZ!uuKATC z${rG1+soDwO$Rlcx(po&bb2D+j_;&%)7HlC3uz!YSTRPckMlpCJgXd(lDlh(QJXj+ z|9!+WicjHFq4%Wh?WG|1tjs764YXM!+LJdPp(XR74FK z9;f-%TD^&Zzl5JEKmUG0YvH{obrd}ag@vY{cp|&Z`!naR;(uu(@$MF6rLt+Vx(46v z5iioKU!kZfQHyPdEbMOzoN6mF1sa!?-RR=rAxGfBm?G2yplka@R;pu5LFx?i zIsQ))D)Xg%;b)=lLU8V6viB-zAcUIGqWdlO%k^hX@G)>2 zFgL^Fpt_aw1_hhkNHj-`2rRsdUoeb@NzFpe0rEpP?ns#3ctpVTf)xQd}B!h{UwW7b@7c?fW~ zwu3?j=qNy85%k6N>^=RW7l-VcK+JL;LhAeNtQiwd=nC8lo0m|pc z9uf`o-*NmTqCZQy=sRw{>}>|W>c^odlxU)Cn>eZ%E>}ned>Ca_tEcXX_JyZH?J0(j zi+}W(hMhEq%;fjkFNa#r2@qUk9T6ORQv25sc&bcM5T5>2O^4<3DyPhM&}P1OMBsZa zPX0{d9wNKXPm!jnHEiw!+W@BIb_Ld`aG10W+`vLqu;;rK5-4XQ77Sn8vtxURVM_cQ zTh7~Xc+DvIFh~$xdjJy{ZmSlBBPMHzIvK6*Mg4Vt=DvrPo3t8Ec!5dA+#z>=#uk=C3%5|611A zrw9Y%l2T4#4WiF(b7KUjOqAS0LCrcFZuMhw9d))tXexQyfmw&x%%krgH+zy$V~V8E z5-*Mo2+IEyIz$3zOq~K@43{u(f0l#KX^UKQfzNI5`%%OAs}BhbWC%kfBEVskM+Cnj7U)dI|5yD4s5ACM#NhqKj?x1K}^Ya`4 zhe!ugW~H0NzO~F{JUxZlX``zIeb1h|>6;3dDgWQV6${39lgu`dY}83<6w0T#N1Wjt z{~;V80R+(n(BwSSoFAE!3Gi#={-Lpja4#=b+K(P5VK~{oz6E*#))vg#vnZ^+I7+kW z)>iWq8datjEP_qw-%^cAQqmd-Ib`*=J>>2m*)}TWr=}9+5=fTX-ZM-q{FQ?c$$juT z>}o50YXVO|Ddia$rkTIyitO8deYyi2?!<{-@zHC8xSzY^Cy}>AXDKt*$_0)dvue4I zeCe4IIX#bShAUMj5cEBV-i5(W&BIXaq_BcsBFwO?o-HIKncnHpEolz>#MHV<5qA^3 zKB@Ri#!Cm+JXpFRP#?L`20_eUJ-6hA_c5O?DbR?PRAunN6c6k{)doMz%?n3WL8yr* zk1w4k#3{-Aa+lXM8g!WKo-tdu*f18XP#Tk}Ihsl~H?MCrJ~_ge`;v3mhPG$rvM^5EhI(4t*)Ti z7{1)Wp#PzJD|-}_ty9Zmdh|)8>NoBLvmz(hf<=g7Gy9Sw?l{gJZljA5;)DDjH&~;y zz;@12CA;ugtGabNbl;j7vs4#qH(NU;hdPO7ngO1%4#4zjqf%(Wc)i3hcEKxx5unoJ zgEcP5+}pV$c<~W6VM6>6d4-xD*%=MevO+88UeeLxK0(&xf4e?aM@X}dzu!hpY z8Bf@N$^$BqFC<73?RQAbSzPS>xTknVvlS^X2&|_SPQbuNj&UH|jVn3FQyeAhNi+nG z@sqp{-XRKC`rn)P3}n}^X+(7?t7;{dX*Wh#%OC}@y$2CQ_3$i9&PA!}cOq?cU&hSz zga;{h8 zWRC`qugN?Mo&nL`Rb7n^f|I4L*0)i``Y=#)ovQ(hNxs4M;uBG~xgD}2$_`R#B7F{o z#4G3a#rtWPpubd|XEc6Y@Qm?_a8yW6_Ko4C-8|eM?zQtK1!7%rr4&ECZGpRL+d?Ra zz)QwmY`Roe8H+f!FcE+~YStFz{9-OxHGJYLTc`$<{x!s5OtwIT=3iCZg<+a3ewu`8 zhbFrQ0(xlzOAFlJZCPwsyqDOq$|^AY;l_>@)#vK9n!1UPIDcn}p;iz^34#^=*dRnv zYad8a-W8A1F?CKp1|G$(??*+z%euQyjBdp}4YSmFo@BK68jFq9#OOz+9=O^ThDFx5 zz_ap5kp8g^gHAk1K=krZn?q=gJ1N%vY{`8%d42xR{iL?FsjRIed-mMv`sX069Fl)T7qWux3@qpNdcn( z<*U}CPMg`IRA2n#7GZEWmpR#O=oLMeRM(r4L;3l}=L6KTAL?esb~&pt$c+~ahP4aRbMa{ zjQ0lJxyoywip71poR|v;outA^(L{3I40cKgid>Bz4BXD zISECUN+LEw`L=Ef3~`_reRS0ADx(BVfp33<9N14s8IG4O9Xn|U66^qyl}g%y18pl& zP7O*L=l{(bsGuc=X_#q_|Hg@8BK_Wj_K4^n)pU>sIfVhpVG`&>lv1Z7Itmy~oaPRt z_HST@!~K}Rv61F106Rn43kGES6l+@^8Xm~M(1Iqfs8PWvnA4juw<*M_l2PGOkth)4 zdgJTcp94MJB=D(Uca|mV-T)wfYVIuXS!Y3Dl)Oj`-@Sb5{^1n|I;kBdFNh?$$Em+O zJudj`d3*vch|!=B2Z&DM#R~mxyTmxNvT{3q*XY~_HH3bXjm{;4xp9?ntPa9=XDa#W z!uW4+Ns#LtPO6faX#hxOehkVV_w-KOuyhTzFgs#d=>%SKiyhQ zM%6v$eanChlM7b^mq!R${a4DXPz(&m1pDhO;fRzl@EIj2hH8djcX&PTVt=`?-}8Dc z@UXJn6Q>jVR}EGs9jvLesB%~>tI*eVANL7!Q zaFPP5*H9RFs{WNb=g%Ekk+T1frZbO+>V5yeHA`j5mJ%vPWStS&r4?hzzArTfY3xgO zLMoLqS&m&6#9-`W`Q6^1@9)1J^GA-Au}-rOH|9rPYZ_F^ydE5qA3?zrKUv`Cc!`cF-feFW~(;qxay_`bq zm^}?}?G=Q0_V|u@@H?74Fa3o3WCynHU4A7gdC`Fb1DJ#Ajy==7Cs3$a&;IA&&;6@+ zq?Y|}GfoJfpYCaZ&Cb;gMpx@s6TzA}K>}?%Uwz3CSZS1c!5KCYsd%WQ?#uykTYRCF zzQ1BXG)BJkarI15z(b;NCw5x|4I~jH3rn}#gkOcF;^b9JG8+@ z#trDyspP|I&E(KA#MWW;sm#Ic+3)J@K>VVG);sKSRi*xJOp8Jzwc0jc4&!0hgLpV= za6_$Swk)*ia4E>`8B+7W<7b+;j28T-nwMp>s3G69-n~6r!M|mAdMGopDW=Zp|+OD}z?)=v! z-6gBoGAmLrh^$;=P%z!%FSN&6FL(;Igfi?{Pqm!6c1j@6(@5H|MNYiEXUD4z&1Wd5 zhYi@OM>0qoW(8AYJ*hH(OM9*FiBr8%zYCi9N66yO_oxVs?VNT2ju*(x#PSyU8Hq2y z%WDw!xuL;D1D&2)(quUr)L<<)T)iZviZaX+R({)vZaj9*`^n-2)q~2>%Dx=Q=*zq3 z#L?J$iVQNwPKEX}paVG+UQ&|$%E-oqY{Fp8!+2@hPuIia4sv5VK5KPSZgHXP*uU?J zgOJ61aL{Qi&K!xSrRq^g-T@}<(2-d@1d1^Spcf$xafx7)nI7G}PJ=L~^Xa8a+P=g{ zf0;rH`bA-M^{Q@W(ynR?Zg*fn)lZ$HN`fv~EUi?X%n^6u>;lqPz8 zBUsDe)wQ(lX~9$KuwsLrznQqR{2f%rY5=pz+2#F`d+@PpOUW<}=Z;O^RMS+$9B zDv{I|!l)Jno%)KCFyGcG-j2Oh7gb2pJ%6S5F&dW#U>PLAO%haQWC)T;5~Zc~w{xb( zp3oYS`{Z76!2{~RL$llIHWPoB$n>|gW z;qH6dM6u1TpHv?p>HlGmxJMW|=KSNRm`Vh^C3l>QT~NPcoUwy=$} z&L!8~)UP&l;(PU@vG?1f_i-QJIrwIYzVcXSO6`97I*#_7bXtX8(%@wfaUY+--|Z1T zmmV))@8Q5BjiO57qq;N1hywrTU?HCao8dJ~Pf2P1!?V^@xgM^I1;QxdH_l+?8(k6| z^e@J{#4Qara$;hQkAO}xpcJ-G9Iir(ea&74lSbB~AwB!zpte3m1E0a(@_qp#Bpj~g z#HZb6w=<~H#@6bA%(1_hW(@T35UGc$%OQBe7gXar7%V$1tB;C;MyB?CF7GHE{lUdW za8dlIj!uS+k}5K;9P#L`hGC2@VWckoP`8psmcsv_(y~io9F6`rStLhujs-r3bIl&Bb`%YVH7*8wqigl=X@vEI)%Oll_c5?_RVjTT-mJTXnv9a+c(5aqpoClP^V0eq}HYujy_4lXJ}z#kKn3|v|$<&SRd{kse>f*kpXB-9vqS` zR=GCzKsb$bRV_I1^}+8$C>(sJHr_}_OHhkU#vC*apWxx5uXt(`<|}nSo<_IQaVH3iNMmpHEon8mWnmTuINdo3oT2M^faAg?zfJ26QP44pRwWjkhh22XDDLh80z& zdsKitG)-!obzp{@$4*H0hd~6JwO==8Cby>B(4S7)V?mZ>2)lzEp8Rc~Oa~l<~~i7dkc#W-qRP{1%aK{H`Xj-CHvu2l83+jjyjD zIcIPuQ9H4GKtiLDerapZKLT|6#}H19iY?qBdc0Qy9hI!Vg@CqPJyb8kk=>;du+eE} zE*fpz@x}8cpfb#Pg-eqJ3gHcb<^!Lyx8Qtcao6>rUQ(Z-Z4PPQOlv~ZbFw8C{C6EG z->i!O9R_t06t3x)Qo+SQXYtuGvm&Y9O4v2}K+nn@thfjg%;u}s8)|ZEn;b_SbRtk{ zXM(l(vwn=f-!5%KKi1OGcaSb#q{4#jS>DoyLej-jWpBQ5;s#0!A4BK6`-oivhf#Ha z{>L5^DZ@feeIP~~UJO34hO_MbBJUX=sRwFXkIH~h+zHmXmG@=Qpiw^cF*9>8DV%jRGshIkzm;OYM}!Zg4*3?U!DRHUq<*sD!x6 z^#i6~>RE&fkBBA+^Zdq5uijF3g`iO10;%wlmy(%1fmXb)tt>_B;p;l=x;Ik0y275p z0xxaWBJ?>j*g3r88_}v4Q3YyXAtm7%Y|a&FUP!k02IGF6#C9`Vugln#iX5Ro_(kJ0EC$49USy?ZTas-u9 z>gWR>%IiHIJY=biGPHLA$#{h^cdm!(*dkW2Jc3Dl|4A zOtjH+zM6GQGg^@5LGX=zLemdva!VeUt*{PL9mR4+>iLpbT5g@ZP0`dwX7kpy!ye&&7qQ`2_37D*M_lHVh3#pU>JrI=L##;nu0s#`MR60#i|>spI1I6b>AIT zYL#_Q9~94u1!TG@|FUo71PN2YsJNod)79B@VgdjAAv5(gX3au+bI5k#eYe^s zJ_EcK90zG#694{P0`p+1Ro>(eL=0kP^_^Zn@8EyyPe-uZ}`m? zjm33O6?D)g(+JRE6uj?IA7_354n$*IQ2^t=Jea(!;p~aV^q8T=cUPYuFE4RaS!%8tSy#}#uMvWBiN15QTzR* zgIS4EaAX}8-9nN*wiTRDs7}yszbUz8YiP!cr|OV}Dn#Mb$;P*uAXZMB=2#?-6q)1~O7YHh@$1bN9_gP?etM!t zW5hm94C?nUJsDD{*3i$r(xmlNT+Vkw*IhPM^u)q5Um zMY01_fA0(?N@e`HppM0dj{=J7w z&y`l`G%tb|`=O9Tf9P(S7@RZ{al zC_?6mK3X+}u_fF4Yxm-yC66@Ns=L;HhL2&!t^DV1SFtv4ja9SdPpGrHQYY=67An_) zY+!xNM~a0iTXHe{uys(X+TD-+$8okA#-4X>LjX+86vxBaU^*X=;;&}^EzUh$eY&O| zro#00O#E$wH|!94k+Fy6y8MU17X=M(p&XIq5o=}{FDgP6{7D+pELsK^!@PDzkk!0! z%aTONdmZBR#_5sZutiT*|B7Gj56u4>jEGrvBE+tBvgC(6 zfHJ-OZ}4BBNa2@QQaH4H>XKB}KII`5+}hy~?m0gu>S zP4k#gSD=a$*dLiW^zm8$f`Ceuw*mMpb~tr7Gvt}qus@59?+?0U^h3qG07DJ*^ESA+ zBMzFo-XcwSab8Kzz zcIAjLs;2Y~)`rbW1N0yDNsT{f3bouoY9W<_?vVT|q zVc)9nudG~eYu0?2Q$9$Tb;~~>{EO|c-_H6S8o*AvSNC(3t~E{(;_bwPqs&Jmxdt=$$X|IG)eypg_$wqJSOoL3?=Ik>Q)AvCA z2o=1vN9cJTKWdSu#vK@uh9dRDr?Cf@&u6EORcm7h(AamnPNKT*AE*elw~n8EZ)3nL z#xs=3X)!ddnz@{&-mUTLYe(nh_ov^!xTXzOXVCshDvh!+VGk3<-3n+|xNSKbWj}u{ z9K+9w(9;yntoRI0B;WM@ozPE-sn3?`8hugKTIeh6T%j@pdBTQd?TuJ+u z#mv)a?b6R|3TCEXnuEs|us(E&Kfb2{@>&xJ0|8!1ntp6v{zwovDQ+$gnIFS`d>-a- z>A0k+GiZfFoJE#;%zMvz$$F*0LM0_DYs?|S%b7D=wRI`Ns62kG0r$~_gRk5w0p9z4 zMyPHG;3A!|Rgq8%0u)6ID9bs+j*QMSV?rO3%y0Tj79ZOD8RFYlW7hs8Z|dYx z`Ui@RNPsuDIl}WQC6{K!Eo}Udu6~XZ;1U!V@;VvBJeB` zL{oe-Y7i*539EFTNQYf@(Im|<=kS^M48PmmQ(-f{ZD=2j_Jt#fhlx{)c+Mj{e$d zqxRQr?`DCBwIA6ejxj=CtWo6alhr>EUlRR0teRkT$`i<{f$wZm$E@e;kROTBJmEoK z2G*yAq48{mkau<4&buhxJFXUqfsLJZ*17v*?EyEEq+a>Fw=NA|a!|$pT;^kVn0{g> zpqI6`T2n%?h8xBxVeDscBo)<2R?Wa~2Tn6BZLqpRQiVV8b|TzF4k>c}+XLUJI$A@4 z*MO+$dk^Pmfi@Oic&e226b!(r399!)VZ-ALol8GeHutYU7}r;qBS5ks515GVi)YwcF&*_*~@mm z4-QE}pzKK9`_-UrYMRN5Kn+AgK!^N2T~Kke4SlgB!`@s&M*|kaLm$7}k&1d^ELN)P+*CR*hLaLiu$9SrM%w)x zvEMu!;90jiOy8zz)tfixs*u<%)Lecel*{Q-=4VE$CpNm=T2DY(%95DHH%yi;tk=8i z+>7kxr-6r&e{Oqgz*W{Fs9-U#^AOY039Ocd;UY88U%F~w%06G6&|v0@GE(fl}6W{4Cy-phRMx3VfgOyqxt>fp}pGh5pn} zCZO@9gZ0WA&$xmKm+f;40v=mw_&e~;oVzZSf4X`~k((;lPow_ACDA4Qcpynj)EkxA$-M2f{ciO} zJQF=Vmhnq+VEf;V*ZDs0c@rn;v2EAFt%z<4>KykZg-{B(9Gowt@?a39;_zCMq+|@- zLY26&nS-ADm)Hz~FJEE!8=0ua9|*!jUxJ89srevRp@KsGBOERuN%Ij@*RkiJlQgJ3 z$ zh5q(_R_~D{aBFy>oLoI{xaa2tB%!(+vK{g^~ z5o8ZULv#!>Nf1ItR6J34(##{;i!Xep6uf1PXqEmNRXw_^D_iUWfh&p+UGp6l-N_-v zs_q9V^&0zn#>@L^0dAUz)*>=PaeP+S-673XA z$KB7`*1A*|sBOlx{_TBx4xADa_kmRR=AS2kYwt=s=ZqU*hUVzvnWciy0Q00!TK?ZL znbk(i&Z5BUnfc!c;>uUOBE1-{6i4RPUoY+Hi8UO{N=mTm*Bwg~a&V5~h}6OKS_kw7 z#$Wgud0c3t4b4mC6oJ9cYF~5?sqiazpb_PkG%{v{%rpb=G%OzoG8Ps3VgS~r8zGB16$h<<35U4tK4L76D4^qD56!2@($n^Lw;vo<%9|!-t?le3084nNh!00lHtQL0eI%+-N zpCk!wT{dw|`*SRn&1SzVKKQVdtxDyro*5tvuT&otB-3nQf}# zp8Gqeb0Q}HRO-mo3eN|A#6!0L`{~mopB4>`;rr)ev~2?1p!&jy1MYhoup8G(8)Z8$#t?y9strO6tE7k<6~@d7gs zaHM3>Sp~3bEI+7EM;f^EHfn28-3upaaN7l3nlE*z!Qq`&+)M1pGoNe~PKrqa}KrSDhqv^2pWh7xCV8I1?wk>0S`y>HLqdrrZj5Br@3Y26tvDf`x<-o!5$c~=f>WDe6~#)WE6ZY zVZ-|rS|K@V?;?w@C*`j_Lu+&ZhG#TS4vZzh8nC1jH>>op3%HqiTxAf;#ERzbS?b(h z)E%OdsVd`qXm=e2-7|9$K#XRkM)mm3&@!C0R*NXSe1KD28aN+JP|DfoQgs}mWSkGG z&G)vLW#4`zQg5^+jVIH&>N5OsbgdfL)vFfYPbj!={ukLMVUB9gE%cXH;+7 zuA1lB`k7^)`#Zdood|ccLZz6-Ud=_xtcpujsRH!p)K~~xryiQ-(CDFgY5u>GG`%|Um9GWaoVT9f&VMawcTNkF znX$KYp7?&7Xf#-&?Q}2H{%i^hbG8qSj{GnGgzoI<=hWH-i?V59LNoS6Q7wDSA8wkX zPRak@Q~y8Q#$3{dcu4-E@{#W@CdXZF06XfnzV9*;>ef=TP3+T6+2rk?2ouT8c(SbgBv>R)C26d6J|t?< zFJ>}k#r!3+EEC&~a!1;8LCO9vy*u8&t}E>dh*Xp4Uu!~LIZvP++|U*<*j@)MOn$F( zqqbVd^l}TRc>!7R`Rz3oL7>X(xjU~@FOhnnIVBKt8!UP>o{MyKF?^38-h~NliNxl|Sd(lH$aF%UTvnNyC;t#{6QkT$iR&^HU z^@<+tTIKb)uC2~b317B8jj>o8Wag9fh7aVgy3LxXDb6oOgp_*Rv-G&f+3N9d=!_$e z-{Ku9n$@Nho-k#ZUy2w1M>|5FliOn-9$XzpuiX#qZ6DSCYMnL{tD1hozo+G{wUm;6 zRpQ=)H$KK!Uct?$S*qK2d7sC-$FtKhE{DbXQBh}%{Ori*R}Maw3)OQ~^BW%Lr*&c0 zh&RgJX~LWS&X(-(2@q}>=y(Rdq2q=c08{HE(XxzUS33j)_3o<><1^TM`+%8e|C#+U z8sf*CN*3*V8!(<@R3Z*!;B%7Ktx;*B7jOPTTn*I*yn*_KlI_ch+#=7D2IVft$xsERB0$ zCubV8`Y8YNPFs#7Ym=!-NM7wEq)^il%f0l`CN32UeEI4ToYKtB%IWiE!c2& zH=a_^67r+=rgZd}9^C^QUyD%NoH*6_9KyWvWZs8imjP1x-Q}9yEvJNi3?$Dgam?b{XE`P7_`QIlf(k!>Y!*T`!m=}FH{!Y4u`YM@x8Z7H zy-+^cJZOR8ZuEPFSO+%FjqCG?TbCzg=BsVf*d=8>8rMYf&DIJfTdmhAWnz$~Q@&Q- z{-s&(yqI71Se6Ix(%wVucV?IDJ$pU_NsKi~A@oPos1H&kJ3B!bb#(ug_TbV&oRy8P z);U$swA5!uC7iDp5;tPy>XfqhqW@?q3g>N^$6@v{y4SMPTEmNYEgT^g^dw!!NjL5K zx|+p7@z?xzv%j8>jUk$Nz`*@w};NEN-~znvZXj5(ex;Azee^lUyL^tTAEZ9mj^|wps$&KpfsUR%n#$=T zcd2{^3wSBZGYI>~6TMC=>o^5;m-k4_%1F--Bz6}2uugiu?kw#|l-LqEo^ksm>Qe;N zi_MJ!H|b5IC+m0PxfAvd zKI>L?n!WLroLw{)v#t{@-8aiAloB7}Zba)?J)y#nZjCkt^>4j_r`8oZBYJ^gn)o5Z zeg_m(+V(RQ)KD!*S`GE61lxXTTJ`M%0rs5#Pj)ep{)ns9XB2O8#u*Me_cNWifAj;V z&0_EWemM8RYF+=KpP*qdcmu372qMxGp*I#hp_LkL5p*Pvu(Y2PgOpn(xOAxBj>Ovc z$mw8_Zw9BmP=)S6<;%<^Myyw=e<;(4>|w!acK9ttc_U*=Ua#McJEl|{G`RS(x7u;1 zeQ2~dK77IRCbmXpXh#<$!WhLh(@$x+LZoBc)l+}nO1$QMzY*b9mm^!86*EfU1Uxma zR;3BNWZsInB!#oXzXa9M$GWQg+FZJXPbfTMP18rt9FIGg+vnu0?e|U|laO*okp@an zGC5wTb+MY0LMmk9A%PXOulVm$%HDtSf4i{m=VqSLrA37Vw|4^bCn zCi`nx$HPXk@E2`hkGk7KI%AKxEd}6CwGl+kyl|(XImn31-2jaR`nL5ctG^80=0sXF zn3wfJjI|FZAD1r0K|#6R4gko3yd}F7-Ol9zQzSUoEoZC0zVx}Qbl6)Cid)>JD7*!j zDl*aj#;M2^zIfL@xj(gF;#(V)0BU9)Qx>OFoHzed!v(%fQ;`v1&4UePnVD zJuZ#X!M@XD>bsF<7v7ByV%x&wL)ElFt_1UJUbn+DAojna`hAjt{+knw0HEDu7fVNYYajiq0S@tk_{N4QPGl8=$DZ64i=}PWf{WPwQ7*i;f#B7BQFFUt&@#HEfw78E*PS@;@z0rUci1lg0f=-K>GN7Tr-Wdb`b`5g)f?q&WOKyO;7s*3>0 z4hb|eCx5>6w?~qhd1CZ8jz~U&WV?D~%7p@3?ni%2bl0pVqkM}c{UvPXUC6qRK73)$ zD~lgtp?+W9?~@#2JZ^7kKJBJ3=B+QN`DP+C=!Z1^sp(vo{D{5hh>tos`*%zUedQI& z#;VC^y;k>+fU2b=EaBYa069F$*x@}K1n;=z_tQI#altMhpqwFn~=?UT7`52lXzWY3C!Q=u%(qOCK{&a4pV2I zw>WALM&zEmIm{}9P?v)%(S_DqraKtyG5IUcDgf!E_ZUiUPCYriG%cBCw${IPKau{8 zebp~r;?6qfH?#3mtHDe}4(S_?8oo`}!qZiNJ*87ckYnzrbG+`N@@3Y+gn)vj$gZL% z(CYoX;Mhn=eqXhdLfdmLgqE>f=+6lQh_m&4=Hc(tA;7s2dnQPlfYwq>EXm$7{?_hc z$JK(CRgmx@G~7S2 zToCanOiUZgd^+-YCAeS$`^z5xVabxw}ojv~X7?uvM{IFN;Z)b@wfCMfJ^+ zN0n6XW~A2-)cWJn9X_6#UGp0@O4{r&-!G?`$hW|b3&{0b$Q9LqA1$jHR4CH1HqKfW zcn=4JBH1_26QiP{o0WrD;}X8_RA$x0N^9&`1k^QnGYDQRAx%>B{T&fffVp{gvqlnl z_YPu04o!qn_rd(SlKL(qTkeH^1vcXVmx@FLN@|W+kKPMDbQFR#?KB_lxZI5wL8b5s zEe!){8jyPsUu0QO&0=r3YxBLn%Z4Grbly9@yQ<#zvkBOc)+%LzZpyXDf$1w8U!Td1 z?w_Yr25A^Na=<6jZQ{=3gGIiC``HNPXMB6|M=J7R`=+z?tFpO+fPEF)Fo;&u!Xj+m zE@xMNp_9RzcYhBDRx*ASC6t>81+lS(FE#@>FgOu@do5H~=A}8E@ZgtT=d{E|Jk^Ik zo5tba0U=Z{P_u z_x@}Hd{;Xt4TBJny8bAi$}r4f;r)k$ze|J0AFdp@=6*jQY`<#0f#~Dke~X!+B>-nu z!CV&PQ3&%FbVF}jXzaFrkgF(mZ^rdyH%RxtJY%D*NL zG7iLmw#Qy@(Oe4hzW^58-mxsZ2V5ibqT)s4&4C}>2k&#)+!v0ZnMcVobuxl2N6Diu z=kELwU>!}ln*NX(6@Ar4pOz0bM~82>&pm8q&qZbx?OksRkS51V$F;#Bv~@)%;O2D= zHIsQi-8jgsR0#g}!eglcldCLJoS~dKdiqsdEBmXa(fhkGc5WACs5Q4Z<0+;5ClXx0MlzqV*@v6&mkf8*Q3tLysbKgK;P6%{=u50+^BW{O%!DbVYrJqv699tXwOqw%m&*x++2 zG(hY=2fEL=?$6-50zO>{*6}!J4?yv&3{4(o1|;neVud2dyM;hbHNE`%YB~J)6cLKy z!k!YE{4PDXP^cU8X4>Uk&Cx~g{d~F54C%Gr+&q2nf?@D^$p3*fxxWdmijSwFnH7Jm z-ET}I>!EWMo5uE-Nz5sTbjldu?aWN9616OsaqlhF@2NZtJl+`iCiFAWT|ZMcOEYsG z9~RgD*@v(3fDLTw5&HS>83+0m-BF*@xSDfU2kG@nRpG4c4X-ghsLyJyN^D1U2*4Ti zt-2I`C1BH&m^n~@a_kWJXF0zQ$A{It4EEIH=n$!|4Xmf^9XK(`J0MVrhff?M>*f7g z8pY@y-#-20Y5FC@FV-N|e`l zp|5Q{R=5pKbL2|@7!Jt;mvqh5I-u-F;!yEip0t~7r%@)TmbiehUVQfw0lE&BBuFJ#66Q|Vz#!naJGpf%A-ICSr zAzj3UrgaUIZfxG%Z2Q(bJ?%FWapLvXb5+sB6Q#~$_XA~hT|0`ABNDTpHhAo9#2RZF zZqNFHd{nvsQ}^=gGPrqHo-Vy&S84}cwBxS-&34>zRN@F$vi?;1WAs?AKE4f(-2$BS zS?WYO$nUV)Y8Qq(TNxP1+b@pB(`CR2*beB3J}WB7z%*&+`l)2Hi45H5yj!GYJ66O= zN&fiuOR;30<-ddDTf%u8*{jG5L_~gIeTa=Yv3>wb*B>i{HPVgpD_QtomAbmiKn*DGx825tuUtszw6H)AmTA`5HD=i2bPZIN_)Mg zLC2%VnwkIyxkQh>x8nrL8shr6>-oWr)?dNgd$*N6mb-qUWSinPsmm!ZNyq2|ZrD0z zgxom9v1K>7oHIG87-Grsz;kQ`>aHX;UZ4z@kp=$c6%-Bklzhn*P4Q*I~pXT8G@JXd}M2Xx|mNY$U+kxvAOENp!STz4w&-m zK)MB8N@N0WH9R#0no_zH;s`Jkx>Vgy@d{65{gI=aw3FkFG$hWoet7qe+&Eo^|9p1= zgdObE4VrxW)!67@wp|!9&zR}3p1o1AYEjiAP9I-s``tCBb8^dLZ#ZH0q~8z6ZvS3L zeF1-bGO+t9S#t56S6}GF=?=@h8j{Y=l20{<*hi8d}`kvK!r!&^L5oUY1DQQ7-CAwUlZ?xQK#^k>o z0yl>Q40a0%`REV$a6c@Tq)1h$+$DjccY6G0Y%DJf$3bpfSXCyNPl%Sqz>kQ(5l@>a z=>Z{-zpp_4j7fu4UV^y3NOHeE^9JrpiBEB-$7Qmb&8C-=(riJ+hq_+>%WeV`xA%8D zSI;gwq?d?Dbr)}0v}SX^(!9@?VdkCjyM=RU_TSd$z#Jd7E>K5-Defhu&}ZT$B^zH~ zx-NQCzhVcugHnmMzIy-PKV}g+CcG58r8zmGv$nFe@e6~s7(0d?#g507B>^!czdca? zQa8=dY{Rn%RBQzwVe!+!_w5K;mp49(*ESut#aFVniiOLfe?@Z-tk+Y z^!aD&UV2w+s&EOlPFVjHxpjT6X|nlp$U`py&x|NaUuA!5*Et61Rv!Lr_EZJwQl$~h zhPS0W|4)xm+&JZTy<1|f?MRN#)~FkPq7Q-E*#WlU4M67?y0dS6lGg&Jyq}y;+x$NO zuIko%sPGMpNqO4J4&2$xh^9|A$doU&I?a!YC?2 zWglP<&tS1Uj|WLn2+)yit$V zXvS`Azu8i5ie)#?p*;S8Z{eX%b+f|iDWpNQIY;$fN?s!H;4{!?7+D9 z`05)@~2_~F7tgde`SeAPqS(s455L1zEmi4X6xvcITWxL*NV$dajcDBb&U|1@!&S z>TK~BCy388bNcB46~FPP+Vi2Romvq?LvrD;Lsr24A1K&wbx z3Os!L$b!lm2?^i_N1`#l+D`%e|HOh8>p65TDO4mwfFFP8<&Ov5y6!q)lBP0DJGTl# zcbCY6CwCQ_-idIs$aSCDzmwcV`kON6v3-RXUF60nrtwp1q{S5EtgJK|=L=G>0b+gGiC{MvCVG%(*1GeB*Va+x2Y)UR;+M z)0a@f4NRBik>}sJtv?}KKPBP=Xvem0^GWSiL`y_d5_IR4wZdk83d{PV|NX>`{Jt|V zn6hhGGNEeLhz7r==V0lEPt0R6Gxf6zjs{ItfbKjk53ix*{Cj!f@0d>qP_dA zg)AAd3R>54vt{V-RUWy=IogqJBT*(JSk-FpZqJ{Q#pkF#e8ga5)Ct#h=%I?;LQKCf z+)RHV)edFt*dVuPkXZSza3%0ghplZKZ|&^5MRekF%;26VRL$oGXps(Q&#}yt%Dm}Ll z1*FPDmDbqojJ3UMs-!{{#Tc4)eH=;WX9Id~ZYAXzF1F=+Ro9|O$Xw9PL%idV&xl0& z*viE@7q3g{csIO%>^|VwqPwaxfOJggc*fXHi9)HAdV|BboUzjRRx45z3O zHTwl`cC)gHBy|=iv4^&F$>IP#oFAsvshPGqKZWFyc)#SmRjoN|&5Eir9A(Dkl_iGt zJ}pt9{h%APobA=v5JcRpd|u+LlqG4M*rRy!5>rOGb8YE~dy=NdQ1W#hsiJO;aG*{1 z$wU#<<#33;3_`_&{#TfQWOc@{7u)(shI$;be8AfPC zmv~K0$TOgrkRVY5Sg2s zaBEW$YXKFjvb3!$vnTTjeu;4QCm@ZHgXMQTiR_L>+w1*IAsH=_2|r zCx$1?%ZYa@i?OqPB-!o-(P32OS9kuM!dCi&o{mp#vXaC*5DI1z6TQD^kvn)ThYOR=a5f%DNm7_SP@FG#6a=jo4SIZL3)3sZUVI zfaZg0Ff)rZ!2c>#&nHA81uA4}9^QEU49}6)26t8IV#WHh->U$o)`APLIO|k|exKa~ zueIIs09h~Hs?xExvR0EdsmINq&Qd3%Zyy8`*+NBX3%+fXZ^*@M`T2)3h%^J{=#~K> z{W={rUA9NSo2~D*r}~>BZE(vXD-q4 zU+gw}b7`RttBgbPJ|`~q3F^&GK@UE1Chu10Ck!HE@Q!V z-4eM9LRkZ*8@IlHec9=F;v-RUn5IMK)s>qOH2I!{?JgGP8~XD`skNM8PUAWB$w#gn z12*3N0#37qARmU!RH7mE@|qx@4BHml=HO1k2PKLU66_DjmsTB1e<2x@rTegf0jbBiY}0EwR! z(?FND9Q7_@I#|y^XWLpYGmnY?T_|~fCbbI64*~@HEVC#Rw>=P2-#dhnSF$Sf=6$Uz zk)IO#)b~-k1}xaMcX~=%cYFNNSfKH;?oZuzxpWV(F>&gKR0!Q$`S&Y8D4e<%$j}%Y zXrpDI+NGFe=44CJ+njkV>Q1&v7`ut|>ZA@+?n7V8r9w-Mrl)IT)9q`3UQh^(^u2Fb z^W7wAw0szV5q#v^@*e4|BsnQ4FRz# ztFx#W+j}h>8K#-p)>q{9xIQTw=fD;5ztI)b>OKC_c>Lp^@8qK5#gx<{UzAG7g~o#n zIyq~pvG*=s8Laj*4r{XQ#~?y5A2$xHM+JS=$UR9mLk6k~&3spr27O~I=S<$h@HI5o zY!nE|PlOS|_A@cj5DjwR4i;=0{r+++U!gV-nLH=MSUCNC+$!k9e@96Fj^fV0Ih~x) zLXy;`YK5&CR<9WIh;Ti0QRw}r^sqJd-M%})ZVL`RBXTyT3xTK9j{C6Nm=66Im|MIU z^#6D|?|7>J|NYxSAtUd~EF;|=yD=COWHeZIHfpOqBOdA=Uc>v3K8>%^FV4)$J4(=XHb54mchWEc~Coaz&6KP+as zekEzVf%)sixpvDQ{ZKC)zMnm8PiR=JwY?Z>@|{ky2=|`#QA^cekfofp`c%(550`uX z$6T|O22yMbEW=Gxp&sw?g7rgA3oLO}%VF+kNx&zU6t5U6hKfg6rBhRc#tA|h#5wK4 zAjbt{r-iO_m`okJ{Yj-CR+4Y_}0>KNVwAeUY|I4Y{A(NjmQbk;kx0vUQmG5W{_TDlm$uEwL5|C&&0=s_}BWxZp zUUB@t^gy%a+Po70d|LxFvD*aI?G>;NY)>889`zfW-+R9#KQmMd0)P1W9ce@dSNabQ z(W&3l9t%NnOIFEgyl`f5{BKZ%L*rx&#<5uEHv+1422wR^J1m8t5`tL{Ix+{hZj2>2 zqyKj^hs`poAFwQSj<9r6NGlZ(oyrJP;lf=WI z_pkdB$!3|k0mB#6;v|nM`!ObJNx^$z{q*u^KFy=Y-1J%fJWYf(RBI@DyTAR|iKyVL z?(^3d^ZGr{FYW=ccSXp}Dc@c1sy-IX8RKEYTfE1T(WpXYyl;5NlDG6==sE)kEKkW~ z-w-u`zck>1v)$IDLH7fQ5envLJOGGk1kLH=0qce3uL%$R)rzk>r|z5R0oWNEN^E`-FFJdwKA(j%*2{u#_PbL~dRWqVyh3sf zaAN}*(|`)rs+aTKMFc$wz##uE@#pB9mX(wZD%#E`rx^UBL|^-DrH0<$f`IWz60SeT z?FuV8X$IPV`~P%Kvk(O~m=9;Ol`wQQt)|ZizBK7X6WQ z_^Xr(9voQ1FW&1+Cl8>T4V3sH!37YhhFB7lcLPWGgw@hB=Zc1(FCO&wV#gQ?H9 z^;a@CZrND=@pI{TQInBKMvOa2H;4&XC#(%&e%tX#JVaXNTLzeK`8`oRv0r5jUAYw6 zrAvlKwgw$O(~J*_Kbo~$;9s)N=Ck>Vn9M`|Tr%w}fpS!4k|&4tYmp)AzzJ;2A+VyV zA!dW2=q|~X<#b*4Im~TzA`E=(t#NTxWJMVoKgcZ{AyO6~GU1sKhDYDN3Zg~(pvAN1 zw}`5@PCIU_7)|^Jq1O;)hSTwaT^j!UYVCVxN!iQ~md86e}f4022UA@v_oABOw z<()%_uZ`HSZA_5oXYOq+ohrlTkB!f6&|&_z9bZ|M*49?CLOa1vGlJrTuyACB+JwlP z-6~vLU3xBqNcFp|Q`ZUXG<&)}sq@1aXx(Y0EEvSY=+6VudSbC@z=2TerHrrVO46~V zLA4t}2#t?wU?AI;5BT zUz`5c)4>cNQChRpeu@b95$7j`-84X;mq;=UFNgYt{eoR8>YT8e`ig?RL-m@ORoT}; zVhgw0D*kEGB?uM2RKd)Ek0DW=?@DRtJ`9uA?K#8t)KkezcDh*C7jCs2gS1jRq%t;) zb^bPPz4d08DEq#&qgS8u9b*`sA&Awrx?x*4mmS}KA_%E`)Wb~9{OV5yr;wy)qW0Ln z+D&$om_f_fs&~{2;<2%gMZEsXcCb8lYy_8u}My zR|;#-!v3~M@F$aTF!^3#=s2S4Ec8neJ(4upa903WGb>mJHM^5RGhBybN@L^aUqPli zBWCyiK!8$q@q#>Iq~B{Vu)v~2bWOO<(D48fyXsy1`~+TJp!|5xaQIfeXb&NEIb7ei zHo5+uS_X4Ps8uf1G@l0x!ltKIKOLj{U?J020gNdWtAc1W73>oj>@dj+lnY1sPX4bH ze*^Mgbp_kUf^B_!>}6}K+y5b5%;f-L9}6g#VOI6S%4#6&kU{uPo6^|x+4XX^hByek zy3olMUjPgoYABNL*HAb>$5$X5yJpDORp<~17=Ke1DR2^vhqCGR+NzmG{&h({s+ebC*IhA+Wm3*!PoUM_)& zu0#rh5ck*&*cV$zbszgnCl9mGOOLLe-}|)t#;dd|Yb~FFwt@W-oB0Cer=JW|r#3ml z?Js_htXrHGyXLe0!lh04ou8!d=Yh}?QnWKS=gqdYAe0_v8yx7SA-rANYO$Y*x?Xsojvskb&(3+0zGP(hLV1@(msP)x;H2HB;f>Z z{H=o>X`eDhw41;Jopd>{r3S+0NFN^V71{6Ph=w7C6(#kbNc6O9SLg5X%!WDItL$VV zKnF5oIh>S#b`6*Hi09&L^HYhk3i&Kzk*eHkf~jH^xhvej@8P`)pW+xmTyZ~}%6^D)K*Fy^RBA>trGu|(B&`=919HMT43C3p=!JQM_V!%WxVRdoY{Ms>)H5OnK(mmkH; zPH?6xeXu)Fmx&)*`r>*KqSEC74PlV-(NxPOPGu}bSxn%oK=YH~rMyPiG$cbZ3Z3z@ za(@M8r-{N_alum!;K7MPPzIS%7Frv|YP|1YKxir}iTP;#0b2&BUgm_8ov>S_D>lpb zvU@oz`wPaYO3h9E_^6xpu!5KAdhs9Sms6f8 znD-9N1C>gyXk1Uu8L1^N;A{?bvlot?7pZ;@vlmW9SIWWQjD4WI>dd$M#gtILw2@Yo zj5~Xs$&w{+cZz@eZz$gSNb>vgO;yZe*3l47DtPUuZfhn*ia%Tx>v=2w#l!6jW`y-9 zsp$=Quej_jc1RCmeg5_UX_bkrbTF|;*`Xh2vvPB8r$ajE;)Zf+6P;uH@I<3F&q;ds z`{WG-l|CKm%)XWMhW?p#kujUBrmeR9!91S4kBjwXIKTHjyWRdd{2+oP`%rObY|D-s{kFNA`|cncFzr1sx#a$v18~hI3*~f zE1G1J7tFRwONElrVPhKlA@48io}@~y7&eIhm0llv9|UA%uMwolpQAO)+E5+aV6N#I zWnyt|sh@bMIwJ3kt8vDQmqWC!AHvz0*-&3Q7FW2pe(0@aQu_PbG514tk5$J;J5$IUpxS+Zm z1ydxVofa0PNs8zIKxpObR!+kYky8*&UqcR@gd?4#6ryb_o*CN;TR&g3bK(U6T%GJC z)2hVKVPr7C+{5T#7h&t{p}bRokI~k-twk?G!oi9OADSl5P6?xN&UzwHYScx25URBr zQ>3h`1@D-YBz@CU4xU1>(qH0lFr^x3UvOpn?g{p6G@&W#h-fMgYFWo{7md8)7bJ$2 zA>eCW_jS^6Drx`)JJ!=efORw%795R(={Oq$9CE-}=zJCb52i4w-@DIoH+nSWCt7TL zSC1<1tiQ7S@}~5awr#$|m>fopiRKbO)_gXsF3vfBAaa~~a;=qZJoQ56t};gNWP1M( zW#ii?26F_K_hqv-=G9HUm<_&=Un95s{_=+QjXYkpxOpd!dAd$&vQw6WPjHqF^qMto z@a^UwHMTE%Ui=dP)76C1rg_{nNy``1Pc??66kc9xMr;WcBG5vw{BxawzHOj<`V@K> z44z0@Qu|ay*^|_Ee{)OsgIdsh^5fg)wClp=>$V$q02`p!0t4Y)m@ZIC-E7s+03`}k zmrth%C^#j&n!8FX4kXoeR83RxvJ_CxvELyq5FvEUvB!cW8U&Y>X;T>iaq*yp1WehT z#K$dojD9347R30qSDjOij|}Oj23*u1UFsilB>lKnS#LdpT`9KdE=uUtJmlt@ig~wn zqusI9mA22xK9gWe3^U5wklONNk-o=eel3(h{Y~rcv{1IqGEK<$T|vNurI8IL#45&o z3Mt(a$8rKl#X0D+ramsIz8BLpsorAXh%aY5O<~nU!C0iV8_$tQIQ%&~coMLT1%(U@ zV5N$~{2)seq_eJ)2uYteuNpqRPY1mPAv(TBn9x@I3ypp#)EWZRq3OJlb7PJGo@pmc z#sE^S)t>ciR9l_;T_&kw&o{nfJxs`lSD3Cjt}2$g)+q0F{r5dx^Y?4b9WbWk zFKhpsRd0g-E_5(4O9}jFDB}5y26_IjN zbMMn~Q>u?|+>L9z>%!;MipX13!LGB18=@3$HC>uQflGkb*FyFlJ&VN9pKoAVPpj%F z^#6$cQ5X#n7#jL;@F4XI*!cLjsu$#_@jVFS(Hmc~S78m4zdg=$zYU+Pt&|E(Fb|Ar zZejXmtf>Yg@xA)%iP3ZH%f68)mIko$J1U2oRsxrnYRd5b*xg`MSbJoOP^E{57(G;_ z86QsyR3al8lhMrZR2_%scE+IDD9w+jIHP37AIO2sB=AbajyD2W%5)B&_lG%3#utT) zr>CN%H2aYkAbFBF;R8+QAISyd5?_>@rK$jlT3Y;{5G~Brm^xRHhF1xJCtO}vZ#X=2 zxA2tT_8fwqf+X~T<85U~QQ#%nCWdL{{=n@QD2uwCr5ohhT5oF0xX)6xOA^Gr^KnPq zRQlt5zG*W}&+|@|`rm(#IyHt4WsiRBt!bMtD>Hlfp^um_E$=$AY;l8K{8a?d`cm!$ z4?^J_4bDJ&pPnB{JUd|js#3-AsNN&Q4FY9tVj6G5k2^_H48H0!_LQjtNSv5?xmdKC zrL~UpaSW={S4Yn;HsKZjKxL^#$z4V$DArgF2$u{09#*g53YbzcujH+o87lr5LL%b# z3(}nyf_rDNV)Vv-&Aj%;>D{BXIX#rrNCkcaI8S+x!dp`MzoXw~7`b zwy$F+58Mq5o@Ny^OCTO2_9rtr%&%A67l|?XmkV0^#Th=a<5NCZWNEatjIL|4T`MbL zk3_@nV?oi@v+8w*&p<2>qmvP}l7GodhofogNK^pxZu!1=ELz?g3w=g)#oEDJWnymG zQ-xzXFZiuz-4l1x`#~Xla7VeN=G{A|brfqi7=^5V4r>nLgN^c~<47Ul=Ig{yoxxuGmu`Ze~9z`nv* zukp&>F}BfamX41DQ+@!Y@$QziitXLcHZM?Ai$r7dlOu`bx=@ZNm*hFEQvd$N4y z7e|$!)m<#_-RUb0k4Cp2W%k_)wOwX^0O6VQ3UD&kKOCdJ8%%qp?~nEQ*AAC30d%qx z46<~xT-Xf)0QWVw3RN=;(3|au?uM-=Prs|08n8b4@77;Izt+5^bCN^W-Vp~T;d?RK zyN}P~t^T7pGsp;C+EmsDJP)&*{~3XXh*ntocl=zV$bk<0Qc?{qzTOdnpa3xn$ipRm z$Frx=2>G|IprqZ38LChW*t$L{C>`K-VS`-51A@-|QX2Rq88pzu`|cL$P~9Rb7+w7T zL8S7sE`=vmi-3@Tczc>HsqELcW=n%LHPgDz9Q3MOdSBP-K-A$m@i|R0BB*T?YQjnl zJ{FWjKz(QfvH@?((1clB5!u_(ByUDkCJNMZ=lcaK)HDUGy+`Ag*a2p$FF(+#MMe;b z|MrzTZZNEa?2L8hpy@blqg`U`kFJL1EDF^ZNP2nS;3X z+)pkft8|i^kKm8xpIx0t#e%Y5dLLG^Y|Gb8y;h zv#AkO=9IY-zknrmrRI@)VsdZyAruO>2I-UVo}1n)6UEBZ2!7K09CUcKUvn})B1iXG z1iFSk-4yVG)Pzd6=*FgjRF%chbTShG>R2*`pb{U?Iul>?4YcZwV`u#3qCoK&bGTrA zalL%wHx^+QF$PIf*YZYXG@9pg>xWfeK#hcwqLL^TJKDJ;!DfU(@{KH7=Oq3(c;{C~ z`!@gn%dlDrp#SSpLzXguRUvV$5+21Q483RQ^=4s9z^PKA)D3ebS9VY(iu7i!yem5gnvITqfoe^l$7CeBS9b8o5 z=m}r)Sm1@1gr)}pOkCkFqMe5GH6=o;UT~vl!|TnJ0=Q9@M+E%Odc_-{PKa3DKQ+57 z|L<`OaM)5m&xrj)2vb1!PryL^Vtj7;=uJeob_6=0z>5~Db|x2O*&v}Hn@vux!C(DV zBnNhc;#v>yKAh7Y`wtGLc^9f1v^I30Wm1|QVB*qS@K6N)@aq-yK7!SR2rM(VPJjwS zCBbl`fy4Dj$l;g(4f)_N@&4b9v*QXH-aP;3k+TfJPiQ_M=khe1TX;zk8{ycSa887S18nPsxfc} z@I&Rf#Ah_?5`DgdZ;a9pjOR1kNfXf-^542bWmwELc`nev~8@dK&S^zV5nTarRU)@5yJs_FdV1 zJaf4pucxcT!7>Fx*muE26u@vNHIMfNf(`>k)O|n(y8xtq1flC7cpv8mB4oWk=9G2d zC6v%?V4fuig%f^@tgl`Ad*^9XCx9`s4p8B$k^MiVeY^#tpZGc(aUiQX0+(8xmpNO2 zV~gSX{HPxtT$h~8+@Dtxfgr&kK7-?UzNSeWzq;tRtq21RtnO`Ua7c8>UXi>&`{=`) zh$ywGxfhv78oRgi)_s12$CG$pp6KQ`LUB+FeubyOyCU~>J^h+lu3uQ&bw1J{jwsrU z9&w0`Nm5hzO~myF?7cUM(RCvyPYo=NY2`fbX?wa@yX=HLOEE`*y_<#A%lsW0fJC4gNj+>iY}$452s2 zcc=26^~|fQ=hkxC=cQD}HkMd@fWqJYt<2#dd7wm0a&vWZ1A5 zR7h+UI*ll`tQ2?~Wu28QbO5~If3;Mtw=$VS!@;zolXsevK>YQ-*4twR-omufq`~NC zaPXapX&UMIPi(A53u@@glVH#&h_3l~-AMx3nE5qnPNt=IiVpuH)e$Hbd2GNy_jx3A-DE2gbeJhJ(!lRz! zkDzoo&DgBDh7+IhLt-}h6u<(Y!Bjs~*+GBJU$E*HjmO(^|H*kXZ;4~K5o01ewoWMh zM%J*NwCO+M)`PQMu-*=G-%Z657>wC&Q@Gn-4Y)VlE1rxO*tcczq&YR!(h(^G% zp8{BL6E zcg|_8f-n=aY+J}%?W&~~qu-u*!+YALng4c{1)7@|Nv#v%$LX)VOS~EMcLH|Y!dLb$ zr-ouIM%L?#`J$hj>;?yhINUqKb72B0z9Iyj;1{DovcQ}?!S=r7+^CcgdSBQc4qBq^ z?oIsA?DC+*a#p2)3R?@^Hazl+)nkQ4<2HO1_SXSoJrfDS7D=voU8A5Jv+#apSYu-$ zJ?+a#9gixY=Q9rf)APp@kG(O*+79twn<#bYBT4GGt;;RWK)sv-qe)VT)8#{wwa9)5 zf&C;V`UjxcvVcIN3}|F_O>6^QPS*|LmrUQ`L&AM9A=Qrs*BQ8%C@b!}rAOheh<-l1 z;&yp!ZAW8y7{rk5;m>9;=y-Bt@+nvk2v$*exjWZ)SwUi%QPu>g0Oq&Da_t*-D6Cfk zzd5Y<1*L26O4(znuJW>6(-flW`T+XcM8GBqJp#5)z^%|+5f;nTW-SCAjEsP#7i-a= zN~3||1unP;h&rcR5l{M@u+)oGQg3Kn$*Rvr_+~#`;u`r2B3-*6`xBZfBt*f}LvYrz zdeRp(t#MZ%fe^KP^=AVZ=m;-U8}8VAEHIOJ_GLNYT=W|{+SZd-y$dGX?DRO2``$u( z`0Ie}eumBlg9GJ7b6|QAV*(x0A68pLp!0wim>kGGLl}}C)F)X~%lJ~EQX#ucb z6}^Aa_WE(Lf1|mMlE^o9Ymw@1WfrJbmd?|C;1U}K(!-;FL~i3gbSu6WS0DO(`+F76 z&8>~$;7&Pc_&P|cZvxbo$kcWK(PhjQigd1&q#A(HU^xU90<3()JS%b=A3%H<@Pf@l zwb3ZGykZ8fb4{~?U&A0KpxW8w&x+`0!RCrW8n~*+5ynHFqOa<7mIM@aINN=509k`x z9sdOK<7Jo+geE@(8e}1XB4jFmk@YmTNY%XpmTY6vqv{<= z=+OVfIS@(bTp_V=kRecXus9BGIkz7=I1m`W=DJFG(Ani zHgzE9CPEDlje=hwXpg8BOMx4UYyN6jb(qIF1T@3FXKZ$k{?MenDG4vQ1tb+%o1Oh(}SVk$t=qZs7`DmoD8?w9s(3OQ$4AMrb=Q7cDTA6M{H)&%d! zkNB_qI~*2dH$^WYGqdv!VL;S0Far}#@{b}A9=inhzNBlC4uatX;1f=__A;;N7J^y= zUjaGle}$SJ{p+@%K1(rj{yON%!-ECWMQXHxWgC7GD0D&ly5<+7U~U24IJ_DY{D%iN z#Ad=bTpHj^VA(>q3|CwOz#uo{I!*)k@81m`S>7n-s z;JaV-louS*O{vd8Ri@85)J0m<@w(G{OmA&$Do5nJh+kaSz$aaJrE+}*E3}v%2=H_p zEepS=mF?OqJ3g##PzO%O>LVhJNHSJmxG|+W8~TJYeDYKZzyEDE@+RTxWH~T(tj~T3&lubh*} zJa{@*1xOHvW+1H^k)+kyWyA<&pc>v4R-0lGn&QCFdMSzYaoFL$30vjG<3oT3RW9-b zv0@+Zcl&||@q~0s1dJ+L1ABo;Wmb4t9Ec>L_Ve%HwKA(H*FpEL8QM)%9svND2}@q! zFpT`)VHo`b#DVO-4FqEA?weKpU1;Sd~p1R)4yzsw2#@#+h}3>=dil{4;K74r zfU-0AA`l%PSj`LXXrmM!2{(1zd_Y=XaaxEv=0J%iF7w}goS4Tlz=C~{>k%*f-D5)1 z$9v`rMN{b#?C~;Gw&qn0W_$Npk<{l-$l+1!DD-fLbMJ*JejKmGANYgZ)hho|RHF5q zFyj(ogR*elgmA@gvZuIF3iq+ECX<>;x*$!udI zXpO*E{7v>;0o<>$UNQ$ZF7&~{buu^NTMPz?L>1+|-SOB+n5qCBL{n!_bid zkL8^+{KGz?dMO?+#5oM+$DPACad;^f9n!4z=3Ugj=nfu6Evwd%4BY)N7O8bLq4K&! zg=#c4D%%T$xxA%GD$DCbxo=J;-|&}$ zfoE;b9Q+P2NTDp&eHxo#^s)eeUI*|bGA z5XxkSHOMzWDSY$xyyX)W2Y8b_8y}qDh5vzW9F=K5p9VRJdtj*jU<0aS|ENmo!W%tM zAaG?CN%q%t9r#ZuGciOJ?x+nJ z{K$s72rl0;O|3{!VthfGM3CRb)qS#*Kf~HGADUV%=ziaDIyV4Z40$%Z#PNr5l|8xt z)w*4_$F|~*Ujpz48>qvqNWylQJ|zvYXhgrO6}nK=rVKWMb65R}&Z`p_0DG&U_J1N?Lnw=9ReYP}fY*FhkwsCB*q ztUIbb^J_s&`;2TcklUlvLnejUDS%|IYma3->Jx%0l&yhku;Xt3Q$)}0O0!d}Nq8(l z26Uf>>j7&xrX99v;x$fqFUCra8gi7Dl0C-Z9Iu-WJz^ zmraa-j+?yWp{yc!h1ynX`jkKaC&sVSPQqRfDb zm*aim4)OUmFZUcR431wxd?^A*Te(i}U!Y++;1qk9{pM)DKuI6F7kYxuO*A4tA6RajSuPl|)OF|c(Z?{P&es{EtZp~SN)JRbNf z#HIrKgprA9g;ln4J^t%cBmRo>Hf#=KP7CcX`!l{~o?yVVCktw^>Sm_!I= z{)Hq}fK>(i3-kkRib1L$M$;j6zx}02xA~pHhAJYD8s#fO1rrg5@_|~UVD*cdu%~$9 zEbGnC#Ku4tk>Bn!UXM`^k=7T+y&m%*_v-Eq>S|>q(!diE&%nP&2qRm(Hf2h9I=aDn z7UslQv}Kd4b{78gv>^<@$NO3Mo*c!J1iQ+1Es(X`g>%X1Y!Hg}6JwG9{avgwGhnTA zMfCOA6_DH;UyONqLD#~_jZ@O>8k4wIpxbzZ(@~MyR`UAp#GGZ0Na+eUSD3gqJw2Eh zkx^(2H44{{S33`vOP(~u&Zg5l1ErN`77#j`^g3s7mqOQk2Kgkg)TZtVg!E){;`w_QIPWSvG)-f_UbkFAD?K~JCt zx}Y~8^I!16X~0A~8OTJ05#Y{=L~9$7CM862&}t!i3&q|!=o5E;5Z9x+JVJxAPuD#C z)C{nf;|jy4#1)PRorkFSN&kja ztzyR4|0w|vOF(#5=0OGhToWeVtjav^`oX}wz~D>)FVNbg#G<-b;cSIF-vP+0#ks8w zKM&+p87Q#s$%S0G33iX#+~YJ3#ur>$Ieo{RgrzwCz3Eab2#v?LZNqhHO%7F~M#?rZ z3<;{^prub;x^CIFm0=!(cIW-{M8g`mV=GFV`~_r<$Ac_(DG(l;$1S%Dd53(Ym)GD6}tKI;JLvFeU;k`dDpDBegUovVK0paK5=`v`xGB1 zrnF!ZD;I-SQ`n=EoO&Px9o@ z8##bU2G*y;q{dr+NE|C6J9)K;aNY&pZKl#p$=<`Qut0^+DOVN|x?m~@LV>4zHQXzC zP2HL}5|>W^HI*LX_k*ORm3%5_9?y)`&&NDf1ECL${*)oOuqVGnR(UAHv3rRuzLR6C z#>ey*>{%18N*snwT*eE&uAkj6s6*ku-KdB~iNdb9w|>o5g(5saVUhU_{OhJW9ss&9 zTzp1yKaN@lZu~DaP|NMJzcP3glcI2U4-XUb7~C)H?XIto$n>gzJ>dM5;?#gp$-p72 z+mekuZQbdg-$?U5EfQ?i6Z2>*E3?_F@~~fcK~IV7W~u7Jp!ZE1(wr6!1(NYYbD+>+ z$$}_Ro5>WJM(U9&3OI)fTD2Emh6L9%b=Md9e)EaUp6rSn7ib=k@2OBJgTdOWiMNw0Ht%AXi zIhw0c8L#918ZK-6xR;gHvpYBqxkA5EHk3z}D_c1`k`I1O^L&ptZ@`V7P5!~j2On^=FXcq;4?w$A`#nRV<*TfiTo*pxqQR5uv9>MKCWmq*ZEr4|Ff zUyoZso3(??r}aB)&(?CmXMGo$V9B(?1kS6p%}IqfpICu5tX%CEcXUdLnL5ksu z=}cQ!)UQ^%p1<`PlPlFIv7u66by?tCgUZvvEyuTw@KKSF;-uy)EZ2NmH=KyQz;0(U zmyK-}Lg44>FTpQ-0+7MokE=4MC9*BA!?Ld;cw1f=Jlzy_xpC;gfht19+OTdxCCNu$ zVA&}ee|z>IX+l^dxBBM>tzpCK&qWR0A&#hhRzYa?PvSF5Bq04Y-_KJopI!*nIw}%M zc3PmTLib+6Ah?(*XwKi)g_vju;yAG69Qw47k}N@JQ^{LA9^|;67_%YvIr8)$0FTEA zXQVL5oXPo&`2WG-Ng(UU)_L_Wn_7%FKl_y}Wyj3POM=91Rml>7MRmOhnsh-o-}PTH zK#debwk~6;Xq`Tv4!4c(DNZ3-iPA=f!*f1D-4&G&N9TX34U3t%H@E{k$a&^MV*9!w zUhgqy{m}k$rY#!Ddh$indP*!@dA1{cYnH-w?5LY87XGn~LH0(rC@3?dxV4_$y06{E zsng>03+{}Z-G%*cTy*$9*zs1@z5mgVwdV(r8tLk=;;w^qVfluq-s3z9**(3FjN0%O zZ@5CJIMaD3(>{Sbd2R#*P|e-Qrd62VQ<{lYX+E{`#mw+AP@buf78LG{d5w7zS?>Wc zi4>y54#&5^++N&7Viq*LbxUOfL2 z{5v71k_(h1hvIyY$Q_kpLk4L7$(cEY4+`UtQ2RuV(T*_r$Ki_p`~CP`5!w{{banl8 zn($=!R-+havF+G~#UeUn%-h;trOf6g0v!ThAWM_v4FYp=NlOB5;i0TaqkB)%Wz{Aa zs$urP3U%My228tu!m;R^j_!Ekk~!5!^=N)Ji^lVPqCCO1P~*AU#$`506>J^tOZcj zPd#nSt=v(1l&QXPC9Kd)Gr!Yb?xR3FKbA`Wrhww~{8XVB*UJz|-sy$!IN19BmUB{x z6F|=S*^GT=L|NMWf&ERs>oqb}2s{~{^5EX&kpW$Me{i>ISm z7@;jus=*`U^PlS!Y1tLlsS-(1cZHNR;OC-^4Gt`HyF9glz{w6ypimz|;^~2$>#F8Al%DaC^-igpz+VY6S;ms8h9^Q{@ zM&xjKlSp*P_X$O56SfsrwKw}5p{X66=fe_LwX|l9y_{{t&|SnK-7ppz{RUW&uEouO z*!CWuZ32!X^g5vFQYjh)j3;A@mkEiDD6;%)(DrLD(Rwpr>xvCdIDP&z=d2!{;BumYxwBGLO|aW= zSLd>U>*(=Jh(xi4Ib6I#;vnqx5_(%(P#}AR+QmJ4o**ZdAJShAV(yHZWnRtq5_`i>6ynLop3uYTYEq?w{V>=+_iFR&nugwE>BNa4L_4Qx> z2_JV>x$V!Z9q2YuS(=H@07#lSJ2>Cq5yLq5$BF^Dr;ju{gD|kCU#fZWzDdTCGs-l; zRj3IY762xfUqo|atbimH+V|r0?@9v*V#@t_qdc+31G!vQ+PcpYHTGSxiMrq<{(A8G zURWDLj2wNMWVQ~)?JOL@Y`H^xGCQZt!#7fF($I91+#U7=rx#G96FZBWjr-f#d)a^{ zSXDYZen~eOeLhK)#348=UHSB1}m}=X;Ntnp_LQv4=3@FnT3CC3ifF|a5@HN4* zw$wp;>`2@ueM9L+hm30i`O9*t6w8Fu2svck>h|Vs>w)25ABla-Zc{4tCY2v7fe)()&n3oggGCq4{lBD(fmXJggD^j~ z*Y&5n(#c0Z*mrv2NJuy-$u;c*mp1WAyURiSARu9LrVl4%Q9TUO*;P1DLM)0vzj3-53M0RD!WNrct<(UG ze@{2$ybI)P@IWpRz&^5-HnEO%?x>PPE40S)3Vf@rLN_IhQ(dCX*j}pQ)E(*I__Av; z>e3RPWW*xNH}$KzRvo}C4&`PVUuD#}e<4|AGUx|%?W>TX;f`(=K7=dxP1_enohwSR z3|D@hzG%Mi%{8>-dA9p=D_x?Jl(EI~+)Y+YMenafn1*ION7tF1gU+ts16AU%@W%=o zd0Wt};{WZ)cq{kTAl|SF}*KNdfCP?-VzIm3Q()Mjo>1c+fCZxiVu#q zH?ooL#m{DK`0B$qSGS@+My@_PIa|PYYcs9Z7+4{23I^u?!~&P9XDu3U)IQ8pC31OR zei`0-{>PrO(!&6!@g;wTx6k$Wk%uF^;b%Or9IwcSaTuU_{;r&>#JQQe;Q7wguLi{+ z2Bm`*69*7KtrK}iRCq{ByVM!5_NU$m1n)@u_D%3(k4{*9@~nvT?HBhO#D$@Y`pNmD zo9y&m!GPR43KCWxs~d?e;UrklO7BlA7A4yC$*iE)V?Wd z1eogsHney_<-jdg6E<*3CSI&RJMDBvqHSO7|0kn^)UORJ_32%wK~#b|OfaLyz5z@q zw|`71+O($Ri?$f%8V{T9OekgN1@o)k zj_T?)CwiGvbpv>Q5vA-lUz5U*AV%hX3cC`8^d?`71!%V&pYquW3$K_PEx@eZF1Yx zivzFxY~Izrx*Mi?b8lv@lT8m)Hp;%_JqsA{+8>t|YMcu}^*BIhno!~opSvA@{`$WM zRK2T6CSP|T#6$yo?}ju2MECLKPRENB*w-IC1f0)EuGSmBl;{Os^xv@?M$?BM<{3Gt z5sZ?i{t8su|A&9%w0sY=&KkX^k=h@7MH3p=BC%VmQy=;Og_ieR@|w7UFQ7M>fiHigU9+wu^In+$9flHdPruN&q;N*f+2K)#+2Y?qY45fWAGxO%8PcAs@E*+iS z^}hSnqJuQ(q3_Z@X}`~%VgH@za(e6}Qw%;D0mBaJBG|+UTT#$XM>pMc!u(c6$Ja*a z&=bA?k%D79m%YrHWxtQD8!uI)-}#u+*tigb`b)4Bkquyyb^KRxu20<6QI9Wp;qfU| ziQ)XM3tvxN($gr7@GO&z7qdEGI)5owDYk30jnDqCI7QD7iE@)PuPDc%|DAjjOV*80H&2?5tqb)y}B{!@ZJ#q9&`wrQNfg&Tp#|kgj;h2UQ=pPXS~t|mK1uKUdXFA zUk8ET0r}~FPojz*9}1|iFw|BcnAz2V@I3;4vs;QPd}}lYB;Y|qUS@=Z-(7%^;WN1@ zRrx2y&|)C7RS~ErN)M!bG>y?a+m~mD88DI6mnlB#q7;Caa4AN=-l+cRU$@m$Gc~;^ z?E_uK^1Je7Ma?kb+7Ojf@0}|GP3-n(6fdpMom>?enb24sQ6Lzk^$B*)`MRO@$ycPk zUFj&i2kETn)J^zBLX=QCMhflPJd!idnIXBSPo+X{)KZTLqs$=ivm8;($V#$~o;-PK zt^+Y4r)c6S9+Xg_ei9;3FRhA5M+!A^#7ct`{l&#hRtQObuO37N#X%xd^Sy+p0wxOs zqI{gUpZkr2%O1P5gL2Uek1fRcM9wd@oTt3h-Otx(b;4}O51-WV1HJ-G-ntDBU``Cf zc~TGF;(r5Ht$)IsmM~&M_M({*!uF(ZWN831eBz{XTDE<&^YLdFZj;|Vx&jre^7ht| z3(!bmvfw((zAsnlDR16rF@JTwALsZTFG z3<|E zcotmvP@r(xNUQ~$(yDiKd7EkWw50CsOA29u?9-T|sc?x2=xt|`nB_Mi%AiHpA{R15 z2C1^#CMIU48tD&_%}iU4k*O-0-RGBmvAobzU%2T@iOVJ9Zgb-zaMkHa%9!3;^%w;N zsK1l!x-S&QJo*121E_$svrajRWJHJ&RVzs>kfWv!1+LbFL9r)+(PFN^&cfU zeRTGt`Q4K)u8J%=zfzr1oI>}?gEv(>>s>=xpQe_66m&8_=K|!p^-+9&TUOoMY3>8W zZ0T*WqMwAMF;`m7t)gtBw9LD&G;XQ*1?@&(C!Q&C1q*z<|9A2Sy9`2G_ODU=D}&$r z@8ia=B8xa(-q{t4Xs258tp#n)zl$nSrbap*{WhDwcVwV_G*-PaH6q0AE!B6Hr6Nz^ z<*O~+lL!FlcY2zIiWfv<^^(?o)J~OCeANNt2_klwtJ?Ty^YB{`u<6kVtns->{`r1v zCv}rMNwk6I3CtuG=S&n0B3E4mEPUr$@%pb}A9}E9nxcpyQKNz`EgU#BTcUfat*?Q* zqCRk!mM{cJ#~;v42-i9N_&jjpVrho#X|;T*8kf$g7Z9}^5Hz@-Z_@f8j$2GSHF&=@ zTF4KxikIlgAhX_DtF_FU6p~`7^GespOw$ZF-`cr^qyB| zraM2%}@XAxKA4RI5m>3{@lcAld zY>P}a>p=KjR69fJLTWNe>+6_2&8f`#M;o5s6jXTw7Cgs@>$RV`%KBRzqYLNNdb+D>)kaYx8w)HTCHnQir z{o%`BsDym2IE>IQhRUtVbtD$I=`wb@Yt?`=gDRLTO<`)e~ z8=*9t;6csHM+LD>=m2=rOs&Y&7R@pDDX4TLiMr2*_rw0R{%r-qUtgM+JYoPGW9!PQ z`XNa7t?_T1O7JbwLEz&^B)JVPFbDlS@cR%D^R@*MGerrLIlr#it#A~iIouJ6J`E~g ztQ6Ca#SPT*V%0Zf_LIDzPO1Mwx34rNmi*b(%uzEb?L1MLUML$@zPvO~exuZD8M^b^ z$Eo&Qnq)zDom0+YU>|KcWOjEyVasisyF5|)YrB;VWoj1ZQ!s!1?;^G=U?Vq+q$}V@ z{f4gujHeJT$@PWeYX__r40Sc zBEnKwqRFh8JH0$Pl~DT!V8(&c>hI=CoN?N6u8&xE`S;=t)?@enrt8aH@8E)aLzpq% zff4_A4MNNt@N&A>Al9{TsOZ;sYIhV^rcEM79xqD1X!oGtAsgcJN;+ZCc2`UHSgTvY zo_&Aa&Y^sFhCbr{=~D6PgR{+GKe>tWf&)ddrih~v=afaSw+ zT&dZ7Ml_Bm%spa;E9vXiJ}I+_oBna5c4?WF{vr;1tUyj@w{Tb0I-gj~i1X>Dw*guF zQppxuHB|;dSI~{p;62UBI&jp*MT1cO~-%SGMzve}Ijyd2$uXTVu(heol+Kg`)nMo-_pnxGWY+UOjL8%zgx z%_J$r_*c_;*(?q?kEz4$%V+`v*NzMm>TK_`VrvsW{vpl&gyz*M@(^1MIA z_)8RUsWQJHgRLD|D1j*z@_98X{jwy3-s?Nspby5p26D}smxx|N*6e9i7CgDgactM*-d;-#kgHEi8>$rMPCRaPMUFK$Z%&gbHW#LCvQeN=?GvXv${pNWtJlz1feBf zUR{3&_d9q`$-&ziu}OkbS&RW^gyMQPkwx~DxYhe))|AaU!q<;szCoaVc^WSg{j>Qz zaBKif<9WhH)~;wFRHGtZ(%}m^F70@O&c=zYDWqEk{_C4Ma#?aS#%w;+k37;p{!l7T zyWGWSJx>L1b-=ME2B2OQ|NJ(S)V%yQU+6qaNf7>9nfMO7(Y>6p63QrD2Y{VT<_qlU zJEbGwKlC^d!u9>dRWAmrc{CizBJVh`^TbVg3$sp2)%fsGI67_?7+LPmTD_{zwX)noa`b3XztDNtc`gQS%9&?XefT7HQi}j_5&9 zb>g1Vn~p|vfwy;cA+2_cUwg(RTQG=!${5<`W{mA(agt&;H_?G%0p0WnsCMu2Y@!;iGDy+VC@$+8fB%--G3rLgzT8--izCoOsGf z6aJD)8Tsn+^a~ePD5$AeUbklIm^fRj4qe6P z^7^6A^1lvSWgh2VMuyA$zS`m*fU*z*Ewf~*2Y^ON3>@VwijZcD^dJ=FefC7EQwB!Q zwIhzT<6@vmz6CVNW8pkk)Heoh_>*i&W9kYoi(L_=As1We#nJFF84BNB6?ui+I}*r| z|M+Wi$5DL=|B4k~S2=myO2docTN-K|(zc&I3!mh0*m3mfVnPam*0lH!!DJrT*bJf6 z3>;jp)Z?6ztjr)9FC)?&yM00M6h{o$WoD4adXo0n4V15=moFi^q}ZO_+(nOJI6ka6 z4x8_j?3b@P?Oup~JO!8BXy^3oVRa8iRiK2*;_FE2xw2=zA(BETkUz3KFh<0-SNmKw z=R?=A?RfI<5^))EaT-;Jhh^orNNzpgqg_7RZ-HD<2kT7*f|-cQjm0K1Z+o?X(zDY{ zmxU+79EOV$Of|TWwD5@nVTm)DDf?uH#8GfP^4szsyzD!Ku@Nx-vk!K~#^EPzmLJ{o zub(s9X=g1g&iF6U=X*nbPok$sspA!9uH;*J8HtG|>+<%+3Q3o(eEzxcw{3;R^tdT2 zi^04Vz>>hKUxQLWuv$lRj2!u0-4v7Hym1kt!_lj`;)Xpp@kMw}@TBRP60x9TFBUhF%e=J7z{!Cx$n zXIe1V%Nv4bd3NE%Ex+UL%kdTo5Ciy3J>MSj{jo{)2p}*MKk{5PUt?&oA|16NlNvc% zdWsJM*sJ&p1(VMLVAB0T9DF1s_{B+n#m>!&6U4iGZM`&a!_QekzxQ&$(84t!)WA90 zQjaD@nHP*aR0Eb>+W$cf-H0+3q8ok2thH`|u_xO-Ck6V`_i@wv%LS5B)~{eQPqoz)gsjYY0_w;X>Iyg#tgc|vI z2aWChWkIXWSPxf0*1{1rj>N&*mncTn38thjVb526 zL(ELJTmT62_D*V1^zX6G;xXJ6$-n$IzOJ^ukD<|xE@|0C2*_xk#X=#!mr>ym_5zze zkwV1;xC*`j*Hf{lWVT{_UrGMlO1o0Zn`@sx_+_aMkujA$+DaqPNL$NvRO=l1*VFhd zSNk)(o*wggi@*1+6{39WwqHtPzX6n2>`LosdT~alVFG&dre`X;@ejLN83kQe4kvtX z&^=H3*A0@PB%6n3p3ZM|=~0w|d1^PbpC^Q1;Ug^vb$TYIy{<>*(0;#8LRSwlPDcps z4hgRtae@}Rg&%^&l`N1L$z5nkU%zHwe#JxB6Fxb0-!`--y*G>mj@P(TCLdrz2%7yk zao&aclR~a6^H9*_^{kBJ?lMa28zb?{V1@GK9P!DS0bGKeY)_GUV#^yzwN`PcE+;yki=|B|l z89{Ls0G)=rBD*R=Rghp^C#E*a{O{uEGUeqrXy<@sUCTN!)KK(G)7;xnz;S2Kl23r1 z9WDJD6LNBQoJis1xKE_m>=Ka_ICQA{^D329=(^`V_Ns4Z*`L{=g_UiC%QFM#I)a|( z0o8@BcPYd;qlcLHt6sDA#2n^duz-z=%BzPi^ldO;L%DZYjayQqNtWg9|A@P4cO5Au z&ySM4ja#L{v5oH|O1wUHd=n{F`YP!#>IT)0^;@Kf^Oc>Z-V{6<8xX%ZXe5tcEVex{ zev^LQVWBg~aBlof!^vAJ?8qd7)1E%7>U8nZFTtcU=afV0zwnjumk^t_y@ZrPTwD;& z?RNf6RX>O{1wz`-LvOWc^_j2}iTY$8JT>Q5WU76{^{>m`Z>DyIZL`KI{e!zoYim%h zj0#Ib*zUnU1chkZM0vA2gB1@|)pI&zgsFsIl!4?JCJ@bGiUGGCH4!KtfGBNQtvqCn z^C!sm{W(dP$_Fu$ZndnX`#3LH;BnqyWasM7?{^l2H{e8FCRXGg!6ko3Gm%dF=sH{$ zkhMe$P$T6oSIaQqaCV|ukSJVrAieqI%t@IGlrU@tNvaRk3hR`cdPt8?A3B70eJc%D zg00g3UMGB%d-i`eR3UWEFGo={>oUR&R6C&G+;3pv@+k^}iFMk7?nb^p1bW8JwNm+g zOt!?G$Rlr(s-H}zyPb#`iMbyARQXUYOn1Yl+GU;Cd|sMi%B*Mb;ms)?qn*HDwGB_& zG)R&{|Ab?*3z0|e@Lq1QL@IWy)4j8zQU1a2KjAzI_S!ART>oLLNFMFJ{^p1EO6X8u zadZ%=2nG&1dQw;$*2VYkCR7ax0^LvKEuc=|{9i@~rSjGN9|GAwWIKTgVI;$s`_LxZK07t22qc2~h=H@=1|!Q#3!cP5G* zFScSJtLJ-U*fwQb=?AQy87tLNX!mWU^C{$+m>OoyVS6AUm+7eT2(~i$hIJQ%w&%+A zPq`mWbb=i5jY)5-wI9_`Pp(oiG0pV1W}{0G36;ApANonV&Kq<6FFv<%zpcBzsWYpI z8@3xHnB^Ycc?)?-Y~zaXQ~)aM>=PEp^$Bga^Umafh<0=B#3T`Sud zwaPm6nhRZ4q^9sAzsM{ySi*OpVj8}nZVst}@HMhShNOhLI;k3CdaXaFfa|y%Wa;RTAi7N_s4fn|DK+pbn=B;>zEG0V@L+r z>YXQ#C*j`0M@%65AP?Q}X?qj&Ff~U>8l)_c!Z#*T6#~qut)&!n$>`iNhxY_7=t0ui zzZcC6CHX@`OM3~^UOui}kA|}W^7I=C{GK~CZ(>1~dYDiYokpzVM3DE5u?+yD?*<1g zz%62P3-f~rdA1lD)%uGKmpC=MY>K>Rlk!ayX$LTVzzh5piS87&(Dzm#- zADSp9Ez539S{=UB8B$%g>5`Q~ce1-bj)xpwUC8^sqGG=<2s7tRSUO=YpX$GQdLX$3 zEWqARYjQodC1;*65AGh_z~^hor>E>ou&^CzZ|EAz=tOu^cgYPAj6)ppO|MR`Z{G};Lty|Fcx-Rfq&u5QT|z8)=SZ9WN;--T&oWg+P~q}Fh))t8mm9z4t;C_p`I zn(-N%74l0~Gs^ZZlg+he&$XXO(3nD!M50~%;;G-}Q^7c8GiC$X&Rde0ov00v>1e8I zh7<@*-L)%E5YoF;i@h*aQh|6a5z5<_@*O`toyS&Z9vrY3QGkIhTFptPc>TWilh+%bHj zW?8?-fRZVvq&XTb{(=>pBaU|USE@W>^3X@mU3u6qey=z&5U5d4k}1$q_V?%%T1WGo zS!wQ7$xqw)Av66++-ZLs0zRu<;5R9->Thg%VXQ%Um(cO3^TaVAdYO`6)(f8X6U^t5 zJ94Yy$8a+u1UB9bK=-$%jtUv%=Ye?x;-VIB%`iYa#qLUr#7Bw9*Ax(pUpiO=LnIW{2e5X zH|I1?qbcI-E2rz%Icdlm`^B^7`{?BBBa=Jrt7or+$2`va9%&qKrvH3u$Y=DamUK6N z6Wv5Hd`Yo;m48KkX|p>C^SqD2GFLFR>}tyn_K8AFs4wr4Mw=y&;ND$)^wnA+-7jRY^X?@Pr_H_+tXDC6 zEp;t2S;A8I*!#x4GWpzSoQ!=0Kp-S82A~qgk#^DOB$(F%XpAi6%~r@qy0l)Tc{#wp zSvxjwP7QQ_1_RKetycY@5yvB+ni5u4-<(20SB8Jfi@%vSTPy!{h^f{tY2K9mbm`jB z!2P3v(t*QJMH@oD=q?29cKb{g(trpO;^xT>A5xdD89-+s&fTGEE0>;NNs zXK&_u&1jT+?g+cWBjQ6P{=9A_Qk2d9fYRR4etAiMuQ+iX6VdBT3j zpiOW>Qz?+J^QsN6B@_3oU%&fl){<{j(Z1YPN())P{=}gWPyy0LyWQCISV4hCmHChN zlbry3iTENS>mhV01pLzb1JM%YqG`b^#Q85K=`Y?5`zngQ!){np%xl(aZV?@z!iyEu zO=YQ`#T$M=8`@n##gy51#R=+Wv!Ha|kaW{*E-Z>Z=K@cWCx(-W0Kild^;aU>WdnDk&`f%*CAV>J zBeJmF$R{7BBZ83I#c8Jf?u>V`L(44^hQk|i#SqMGb>yc4!z?t8O-Ay)3N800v3bq8 zGZ(=;YJtIHBhzsWmq8pX2p(lBX;FX&u-VNo!xsx*FZsj3c!Qm|6A>T|J)L5B9P3N`a2WI71Tggx(tR z_>nE#`q;1aSwDz&>sdv}4&2V*Si*8D^P`#zvF+rWZv)yH*P^CMEHcXlg%_U!emlJ5^a>&M!YvKrmBMuT>V z6u|1qIONbr@HpQgdD&82jdDQjNS#95;)& z>h43bH*O&1nCsz_;>jfNneESv8-gboyQ%TM8#OHmjJ-BW5==e24F6CyUhC|X>KwHE zSv2S~Vyo|kgxt=k4En+(f&uFz-CLl9C(AgPwh4`^4WK76;ImQ8eDV90&VQ*A61AiP zje~5Uq0*WvqT6~&C^06n{_(cZcIOWTc@fyT)4g^~Zv2B|M>qq&>Cbl+cSbC?JE?L9 zTuI;(w-F4+MRs0Rci48<6>8UFC zMdLcbMz?aE=g|)TQ33-V98MPd^mlu4R*Dz(=i+Y!p_*M4`u!Y^BOG@uUCwSL9~pK5 z;E*QeQy3-a*z}U;Grrd=$h>=uUUYPI_d460V%T2);B=pqh|b`;me2>dYPj@{wm*6e zR3<IfTwS z6b<&auhFkQIV(5!9d&;m#3G>5kfcx;?nG>3|AH()$<|1cH=7eaOtXH!XG_`?LT`|Cd2>Pqi$M&HD3%l%503Jrg(Do1K}GC+3L*v zp(RDBeK~8gr17tq8_dBdK59Fsqq=doawvN(zL}e4T;fGVSgYOGZ3RIt;^fH(f#^C^ z2{%Jyi=hDe@aKXe#9J2}fvX0_!Vv~WCPP>*Z#b{yuxPodjB)Y*vf>5T>YX>A^Za_6Ixl!s z=yW!*66H(xr_3fA9sLvv^GDxx^E~9P$VlfjPNy+;3+j8xft&}*WHkJ4pQiB;HBNbK z@j*bqq-~OM>4CT4YXW|5z&43G?3T~alYRfZOXSlt*T-REu=hC^giX~ICF3_Y8NEN{ zdn>dpz!w&bl%NC#(|H!=55TL^v|uq>NgkggvlzqBNeTM4{d`AN$#p@Hyk}6`h@{I5 zixQd`<2UC~-99lm?;AoVPbvVL_pWhJCja9`Q4Hyo_Q`5CKHP`-!Y`?PYY8X-W`iTQ zrS5@KrV^YVT&ml968uV>*rL(Aq(Hcs!-m_bf8H$4CC3GVhl$Kf1=SN?=?J9JSu>~v zhQ)sx4`j>5l{MI)_XYjq_%pbB=-W7GiV!-zu%iJ(<-CN`y*``~$s35+)^8QD0-DBmV9ZexozB?z%BA|xnZLTPw z_Y#sK`uZN|;QrnaiS8fW6HAyPu*|r%&i;y*u%9Zunw;D>qY5B>i>BPoj zYlHE|r?I{$JNiKWACo)e3tel?E(}TiCDz9!vQaa$n;fS!LLS*J?<-ClHV#iLsZy~4 z^V+VRk_`~zQJc@@WYMQO`f9C}h{_(lKEAE4^t1T4>VC@U_th_Q-XyNkvK z0H8sWWwzHgbbZ7t4s>|;3Vl0xU@68&D!z_kRD2JHBO2KsszStJpO^k+c1$3RZK2U! zKJB$RL@;u6jD6jd6SRuUT7dLQ4L?eM#{(D_K}wf__W6aOSD%ly%+OlDBrzyjQjgUG z4!3HwP|&u+-y0qhcNF+~Ig8 zuO1h8G*NHDR~hnXZx?i7$-Yt9z<=I1h18iGvEP)J=N*zr8Q-}?(O5CYa9;ea@5dFz+piu|NCIPvZ|Q}b`kpg15!peQCOe%A)K%F z57HPRFnwL-!@UP_xX_wQ7d!+F+H8)yi6$klBL9=A(V9|v?fmb9$AGS8vf$ZHtnMZh zT{(g`o4}I(;l)5_ZWRw=?jBubyl{PzsO`cZ(d`BAm&XGsyMTYC0{j&bwDi96F_kez zXW#x6hkP~UI!H4bj6sBjsqeaaO3d#~RSkiAXQo^t3oB-<_GZ?nyNIF2Rb0Nt6c6W& z67AR0v>oWh&z>loFep|^O-Utnzw`DM*$;ZyT9BE9}(aH(E$jqehmY6S?2Xyt$G~ zd!S6?lKi(K@ypsW8A}b-f@d_|PN#Y^3_xotjieehmaAF1$2&?Z>gaNs^nxN`xPwL)A}~_Nu(9$_XaMJ}-}zdkWQ~&(@!oKFvUffJpr63k)Og4G_ z<@bq?aAH*LDFQtGT+PQUFP5kpznBRi5gz%_lvU%+e;@o~x%j}3LGP0bZ#B&`y!@kn zV)gZB|E*hh8Gz}fbE|KEt3SHd^+;~6JST-+mKT_vq}Uf0vx7S3Q@C-}f0}T#Z%2;~ z%x-meu$8}a7#;;YnQqH&5klpVX8t?7iuE0~cRRIV`PbO~9toDE+bN;$3IY3bZSC-z zg%1+hQ!+5s%fb_U%@UI^_uyKd@+D>NckRbL(o^$APqKc2wq=+Ja?wzG$$t$SLPXxE ziV@WQ!1}Z4ipWi}_}oWuM4`Z#5EUnHiyS!k`2DEvQPOFYt@FcRgCJ%s9?3Y zQ8fTevN;{akO3x<5!s-iX&IA^Lz~L_2OIo)8M^!=&wmqXZ`>Iv+c){$^P)gc^Z>Pd z=XqO;>vGQK=)Y=O-3UtHkk6^Jwt5a+E+;fenU~+&V5voFR|vim!vj)sbP`n_W!>g2 zT~>GOSb^6%=iyjIirdK4)A`d`<`XMVJ#}cmC!b9lK0t(!1Ar7>Pv@gr15|lo5B$-2 zTRKGZ5z2r_`?dEWmR2X9BsPt~)Bu}3ziIMY1R+K6EDogF@w=F&u9Wzr&kj)}+&3MG z7ynD1eG5X5{8L;3;P*?XUxRU%e5^raYW*5gD51P?RqC0pY0lVl-eK*F5c&0KH@?AS z?W?AJSC}rOkoJ$ZB+<)Ik;uy2n+5DQCY|RvF`D8P+vLp02p8jnDUwY@6uRcB z>9*@eLVnenC%c1e;a-)`d}p)e`_98<1SEnA9B@0K$LIOGf4*tlCxtPJSwmrg=t2HH z*$pYd&WPmb5g>3-vGmZR4&z9Qm@1_f_E})G24qPl0khyWD``zI?^N++)SIt)*piw_ z{w;0Q>ti+W?G{t<;ina{^--U3ouvI~!-|*t9U2j>uYbm3Q zLfbyAfH;w$dta9H&=D24#DB?-JNa}yVAI~!K-ix(Nq1PN=bpyS3 zs;IdoPYopHTOAW2ef;y0UDR&>m34EWJ}GZfY~{Pcm7&}C9IXJ+WfB^$+C0j^rUe9O z8S4bKx-kg#O_7Lg%qYOhHeLvj#gidc%L85qY&d55X&!Or?buyDk0%7T{$S8An7|a! zRCg}K0TaJ*ejJECVV4PZ9 z8lE*yYA};yi0Ihzv$uHEP~Q!8kPh%%JMabUAm08Fg)U3B_cK}-#)`8??Ajogp|bCi ze7vYG@ThQ7!S|mMXJ^q`QNRUX?E1rcTd7}zQ_ZJ}|C&ylHhf?Blh9FPOr0L_e-15e z19e}DmDuB@-~#Er(bE46w>AFz8t;L-77e$l1;zYI#^VRX5XJe{ax}e$)cXo56m}!N zvFI$O&GJG3VK8i48Ok^9eOY_=i<|Fk9yoC3w0;osdn_}pk~<1jXB zb#Sxp6xmlWOe4L>neh1(YecbqGbhj@`@BY{lnl8{BwPKbIvxCt ziKhX_y={^vh<^)0e|w38`SM`*e}LumcBMz#kR)a0kxz_mND6Tl@7gofxe%#BrZqh< zpA??ZEi_+XZooN}T&dsbAl3ks8!0Xu`)NeQ+p5tr6=-xYK);U>(-@1`0k0D9MK!{^ znu^F!{J6)4tf&!IO>(~E`{3ZBlkbvnDX1qxy9-io5h$6x$InPLz6wmO3@#Okz{nEV zc;dTskoGtP=BA8w9$}D!g)VLd^KV3USZ4m)0#gjVTUq*6$leKF7+W{jHVJgNHRb z1rG~dmc(yMQlpMw8S823(ST($1?|iPG=WxE4JzdHvC`uDROXH@saUa;PmCujO&+63 ziM(_n&%|mJ1LZ>o2y=_f3#gRjn{Bk;~lHFfs_d{o#ne08f{>q)AD%l(X+Ni?U%*Qg(ztGwJJr<;yOxHXDs!ZL#6L}k9GOy`MxI}; z4!g5*phj^zRWJM8>PA25m&u4&B57k8hgoIgjGq0p$iYL>=ciiR^44uf{;^%Y_tm{4 zruQ7)Mfox|6C=;6Pbdrk;a!F1`a3F^{j<7t^?n8n1iIu^2DX;+8$~eH{Lv-=hsw(` zhiVHk9AiIdUFy$F7FHIff?1Ac&&4fGKwxmt7Sa(;2Yu^{CO-3;@v>DOM|HxhsYWL- z7qXrCpy;ik2GzEQ*{9kw(!{3Pilf~DT#7o53QQWcattt zL?%b?CL+3@8Al0h=ewX|sa$GZtFy+gS{E@GUH#;erF$sa4kWZ<4DT-E>sDQjlJK{8 z{cV=ZH`2bVtFNmMuk+W#jW_AcsqMD$qIcCT8nu%oaMkO(?*x=<+A=InuE&B}>d$vR zy^f-EruhlDlhd2W%0dTwWU$j}5j3{8*@v$l$}q|kxRi7*B7lVpnE=tRz$)`^ZYu}2 z;f+*<5CY>X17ODueAmU;QBj7oHCjkXUiHK^sqLS^bhT`ZRzf-k|8z5@(1kzYrGh={ zR)ps@wdIz#Im&$3Td>dxXGB8L*k4c5BM4Mo_B5N9x*j-xZ1G;=SP&a2Q$danao4 zN=sVc_U?73@Gb~*5>Kk@j_X>FL?@UcDFynAmbp!klceyCClR>E zHAI-0hw3DMgpvx9-g2UCMCdIxJk%gLzpqOJm(EODqJBbZ-}u96GqK*DBM1{E%?_^}U!i zGcnBXYJPzy3v#*~88Q={<@fahWO_+A8{Fs#FSHCB(~<>T*s=e;h+KNUSvtxmcNP^<-vt^!SBG_(UQxor)}5zxzqo;1glJ9#x$2##DM#Z_QTij!uM`P zYkcO9h(sUP!{v<5NsohRJhg^B5cB_@eE8Hc3iyGPQIpqo zqNi~MJXZrRKa}^~AcBcv@+pxRQ~J&u1GC(b&%$MLxE_bB6A~3Vy6+OJr7WmqpS<$u z7_>!EK5?wrpHAZE3D&uQ-bY=@t9r5Qg+d%s2#)3!mJ6F=f zJ8CJDA-nwEW9@LoKTlTGIKJ{W%Sb?@%i+JDp_aH{O>_UqLTmn!ga>nKA2;FHxnNmo zVWw6JU$HXbfxIEOjDgmz(MFto=G`7Pj{P(RCVljL4GRy8%!i1?ESGYA($KHpd9S_W zcy?BElO7#BM0nrgl&^|_G-Td_WLA$}{v6MQ9-)czsM}=e=S0_Sa>Vj7O<5XDiUXK; zl!Z<8KW~_{s~1&d+zSvs#Qi%~LK<|LLfZZs0D3NRRPXAUpTmCm*1iKDZkFYd&-Lzv z#Xyn4yOt(TvMvw9&Vu~loM<#Ck$6udB68M4UTY_eI@f04Z*S-}WdBZ?i1f=)k3?g* z8gODz7&&TEP?L99h5=biXL=oZW}E6L2-Ut7P1N7f7KS^4Nqr-Y?f3~V@Q<}g8mbk6 zy@L9f+(hdW;TDa*wd0J;=1Y~4Mby)JxsQ?NS6^<(qxYll<<~{=!lyP6fBGv)E#vxM z5?uCcWx_UP$Bvuy=NBrQup^IrOY2pxA0OXK)mL>nG5PuC`Z4!s#>^~i`A`E~*^ttl z38;|TSvJ}^)2Of0|JF1crLu-TjJAliaN9#F$c+p65ebIjyo3{Xy`BzM zK2SHb+aH))$n^ZB-#GrLWk05_;1XH89=^hCex)`N%@X}6{Fy`=Pupu^QGN=sgsU)N zIy6=dw^SgJEKBof0z5u~eFF-Nk!NOY4`_tvXdPo;no6*@QYVCic++&}sw+Uq?<=ZwqO zrKCu7m_M4$UlPSij0v9GfjWJu|7c6*MkDZOM|`WJxkDYj*}OXV z?#8MU6cQ`R>flLxNj@l?5=Q^Q=8Fpxc<6tQ1ZO*G>r7^t;7;1tAjBhCC?9^Pbqlz0 zzV#Cwkd$0KGtxP%){fi1^E)O*ap4QDB&g`ugegQUad_+9FF{LTUFYkMa{{?Z|@Q@fmb6olbk z^*4yXl#$y}+m!VP{eRFIibnWH+_`LB{#ht3!JecG-fa29n+U_afd(>>w#gw8m;&yJ zlg1feBlZ;nIb(*o0~0Mf$k--M!zAkoeO1v5E*!KvlQXWgjYOx(Sj`Sj_nTfi#oUhw zr(bR?&`}G$SIOh-X?GQxlRUY6lv&%sgFpLnD!k!`rMJ`A;ZszT+81Rst25gLXjUm` z@jkJ6Hc3cBtd0$384XN*9gTUOvoUlz-hLgisOJ5Sf`D3pk?{r@-Xdsij zeYsI)9?1pckDbdC%IcxG^uWXg>(0_Phcf1*s8x>_hOo2+AX$c-!l!P&oFfF{?SAZL z4|HP79F9IY{X5}|@_Ig2CPH95zS{XyZe9B!VxA@5^wh8szFPH`GfEjb_yPVS5N&d= zx^CM{wtx(+$GeeK@d7dL_^eSi1b0=WzvKRE0h|{NQO$MqAzkZBN*;Col3c?s{(9Vb ziAb@!%0rX#Q}0avJ*wjc>ge*6i7922{;Ss7oK1geJmU|iBGF^@a3kcTn}}1{ zeOz+`U38f+7i_LC8NAxbML(b)BbOUwF0mzLZLhgd_QoALw)>`qE&B?CM}l%Y z`bVTl@q?B^er4n|ODPjt<-^h`HGLC!#SvT3%~@8*@U)NDYT@(c2}D zM~LCXoQgOiUl#P0x~X=!(ID}8!#Ch1OEKbtNg|o(;Mbp;!$p06iu6B0I+|d&$Q?{}Kap!ol#Ns&uxxcaRfjYDgKwV$accU?D9O44&&(q71AYC)> zY>L1rnb+1fk)jYu4XuKHmOmIwF)lc5-x}AqNpjF=-z^K(a>Kc|2qe83@=vqoTxlon z@EvD(Ruyev#U-)4Ywk+O8@Q`;JCmV#`D(GIO10__5(e6wlO^PxNZROa*y1Ec=u0x3 zIJKXRZ-_ym(QTNsrq?4h8m5OMRK~=p(0cA>w(OInJFvot6d8SP244HyP{QB(Od^b1 z)m3))hw7e0UyZ(dHbtV@d{GBs-^(jgr)%rC$)0|@{D+;Bvf0R#(P&dNDR3_!Cync2S#n;GW%P~s4)fPJ`u zuDo{C^c|YM7lzaEK4>&Bsv6LB3ARln>!~2E-3Zh5ZMj_Qk|Re{QujwVy-qZBiOhAI z!2hu^+xI)b%G~8pKgeG?_p0C0e}sTQuAJ^t5HYSqxByyk)qcaWT|_%h*bGT5ntmqv z{6Ymrzw6w91NuTvqMePGBE_&|7Wg;=x*~6x2s7Jh>G=UehIXSJs#6CUX|s9ZM%)4O zdS$nYUVWiu9Qu4S5-s_aRfhsL)_(CilZx{3ch;D`Ea=|2#s#Y|;U~hxEhk)tIYpuw zKP<6-KW@i;YQj~XJwwx5XiPR{&UnRd2KjXmPg!0eF$ziCBA*}vV+(i~QmQ?RW#Cgq5egE;kLI&pZ1ajsRd zHo2A$$eU;ztZ(ZhGfXPNK$krB?_A76=G-e9Z+ts^dDIl6WbvFWq*s15F?9b<7ALqX zEcz|ycZMO^D)`hB%lT@r4HG!ixw-Q^btK3Yx=b{h&Yz>jcdb}XrtZU51FqaV^WbDT zfJzLq-gtc6%bwTheN$8Tql9~8oA`kxUnApTPDyQT?U`Ueh@r(~^xgn6ChLhmn$8&0xJ`y?`+|$Hj|z&isR@d8={!AF z+^Dy|2PNcJQNuPi6AqP7!Ty87C*cv-(Mz|GRIsrD43hiw(h}K|FSrxXxH`T}^Y3{r zwb*Ua_{~oZxZ`yxoL37%YbU?Cp!&Gg#1u@P3SDE)W}I$jv6hiz$IE@??CncA5m`}59Rm&|J$;J z>|0qvjU~&NQQ5boWGq>-?_*GjLe{YtN~E#OC|kCql8EeUS?0s;qNpO5GL@i@l+J!8AdM}%4TUp$y#Nx}~U=^~;DT{wruq zsJ5aK^2GiP==7P)Id6Aeo@Z;hQA~DhfiBm!g*JAe;>H()-7+hVXvv*bj}F#`?rP^K zTOU57*1vw=ds3$9q)wdK6As&Ig!YpIJF$Fya*Waj`348!K=@lp>^xl>FP3TN?NjI% zAEx1$?7~LP*=AP@y`sYHt(Ps9CB%zm-wJ)z0d8KeVZgt`#k$EL%CF%m%#>`^tC)Mt zNMEP^D@1N5dM5!j3oE&I?bk5lU2de9i~yyNhv$BQW{Bbdeo}2tLbW`ki~a8*FJ0eb z?LWhWRQNf@jM=7bJ3t`HO^{BQi1eWv$4rexj@BWtkrf4)pbOOvzvxZyU`Ex?l*ycD z?_2cCn5=uG(OM00&&h8Zf~cr&V$n;GFA;m`_bpS+Gf73 z^<(RL+%WmGjpM!gx8P?y-I3rW7`wsRrTIOyy#w|8AkEm_#zjjmNM0n%!;OdD?=Lgc z82)|ZoAFE$#~<=IjlCxlcfmb1%(QBfh7Asf27%f>>wNSAQ}||xQHD|ep~dedb8o7A z#~KF0T>t3a7cZZvbl*GJdTJ``GnG%f*Pb->3;(6v0o#f*9NCorAq%rAjtp;NbvWsw zH>8UZ4kc7~MWqX)5lJBIIN;g8D(nX}#O)w0Z$b!uYtjRDhbB})6_srJI<-(;sXc#E z6oDR|w_KGFtOt($YbBr#)ARVVB{-q#h*@@jN4xemL3!pY`e1OvPt)E=S}=6Gv85JhA|R|v{;h_Xma#D3|3l6*nI-WR)l?e)U7 zUDv*paQ4xhP&6qKZno7pH!$>va%?Y~b(B3M5lT5Y*4jMop*-5mKREuXb}*}1AaXOi zyJW9X_if(sFlF6sYuwsp&|A{Zbe2n--+G>KH8MCGP_fI4AJ;|aJjwn zGi&#Y>$IEZ=TaPtHez%iNTpnx{lsB+%a0o`AP&yOvmG-94N;(-DAa=e-iRWogAYms zb0kDX8f&EX;IwIAcIppTiA@wF2na)FQP-Mpu*uE}+w6sYkhL&#BBj8~HOmgEv)}ey zcQ&FD$fYndq-XE4GCOs(iqL(VO5(ou3_P9$xY^kODv57r){5dE2oMCmIWr?0U2pI2 zN#nwzeZX-(J<{a*Lf0yYCz%kH!3L4_`>A2~KLuE!F-WJvCiI8#s*qIT){4@%{U^Wk z4lcFPDc^IvHx^w5_f79Wm9*!tb1lv6FDB7}G6A)5>GwlZO>ZuOb@JlEND-(lQAbEn zqzuj}(07xmzQm?Sr6~t4kgF>VZ=Z&iUB+7(4E*7h!2@t!y4ajU``w|K=PkYo;CqpM9@+FR7Y|_{z32Y7$juXsr)_NXky{2x>oj`SPELKh?Fr!Q)E)`z7is5t$E`16q;suVIOm~!- z@$m{EA10x_**J=5#Dnh76+_^-u6XQ@Oh_Zlwl;4K%WqlOo1T&23DeQ`hYf86n97?4 z+*@xO-B5~z;b$~r*mMHh8+Pm9TM|hN_hFZx%`#0AYCFt$QPdJi~Kv96@oU34wj)aNA$b1n5r9^98OzcO*pf80S1J?GfoI( zG4WkL$R2pQ6#V4Fmb4>Bx^misHNG4v@(H!`Xjvx=lK|VT)p~RHNrXqFzZvL8)u{}# zu76td>#W{#E==+wykY+?5DB9napcdTW_&CWXBk6{G3GA{6$pCTmT=GbS6a47aLbpT z3wx#%-_BCwAlheg;c=#KJlSsCaE3jU2`D=be0?;;?=;F!kirud-@tLt5qd5STy}`; zD3ppH6~sbCUJAk75=D;(SmcQznLVsqP%V#qh|xX^fhQGt2-TON8QO@j2G`{&tF39Q zg)U}~2%XonQE=g!{_qT{n~Kpem;bRPv9xmOf=^bHCuAxZ(iI-CPx zy_(UNDX*u(JG|AThh{`HR~7W**pVTG>S8`BE?5vfa;l0Ocq8&l$!~3q{+ddUy-g;_ zLM-}Qvd~?#m-poV?}dO8Jm^&<&E3sOg|*mu;QMZGJ_HfD0&d) zd2YV=X{Uc$}in|V)@ zQ}6g&rRP7WNho3C$dU9diflkC=TuAG7qHI)DT}XVnIxHHPRKF`#?Q_ahwfVvNi(8u zHrIB7Y8c{*`?qUm7gKD<8!h)5==t)BZj3FZl?;sH#``qi?WZSds461L$!i+$a@!VY z`~zs-(LeMsFcr|IPL!^luuBOMVs;9?cmiX@n|;1w8N?CH_oO>hG5IGGu0;|OpgK^X z(#y1B;lsL0$zThl!Mx2n3W=w^oao({uAKY+@2y5YLJf{-Le=Qx`=Sx!4?Pb$_g-*e z14Sh6v+)PedC0d480ko`N48ylzW=I6p~oO;COxHciWNs|^ovDIyC{ml+yWIHy$w%t zwK`1@huu6qri*NI7 z)&B~UeFmC?E#AcJ@njT00%y!9AMbAr7THMlSv)g>7dkLHSFj zC&!$XY4L(r1jF6Xuyz7f;qYhh@oU#*QJc&p6Mwe+x+8=+TJsv(KZ9!vKlK!B)aHI9 z31`R6%&)`x(gPEWYp=5n?XvR`nIBCYqEJtxHd_#nyk9sLc5rER;dX8jj*bErF7D;G z?{r@ExS>H&Q4zO$-kNmRGe<_(gVQ0+1lJ@tR~#CWY3f8svycF4KV77<@$A@AO66SI z@P6_4IaWoCTB>)c*-4pUD$G0P(_ayrU=5(y#+;u;_GOl*#ff}z2$d-wdJPE+FB zinQeS`AdD58+$E}k{XJepZ|168Hp zb#M%-fNS!S3EoOs>tFK6Mni4!o|Bw%Wy{X6jZmNUGI6AFF0KX2hdfX}o`HinXa(*| zGdJ?ewH{Tyb=XIlAl}&9T_eABO(x*a9Wftn-ShFi3=%3MULf6=pNcf0fbr4m+mX@zA zlkSfprdu}}GTBX5!I9~eVyl4-m!G&trBKr|H(Gg9=;LNk=_f3DN9E$$D>%aJgId~@ z`YDRfqZ=UnflD)(8p-p_nieU014%005eZ~n3~n@OC_nh`KjqsDjc;m@)-3JcT&Z%a zdJ4Vz)`3ct(&@UkIY*?&ds5-Rb$8QieBZL`uX!8bNsGdihZ@1LjZ$S+q`=96B zYgQN(ad;IKgIIGIc zIl;t{rF@tTrCaq-Xhnwe0U3KpsojiCf|d~ovb=+f@MLRPGT|7xJMUb$DD%S9#oF{| zm4SCmfaC6ux3*bZFS-^G+|HAh4Fz;!zFW#pgtw=hf+unWd(oG9qg#U&C+6NxN1T+% zQ_$h!($TnnZKv^|o%*}id49r=f~J1?BDGv6U}5x1wRKpVn;4KUs-td8DDoe>VS;#X z5Lw`8M4^ID&A)6(;vf`AHfUVFg>n!my{$1ExT{9|Yc(Od7z~&P!li6sG65cF zk}PQWJ5UYVTLY}O^*(koey8&w1^-wSRTX{WW+dm= z8D#P$+;w0xZsKg_bK`L<&;6%8X3rqS2>s$LcsY@QI^kB*n=xL@Epg=iyBlZqdl442 z|85TI4MrDEx}B6-3KjVbFAu9nfirQSL0?<4e70X~lqeb6@@Y->=>7|rEEByjrk_Lf zR>xIOAi-VGToS1+F+aDKx`tN{W@~Tv1{cKNnqCNDQYc1+Rm{_8j{^y8HQsZJ8Z$~8 z2ER5l@{6CKZ}oFuBzJb~?T+KjZ*^o655d#F<4owmNhi*eU099b%Ktu25VIt(C_kr> zeP>MPU*|Uqi_mA3+M(EurJp47YH=-H5C>^;^7VG|hLxz4#+g@>%WM2ARo|~*)lyJP z>OfgFig<3Syyaz4rM7fFb-+zhTldE7U{&h>sS0Hx=Te8okZchIp%zGXjqo$CeV><8 zEb|431m8Dlv%Gkg2sr z!^CBoq?n8s#gI%F3u=fE)7i?ze`n}MC4HT7i4#n_kor3VivMOK7qqNyLpSN3e%8!n z?Ut^jm07#Nl5DBlk3z+em#t6# zWX7tBTI>zkOAMq^K4mYDgSb0T7xys91P+taP{nlv2KjnMcrIu&DBmh`e_ts70tpiD z#So~`oE{&p{hPB=(D%oYICd_#=!||Cd|~X8Y}L)`S?hntV7T(mhS$rqu^d4>_ZRb* zJzST%>O;p0XK$z4rrjiL;6(!7YZ~4c+qL+EP~F+RZkT(9{C?p7Rwik!d$>A;sUN6iI`3MNqOf|8JL8Iptx2r}T7Xxg2$ezT@i6XI2sg@gM;rS`1zLEl>`X z0Fxs2+-%ub|NBCkD(ahK8p(tme3QB}O?wBlZ-WmS>_91rzu9HyX`xGF>Sm5uc*Wt< ze61vQ)n_YW{aRDCKe+k^U%dY*cuV=zRG!4E-kY&{m@ut}$EZYwV6JoQ_>y$G$oi4j3&i3 zM5Bep)!SX8s%~+JR~{LD-0oBuf#E3Qj4YhNmF6vJsla;M z&K}evDlwN%$eXT!Xqo?W}}l@>Xo z1EuF3esEa1c);ZhJ7;X6W%N?=q2-}tZXNilVWIqaUvba?5n^=;j-6yCay|Lm5LOGi zO0lEE4Gcv@??kSt+ASbc)1| zcB)fJqHMBQjrV!`YQMD{zL`QbwezUR$Z8&a8nGvH0_k{a$h{>_q6>|2*Br+i7fi~R| zc!8=gqOjRergeRo)fh1WhI+jUPNX{tP$-3sTlm+NvmPcmCm(l@1#lAkZ<;q8mYxQ6 zhxsX+U=so;+{8#~@5gRbyJ3aM4h@+;l7Vr(b_^Nwb_eq(2 z2vb~owi*8*DJHWo94=x{A$vF(tQ`~u=N|r-NXi_(`#^n{hzFTF9PrhWr7D_ak#As4fjp$b#6ddtHZXuy2#C%G#P@eM;lA9xXIO(8><09()M29Af4NO zOh~8%@^h?AW9nJl>JU5Lb8Uqf9XV9bdS4jPqRiOUY8@o}eC%N%m}?b)VdSG{1%0Xw z>BDgPAjn0C+C3tjeX8J9dpVd2n&E@~x{dOGJb0gZN`O6zkmi^WF|!o&pL zC46{L!*bQbN~ziT8=Gn9+LH@wO9m0v(kWMFYdBVftqgmh#2RV<~Jt zlG7vJ9ge5jkhCLKvG|*JRsXn=WFZ+G)=}XYlo|>Tl^)+^={FYBQC67>q5A9AU}5y| zSJW{ki`|1mOfi5VBcYc?YhX1ueqHiQ(EC3RrHy+f8l|R2&XrQ3k0IW6?1gC3HtC9S_TjhrC~8=MKYOSOKl*NH(OV#zqP4oe3+WT#xqe$QfHE!EyPQx zao5Rg^syz^i&Xq5R0+a*o=xpC=oZLTc2JNeGtiThcEYG$&T;;@ zvlPw6-6dbhQm0m}a?yX+VLsv2ED+}=Zola1KpE}v+k2+3u8P`ktF}iHq)zzVczfJN z{Y=7-9>=J(&EEViio#DI*cL6;Ofxm)eTYvFB5!Q8^2nJ@+^QV^a->?fja8Bhv(+fJ zdqj8wor72+5RdSj&hCGIJCj&&iuR^PCe>1i^4C|KVB?wrgzBq~E+~Crj}KQd!Y7el zf}Dd)>{(Z;{mYCtX8n|pZB2ew6%a#3*=xUI)FO=GVgT{YI_8R|8LCqkmOV=4@ zWa}4+k16g$PjhfwnsH8V9uX{rm@yhIsQdlfLQb%qlge&s*x-Ya?eg6@ZdurMb ztE^LFYw>%|H(OKZ2Dx;`p;dF{g3iDmOJn@&W5nUoSc_Uhc;G3v6ChP59xkKxnSCLU zX@O}vxGQkIVtvHuGRLQ1Uq<+<_k5c`@Hrb2+$ckX(m5aULUHGURoHO{L~4cv>&)xT zQ-+;j4W&PSRetv_deJq(iWyb$`P^00Y24zeKQ;5i`Hp@E@CCl)ABOFnm9NIWWm+(?Memy*e7ktcM21}Z zHuU{CGCj1G+Ml>4Rd>t8VU1AuI*~Ya?zwAbskK;RTMW9)ZnW*(1sPkV3P0hBgd^1- zv0UG05lX}2jy4XBeI71`HSimDO|lBW(6z$ zL?OxM+~Y)}T=^T;zWh`|tuk$5Ylbcf-fK73wOnlSkuGv&V|%ltL493nwknxRg!dz@8gXcSo zV|L~Ws-cjaPA=o^txL(WscMS0E-g*^txR9JOjNSp$Th+!UbQhWCH~F}IzoBNp^aXs zWz(alhqdJ`XXsX5{2h(1m_1o#yQtO~?k&BazX8y!6B*oTpZ6wXbup&&rysy^A3|k{ zc7RB(D$Fol>P&L-MPsPp^&d`S_I5hzvlr(zjKklon>S#i)haeA6^W~4zi5O2&@GMM zxvF!=wX18e{)kZhCY!6;u0BdjX11_eUxaX;o^d3U^3)7}FrUHR=ArneNsVcKEgmK2Jf#4DL4&Y+(sd zC%m<;OW`Oprltcrm3{XpAc9cz6xtNt>WZc1usdR8qkLotg*)z9$82Q;yyBYY2{WSj zONY-Lq_n8){^eHE1|i9PQ&-Uj_8YDRn30NN?c&{Mtw~b#?sAlE*BfgD*u+Dx{)Ywn z{!s*N4vY>pW}NTuCuu!&mjHpn?HGc_FMO?8l?+TWM!5U+0xWF7jl^Tmg29Zk9?j;v z{j2oExDUG6%umXmpU~rI3!Syhxgv5Boro}ARx%Q}=-HR;9MU#-@H$Ksg{oCU3&|j>{suKW#xy$vG@v^? z{^#(WSUPReq(Hk2Z3eZ`UK}c9^2VlT0yJ|p&nt#hPf1aGXAW8(u3IGV0=GIK`X5H888s6*Z}(@jxX_2Ud;)ySxnBhS ze3{pX0!GDw4%82hQ@=UE6>Y?!mj@yEl%oBEXy5Ff&np*>9iDqx`swHsTbURxJU0#6 z+bXGxg?$U4QS=pWTFk>UUJBxDS2)lO>{QU49Jnx?$7bgJda*JS?9dH{LE2vp!~BF! z69`fHHu%oqIFop-a**DnHh9YA4hKOw@RTb;4}A{^a89&1T@qNuNxfG<1J=^ECcq_6 zK9Xddbw~A{1YiE=gS7s=tf?o^jI0Iz!I*H}Ge}JxI`^(kY5DQKoejD$NQK0I-fG&j z;pW@1d;eIN6~6=C@~j_1Z)iMR!nJdPnyy3!Ui@JRZfQbTX49rMWExSuAXj{_c$P?q z^wLb$#n^0~-w|NykQrsfx%?xo3c-CfLj{zJR)pd_gJ%E|yOPkAuW~=3o)rk{G=|Zy z`dD55_&ZbV#gIKGkoIT{fQW@35Ga4P8cQhT@IM0(?Uxiwp0#6-bUa``bn14(Ewk^N zgePjWOlo9ohS|@(?^=63r`Gr8sSrx!P)H);;&iT|*X@BIfN%|14~xOcpmauSC@YAW zh2?iZM=TP&NK{5U7$wsM?L7W+S!s0 zjMG1KKjt00XU;y9+GB2vo=@k}E)>LZ z?p}hM-K-)CLMT%wnJ;btqv9RWXywjO7H)>zkidncW42!AVn6bx10fd?WGej6moWx6uxQv4!$7Z5`iS1zZ&P$(4})xNfWk5R*Ll7)f$xl+J;lo^ zOxI?r-Z6&HGxh4a^J#reid8fQkN&$e|+q*=6wqy;Ga zTug-V*V5Iq!yMMG>}~(SHgBE|$(|2-_Ptt8W%#?-jRFQ8Kq<*btG3rqDi%Ic0*Ik#ehPf+|R)Rge&X5kB;C2ex zYTKp$0BaXab+1pfq$jXMJ!b7?_mL7E#>k;n!^I4Zxq9~wxa`gT5usjmyIwqn;lv2~ z%%SFc^-j#N#rgKKkPC7ubs{zDhnr13EO|D`xTjU#;STbUw)$Z74M}_i4TCHaG zU+;$t8tJc!w8%V&_K|`mB@?Bc(mo)C-5R@a*!>QbBh`L1!#W4mwn9N8?oJ|8|JH4} z=^1CPM+er}KdXa? zmp7*|)H{Aeysj`czfR4ppn~%+N_o%VQc*A@MMK_yl8zq;9}D1kjU*g@Uwgu}OBvj& zJ>`MmnHE)%cP0hehaEKt$fi;DNK9PP+wT4D8kEX^6^FsCo>`Y8E9vpEf{GQJf)#S{ zJ8$Pgr$R6^f6n&0g-$`&*7;M1+j#6q(!%~&oskHkIz~R|-4k|jpjeg)R&3@VfK=qu z8{Japn9G9hn%E8lfH&^vgMv8JQ#wI~t_0yhJv(8?>a~v>ndR~`ys7aT&B_~%&lSQz zKau@$X)k}{1H3!}uOysd91R15H%>hpGzksdRql5H&>%m{|MYtlA-w)W&2ioPz0lXn zBJ?qPznw_g`e;lHL4y-%@gLY&VyGs$0hXG)=dqIg=1Q|B0G5API>CMm3vX7?LJ1!^ zrGXg=m&J_#2hfw9-O`^0yk?Y@-FVRiY|7Na^p|(z>#kP&iC8{0s;dxiqpW`go~)M_ zjG$Jthk5PsIU5-)a`*onbaJ_GQVJy-Tu_4vgiD``4P%Qo0)Dihq6x<5n`RI^92l3V zFQ7c$egxRj<|gJh4{H}A3cQQR{LjHzN$oO0$UA0K{D;oBg?P{h>iJwsOutxF6T{-b zONHw;2yOM!u8bt8#1dR5-1b?Q#lK`ThVM#Z^TzX@&&@6nDQR;=ylUvF@w=g?(Mg{? zi1Ut5`d%gUzMImTbw6mUi><2ew7bzA;?kA$`hKBY*AFf&Sl*Ru1604iJgfF{AEn2f zZraS4+U3LE9R&j_Cv+TCCxq9J5EwdKGl+u@IK+|1Oj^Ff9ngEH!lXg&e^d|tc=yo` zkeId7{jyW!_=`?EazwbR-8^5DX{lb(o?BdgK2AT;Af zib@-=_w%GE0GWmhbFT)Ft!C1ZV0z=#(hOAl6Twd3cD(&>l^MTxv~Lg_Uh~&qNge)N zV^dr@I{3&wsIt9Qoq zk(#HJ^SAU^UDPwj%md$29sM}Ggbv4-Yd#0`e*2Zk6p`-~pXXGHOnu{f2`BIR-}qTD z-FHDp)BK{s-0X3y=i!>I@1>(@K+h)gdIm)>UIdoKvwwn3)v?M4A7hoyJfDePeK_RTieo_9WB(%9Nd&UzX95dbdWeU@<+S2(y(_PNrY)OdldyF^SP*ZQkIGy^JN` zmjzy>yq!eMDdRhF@*zDL{*?`hbzXqQ^htP> zOG?w8noEQdCQZU_+|Nv#t9kWKqvq;`u13PL>TAu|>tFulYSmI3KG7E*TZkMaiE0%m7(> zTvW2VT?oxGfh%|A@YZ3Do}X6A3NcM6)hvaH%y)&tm_L_W!B|RU`#I>VH^Qh5d*>NW#K+&jo4DAW;-D^LgVwhs=sLO(GR$f6;2L|>uGi+NpDl5 z*{CvNfG;L&^=mN2hu0ayL5PosWSbx>cP~8uDP_^N8E;K|XNbc+z{027L=);X#f>-q zHmKaZ<8S{7+&S~FY(f+t$c9yQKh|9V2SZ+D(i7WoBrB?Z9r^nyaVbtrf5CmOg#tXq)U!Kq|| z>ux^M`uncUE*=1qR)xRzjy~?Y==mS3xuE~KE4C-76yCq0#{0Dx{9C)c|JH8#(IEXt z))AqLx#Q8kK16wm(8Rlk1fE6_9N;({nN%NH2bd~PZ5@(urQjX=bM~@uWW=~mdH#&? zq}8eTiPY81rtiDfEnjLmH^=3CF7u-zgFI~$+L0r;zbwJ2@bg6_P_tgFhQt>YDB`_> z{Lr$n0s>ho4TS<#2^60fZcJU~Ps9RncF&dVc(-*Pw?>QHr$?}2G}vx&>7X>eL{B2# zo+dDX)uHSROS}AB{|&G9sLEZ{*A*Xb%?2ot&euJV3_byzm0b2Kkr+9iY3Eji*KIxN zy$!ndOCb~Uo*OIeDdPhYj^Up_$-bL-D4Zm-!P#EHPWXw;=>#4}18V4^1Qf%UOfUo~ zybeR_%wTtS5};Z5(sD4hm5S577C2s%|g42cTk_hSw8ZiJruuUlSDb>FEdUfKOq z38l{leD)lB`tVlu#)tm>p@NTgev{Fbs^+?Cr{Civu1C*E20m)jWq zR~CGxL6CdiM*7qXN*myr{IVVR{tdq37ki^Gx8w zU2~;O*4}B2Ui$dq?qL7%m6tnyTgf(8G;pj=-WV(PnwWFv zVOQYE+z;_&7uBuQr)Kmj8Q&d#(r1bCKWu69azd`H{2j@DchpR^7a6&gr)qPkDDu*~ zBz!$sV>8-&Pk$&>Pend*Dsb_DT)DS9H>5VyK9Sq7?`@TMgtZ6@!}8UOh&&Q83pUP@ zjEysRmip;9bYttsTxDoNZ^CpsySz}*T>n|K02|80JB@&dY6%>+(PBZBjp|~P{%?i> zx!M4LQIfAXWP~xpajR4qYQ>*mgZbi)nSjOTwI8iJ71H7#nN-aTbWeGK+br{4)S7JV zs{IKtlkK3oiaopK2^rvj%+xZ1pZq5@JXa=%vp#1PJ_%M zyt(n7&q+$OqTdng#rSOOH^j!K{6(7!;TxaH`t#mz?x|H28+xf2_j~(9PA6-3DLc=C z`u9e4F`O(bn63AhSr_wo?>zvXc%5d(97|@I#gRd4sHht$vU>!rYJI-B)1;%bF z*=-|-s#L@sa2rJ?qa1StQ>VOG!dgqu8zb}doZ(c8z13mT7nwud#e=4~#|$~~T-h!g zCff^z4O_Tp+#Z}VX+H0n-i|o{1!RDUZnoWmDuuGg>6AtcGO;eInWaaj0N-@@A1nXZ z&Xp?(4SrO(kEX)Hh3t8DInmW-QD zi4Z6{cxzvjnW?(OePFjǨd$V&YF`+HsWowfT*xtF63o@OuQvMa*hB>_V)=B-{U z@XhNx38+iZX8Jts*i0r^$(!B7hR4Jn4K_nb7Hg$DLvwe5SLF|a%uiULE*utyGMh|~@?>`t4(L9~P;?xrP{j@(UH`BWK`9N~6c;#WHsRz`3~fPyJ?PA@d@q&QEUoKY0Jve&NAzB&Qvj&2GpBt(gQS#Bd137k+moBuS- zl;STLJ}i5PT6EuNmCSC;-_87J%%~WU*o%rJ?KXgxL#_9nZ6ibK{}Z{Z{^Jxtw#ZF- zk;cFF{;Z%sW5atkp4Y?ZV4t=vmp%?{>N!;D$Uie5a{=M&j<2?QrxAi*UjMW%EHA{C zo@6=cMwdQbl1xaly@nBM*MS_h|5VP`etEqjU0E>F&^l9E*nu@#<@$bKLvi*zl8#Br z?)t1KU2gP2ZOL{Bzw(5=+T(Qx6!B~SUav@de_OC@>(Si%$U?e|P>-<#R<1_@aeWaR zx6(O#WS<-yxLx%5ix^V)hs#`E%d4g^CmQo&r2sHC`N>C+8MqvgG${FyjOtYarDE@u zUrRvy+DA;L7s#%VOa9`>+(>+4K73@mZyD+?vFq-OIj{}o#5^v-IfAr@I&O%&H#9bQ zAJnk59l)^W3zh<>i?j;z3?UwIY}%a?LRXUpT?icSw|4Vt(? z^L5i9Eq1X{Ub{hXW35DULgQ9=eE?J~3-ShB&R&hsXV;zw7&eW|==phS7aM``=1;W% zt^t-Mr9KJNKOZc<7*LZ}&?GjNws3e3<5j{Xtlr*k5I}H7XJ-_|KE*+5sba5?61yD~ z0rYeD9(-LfTwkEKZ7p*`!1y_<$7{BWLGGi2J@g(XgI6LqQ+#O}$+X{p?a^H*@Kc^; zIyDO>0sA(>dV4CR;Mc5|^#0+X4K>^l8haj5j%;gq#W6kB3{A-&JYK7PDUQrM^_T$o z90q(;I#Y*Ypg<;0^8&Jw8nd|bL*Uu^Zu(32zF6U{x%lBt^3cdB1>;2_~#{MckQQZKm13IlFG&hnn-$-_CkF zH?3Q6EPfYpC5%glT0)x2nvaCIm|Y0lt%K@QN7nDZ`1cp#{%4()*sexg7OemQ<0KJzm;!-Rij(u(cDyFt+jJ)X`~- z950S1Pa()tIal{25}bxSv#!l3mN*8M1a8bxQ`0(pKn!`aeHM&60=he(nuq^$!P3vY zHaEgDQ{Hq{IDi)P@mpO@SQbfMDoldJzEAoaOM`VnS&E$G)|!+u-x+_GZf=yGt9IA? zA7(H}ywdsq{!+v@t8K3ZMC_v7KW1>UAZE|;U2E85kk|r_N^!`K-Av5nwFnFHg!~Cv zri%*=MyFOzA}w}Qn!4SO zvi)~HF7n$zW|p7}r9lS{X*V^(-|*H6iNC@=_zpZGWgkEa$&tWdfAKIuTg-RB8hN(4EVuD3D57FTIMEW4(<)ARD{?Ft;QPwxX_L=ozi`Za%KLZSC(6 zrmSb(Wkz`z{jxN3s1d(;_)O&<@e%;jBBIqGmWmXP8;ict?_dSstSg9 z^M@oX*wVOMemkRJUL7!a(*tFo@7Th%^KRo5(0lG!hHpu3t@pG z9Ogd&;Xnt)$cKoEBwA~T;kt=kd0c^~CM+A=>zxi*S}S}ZJ)g+ADD$bko|ke`1n09hl|{k4wUkiaW4lLoXDjg})psk#w z0WmkZ1?kj=wi7Eg}uJ^Mw!X(@W@Yc`ug-#(=OB_X>$7ZNLfg{q5 zmuMT*01BYO_#vpaK#Si); z4IE)hG#OLE8B=vP53l#kK6MpFYjL@bh|zgLA6mM5K$s~V z@zfzTYU%X)`54+3U9RU7;k#64>NI22U zUMbgYJytc!;0+c2T@g~c9Dvvi09Ua&s+kdFt21lU_meE)gD|F>r}t1uubKEgE& z=`R+|B&|=REP45#{Fe{3N`<7PbJC^*ER_wlV7T^oRIQ`J%{7av!jTp$-sl}p6Ap!)Z_5O8o6U0x5$Gr!Gp%{X3 zABY!OT!>ky=g@twq2RP$-RedH9QXVcngbmOr>0Z-eqO$jX43-$PpH3?de5y=fnhlGDk?GQ6GU(-zXK@bk z&@UEXmHQokSfC*uXq7Nma^l;;MbBcjDnnCiuL-Tj^x2@G^)uZEG2R}%UJU>G(36i)N6i!@Ziz1Yk9ILHofy{Ip;PLp!SybG!Er64c zKg!m7Igvsu7P*XcTBWF4Xz2|!5N0a8&_NZlVn136xLM9OpNILK=*TYxV|sd|Dwvc- zuAldj^3eZUN3EM?2H5WYy-&(c#dTeN(ZK@7OZW749RT6fct@itPU1VgVqdBA3%>rs z28jfxvOSX=D&d8M$IA*yWsc8M%rh-(UTqw#bo_Gs_@lo$_^DZ8h&A((!4WKdY) z>bYHDiG2pmoJ-v2yBfjAjwH2i#AJYF3-=VkciQHj)vQTkXUd8~fjfq|jJV;6QbwHC zjli{W{+}=_KqOgkT;iR*_ZhHI&IBrusIX1{$W|k5A(WBh>&C-mf`MQUqZAJzC=3rW zx&)yV{$vWbI8u34Mg=#`KJ8r!vOexjKb@A|vnY{!`{I9a#?j5QbC$3uNInvFT(Yp_ z!@{gJpvm2lBhX$N?eX5Iw8j9kmbX^kewOtA(RAMNRQLb?w^#Nlqikiz;V65QkQ|$2 z?-N(q$vozflt{#R+p?pqO2jded5lOZa;$TN?7e?4eZIecKey}Sx?Sh}e!pJN@p#-H z_*ooKN4l9Ft?ac=UWy{^tAS%dt?R)raumm6^uXFdrVJemFz!%MFdDyBQy4z6BqJsn(&3pOw`z%+w8rsB{LH z+~zyjXlss{7?i=LN4(PbnUqO#Muzj~apZUR_AL#O$lCwZ70Xf7;^!tOuXK6abmhv( z`NK0aVYe6V)X~VB3^eZTL_;SP9GDc$>7g(w#}9G8XTi6#WWZ`q^uf@Wi(1S~vCMB_ zY#}0SH%X>56!puEB(}l>(R1IqDTMG>=EE}@33Flusy277->4s> znUW!(#xUBIzTtCQEcHM`3zDAPEm}w;Di_=x*m$boa@(?Ln&D2mM>rPh zp>?2B#w1Wdzx7rHj%hBwM1MLPY4iM4mWqnGe{^AiUII#zE+UHbMx-rsB@Un&vEBRA zetyz0H)FG{&=x$m6AFXDbLacfE{<+s=8L5;R$ODbD zH(B2>j9BwJC`DRn>a)Oq`z_?MUh0?QIlzv^LFD_Z=mnC|t=A5K7P-N8J7d&?7AyXz zrafzky7NQHG1$#G93Hx3kg~^xx=*zJ=f!LAiU90NKmQfqjUEe{P-oLW_V6h`6`FP?Gdrz#a{oezp;s0V)woL#_Gvoh)f z?eTV6tX|iUop^Pj{hgd3&zK9&(E9t?bQ$}~Fe=E0^1;`Cb>)?7V1t=`a=&=DX?4f` z)?vei7?W;x8CA z1`ObBfk9^r6r4cTqSmpjr9jquKqlo6E|sf{s9!~s+;DM6y)xuZo}9(69O;tvw?JJ+ z47-wr33bikM;S6oU_w!^?z^zMFi7X=&HV^#y;H0D%K;A1MOj&j69CJ?eCsui+1|Ov z{A0TJ*t_wUw=`3fC$ysIdf|_RHSYzej{Kv=cpqf^acYLC-aygh1rH}f50IPpYaXi- z?yhvSI=f1&sFod zeCoi(|0|Ju+l0qItduv&mqyfT!lV*g$)*Y?stYeZQO}UNU%}*1og2CY zW!h))zslGVD7@-s$!vpSFpr==;>sLK7*scui$k%$ei;~~}Vbs<~vSITk{kM#TrC-%o(={j{#Nz^UP&zWUApi*eQ?3B>;Ir*-R zKVaS3s*j_9reOz9*XyrHZ%|bbi&j~RwAQ@^55}=S+K;@K3vJK`7OusPq>TH)`^#|u zYuNZ|_Z`V`FtUgTL>>UE6N;G2D;hYXNdl$ufS%_kaPh9HQ3nMd1M7lh8wgydf_?lC z5DeU=?j%mG$0n|g0_!b{FnU6N)pW^^LcM-qxM_%ZUW~#3CJH)`g?!C@N?w>+x=doQ z@xHOZrwYiWX@q%theMzM*KEG;)w`mw`-98`I8@?@n|wgf)(bXIPK+v%^RXY~fPbOVe5)i4)iPWOO(DDbc^J>~6hGT8 z!-C-bW^NbwaX&s=6p)m)q&`f3X`$oOZ3g z&Ejj7+li@Jy`eQ%_qt)AH~uPd!y$f0D3wvbDYwc9Q+%YA+$*DA^3ar1-gmFp!)Z)b z_T=r*PRsF6ng${e2El9Dv*Sb3mL{6A*-`4-EWrC(g%l_TaJW6?_VDilBAA&TI}G-0 z>nq#AHA#X+$nUps5FBj^uT8)+GEB;mZJ%|wzK8;&|DSZ&dip!3?R|9eDUnwq4EJnj z5P$KznJvwwAX2`j?5(O15h6}_#EIW=Z*pJV|7-fhuyXIfEwEJv=(J+M8Kpq4puBmH|l z$}ZU0QDzEX@Lps!JFlcch4LH!sfdwh4#<+k_;!@DOC|YBUPr<@CiCI`>pcf|9#va3 z)e#?_?;Jfi+-%zPmZa#GKarI_I`gc0yy7WgB}X%5I*4&*>m5)COQDsxj3M^x;9)bKnM%!^0{`MOVVu!YN3qOE=79%HEtn>iWh4*ws z`8wz)s8Ob1GFAnR{t6i*tn6Nh1|5*rpI@cM#+B~AP3DJ7Fr(XH9@+3XJ$v6oXyB`r zGMYQZHRzii^vSmd9#4ve6gZMPxm?ykZ~ll*PjST|-X(#&JIJWFvM|(sUp2pQIjUZ7 z0G&R!J_dHqUiZ?W0T)+Ng^LURbFX=4G#H?wI8e^q_R(I!37=fr@Y9XmM1usbO=5yn zo7}!RTWmZbYl8ki#FoAFqeOz|_h$Bpm7pZ>fhOwz(a_*5U%XfU?$|hQhRlFPc(_5? zy-f95&iI_aXP+6fV=IUq#nx^;AMx+ckd+^f3MX0gxF{sn-m?*#NxycqQP`wBS`*@rDYj zsd0I-I<5?g`;D5jvV}XJ02CTrW#Q6T@#^fnuZ{NG>alI>uM0S*xk@(J{|hdEBmYQs z&{Y|X!5RzeS(u)m;6kpE4-0k%{H9M~etdi|k@XsJn?G3(Y zF|~jBD+%lsa#B=Gqi0IfXBdh^^Ds$?&p!Sgxe33 zG!;dw*Zq5br$0Bz2&>^U%KAw-u8j6<_+3Z{;z0d!mDcRt^dNm88k9N?PZDZ=fHer4z-c$Tgdu0bjsiuoEh1Un%>ShFr=H%?!rN3#Q!GQyvWk zY?<(+1Z0xTW)gZ%+_iN{KenW#S29~QU{|Fg? zjVSC>L3UFd{6D>7c0*;>5ACZ@6#u;N4;35q0>|Ygi;Mg=goI#q+Ez9-j*RxK2TlJe9{^@`Uaf&zeU9t}lb@&~O)?1?iV`76O)&=yYRp zIY{*5VJy9nAxW{@kypmoelo7Moxb=m)T7#7!9Se7-jl5z*?B$F3sIJuJl;f)&GH^~?5`RNWQ|@-X|=V7br>a#fb%L!m7K40 zBk){A=b>jDLH)NheR{4{*v+R(`?IyA|70#Lj$sKLKml3!Q6t_EyLTRpx?M6}EGPxf zRL`s20QYoAxh?=&S$DX1^R#S&9kaLO(+&)fWjTBT#%9ueRYNwza89s&Z{_(*eegwS zf!#%x@*gkp8LRqC$G`B193Rf~Vm0}Y%>RT%(F_da-T&XqS}pa_@gZqIpx=0xjR2hII$Dk88{#PHLcPNA6n z!YF)!ZLO=&r9Ss7Ahk(?qUeo2U}YRE%&b_(WYAo80pvu|;2s>v6xAUPXb+~Mjg-eJ zE8QD*GaHj3h?Z5BD0)oeFl-Z>LUJ%#RrM>@U(@(phZcnpnG}epk9#N3JAmnjb;n_%y7n233s{+-a65g0)f(@Q0i2yuG2;nH?1$w3lQ4o$1L{&C$LCeKV{1U z?;Q+3Wo>fxb5%tF0#k=e^2_XcvQ9ZTJHlKwMm(PRo<|F;4&qcG;K1faC+ZMkR zDg?nN!Q%IAxPSKn!-SV>abhS23j2|oqwJLq=^Ed4Ib&FqXF7576d5JE0<25tP8XIc z`Bd`3wkq3NQMYzKyak3aRyD4}5AVdMO_zydrT-PWO)P3Z))VdG`RaTBo)hXO2yAH% z#6bKf=Lg@F0&o!C98eAcKPcuI7>a#hn<@f|>=XM{zLnE$&0k>ow`##R-ogfVxslAC zw#ny_jR46QEoyx-9aOo0^Z}96=7N)U0^apEUCNgSbK?sQh3ekJOQKt~N%%s4(;XVo z!EeWIOs=L(k09*_D2-WaX|+Md;5I{^&V3^%Q@XkaP&@^P?WX~N7uKFDu3`?|sZ;4B zb$$>zSrpZKxp8D_I?&^QO1tHiMw^O~f(N`(Txcs6 zWp7<*pme~KkkrfBD`rIYj~wJBmj~$7LPyu`)YBl&DebHz0~n#>JorI@MJ0EYjBk{@ zc*pZ)O!{k?_bYBBz%OZF!ZU7xLBnT9l2PL}HW`Yq8V9Z0145_gqGJgyv*ED^so>dNxx$K)rX47!7QXyxr~H!ZV2w>QQYKp8OeU?_ z!&C^G@HaI!du#@KlPuL5;_(Hh4OTc;{cw!|DLzZjN;w zGsqWy>}wed!6-SA?{j6pgM?e#J)3MFhnt$B4rX>}Si9%HEi8|GUs2F|* z%vyi7*G#q#f)qnB%XrK?s~$?#s2xt;E$m+L`t7kMfJNPO1AsyP@(BlW)HXo5Hizn< zyqFLs%`}L*2(ste&J6B2(9zU=eYjdvab}6XJYqtnJQw@-=-})70G486x?SB8*fF+r ztKw~GGxLu)4J#7QLh&)+o?K4Rm@K{AfmA{1Vg+67~1dQ8)KpxkF4!-A2`c@ z_KiAtam%$hTb00vKjcvbQiMj%;wZhCmu$Am)OqnAF3N3uYQ>YugGH7?B*b->BbfX5 z#XJum*vu+*qMpu2bDo*!F6?_s9mkB#Q#-2;SoM~>^iC%KhXFp`yf?ITFF65 z)E7_dt^i%z^u82+jO|>R2>U8|L?P7mPW3}R268(o7T+u(dU2t^Hdp5^M=}%^y@`ID zH>M=FAq<3zQo@Z=ny7CoX$67Ht0C`zSrbvhex1~dOU&s-u$$q4vmh76CvYmkBZG@a zK*6JqBpDuKBT59dtQtt{n^4H>rlnhgK^{B3XWJ8UPR$XRZ`&JNB3n#GAL?a1*zvBe z>pq zQ}MDe;_jUt6gK|EYC;z<^k=Ijt~b8{^Jl?X%S-nQWbR#{H{$w=4T*6(h~8DA`e&*5 z5=XH%F;@YABa2S%U#oH!>{|k%VDRI=6W^0<4=)K4!pBLyYiQgR zpx%E_4R`PE#n&5E$7f}$I{HFQo zV(1?xOBU>5b=XZ;QeP|nr{9+nMoR#~3VWWZI(P#e^oPZe1W$hDk2Lg6ARhep;_E_> zs~Rqt=fnKf7c1Uv$Yo(aV5hk($RZDnc&Aw=*Plf}O(i4Inkg-&%jBpjZyI<+67X$C zfD@eq#RuwuDA}$tUaH4>dEBvXj2{ZJ0mTagv8EG5Z@RR2NdFDfiqv%f0^>^nuQYqET4XCcxfbQ^Tyk$XgOb+RF$|sJ|C$b@qQ6_ai zSk2dHor=n&M^PV38!nZ_iH9}`bSQxpYkRjmja5B^EusSq@a*gH5DFg3qx6$7{PPZ60 zE`OdtgRk{<=_wVqP3dW}&;2iQWB<}}dB9Yj+O~#NCDotBBU?q%1smV>mWbIiC!l)( zA}pbu@hg@p4LFdLBFmIRl9LwKlA+@#G4f^0W2cM6ZkKOlGmpV`Pd*)e$OxG`|szfT-Tcus*@Zs zHp}^%^@YAQ9$6pef0?2ks`<4n?P>9;L%!AtmhYYL;DE_S14Q2GN+*p98}g$58j=Ok z6i&q}3m9(Fa%L^2c|)J|Wukf|N-Ic5azh@=AO%GHrKZ1{oWBNkkCJkh4OXhlGmC4u zD{{nn$VV%teb@e;Yq5iOxuoSEvEI2C4r#P@h9cokSra>=mTw%s?w$4CD=OTAvG*iZ zl8Hhk4xoNsMBd4n?2?u(5qj{83FYiJs)@Ctg-fmu5#Jb5E?#!PODrPKQ_UwN#Hbqql#J3b6j-++%PU5Js<*W;2 zDQ%)^BvLqs#zTI9Vu(nhK$Or3_X3MDp6)X7oOWqF2UJfD(p{8eAsT6i>!(30lwr2C zFL1}@MAIcEgsil^UxHKT;$b_fV?;R0oHt1e1?8uRq|ALf`@&ekH%G%)3!)#Dp3 z9=JJot@;^wm#wEiiq~ub_I%~BVq|^m4@d6YoW7D+TuZ?GXqkm-(`HX9TC5e) z7He0ZqDnl#>bC$y87T1M`Z_~j-h9_4F_7+AG z{ip6&DlSkSHeSSI6!`+?mB24w{a3bd%c+s`nCS~4)P$rJ@#imPu+HBzI`w<{{bLUf z;?ca})9H^OReNejkHHr%a>_E|=>xNh8l+1kfGB|bo4JxqoB&ERq9P5GLXq*L3xFrP z4-?_AZ~|||G3bK!2^*i{S=VL2K}(jn2)eb=`O2NuDt?D;IFQODdiMGPvuhD(D!XqY zuT%b)-h~H9iZ3A=>E(o{;_{NQzE-;<^kW%sH1hoju_rl(B4OVNQBWD#vk23`Sa%O zt*jp#I|Hgyz|MfQ{D6M?)JG}&^nkFxj31{%{Cp^ex0TZHJoFv+1Wv7B5QsC_5lo-bZ1e?GoTIhD=L;Ma#lsX39{b+Pq)ka#61ra-wB0`cXE zIH+L2i{&v`^Xgs{M1EtHJXoLl+8W`}z*uo_;Rhp}k+VbGvN|;$e}c2He1>nwk#~xw z-Q|b%mIw?B$q^Iq?WzDl$}5dnIR@myqXXRe@z_83&!EnZfj%6b$K$;ptWjT%aG_AW z^K-b@fe+`J+a_{>RpMeE{)$i*<5*MKyskU$@;KQS!;5)A;k20QLs!9AYPl0pQG zKy$Sw0NX%Yq#w#5a%Kn8NpEo9AMj;8*9}MZt$r%T&QYzrguC->pW%#!x-7|x+pq2d zO3G!tYY*D;b$JX_{|7n3;*$AtClP;N4Bs9qMN;%`JFsp?w1<^1vZXW{)Ma1Kwega{ zcDpzNV?fH!4&OrMiJ?f%7cA5l0;j8i;_u*0l)lW!)M3y)Y}sS57bY#ACT9SH{mvh4 z21dggsGeIuF%f zz`M4mHsiAw=+lxC{oO$WV0B$*m@Qh#yQ{ z)$m`oeM-CRXgf@=U}iP;NSS0&46Erbde`{WuhQ)wv&(|)&*?`n{0@|F`IifbIN&yr zopYPTV9`7UASQw1KSliE$h?b#DqIw^DKK14aWVU#(V^JTAm(%d5D86j>H3IAdbIgz zUs%_673moT%z)E7?zQ$AyK@LVXSI{(x^snX9fF+&&xXl*|K1i^^*NbZDPKjivZe)q zriSYX+ZHG-)?JF+juJvJapfNi!BeF3ZG-M3z*L(+H8(%rygK208INBCH}O?$yb`?= zse%g398!DSF0{Md&0otzL*43qHa9){n^34(}DdfcQLSO#p(kF zcZr`htfH9lJ-sA!D;eJ~Nlg(u=L@_`qs#~kqq}KEw?`$92|HHOu{cJ#ym<6fulvIC7h6g^ zNSpe>KUgm_kEFXoAKwq)EV=B!S8AL7HI2Gub~uyBx(EL>ge9ihb4Y27G>F>~Z=#nBVc=?Y|zRxE8$7IxVfX^TxR)+vKjzYIg3dm(h9~fp@{wHpI z@*j|}Xhp1jCkxYj4thhydI#_?+@Ntnf#kozMHhbLAQ$)q6j6mC*SgUG;9cKmM+s@D zot}-Q6piwZ@ik<{0}9lrUrSd8JC>~bJ878IOO9@j7RnyDMy5Q}k;wb>Vg|c1=FIrT zP0UbQQJU$xnNes#7$5mzgXe~f5hCVc`Eb6l9Fw}_7UI$s*q(*$fGXIr~*@cX030h|0- z`83>{wu5y!|Fpn*yls_Vq@JzDX`94tx5w_MUeT~w3?^H5L|ALPT!KSebhE^m!+F`E zc-bQN?(D65TD(W<$qRJyP!jHqU+-9`2!NPPJT;v-IM>5B=*qly(BADUTmRGx4b9&p z==i=E=%x{D(kvE|r>AIM2f*;g2n`v64tLiM14 z0$!_o37!%Fx;VD&dOHfhdh_Ckf~B(0qC^~r9Z{GJs*I!VjedAaGr+7&_`Lc;&np^1 zU4^kcyI8^G@|Gtp{IYQLv6;$iT?gN^`;M zu*4-sO_*pqo8ym*1AcqQw|UbMx)4l5Z7R!WkS|9o&d4)TKGD z6s-H|i;ba7(W42hC^A{W4vb-z5H-A=HLTg)X#6(#DzCP6zYhhnHvA1xnj28#dHymZ zlnB$+-MT1={UJ&u5UsZ2owG5J3|EXdSHxOaym59_4LekJ*!dCMKftgXXz+!r?c>sy zwH}Qj6LrEujnHGf4$8XStv)xumY+M;BN6C>@Sw^$ir`ANDrnZa@!JnaEcBMOxjblmsyE3qme_alew6*c;|}`#rn@zUFVpqa$x55|Wv-FN;^rg1xJ@_yRkfGyKd{fB zmGv7wP+vE?$zo*8a@@=rb~i;)N!-x2w@{A7og!U0vmG=Qn?#UokmF8|dZ?5WuIMNp zsTa5~%pYR>xC>kl*I3A2w;*TF>~<;ZxxEkmtx}ft-CLaH(r}0#@c~HpZh7^0aoFvx zEf67>FuG4)Jb%=M8yC55<~+UlG3L8jH~kqjhV-H5^1%OOm&=S3N;|>L$duXE!pf8| zB|F1|3q3u5IPb+s%B4isCIjLjHdO${*(sZ*B#Rll2ddlq7xC?D-I~PN`h>0oRBGdB_~Fsyn0qIUq5nrCT2XV}2yxRr>n5!a5tgwN@d z8!R^a1Y3ShmlZb}l}(bFq>3@=IA20yNT(Axbdw* zy)y_sF?j~J;!)rJJDaVSZ0sQ+RLBMWjG#+TZZl{+BuUm2{|=e)+|+P!MK$z0+pUgH z`FzoDT7l0OgbSSvtIk^F!qU4(?rtTQ&A?DoVQm%KUo|T(^j&uqF)|+Zw4_~)6!C$8 ze6uY6)cJLSb_h5|gAoQ0BS=L!g>`2ef()z08Zy|-dk*8%&9vJ)CLsCpi&p<1E3}*w z_ZjOznGvdb_Hi@fYQ%Ja;PqMtd8K|zb93A`tz=7;CaN?($07Qu*?)mY8F_#X3Nj%5 zmW@vT2cWvohYu%OQKkFQ!o?*!8(I+}=&Zx3E&K{Of?hTvfR5XWxoR!dSzheO7p_Q# z@|)hloi}g*vlSM(y;Uj-B$5>>VJY!e>{#N2x<&c@hd8B&n>?`|$yoFKL<`EgmTK>GQeUn>|47+kl;Ay7m%JgT+@xEG1l|BYP%unQ+twV@8m4}a|{jZ%)#NBL6m zNC?1MP?;I2gK<5ce|iT;+1y{9P!A|R46f9tX9HT|o%hO5cAwcb~CA{8Y(6;S0#%mB|3DX|(vK-i?0S4~$S0uJ2CN z?ERNbZcutYpF3Rtv|`eY&AbqYrjWVvhN6#7cq*XAtspLJetUE2kEu0I$%&x3lS^1H zP4{oh-Y{=`VCuEt!hey#hU))X2N0^t!c1HNnv?I&;M>&+0tE_RrM=&I zX_YI!&NnC9RXg4{-9=@;76wey&eve>nwAPgr=3G+TiR-*V5m-!)B*;A`SGv-q~;&S=#|O z@Y${eHfYG#5tYy(FAlgF4^qh77Hq`+zphTKRh78d=*!?!gUeaA`0!Ir9?(2UXn&K= zIPo9dR2_F7EE1TGyftAbyA5RW0W5uVGm|Wo-yr?``-6y(^HyaI-j{e({~U*k2}>4q z9^G7UU?9{g?Yn{q+GzYlvG(5NpqJ5yO956xjs(=!MQ^|L63Ti-{h z?^uB>0_#UaXIBy*P=iw8FP4r|A@obR`NBKb$HXF$iCS&QV`<&m5W1EI=WH-Dhno!o zBQ)~8C~$Qc;&^tdD*wJ!pHFA)@V<1i6pJ$s|E0@+d1>cp#1>x{t12wd`7p5~RPH}U z%Sfwowb|C0w!ODcDz$P!X0`+FZt9i=fOt#Rv8AXQ;Eu3Eq5HFol@=e+z8BD@d%v8D zU&64#v~0ktD=?#X1xEO^j2Hq&_Z2r+6i8Uq1;L1ldY06^Bt z`kS4lXY9DozkrpqWU28zCM!~GRzHthNFKWX;x6FRPj+Ut(mfXK&$4B8r+M66sy`cA zFe2QsDZG&D3`uj}xp$7g$1I$mLwkO`{zLW`v`IRQyOCwz{Q_30Q!Yd^8~B~6p!F<1 zfxlXGDPj}2Xd*T9G;+Qn^@;EMtP6SXx{xp#85Y*zFxD1Q1C=s&S?nm{m&U}^cPS)?l3oM4}l+;n%7cB6{#ZTi?yCi4E+RnIyQ+A1N*Lgoj) z`?6Rlv<*)OzbrA_VpYCsQ(pFO-~9-a?6AvRbKKhSFhY!V414k}o~lzMit4@O;J1&J z<(4+US46WUm-GFK37E;+F`RCbB-!8kY(BkAsqh?weiGHkf#M*d9g7`Ztwr~0yh}jJ zo;T2HCmCSQ1c3eQZuT>yG+EMi6W%r%nu~;97a)SBb|PICpZW$e`u-hK3MUefjsI!d zleX-_6ypXJXfidlBD^x5%I<}~S3MgkGEhxHckjK`Va}%AxkSQ8hvKt4XV!Vo?uc%Z z$*2iDyMAENiu`*3#MbwO5d+w7*{B@j%RZ46nVHYymdm4&`zZ zKyUuaUO?8OxNrF=M^e0H)g-h|T12mLOvaRujfAOGI8yyn1vJbfWb#Bdgv zJYFFvHP09gN=If){(AE?_a9koyrv7eNxOd+hX3ZUHm9gGcN}GcJ?P1s+i-l}(wd>S zk}Wb4F?~a7944dVxg^~9oh)?%QENETl%(^6(4pTm1v(V(DYV~K$jY~ub^84-RzOm| zblU+4Sl((O!4vBQFX-gOt6BPs=Z(*6&2VXHRJPkHt}#WZi^k z*rm%wTuNMN_+LGlXPbIz1me3@yv1kz{qo)9bQ6hm(EhLs$;#EnLV{(DO!!UXp{M^O zrKx0>ifRJiKHVz@me5;#1Ug}6T6IM93$eqFr|x0W;J502f>z3m z;_N)Z(vE>Z-DEnTe301Fm^Koghe?cn4xXz+=Z?(8K=*gpuK@~#NgWMhzNw6N^j9yw z@?sg~TS^p73(S%9gRD4DBs&0zQ3OF0uv2i3IbyA8IG`L!IFFimxd+0gJV;3x2%v=< z198%n=``0y&rQ1fgldlHZr+YxezkFsx+1z2kKR$FpQ3t>ZiEeDHmDjt&hpIcMJ395 z9y0~-YaF;VZ{A}qK+(%Dif~BC%=M1&r1b5%=zH58D}*e7ck*-a(>F&t3=E%WSl zF5=_A2Wmj_=YjduXs#7HDStVRc;rGQLkVGF(ivmj+N)7}?c?^MG83YYSBk=Jhw+9f zX3p%&f5tEpesaKY;8PLt{>O+Ktad`}1b-=kU>V)b&-@%sCrv%oS0)4*gk~b$9aQ@4k+ZLs{8mi|i@*zgN z4#$DYk^T3a*ZHETpn?%2#texr#^)P2{%jM7KVhh~h6|$#p{7Gi7H>m1Hk5Lt69H9UTS}A*|?N;CelhVF|@Q9 z00I&umqnR!zMAk$hdy-9P9O1AZ37L2%L+)|G@Gqcs9QSr-&1X(O67BZ6gD5OWM=z_ zEh9~X%H3H;7LuX#>BPR@IQdg2&{sRuSP3El=65a|ZFuk=&DLyX(V!k3#l}FG^jKS0 z6u&z5ZE;Xi!8oFJWNIjW{=Te)01?1?U^FySm-xS}VJPiDvgxFokB*OQ#O7(DADxWk zb-Pm^x5%TI5KxWg7dD*r5>%^)T5_C^umug!Hm-Bw+>hEwa^ zlMi#RZwngvO?!9o-xxMepq7riFJ{x>O7t#WMcbCFHoqEZl-%3@$8G(0?SnVZuHc=g zhpF8egbW!XxtSX)&IOehfRdCVuB;>=o&7t1zaX8wtl;=ozNVP}eZT9i)wl9Ij1kET zXAMrpaW=!LW80gx8C>YHhKxV@6W;JSmH5G%>OA~Z2-+W(#^VmiUGsU)XnoSW1)CyR zwTFYbMS9HWi1Xv4C(kS?iYDJr2WLbTF|Uv5qS*P?C;A3{t2Z_~zauU_&r9ax>(Pp+ z?dqQFJUeRS{T=vMS?SJk(8x00UI)Cxeov$@%T6-%EC%AT6nydAI9uRy1Lsb@ALadt zHS7BKy_uyAo;$gHfbm0-X0fB`e{XHe?{H#=I^)}{j*vXH(BcC1<)U}lEmi%)huW@- z8q9bemuC1h|G2sjbArnVW2d-3Ig;EUCUb^0S?PzM94zzevC43>k-ar00s}>-1F7V! zTlO#=T=(2_4^~7xUX>2DE~t5e6Ff1Y08jBusa~`0n9Mshp``c;6F^VV?-#sga2-i2 zH-E;4)GDG&Gw`G1Ky|3OXgW~4MN*^oiTjJg2imhm1BhQB^OO`M6D<64?BU2)w7REg(7zj)h2H%YKQmhFIk`c?Kry)i z%O&(b3-)nfV|S&_2Q}SD$nGz!DybCg?S5FE1w)WDzmbw;=m#@kLV|nkv`|saqc_dD zfLeDFn;I&R5ke%9A(Vm_Pr3l=!%_Tsw|>v158y5117>U24q7tqcL~zZ=Uwv>(yzi$ z*4$fIMQNqr2ghpdrRIBXuIbRQ>|U+1;)Xt{1ih)SpFuka*nqR0&gG<==>HM<&mbyU zQ5>FB7)cXMT<3Rkj0u=FV zBH-7Z;;Iw*roe$>)_~{G$pGio4-Fj!?#E9-Flte+ybe_|AF_DszjB*?O5K-en+AMT z+s=Kq986!R`q`Vo_I`$sgO@aiWAq$A_(d}#aVoD;|471Z>>(BQXD@gfTh3G>#3+$p zQb{fg-vJI}vOny?v#ea*4WX4$jfAb%%)*~pV+p)!%#SEirjdsnXfw{!hN~6^Kbc8QdBU0X+4m4P6}J3+%X*d`9s@Ie8`XP{HHt(x z_JJDsv|+Fv>h~?~`ac(C=Z8akhRxp%lx&;3P{L@$w+B}}-)AxYwdEG=y|-u%B}2SA zPR!??Db*aBV0J>%y$3INlTY^W|6tZek#Le*Khxm|^2~&eELP`fMMYN#4pWwr+js;L zm`wm3xrIk6K{8q;CW|8IcKVu*#Q*s*1Wf+`3B) z!I+;8Q}kF-qavXyG;2il?9J|9&d{7N9`Pb2Md(7OVy@Y{={Jv?Eqaq?cN1vng2jVZ z%PkrkvyW=%(`3&bJ<;Rexl97}o&Acqk=f70QFzUhnIv4&>Myv+67T5u`MTJzj}it8 zH$wAKKTyO#4ttfS!MMssL;pAYV@CZoE%Dw09Doc2C;oYrcV0O zdk}ceu?2`h6pG8Vv@1@_7M##evB>%S!XBL6Y0XISISX8ocVBEV6&`}*k!g*mgR>vE zG&dO67sc1vzME8RnDS;n9|+BmS;$h*4iEjr<_N-14|X0ku%ptBmQogiR2f!H!8XSz zRqj-ucXa2G|IcS|e>mEjNrd(HjUZC*T-tYj0f*H*vSTl;qut^2bYTk{a|NPA3wW_GrdNDn^)+5)? zf4)Qg)qVv7f?nD;Eb|r5l$#(qxbtk7H`3>sbWk|mx-ct^d1Q1mA1lPo|5r;>)H{*t z-&K5?Il~c7w7key$8hRknc2+OWIe*Z4mBDXHrVCeb3;?1rnWPs)cO?k0>*gN@BK-V z-oEs^o9fjHC#1CO7%{}e2CY|6Ap+y^JcjhcuNW(|H4126uKOn|3iY)$Ku~{FZSrpS#efsR+YAxF)T_nT9gG5 z@RN-iQ%|>&?UtW*3mn))2>eLJ{pW3lc(I=x4yc^|-F5s%+lgsAdc=jA(Mz5V8Rng# zc8R`W=LeKQy^#a@f0IlMmZZQ3?eV>WGkNg|%Yj7&kf=IxaL!#U1AAE`}Gsrf76^Mb$mVXQ^Q8 z>m#_yE4yxKyRn;p*Ksrb@AICokMs#R;o1ph7B^rVM4$M8NdF3(xIluzr*XsvFf&l4 zQKiyI3zGLy_zck_Lbcpow}9ajxIEAkMrKBcPO8QX?-#pPep?2nyZ2OO2$|do7qh@3@s)lXQn`SfR)&T%!f5rVzjHfI1H6}lo1Jrh zUg*AXg1pGLVxX}}+kb7)cWa^cuNz6R;~cQ$LQ9}=1wlMM;(H-12$MiRY`6ZP{}yLT zOVNkkxh8h5AYq|F)efzwju0`B-72phEwQ2tx1_+6Eks*R=2V&;UwBLa++2-1rEN8I zSRgv+9Eub{Xn4agkWSgv9!`O)+}&6D@MQvlt22t&3_9r$j@R@uYa&+>3m`UU)A<#Y ztjbxa%lSKC^`2QKLA`kX*;1DY)iyjZyv@W!3;}&+pXu+B$z%Z-><039*VW&U#s>Sd z*b{cpyJL6yU*uuN5J7Zn9~u&&;~>Au`d!hYZfuf2>%cE~c(yJA9udD<6APWQqr~&z zeo-#d^*`D18r~}U;PC5Parw<(y6o54?F~8AU{OV_Jyeby;8sS!5jX5P*sv5CY>tUP zb8gsXE68oAMfd&Tgnjtpb?N%aBWH&@Ihq?)aTN0}{1XW-We90Ic}Hq`$-v5Xg4)zQ;S)$YTtcUCZ^u zA<&EbEGCI;=dAQL9J?NsXj2?_;O=|CVtg_a0bfhM*}mzG&i~`-yyL0--p55P~dBnJEl>00k72yCTNE$;0hixR^gw7Yr%}oFxGYY|6Q4=J@!)=OkeEw z4P@=iQJD1bk;jMF`d8+8ie9$4&XYgZ+MBtUO1h(kZ(fH`l2mHh&m5`nhw!~NZ1c?D!ei~8(mxQ+Ww2C`x)?Bfe+vdjoR7BQ znE3qp1I6%PPK!#1{v3|+xE{OTbb>HBD^xdYp#+}zU6I|KC)y;uNZCDm9i$-&^YCk{ z)qi+)^VyD1x^mr4P9%93eWo;8ZkA;Jc756M?_XlB3N;l*u}PHim|kb2l)X1y^2v2i ze;}zOK7->9!DTQ5M4tw3p3yD?V!7u7imFyi{uqamHe5bZ54~?bRUWDR80H zl~-+wofdDcGZ&niVFPxY0J|Kn`2dhf?2QA+o(dPk)BgV4tX z!&H!3;9>P9h5+uP^i2i%ClW*x8n9GtIUv9-5I6+7F>Ze=Oyz#97yUcn{i3<)m+X<0 zE}-Fsrz27Tub>!g(cO|6>dr(T~RQnr^+awFVbVrBlz&!;uz^BMBX^oa$O0O}*7oVrs+MIay zUK9&mJ;X_Fv2IQZS_5_p=sy)m=uvrM4> zvZg@)jKjtwSfZ_D=;Eq>_7CdTywgwLVkh}iD}z2j^yQBERIJnAJdEu2a+u7waQgKq zjQ`|CqeiC%b@+Q^L#%LZC2D1f#B)d4S^XF?>%!t(6lrju#Dsh$iM~Dpc2g$6ZENFavG(#L2 zr!Hp%c~6@c)8I2}1r-)DXO9ovcd^SEM@{uwN@W8B8UY^5d#$#EX4~zZVLhqxR?Yo?qu9Ji!VtpZQMd_>`cnDJEf+{oy^({i{UUD71c^3{^*&+u%_jQ70y4e$}KiSL6i!?XJHy$izG zt#jg-5^p+;*Zm1oo@(s8vo5A9Vl&TWrRNujx9H2;6TGLk*IK*V8EBK9TlY(H#Erq; zIELroWZaMa5!t%-LqB?oglSRN?YP{Gq5p@kS6eMV5%8zuHCp?u^Y<|}R?nd30Xk}Lan;snhxO`aX@d62DCtgK5P8Qw*m`2fHDSU~ z+ahiDY4nHlNhtAi*k+;cES?7tz}iDQ#y%?0oiXl=WtKV{rlKr1+E3o0_9UD}rN26X zfNZt9AAyc@@O-$R8u9=va8+!{fb56nEiOe|(U9(6!-_?t#%pY4ECDq0_tR%uAK1=@ zd-2zl%KMr;18!j2<9|%AwPf5B$J*7#%GGEQFY@2&ikHiMC9ja@6u!AiX|wp2o>1Va z!OwpU-uuH*E`8r(eGv!C+5pT)HybD52}BB|TKn!Pxa|Wn;?SgbRSB#Pf)`}Ih*em+ z8Ma%ysJ1Yw2SaF|gi5($e^P6^V^?)Px+*Ts^6D0(I$qaIc9k!2In3D&APUR#AG*N5 zfNubt>W*)F8z~{gc1t~Mb61vzgipnPY78!Ps>krvc!_<+a_IYZneOZ#^8xiunE7~> zqDKL~IVT-o>$27uDDiP!gquvFt?si+ir`LlIVILJD&8f1VXF1Xv)jh6gb8+&L3Hr; zq${_dWFJF(&9`<`4*zXZyHobDV4Z1wzw~)uC5ep$h0|A!jDqQqG z%)ZqCj~y@r^XmB0NvXr|k*&za?U~nobuTWm;<+EzP_$t{+D9OZtiksH%6+-0aZiIv@o*y6gv$ z{Wz*Iz!Vs1krt2Dt$rb=gw;DAZk^@kMv~WpLjB_=g!v;*(6hC*a^uDOj{o@uBD!mis8O1UYh_ujLjCybLL4Cg(mAVf9 zwOPRp&v(xgi35RLh}VFzXuK{->AdOfsNy>o9A^0V^SL6hh(_HT8_m+kYN5L=gHO_=G9#!fSFXiY{9&tfccaYj$0ys z*4h1UQCntl6Cew$XDn+QJ1gr}Vj)ERDdB$h2Rz={7QZ{z$M@)Y>1bkwF3x}XmJf&u zxL_KA=wuyVk3fuax_tNHgbK%Zm?Ae`LB=4ZU;;;wSY%>%vJYZpB1-Xqryqa+K}|*~ zx$dEnzn(M;Fhq{gxiADel71LbyV&p1CjK^d4cVEr^ohb1xXs{=pzFZ>=#o&$-0W}5 zb{<`FIKJ4F1breAUI%vdVx@5&<{nsvT<^TjQHgfZQ@wXe@ng&(`~v%Ht(r{t_RB?C zcqR9BxXj!-C0<(g-PaHbdH%p`rBEyD8ghdYj_-0&ex#5oM~dzQWP#H{2?kDunV)(J z<6`^nLIs=4X3L#?=>w})cBMPrCT+*QFvD?4rKYyuGdF8def7%o|A&Yt{PH;O- zd@Z)xU&`zOE9$ui|3Jj7rH@<+bL(c+e*Pq@U3` zk&57(Gg|Sdws{b+801%5WIzBc?l%G5px&f!Ejyv(fow>Ie<+WXY3SQ$-JiwbcU{=* z=AUlz!T}9;`s(FV?vd3o$bP-KJp10}yTB_%oPRIp9%;{b%xE7@@s|L$SyEPQ;W4er z7=je=bv{`-9nSZ&xO8x&r+j%dwwg4?gq*ScIwH$@v+oe0tgE1p*h!j@& z?`Z^S+OK0lUEFO-gqK-fq|1s zvIU*`k|3Vb_ylw-2HN{CZ)Xe4@pqz{{f$KZ!q9{Uz`_3H2gp(Xv%k|M5oCE7MypfC zayCx2%7^o3kC{1`k9~e1I$bwH)OzQ9frg77vBMeqDNN$2ltpXFQI+v|k>Vfdh|H|i zjlb9Kqw{8`I^>>@ zFzHve9lBxKlY@_#rUB5ljjw$E4#(V|GuDR{h48@Bp|t7b{){J}PDc}r0cwG2)YRwE z`LH0j^vf-$S)Ov3U~@I$Utmw}e?NQZ@mb)5JI-W;dF6FwRRY-_dkBWp{@O9c9U@%V zgv*QBqYYr&1(cD6atIEjSUB`47&m4A4cxCJpO(@;TDGHST7`do>*ND@6F{g%Hdv85 z-{lQ)Hus?CffK*tdN@5yWoc)2pW|YVc!PJ!|7>xyI5TUM;tBopC*eW-q13))@2qor$ zb=UdZ{8T`BFl(y1i~4sXLiB`JByMlD>WR>?Tzp61h|NP_j;uhmF=HVbz880H-*p;8 z8OJQ{?vfr{sitX5siX{9QZrz{v^OW7Q1TkS=)ufdh$y(^KGr&U$r*R*(4sJ%lkzs; z32HbNA*+VWPgBZsh3>xGANgew5P13;9lI6hLE4vnm%13+7HB|YZ<=y!F18ltH`51%^J)=3~t ze&jIujU#E^H5xCUl47H5RcW9jnUPi`e`Ws3rHS`+kOv;{4?s74V=^3GtIvQKZ-A;T znWYa5tsXhdTMe2;S(3}Gk0S}@`Q|_SNjyqGVItPCkfAk`#vnNd+SYOc`laY<>Uod% zJh+@)I?lZSD}F-0R^C?b-F%J5{e2SWf`i+GiY86CiJQ^lkv37#_cj_6D|^@LiWYq) zMCgtQq(G-`vf=z20L0!xVZU<#Kzay2H-z{4l`Su=`9ZAAfJpja59w(_@h({hAed0^ zvMO*0YupKl*D|RA9cw%8;Y&LjO)m{Xa?E zkFSV(h_5D%8g#Jbfi}dPGY2xf4Y%8f6Y>nxW_9O83d8y~-cyo#vz@Zp{M~UO##B2a zK`ev=#~g_p0Jc9-f#J&bPhXRr76T+hZ4{?MkmH+zpU;ZjyankGq6EcIz`Nkeaqs${ z-w}?5V%a94n2tr;DRpqehg$o0l?2)3<5NK3bAJtp=_+6{aXPL~k1~DdobJQspK-K4 zf}r&i+i}-8elO*ybg=$6dOw7t`xe)9UZP2?rJdIK zZ4$o;caJ?XM;gmNGT*c<7lg#%7V#^*%`dLun*B9gN`sRW(jCSakg#p9ArQqN^=g!p zh|Yd{JfJ@I#>R7cQl*bGa8}CV_`O1Dt#$gZN!Mh9FST}Dx$RM;YoZc@vrKPf{tF2^ zq|Lq5dmXgd(8u8QDNFG457A2MeL2C;u+&waHh;F5ir1J^mJN91SxbR0=J>N!F6xY% zuJtZ)iv8kI*%Bf~-Tq4(&d`650#5vt{py5cnZJRZ@nyyGzR(V=zN0$ApCp+iWr@8p z?H`1y+5cFF%e?Bvtcm3=ni2e_fTA3$!?1=iIM`o?(dg2e=hp_K-8h;W4?|#h;e)>Q zCfwBTCPbt91Ei-T51eV80Pe&-<7)HT#v};V;?ue&-0XxAYxED#3mj7{nMB)|;-KkY z7IcM!MEyi3nt~v|=ElA(wNAf?nVre%$IVyLTXaRtjo_^lf9>bT%&N{hjyEVU&2H}W zdRqRbx(K{}e;h*p!Z?BdM8h4HTNS9;LZL|~xvuAWLI|o8{6!BbznP6iJ{kI49G3(* zEF7Fbd?EtaTT}DKw#YnZ7R=jJa;rIzM&XcEY|v1+8NxVjtI}Z%=n3?Mm^eqJsWyyy$8{Dm}%d+Q;JHOtjkAIUT9+W~Rfe)N4c(#S0JD+Z$<^V&XLo zXcCk^0626|S6e)zx_SDi-k!L-^TPYu9t{AQmVYzA_|@!%gy4o4oJC6kD4(RYf;L;F6@L_cP`eh6^Bs5wFdVKbE_Y_m85PbWp)`Sr#Lc(B z`%sYZY~XKy!2Q3j6O6(9i`Mhba%bzu&3D=-@9QhYn_62GHX!)xbPJ12R=!l_RD27= za5_F2r4ZMNXira^1~ddJ+n2%UUT)}aQJ>iv>_OxR3HraUjUO$IP6YfeARg7d0Xi(e zQ~PsIIba%mb7a@2#bjK>kB5Y{hq>z{w!MAWANY z_0h|zK1pduEt7UPJBJE*T*qGfJhI~0?DuIW41dVN^;X>}0&HinDHI$280i@O>A*LD z&Fk3PCsA+!Y?S_Jp@9aCd|HFtopp2WNACDG#PO>T_lOZYFe8#6Bd#{B!^z35b6|Uq zuSeH`JD>NX5If^1pkIt5Kl-@=uyuDz6>U{YCYixJz8}1`9m?(sKWF2__JZ{UXEMj` z{*1Q(1!c#CSG-4DaW+%$yuW5X9l>YacUwIQpW-7>9t34G2Z7VFN8m6PCKqv8CzJRL zV&D<_8?kEN4x^siYh_5My)pR%#!8-@V^X8q>yzD^cAsofDSjE0J%_qrCARDtN7fA- zm)-#BD%@8>4N7yII%on;0Ay1__#}wxCtX3mRiBAF9G#=d`}b^HeO?uGlUpyY;u1)1 z<0Z5!PZ@aNkMCS=jrZIe5i!zL86;=)t~)#LoAE>)ny!szgR`=4+YLAt z=M_Sfn3#O_%PvHmWjGCJv2L)ofN3If%>op;uB^}t4^iuMm-H-!{eVyW`|FudchC>y z7^4uwYtQp72>mR0=n;0ECKPjMrtmlA*lJojn2jJO;-k;x6FlgpaG3GH;&su^91 z069V^`f*62Ylqc&!QPn{PKQ#mHA}SwR}HZ}^#*{|+O%izpS)#KR)!on+~~Ho{$(0I ze+Hq-akZG+u2L?DS0m7y6QONqFCg%F{fPud$(?FY;c0*J27gN7$d7B5W@#1f;55z^ zUU7|4Smlj9V_Yp_K6&D(|d?U(QIzu6w*oy&<`W)f8K0Pa+pw01h( zzkXX!g`LY&k7O%13$!!XVl+O*SRraPd+&#U$;Or$7%Z`CUzalkY>v#_2CNE+cGy)< zBcX;CUjCn3+4VRQOQ0nr#HB@GKwA*5Vx6mJ((Q8c`ta91bo(7uYR0M>o=wY9FI2Ft z*6W0%RuWm10Pf=^PfglPU;~e&E3~{;ORJ+-BGb(!@?zVgu*ldheLj8^6rsC%XpmKB z*eeGj;!?R1uoR{S5Y#B+ir15Gbtkr5u#a(n69{QNGbcsnqA=u3KQ|oyDL7v8tbpn? z3?oyU*n{TlXP&!R4_bC3mPiusN-o)$91q&3F##jxeZ)GZhd(x$XKL@8gT_^l=uzcg zTbEA}L?gr6%@XE$QP?LtB#<|1LYrqv3I6<1mKr;R)IJXr4j=jXPx1qA0hVUl#Ol=o z*g8!&2oln6OL^@>`-1rcICd5m`%JjkP@tdv3S5ci$G_=5qM~sHF*U;D&F9=QKx}7R z8&Mnk%Ir~X4KSL~BD2zBT-82|G(87vkLF=vIo_C>OOjHFt8pTEa$yCNb7G^S<*>Y@ zE3FMElz5w#YN?J6cWubEib)G}M_alg^==x; z1_?qrDOec+IxLaa@==K?kjQ7X$1nW z|K^TS^U)Plcp1Wy;YR$&#=1{yzg?A6Ba+BoPv5bEziI!p(lKAbWC59S^Orvf3)*Tk zb4%06|6=8Ut;`!y4*-0?gclY>iwa@%?weSgD|iF^{TOZJg^`Z+dOU?bwE5})jSr5q z`N$+6(?B3T#0%FfIUk4W<9mr5dq45lot+|%stJvE$|N9iSJR;i?~6)*jdp$g9{57> zYREz+9Vt&YhZRoW(*gd^!FKlFfDq9xdz6bn@Sm65kPshgqgT%WnehB0W-nX?nH)a6 z`A6=Inx{G^2q8r`N{ifqK&%}=88348E^z{@38As?FA=k!{(G|zkm0W0T4)CX(U`k* z{lfbeqH0_Gd`_J96{A|Gsb%R@8EC5gOIBJ3?Z9@_W82#s=!STR;E5~CtP#)N<8B`D>O@UQP48Y!^IxFfW|g}dq1Q7C9~nq8qYPpuErdn?eE;#0K8l?r&gx%%Ho{RaiPXoWEH>={W_UCWF)n z_^bS%>TKCOK$-(g>|@fT#hbc;PNkC%bG6>t{hoyFaDGKdO~3C{cbWb$pjLNnWO15U z@W`jzIfZ@$ufrANXYSVNs+jCS-CO>y*Q+t$^#hHL-*3|OOb_#{kh*ji^?}X7{6FY$ z;{vcg0<~Fi2IMfLQY@hm1IkI(GuS;vU;%6QtGV(p@G3@#j$WVBd`u4g3!r&IY-#@^ zHJGgPL&{fn>4P?}eO6b4{9WfvR`VD9aC!ys5bmZ)K4r%E#4;_`@W3U4DdC$s3o7)R zrql}Q2D#cLyfXnX{2}BUKyEm0(Tj;pvSNG$aVayl-5WtZbs*KKB@Z-RoB&;!gTJMa z=YIoQW*CA|{C=a%$#TK%X}yNlT*X`5-hM7v&_p*VSS|4K2S?WeF@aLw6n`ruMZmq< zi(cT}SCL@MS)Jxk(w+AWcmA2{1=Yp=isfQWwz2-s32<>{(*;p@)EJPactZ6V`*Rcv z0}m-BEhLU*Qr!b|yPY(deArLN2U14uv!*{>BDHnJZluF~ zd2Q33>^sl5P$^~UtHJzCSmSV63L;Id6Y%;-0MbF8Z{<~7+BSm&X-WhBt`VQXD{9LW zzNxP)7F*`Z+v79UDv+JOgK!Y>;iCH1!46pM3}uCovSF<|B6| z1KZtokFjAFzv=~^R|*VI2J=2b%R+6~4-R?HKStosUPhjZ@W7=9Yj>VRP)>R|-H_KM zlw6i7mItx1;fQ`y@QWy}9_q2oo%{gks(L{${4hQry`a09aN~c6f3Bqh1zU5BAUnp0 z7?u}$>1sNrS6VRqh|$#y0jYh3i?UET{uDYXuJe`sCyELcVVI+BCUZuu1;7V%youug z?$k&e6>g4IWQtG4Tc{Pi3)TOKxl$0n`7PD`+bUyxSLJd={0RnH2Ci-rS}_-}l<)b~ zRU*gl`}YloubEoQ1)~cr;x}3=hn$JwG>>-jT1XPvt&q$2ciCfb2JC+V)O|_nEWTG^h7~#yNU7Yo z0>`jio)&4$J4ztBulTW|xVcSYkE6|gD4ZPnSnUw%jshzfpt@j1dV*dbhl!j16=cO7wQo2)QE z%zYZK93LAH>%UYwm#q;%H_!bQD{iul*%!jy%HUrKdI0kIvS!Gb8$I=4FL~)$k;mQI z#Eh6|ez>R^m%A3V-`Ps2DhzWcuHUOdqJb5<7=PSj_AkHyV5w?xa)93P&?gF7wgGd0 zVDX64K3_BhgB@9Dclre4PrH0)w9-bi5<-YIkjW^RtF-|<;(TXG92h+?S_(tn%m*@A z#!O`10YKADz|C}G4JG5ABDv=4-T7Ja9bNzIeb>23vo%943d%6aPPf^69t)U*J7&*1 z_CLpsuJFKrO+xM2_%hl9=yqG=;U(J3FuHOm(^!4B;JGX*?y{6yg!4ms{u$ql?NJ2& zwcq$gL^Suth4&R&e5f{%=jG1dFnC^G&a7$lu~wt13vc)J{Ku>K9in8x+40X`dY*fJnyfD? zT|d#o8t*@*Nfo-nNq#*9skI_CVlyUBmPUvW_!fKK&tAys`rY^4S(|`+){w|qQ4TD? z8BMv^hl@b3(R=_$(fA1^GzRdBQ3eZDoKR5MpNkEQIB5}WLPSreTJrNJ`rE&6z(o`_ zxGIyd+mIxYi4zyxs`+n`QZ8^tOBn;$Peqjbf5R~U1~v&}4ZA==_53;^|G#B+HRMX5 z_4HAN2B1An5+bcRVqE-ZLxY8TK0N!d;nc1kSADhlOQW%Z3XkhWhULd9dxiJp=jnb_ zV6YiurUOQ3F#GwPmdGG^SYOte)So-*So@$+N6iEI zM`%O54Dp|%b0VpjNVX90&+%AY}#roy8D&briLm78IkeE6R{)y7zQ!5IkdIL8@QMY}v30Q`04e>Sao zftT|cyZmd&K>S?m2LQv?NEz=_tgpD=p1P<^xez2=QZ%eH_b2j1D`7EzXHJHtWcl<+2g9(06HPbtmYnoYb<-4Nd;K zsYwatHApA12Qk0gjyr$ccAONfcR#(WYcQR_67bcEl(S4aD~k0Q{+QpOQi30mY_{y0 z`U%qGQLUB3L(5VWv)M1=g~2(sAGZ|S#VsyxJj5u_P~q<4{1nxHjh{tu)&fHO2^y~( znhNP@@e6k+7^(Edl{&JKcmG<)gp?&c!shw1|#aZgca_!|bsDNlLV9OaM5O z=I%~AR;XA!+iTsKT@)^cETr?U-5O_iBz4gH{dIM75(stKI62@A?T(Q<`e6(0VVx2J zBvxq?j{B_g^_jh*L`;+Vq_+7ACsxq1vXzUI?_V&7l>mW&Yo6P@1}v}%dmbJ;#oVAf ziCi&&TOrZ7yaGYoJA+ow=o*0(!K(n)Ro|9iBED)c2|nTVcwrlgSx>1?#j3jxzKO)0 zgthXXyY`B~Ti@>PHzDQ}zpwRK-frDa$a|S?y-#nlOGlvhACl6L3hut8w;vaQ!K(mP zhP&BSU`<4D%-(|a@w3_e`0u%UN#N`68mDuyP=+@D`oS~P`=3DW4Q4gH@4rtP)rbiF z$Q&acN1mAH|2raH+H!g9=D=-Qr1gvaXJPTI5gazr^~}wZt_9ZB4~9otVGA7b{%2sa zBqcsdiOi>I)r+Fdp(D!pZ8i{~>TlR1YH_U4F@$sNMASc2to!SS8`tCRQk)T$b=Q~cE5K`3%fR*noe4&;ep@f%?DCI_y~OQ+z_v7I0x zf=)y~*yu;ATQ)EJqd?BhAGdg5iE5ut-*Clu&Szf24{HV|SE@eOcJS44Tqw0N-40!0 zjU}$9Gz*z?D`xZzEZey$iOcj}5s7M24dPyJKC_SjDk=_$9K>+=ReFHYK z@(+aQXfOgQEI}DDBl+>lbiZKWDN+g4YdiqhRckIPnCFw9H_a`XW2OAGo7n47%D)06DZj zckIy#P44B51Mx!yXM5uun1q{L|IB549>3rE-@x0WcjtW+F2zdh_OulBRH>{vNw86* z%~hK&x%W6ZaOge$^#HPy_8tw_IzF+jo`{)w*7Qug1GlSyeq)io7NWIe@mu>Y-lX6= zf1YS`sxRM1jH21O7=fnmBFoO#Z-mJm@MF)Q_IEszLWG)883}$RomlaRhUEPpMbkWy ze=leI6kP6UgM~tke}9-y@>(rqH{g2ieZ=$^f_mqZWCi844BeMoJwBKG7mK`+j~FYM z+E2@^xQsX_oZ6z>PI((nBn*>Zx!-4EmKsSpta+W+T;Z}`rrk*)NqJ*J!c&vAl`tnj zye4*V_u37%vvF&SS1vHk#lU%AD}JqB3Eeq`H$f%Hj>6dX748aiUL12+fe0RyqRJl= z3SPdBp=8p>LY50^SKxIfdWztmMM*j@oW5>_6D#*!Ll!xt zw;|SyBbYcYT>bM*k!iu|pdgG_=zV_qJBCgGTc=P zEf#a&Ex$!xO`hz36fKQ4&o8qhGQjt;3x>2+`QFoLuhb>GQMcukV0I_4m>cH))3?6i z9i7$4nFFu~uQAi_KCxV&7GSR~9_rG1wvT15|2!US^Zv_mK)(UH9osfpvirFL3^8z$ z5k*&#juEGCnezFxi=g2Oe?b{YHFdzP*DK&Lr^@P|xD=kX8P{kV9i_5sPscMRW+2=| z_0lMQBqj2MSmXfRf669fyETeexwvOZ$Y0Q7+3 z^b%zO)G@4AGA&|y6v16Lu<-RpD*hB81xUMX`xj_YDSa9l#}1)>qRN2t#romu!%LS< zcsr=l7z$h@Gt1?A)UJ!nC+%-GZK79cK<cXoq=4iYVy$`FWhG#}axEc?ctTg1>yI(R5J@396Ef}66> zIyAnu{8&)sB9S_Op!{L`BAt2=bA9Urnzy8wc@_NkH13ka zU6miyD`oszvqCV)aY3pFTKfI&P}l-Bi)f5S-E4czzC~`36PrM7jDUUh;`e`4+%dC@ z+%+S<@3bC@Sg-_T?}#v-gw&EjYi8VDV_wxFA!zC5+K_WI%Ulrqd5X~|Mf`DF`2@~@ zC;Kqhoup9A^tezxV7E1BzQ3nM?Nk~mQ`=<-)!*NHVp!Czn^dfkT&4+qNy_1U{8fyb z=D4)zY8`5dP?${d%~1_jc2;Om)_wI1cqWGKG)uhSl}u>`&K)+wS?O28Aev_R==uJ^ zsJuA5_2~Ka%S7lTI8Y6V@E>z8$I5tP^r~TV>8{htQQb97B`=Zs^>N&U+Z!Rgx(j|dU_V`;HPXAjT zC~c8f(!zu2%q7y&o?KCm5Nl1~GTwWF(iPupciXBysUfs~`KaPnGmu&Aux|)BQQO?I z_(Wmk?hz*r@0!e(D;A0VQ^0U|tu#9lnj5sjGtIFP>=jxfZw%Yku&h!@WENWT$6X#Z zXkZ;(8T$1&W=r1>Y)LKB9a+z@T`bxEbF0Xd_b#(S9+|s?yMhxR3&x1o+;O9W)1DK| zqluFlJ}`X6+%>pV`=Ts5H`FoP2DJeI|G2*yUn`Jl*9mde5%%wDLvVJJ!0~_sCNM|& zA>+PP?!Vou$61|(hRTNE98fJstbPp8QQ_`zc4oN-4mV` z5=i?Jf%*LDAPm$0xDh8H^M|t)f~7^4RyzZ_Gw9MXs<4LHd#E$OA_Auh3AXTE1e)yv z7GLBnTGh!niP?GJU37OydHSkR!5~|9de$D0wvi|{L~^`d_`+{3eQ4Ty{|+mrtZO(H zoDsfWlKZ#C$c5Z@uxr^1jR>MJcms~be-M;Z>S3gqSNa^GDXgQm3?BaJg}m_Nh^m%b z_CD*$vKM5^>05#S2KASUv${+t1Qc1=XZ+vIew>QhEmamO_{sNx)kcS3)vUvPrWD}0 z^M|#fI;jKP`k?W0_de)(a9W?pFfBO9iM<3zy?$@B^lBl}ok#k_R&m^;Py@4n^& zCA`k?@_|sN(a{8UV!8XzmEvWuvghn8((+Z{Lj}ow2=Nq>+5YFF%}%>jt#oP|`%@{U z0uj&rEsPB8UO}vuEB_8TNJB!FYj|FRSuh{u)P{jgwh^I9um|3&5zL;iG4~_w)(TvS zYWLec0r{RiO?3qfv)N-GzhbvweP-iJBq{Q-w94>|fZ$?JUFDtuM(WELDbg|h=xs?EhZ{%D zo9$Qk9uHkyJ8L?=%Y=W^T4EPQ=9-qMF-SXN8hz1y0T3(}h>+Zn+sd_{=oR%{8XFo# zcS`o2>ko^)xO+;Br`WI=3=0%V!RoZ#B|=)ChGYNm=GbEN%=ekh^*GJ;Ck0{gN^t}r zdAvu^_q*%Le+{#$7K26{NBs|Sg8A}jR8HS|rqcMYVI|QZu4RIqeZFq$yVA9-N(Cz7 z);ibcax6mRIDW{SK1B$t<)yxaLcxIHFmYn_+u`myr}0Y?wE5A-GRPgMA`bv0jY}Ef zqcs@bKFy87i2HK)_FBre3ha`gNm6Jn&nxh(WR)6P0Qc2C(fJVrk^lOf$I^dFzU7F- zTZ?4fPd1f8f-Ujas@=jWXhs_QdSg~{LEY^RUrY-H+$qbx-Z}`)2Bwpcl*+1~fxCxV zu}ZriB8Wt%-*q!f%JO&rUzQA|T$6HF*JG^nB&9(9;K~^dp3&U8{nY6J@=p~NIEX*j zRRF=#ya72h8^JtyFLLhDK(~L{v>|!|=Qh-n7jP!R0JhijQ6^;m`QeKyn2UX-?zDGR zN|M~4#vl`nO`1>iuCs`L;K5r$&6Lm#Y{f5@J%I(w7c(W%^&yLgVV2cDFgBQ7_`;{c zEgzyV%88o}pO){^!R6Z$+F0a(QvSoD>-ML5#65L$qh}x7K;=i@8Gs^RN`tevuYI0d z6?Mx}d1FxFwN%-tmpzsPH^pzL2>1DPNr>F%SgZ4Hm);w`QMi$*Hn&c>$YSu4y?|Dc z^PP`q_NkD{ho>gw&n7y=f+Sl!bbo`2d3X4sJaIw*$WkGQG^M7Q1VX^R2*wB}LM&uc zoAO(~0^mwPMcz6-oN3t7)u^`Suvk!9&26MkQ z(o<`lSePoyUXBfk!-MeVP$ru~A}Fck?9V>C1+p8^a|%&fAU5Fv7+uEgL+6;fDL%yMnVWU;SBbxwXA&yhPDovWlfV^C1z8R#p4 zI56XGq9r3KS^5q3K1ZOQD=|%Qq1z*9e9-EP713Z5LB@Y2_^tapgl(?j6~JshHtU6? zSKE$9F`#x*e1BCj+EWp!BbJqR>>k+91l^gUl%%=Nh&0Fi(A0kQPYssT#b3}@L3kd` z6nHGOKUW=$SrVUYee`0svq72wzN? z{E0E>nJLI3r=0p^{EAv3KvIb(E^ev;`QaVWA!aaqxi~gZ6L=cuH{!O$g6%62*R|#E zQcS)ACxs?{xu4jEFn@P4NR6hHKTHO2StVjZWm@E;uT9Tm>3c^PUtO)AKjf9Fbw}6d@3kML z>*%!3yF*9b)^_ZXdRnFw{B?a@Te;=C@!=G|px0At%G!Mz@F5)iUF-Q!-VUQeV~8s> z6?4)j*vpjsWaWoUr1be$5d_kc4FUW>#->ak zFC2^nGY=(DvABCHs+*sSN_X_P0&`@k2+fxBTh~s?<~|o|8xv#pN%n+Vtf`tZ?@pF6QULBbVa&*0z69Ni>u1C^n>GLq8pFH917$Mav!HflOu~9GS@0gi zcEhgs08%0VdNIva-md(24nLL)So4qG%-vEsodEL$A8&=mpbh`jH0*P+KQZawV36&t8^3}(xXfPPUhXzxGHD}0ZuUT@ykxBV7y5+P5}z@wkFnaP)J z^iFQ`F`7KtHf z`n=CW;OyGv`VJ4Z^QP#?}>4DCg`y zw>u}@r$4WGDbPBRG?8|zKweh$){lb8h%(S>ONc;OGmvc%;mbJ);Jau4tUK?hOYFY; z1_I{h_KZ(p>BJc0aQsIhZswGEu!m;{^rwgX9{Gnp#gAkMTfQPDTFc=e>ND@e3%{ZS z0zvuxo=Ub0i`EqTzeNVkJns|bxE&pGB8bJ-@T%0?^#Kl z9GHE}d4A`1VUhlkg~WG%y%BN0Tgw5L_zrzv?R5YDp&AGS`NB1)FbsqJPVM&^P&wR; z1(YddCfMXSPoq_bT%E8HL{|goSm-RcKSZhEWo)!1Q56PI|PR*D?nM@w}M7$h;3Bi=^HsW0l zZlDMFe;@7H<#tvMyq#np59UAV2+kFg_ELfmO%_~f;5%xi_WAehFpy~>i`-ieQi6PGG4SaO^ghu0Ok~r&yhJPZ^99&@bA>a5=WQAP&;5m1Ph)^ zw&LeLxek!(XrW34eo~=sR9TOs^vbC8MPH=_HY6C7MGiqcM)Az0T|TR=GQ!>G;_J_zjsy0ESM# zTE&cu4&vyjD3_@`@Dcn_TxoN||7}SI#a}~V<>R3SZ#%m5w-b&t;|{FzyAcmJvk%oQ zzE@wtnRc=eat&}k}4<=*Jo@eE&Kn1VAJ zQ5b@dNqTIHw7E2mMX&~i*C-HLxsBVmkA|G)m#su?>JFI!jGK+6XIp>kIWkH z{{V2!LP({*AU$j$fJl>lGAx;Icw80GW&acPkS%5z95^k*CXJUqHPXGoY>pROrZW=e zW_+2$L=a?-n0|rpU$hy z#s7f8R^d)$YYFoo^v+%Wb7ZgoDGkOV?`JGDgRLu~@7FNI|75palKl;y#m$<<@F{8- zSqR1=;-|&KBjtJ0>SqIyZ2+1Z^%X&7C)P#G`yW97T$f;E`sj6XkBJ$A(4MD`&^|Yh zm3WJ)yP4#}>|pQ$!R#=Bv54vs>0;o$K-Ch(sqtcZ6{pvj6PsJST5BroO!CC{{odiP zO|Xmt8jDx5WcW`rjR~yJUQEgGh&KA>=zZmDgc%Eic~#5SCBDyWZ>mH-tie3};{VuK z6>IpoHrAl7fQjFid1$PuId-fS9{XzSY;yyOJ_d616iWm>(yjN;7@;l+3K(<Q;SFUCo*`%5D|Rd+>};9lNVlMe)(fG&=$AiZygGE^(urxF?sPM;)$_! z>~z#3)?C&_=R~F7;spJ3fwz`=_Nj2JRnYK7*M}7{{r`(f6f+`om21qhqU3l-&HbuT zqZ=PFe}O3{EANzV?}dk3CLM+3NGy1OKP&=oKhOh8tkeOeRBd*?%VJftMz_z*-!DDz zd8PDC!$t`4^R>wuW}fU*zlAtwI-6pd4Ns;)BVs5Jp(#R8i(aLs*3?Zb!>m-W9kjMVx^aMkEr0W~k9q`RAE{Egrg#>wo5`6Ef^v`;6DC@cOYQ>|x2 z#dF6asU_eYas_v_BM^z?M*4Q&!PwZsmAKc3`Kf5e&aD=W(!Uo|4F$hWu9s^%I^fyt zXcWh1lm=>y`mAFfa-9p+FZ-6n=q&2>xqUmb`ukDbCwI4{#&DzgXV~nmiza76OWd4+ zuK3f#e|mEHo;T~edqZ29K6rJt&&`)}@D0ABF$IS8GS>(O4 zBwd9P!@p>{Yoiupbq;nO+N>^kw|*^|{mNx#ZK^!#8|#-w(MIhlE556ezQHk!w$!_+ zqPGF4e<)rC-a_*AwRkh6Gi4sN6i+Nqq;dPgRSWAwDY-zZVz%xrYKQ|Jr-&}pUWH|d zDn&C64~!fXBr=)F9<`>RgNoU4k3f9bHz#t4+OoBkHgtVC(>^9Q0l`%Wzv}|KWGb@8 zK=uw@Y_odtpJV&{QZZk#&JJO}f)>LY1LHoard1>|_t!Vx2KxIa!aE!!rq`3f;-u`; z7XBp}a>%V8u5`dfQu4~HxHdx~tqj1Fe#4x=!wWUJDQDC4WQDHw$vVuN0$6^^o zhfH^)JH$&=+6zm7ZDwn;(ThmRIz9KDy}KoH`rRt! zb^$xFqTdvJ-{>MlV+I!E60jljHRQQvX( zAD~PwvdQ4S@g}_c4QMj9k2s@W)@I^*mEw`C0W4_J`PSE@xU!oQO(zTIu0@1lsO;p& znf0%;(RvjWY&M^~a=Gi@6d_nBc#{*fO-203&;_(GlL==_HW$TDh`HCI3{fTO$)?>rNPBttzTOxbo4IpF4{|OQLJp^@MTXUeu7SVNNgMIL~jItJN82u@(1R( zg7@7UyKln||5xvkLGOPVp2L6QQo}0+Qs{lrh&YZtg|wU=DEaD$5_}ofkLZRthmKyh zl}*B5xGlXs~eab8~*@eb+DgGH%yAQp!I-jR*Fq)xt@XCL%(!@Ki)#W$7KI{Eb4A zzoV!yVnD|%&Leu>RzQV)U&wN`jxQFyGczXUO^0m z{}6DYi>_sc7eyM8QiliY##fK}%N34AZ!Ah)s73qs?2bV!GMTNVC1bTM$PWPV*b|f^OaOE-Z}4ow2n%pbL?I>$B6eAnTjq2asxvqbRknC0yIPs8tu%;A@> zclDRR^0_-&GW$&9Gaw6(a+h2vWf_Rnu)HYmN<#5Xvm$u~2=|}>7pz-(7p2^ZuC0iD z)82g7!uW=r?2Sm-0!rl~92MlE^-2M5=|gZ8zyL-Fr`BNH4o=C&L0(b5A*wJ@O4)&1 zkqaD)k-Hr~&dIOe@%YctBNq1#wYh+iXmV2TVP{)KaLQsE$MdVhj(G+Y_w4Rbq2NVh z<~w&{*z@?qzM|dl*h7jzo`>^`MS;x0UsQ&}0vV=R=drDJZqVjbMc)R|tcOc{u?^&k zw;hJvhnd4O@Ie-Nb)$R|Ckt`3mRcn}4v!07D zWo6#ocP(^-RS-Bv&D7G7I`L1D6zOnHkU&USr~aMMudX5Cuw&L6$d!%%nvSe}bZ@WK zaw4+aIydrQcIt$S8_N(B(@|19z@OL3Y}Z~$y_d0=$!DUPwVi^tL~b*zWfp_swFzTk z*n65pkY(L!$W7)EV|GKzCQ__!quru*x7x`tT{(zpj?exIHxk?k{qztmzoI-1m3kK& z8prQEH*QBSlcmSsE?9ieiB#zdNN`Vn{a;k1$JfiX66Ym%d|N*ryT`ze!ppL}qSz*= zhuCJJT#sq4Sh?jMZueJ9JD;&M_~dNl_>zA$fX*NC;RnB;^a^Vk{8nkcV~EiJ;`RFl z6SRG$GzvC^pWhjHnB4ftdOo?*#Y_1cG#M`A1%QlX$rth>va(?{FyB%$vz!t*ZO7EeAN z=1Qrqsg~T4PF!b~K|JuY$>=eqX=_VKo8W{s8?FPfJP0Fb8~Jx&!|61P2CrSKX|MSG z?atoQ5pv$q`8OzZhCTzt0Y~Qulgq@_@;MILM1de9N;l1I->Hxe#P{&ec#QeHfR(?) zr&<#rQ#rnH@RiwJVMd{#xXtsYdEvTvakNR_F4{u#-1d9uH;&5H4{9qNkrQqcJ0aKm z)H5r5nISx85(q~DZ zA06HnFJRCcT&XG4w#Sc0OIL758WA_o-aO}a%shWGZ*sott#*pj_O}r?ft>s9Rr_we zoZhAyIrfNweHt6sypbc>ac#`@Y{3Mp#gDMjTk`AUCd(q7m4E*0-IBul$pxv7a(F!! zhrW!QF_x&4YplrIk)4r8oo7rd7W~-%>c=$q$OZTlJV`)as{NA(V!3y4QfJHUWD4uX zF4$}*zyKrNcxaxBtM0YEpfrO|>U2Av1tuMK9zSdMWQJ*J#h(U0@aeD^ZWx^U5}x+zs0D_3}VWNT^X7S49zC&!~hhr|1M9QgA@ z(s^q~qdIYIaVqdDO$T@1qARhUd7+{BL3H4GZWO3$9MrTk4|vq#5i3o-}TfJd3_+t1b4f z#w6pg@X$?4&5~4GK&jLPo!)c87F#%qzOTbYKR^tqm&r)05?Wc1DlCXr@G+MnejXjv z)>U9C>pUww*!QZJje@NvK4tvgnw85e3sH5#GK^SVL2lg5z$t??Z?RW~ZXB>xf@?ql zb18UFayrX9-)M3ZUM^X2-}iOFh7&?h7*gWK@M4##4=9g)b^kLQ)eB34@1HNYVa^vc z(R7M*w-4swFI?l0y9wC|IaGci;vCKEZ;wBUrrV^C8vRX7Nl0N*)QG<4&rfYkr>Mo~ z{(xrh!dUX76^J4ckK}R>|KTvnGudK#LF$4uBus_#6QiryJPJ(@A(Z1EccEdCd)Mw@ zl(INlHVVFnV#P;lF1Lp*PpmN{tru^2cWho1SU8^}#a8|fn-Lh78a4R*w(aD3?nE#5 z+_;0>b6y~e?J}Yp0)#b3BOnPxu?=ItowZKadlNiz6gK( zt-0V{We*ab^-I*CqDb1Rc1<;!G>3O#ynOO)Yy|R0LK6H2^)@T8X zepo;^QIR!&Ncx#a%ETuq-lH~HC^5zl{TeRVEI5ZHR0vuf$5yZnd0#nu91Dx{u&S(T zIv0G4=EUK~6uO73xz^+?t~Pd~)vHLe>B!@+w=5i95b&cB2FLAn=4Y+G;*oB~LZ)v~ z*7>yrapV#y4ku2Eot4eFM=qqN;3ln&078g|#R&f}EmQFiY%BNEFm)TsH-5Pyd`#GiQoZr))9Tu)Q zC|OQ;2sX=I69kCkElzj)-yyY}xM2|((NptGB;_6a-8k7`rlaV2%-`^ee|c`?=(p)T zXlDHfq6m<#yr-aJM48(~r?oLu^;mNz>Os`^9GmvvZG%UD_CccKsocb=0g${TB5Cwt zE8T-WkQO%$-8e+sQ&sY&FKkhnu{m2UbX*d39-kc_?M!FAV_#8X-7naDqs{5gWjQOx zYWXd~_L*QpR)2)Y0(rGuptYQZYlIo5KcnRRZnY}?+80bT_2tdTupnOW_9u;J5>Ac!S;OatE(`z$ZZTdHzexh zba~HQyD@33_d`Kck#vjf#LVG^?OkSkC_7Tc*t6mS#KF(LX7v9ylB#f38n7;#JV}=$ zy!!(%g#~G}mk%VDN|wE;DPj+XOp=V)fk+$Fsm6Obw72g5>O`R@9I=TiPS?ArEUI++ z6xw6cW0FT^RjW)Z)Hf4^X ze;&MBA8uLD;@e7T<%F$wtVk`zrOh0k+b=esw|`~UJ$HP#06Ue9eCe88vLYk~b2oh# zhVd!b;no^rP~5Kkew>wedgGx_^lN^blRF=j!d{tw>BSYhF%*cMsu^us6?#uSer#az zI2yDxVe=+SW)@8tryhSiEyI)o#JKrcD=73 zMy^k}Z6IC_T6~hF@iM@)mHgJ*wdtt>#~W}a*}y^uAXEu=5#^)2 zS-40mi_Fb8C)xq=iZ#8xKC7n*6$HF28s!xloi)@lb=QZE-h3jt9p7p=`>#zhyMMh} z=8b8p*pjyk7Lx=b#F``iO_5B|DI<7F-zYL)Az(e=`ZOQBo)Iu?C!t?^TiK>FAJY@7 zCqCY3r?VexajGcFpLvR$*zSmci53?3yCLsfl*pNh0c{fA21&&#KozwgE2%q#7#;d0 zZ<_W>F8uw?^PJya%u(?%6~XjQR}s@Hm1T$!2l_SN8K0|j8WLyi?Tdo}h7&>Ex8dlC zGW>db6+I;J0>tW2A>a3$6&kS}*H=?*qwIv8PU9*a&8c%QGsVpOW}eOI4dJScr@gzz zf>~zd4s9cw4n2GWi(aNk^d7{#eu=yO*iC$qb#Ug&Mn`3o=Gq5Yg2)u+EJwX+i~Up( z!-`o>*p}-Y;&L<@j2e|V)u;G|7}Z%9@5D10N0l-ysgJ-nRW?(;!=dIcCV~V=%X#AS z0h;U5xa7OSOG1{s$gqg)!Sb8KZSkF_QIA!AZXvlzb1leoL)>Rt#S8MlLKQTj3ZuK1 zIMD?_l+T&XQwGTgL0gjr-^j+=>+0KKc6+6FFu9dCcWu8P9lZI3R^jYutY8(Ja>|sR zesgwdD9Z6;5ii+8?=j`tGTJds#%BXHGIb%v&gTOB$eH7U&y6T(BBI@k5>omS;AK?> zau8s(Ks!w`dNTcRf;iFQSONH_p&5plrDRmr&EZjnYzd{DJ``HM6B>(Z4+ys`FrcH~ zA(Rd^v#%IEZ$C1>s(C9=8K{%CqV^xRFm|+nUE8kH8<(F|>0r;Ux%mUn3Hw%#e+Yal z_0ARvn}@}@E&2a#ijGAT3;ZnrV|9F@>ScE9uSm~+eaXX1_YH_~%wF>?o+%)M%$(5* zZzSX-H%rArUwH2vxim+Hpa0bCGL1ue#nb(0&}b+eAKKm{FL!3?zrU)?qI0*v{`CT! z$@$ddRe#oWL&ZjN!4e$WQef~(MenUR%glXIYwb(tlhdgEKU?h;d=SK8;8&cy|WETqhm#z3AKLg~X#I=}Sj*vNy_^bJ3>q=k5WM8l%dd(>6 zOlMU-hUZ5Ly1+ZS-E=tZ1)7f>oh+vyTZVf<;Qh<3lpr9$B8A)%RrzC1_|IWyLb`_I3VaKp>%(Y~4Ass>hKP*BpU zcL|85eJ<#?lAb4`aw(uVj}I1AL{|+q<3DqVbT|?aKk_o$w`O z?tysJH>bt-IM=ew$u!*8kvX?dOe&@>6}N`@OCx}MD~Wtju@mhP2l`l^Hy|t5mMA0$ z8QK_Im&yKg_RzN{cH_se`X?FEY>`L&rd%qf*1N$j;D~Z3kU$3c z1DAP{gFzov{qJ5h{+=sG5Kw%+=za-}1LLJyW6!0SJ3K-DNNdTRO|Dvwx5+?0x=--P zuZ+O^8+EuoI*Fm|4s7Rmo1)DZe+N^e5I)$y*!SFWNbTzW+o3GkV{a=V$WVvXdP@S5 z3PH`a$Zj2RUbOWjqaVD{o5Vkw^JfL0KJh2&!MfaA^oo{On3&~J9~`_I z*rcKFs%h*tMcu)R96l@Z7iEKv}0N(u>;gLDiRjCPkRkLS|a59X7WL5Z;S zu-M<{NnVs=^l-hbuh{!yOc%+MaG-*eL-|e=<`oM@g`~vFTX@*r$?KQr)#+xK1$SiC z3XT}3CK`3rzSyd-R@`v$ftsE}9cd{cN@GoB%B3i(l%2l84kM_HM^o1qbc~H6IWd{)>d*OlV(nFFS&EF?#HY8mddV%T}n0|$S z9qo_fIO5vh;dlLQ*hOm(wMC2eZnTd%@sbdP)6CxSaTmANg9odJ z4|6Nu9di`L6#dgDZ*v7Tb%>GLD-BZ6y@!W6gI>vkTbc|OKMng zyT6HybojS+E#D3}b;{|s$Ck<~(#9aOEB)WEk#&4&@|gr7=32G$rMpngOa~oXoJs58 zuOBZXriLG%Y0!5}{J!v@G|eeNbn~5Tr!dwASKt!^dqF15So67k%LZv4_=Fhs$}oiu z_PQ`c5Hg+$ANphf>t^p%^g~7fMnC*>UmHl2u|HN&$V^9c_y;(j?V-?{T~L}dI?syr z5t+!2^$T*5vjs82a8MEKWJPu0&+_H9m7nwas2K2XuA#D8C`}CHKaP$;wb}8gUh=Z9WJ&yhs7 zh>)8I@v4hTx)=fqDn&Cdg6>t?F1&~2s6>i!NP!QJb_^&nW2cc>fWjkG7o^C%l=(bY1tIs=7x z+24<{fNbwdoKaC3HX&DBA(Qpni}vKJfxvXeKe8vwyJ$V}RTKZbw^R)`46hr<{Rn&z z8*D*Xflz!u(fty1rja*V)L(V_{`zq(2TliKD;Kq1_M-}8f6Pa-Ibh?~_NhLXqO|CU z+*l+BqfVM8&!eVJtZs^=R^)HjjJuRRNb?jj^VHPT-0nUC&WjMgeHSS?GFs}IklO%d zL#qQ<0a=~VVoW!baqi5K40ZS|gcDO7Q!#IE(oYh@?n*1LV;Wk(g?zJ^?CwAKMu<%a zGSBZ`wEjl>5HHc)NOj}gR{;r!g*4VsEz#Mwm^USFZ2NOc?CrU5^YJUYA0D2FL_lr^QNCUM3DgFm|zG*V__3Q}{Irg_oF4KEJ zkeqIGjhkiqe%@4|-~k$y$ey~fqL}JSaSfwvVcU4AoD{AO3obsspsCbV5)tFZ>B;2K z@(f9u8<)%c=L3`srhyXF>VAwvLS$>XR$I<#|Jt%K$yOsoUD{bfLUcO*PrIUR{g1MG^m?u)_X zM;K9bgmF63I&~2uiWqR?YKc-|wY`i=cnFLSBIPnCBpNa3nQvk5+~u6K&}bl7grudS z_43Vmg)Oh@eG)~J0O-@Xrg=L|+|LI8#hfDj$s5;S9M|spksDKBIp5oD(-B7pVg?;Goe?|8vO+s8X^Yl9vffzaRJ#-pV8+bY$vlfSI`B4NS z+W4y?gaMLCsFVdF5hloXv+r%#13eK!0`tuV`nwey6$SC^;e(HP0x4QE((E<;d@PUc z{wPNqG|N1PPci&XYKdcUS7;bHVG793Pb8IOo6x68Oqw}-Z=;9EGDFVcu^lGO=WT=; zRw0e#^rlGwe1b77CZ}jS(fS$YpM)#k^MBE$CL_h;@BW zMhs&Jnb|c}PeeKk)SLcYFp4Gd=&;68)&|zFRws?h}05W@@=|~Jk zW(^8ST5(Ob*s2!sR!PCB^8Vxm{wU`^sUEeSZb0Mz)_q;)+YVm$lcI6A>KVV`2;=r- zv&WMR9Dd@UzuejZOCtyA8nP9NMdo1%CGacDAiGMLyV?0-+KG^<|CL?U0HUwD$u@33 zGSZN6>5_I-)3>PAcF7G*N6}@RXvWiKoJH?pO_lX=jaz__V&AY>` znfX|J{L*_br%`sPSIvEGgBq_IR*!;Jp@E$5ZhN0FX94FOFDZa&Nt==*%$yUD>bV*{ z4rA>%--Y}nL;t$o5@OWBh2}s3J7Q;|bMN6C6cftfviYA$%=FEyn4)z7J8H$RvNv%? zu@zoJQ#)mrSh7rFhzd>UPAi@mIdsvMI_xNGLRR=toU1VDAej=jV*AWFKeTHLOc0UH zNU!S@_>RjkDTNK&fl||4QM6^*btI7N8qO&lxjFnu%|T&BnPR9v0V#653iQ!=2DD;n zF9?Uy%JkVK<%1_nu4GyKeQ=E-I(NK?L_{xD>}ab!JqP)NNxz_Bz^FHNm<3^Z->30= z9`DoipDjNj{6J$8P-wMyGcMfe3}fUDDI{+qlJ_QT;&8y(oM$%&G)Mex z6@I6FwOfq>z{ymlqDe+%_~FX2XLm@#ae1yHsQH#MCa(GVfMgJILX@8kjoTSZG+!?> ziw^!{c$8Xf3aR@;>{V4!rMsKzhl-CrGK5dozX|_sly~0=yDkJdkB?%x+s>vKqT`x1 zNG04+w%G}lRpUmx10-3{1$i$E4wvSG)FAPp^r|%Ec96ych zC6sSVZW-B2HAaaSjtalIY0N!_2GE09rsv6akffHom2V|w+;a;Jj2b9p78;8=fEX!SGdN3tf zGTnTI{{}+1TwHY|%GlcmoQtkx%PP~~zQjW?i_6WE#raF5!NV=vZPTO_*oWW=qKB(g z({ifOPY-!F=ddC(h>MN0w8k{ZsS(K^d<8Oe5C=C3gbcZ{z8gLVAG&{=kA_8&pBo9J zC>9e5fxeK#mcYN9H~Lkz<{lFFgEpp{pu`YJl^3D4Ug_g(gz$2BSXxe(u~(*FJ0!O1 zf6L-ER#YEp(Ioje(a`JRU>Y^dgsm5?gIz10-rlD%Ia87=uok{bC?-jEVkf9G_Ny_w zG-sT5qv>2EJ|+VCrm9F1@beHl1tD~AK(Uk-3+(JfN&fjyeb{kR*EfjHkft3IY)5yP znc`{|!Bv9YGs%OIO<7DIb{QJ8Ndh-l=HSM398!xN6`{Luwnt^U-B50mqs-dgz=*TL z-gsWCs?%(0MuTGT!MoC5X6e;JuY2oE1a3JDnZ!sc z!v)64)416-*J@DYb*6Qg-EL^R|1q%Z-j~ceU=~+k2el}qE5)oE3a3cT<(Mu*L9@Zk zUsA|gJ>K63f@6r;lBcH1->W!J_(7d57V+;5Qw1m?-qv3;Z8!txD#mcaxiA-yNk`~IP(s7F5k@qCTRQ_%R;-7IdW@X#5x^q;F{ZZC%aTKEWDvw; z&8O+e=vU{%T|Z+T{hx07QIw0fKCjvnY>90T?}EP8Pi; z0N;|vMr?@9T@@V+8cEvAFmE3<5C=Uk+%T_lJxo1n-7U*UrLwUoHA- zVR~-sC4Vz~^+aD+^Lpzj5_k1VaPTjP;>TpmiTcdyUp2=r$Mmo>;@*b-mZ|l~nVV|Q zz6$8k^mi}9Rtj`WZZ4qEPZE)mo9qM(dUAoWSETR5w;s}$vHN4@clsBl-)NQq%>M8E zxnI1hvh_wV-={Ko^scPNgp(E;!=DpU536dQ8=g zraR7|hkV(b3<6>6OYUR-{@DS<~W? zQd*$4ch;9^>gno&R?HB7yp{{~0ZjAC5}t-S3`wg>TqyTyOTDYKqi>zYt!Ec|IHPK(hc@*?>7uBZ`-vv!bRY8;?B59+rZC+w$ z$?I@!2qUml?Nez@^GoclGuSCELzU#WCp*`A(!UxGDe!~;c|DOPUYe!=alYJwWEX7E z63lu8G%1GbVC8Ti47N|}W*y6;%Xiz%Ek%LN#!3Do !~dOKG4C}EspY+;EgAz%n1 z@d{2Eg;I{9S@G>@aMPr?5lpVtZxqXAHP&+{#eyn#kAhe>5UEVlk7%g61c9a$`(71z2R%imA@f40 z>MrL5b@edKIlNynyUzEs!S~Zc;Mam~DaIUZGAAN-_xQtzHNlckN>FIiqO2l%FfkFs zbGjo4DWwKlqnF++@j@@duGQDOIk5SN)_wl^(?I)ilhBmPI;+eVLvP(7tBVh-Ys_B^ zZFNF7ACA=tyYsATPmD%W8H{cjeOF08MVEpR{%63=%`#7u6USa_BJB>2J@Tv=Ci{j5)9RUDGJe@uyoOWzu=VM`k`6}dZ{^`YnhO~Tu{m5`%;ENF{ zO5<2?%Av;xPNE|oUTz6FUT$%@X7`>c8T2o`qGV)ZX_cZ8DBc|1rWOkfpS+uJ{2!|{ z^kmk__$b}FzuK)E8fSDUQg;dUhsT*omj40$qsyI)r>VqwJs5S^4C|m)k@{jMTKT-a z``8lpZAy_B~AV1zslEkwb_H?+tJtF^xT;Yb$D2RMtM#&iXG#AH&(=RF)Z++tJg{*o{M_cXAb!Bc30A@Ggrzu1Z^`Ibig;v(L}84=m#AK{I_k@2kEdnN$EA*jpN5?+ zq0kqP4-WXd(V}V824Za_W^SWobh!XM#B4i6aNi9Eu7r!gIzjK>f`KplV|5}jh_Sf^ zIV$f?h~=-`1?GMjv=*Hb-~}_EZ@(DK_eS@qRb@Ob0Q@2h$V)4m_Ss z;F+!1NNd@q@~)wTr2CS?0`wiu^uHLz#EnNMun4$kw%v7}JyLu8*}FQJa4G4a_VdU; zy~#uO4VK1%GA;T32udXIK%~l!Lz3HLXJe85dN3e|oHf0Z7wYaJT3SKpUGL9MGcKhj zqma4%`}#kQc!p`2iuvY&%5hyZ+eS_2 zWL0?glg)drEh3VN+p6W&p~ml0f4+RQFYK+*l;=~V|C9Gj5I1$48d^Au1Eu)$=PLZn zGLjh<$>L3 zx4$0&%$aTgqejp*4BsHLSW%oUmd>P3G^hC4`N31N~w=N!(K&vyO*FN5(l$(f1%%cnV zJ`*DUDXQ^Y|?eBQM|S%e8^=*{9xJvoEA) zn)9nm2R#SyZ^{G0pCX_9kkaz!r-kIZ!SLQIH~U#d>E(7PkvMaJ%94R)ElQiIep*1- z9zB{l?B7gOs{o=5aKuYz>*yi*2i^al9~BXpTh+cL))jIrp!dt_hE#)=<0+}@DPhd9 zBG)w?Y5M6ugQ#P||BRYddb6nMAx31GuJ2}1&=;HQbQvCtA<;fz=Hcx;XvLo~f$VlT z<@g+c+!>sxU4SWk{yzJ2*DqfMa}Q7Lu9OO=;_&eM&)>%Wt^D>$;f+bliFNig9sWeX z9b_dKP#GrZG0A?7X6^OL8U&I$WdT#n!Tx9nWVw~z#Bt!daeS_9SEiIF;YKG=R`CRj zBL+NljAEhf1us72YRj4SD=2;X22UMw0Dy*_lK1}Xi+=jFi^N+D!4z%|uW5~$dYO{e zRy*>Z6&+5S*MbiBB*FEgx)21nN0dy>e!BZG!mZujn85dFw7N;_DtMFZ?=Uk%qOYAV zCbXn7I5wZL6VP<3<7ClOD0JRP_T9wlzV>4mm0LLE)J6zaAc4sbOMFX7$!4W&MWw&x zV6D{>hZHGMIq7p9+a(3P{gH&$qZw?fyO`IHf<6g>F~}#=oKE(#Q?!2r4Fb-zP$lbxzn+R>p6n{S7I9 z$2wY%?qU-c(Sp-E?6F9r^?kE0z`i=|EWl(Od2~cIs`O#NdAmI#?Bqo{GA;*r#toId zvnd*Be$s=2HurF1G@J8f&C49_dGP- z+Xlt2f{qG2;WjL1X|*-@zFekm6sT4qF=w|akDoF~^P+Ts*C5ZQrj0ds=!>=w&(SUE zdax*;vFF^F4oTZFf}qJ1g-mWoP@7COi%FpHjGll_YNrop0}9Zb3TIHq{%?!%a4|cy;@&VK~efhsW?8imVih`^C_S$KdJKqx0vHY=b_xdt?V3R zxySLXB)JO9sB2%HqfO6C0v*Mke}9YhnLG-*G$xRNU z$Pa3N-glLqCWBtM9uDFVh*zQD6g5>XI z7hvx?Dg@!Z$Oyw9zgVns$5lHe8QM=oR$4EnF+eDrw*DhrTX^7Oh7{OQ@8D+v_cm79 zQFJzAc1>->iVI1%{S?{8vg*CU_vsH$=zcp28jrw(#f5z}+WOIQ-dtRF?xVb4O?gnK z7F$L_&m#8bC&YsMHYo7gB~@*d!*4#`N_5d^QM^BI@=N)6u;U^`Yi#`V3z*v(^7&(& zcN)>cU4IF+c3bs?3;f+IFnT>KTkQ|PL(z(h81Ej30T0Z$Tfs%E51xyc3~=A$S?YBI zx~xPdf4{#;46+qpJAl|M&jecQmPAQ)%KA(4RHvg-9n(U(#u@d6pI``DvC8XFQ|-K` z3EJisImfyDp!x=;#VGWQWR9Vu$Fubjb|mqs#6R%B;Ueq~6;eQ|2RF)!oY8Z{UcQ9( z5`-L)rvAxi@rM0ZPyNBL&tYS$x9ylhd~QXM5j-x}{vLpOf$W7DCetF|ZU8#RF<@Yp zkbR|UWgK}0iR^T>jAJZ|N4j@LFP>q1?9b=lFP`5BgOR1UCU{cslt&z!aYQQDZk* zxqx{egC1}|=6Ijlm_J3513<-?0-7^=H4YsJ66O9)W!&J;4`Tc-@K2`!z9C~9^M5C` z@oiuyx{n&Ca2xjeA{*?%!-R#*-DsGoiI-MoLON(-isjfZ-qaZqRe;>S&^#WSCPDL= ziDMmzCqngSyic{7AM0M5dI?-GcO*;1>6D~;q;XWP_-gXEbuvGTg~d>$V0v`#fY-D3 zRRDddI8~_7M78}Vz=IZsl8&q z%Skry&N$@Jkjo6cyeHj9h2R*HKyOWh<0FxXke(C%wU0tmDf~eae_xz_cSH-ZVX{IH z#|#f@mG0f(+c0Ae(nXDTq6b19u@NUTorXF?jP^>dhMX`_Er5O1lKz6LUn^}81Q>=O z_Je_ey%$hpaH2`UjOgB{b8D6HMhl)ykqT^b*+{LnCV^k_0=cav*34szmr9ds0rKva`wy?nc7YXv{K1q4F$PtLn?Wed& za%_jMFQCV42QTmo#YmlqUk(IbQ)`1BMP(ewnHco9e|tw05DbivcXMZ}Pp{8jldb*f zz+~l4*@yqaC16U{BC%z^x8rTFk%wjXF6@kxZ4wG|RP)k-@ifhs(J~vsUnWDNyy=AL zU>{N$A7JmCjyul@{^$N{B^bi3^L-XWF^|MkYbg#V0RYONbC_;rf9r;SSv8mlP z{tVsTSg%>}Nh1*yjaCR`gcjO1#IZv5gcz#j4)dHQCT(L%q>l*-&MsJCVy;}~QljQ{ z(4X@ol3uFBBN3r|Ko4`ymIJi%z(}>}!b%087RT{@y zZe`~X*^<}j6D2H$CS^N{R>D^-=do4qc7b0ynOtKMn7emOxHE?5BZGK)flule!aR7} z8TjxD(&Gau%&~%87Oh+NX?{uYr8ml9N}lDN z0Ja;YAjI1qSUXx*_COhX{fpQNf)GebXksptI)Av*)y#<+<=V&Pa)dW5NDmhF@QP3; z(cE`(gg@r*Hl0K#86v}4kdpL}U;L*ZvSrzSs$YO%(~&f9yU}Z>a)C~o^2I$sSk~hN z6H{RKesx(EE!@P>>7^~Y?+cOwm=ciJ#h%|32VsrI*!<_(;gj39Um@|{39!#^)#=?; z*VAM#Jo+-M^I+0-l0hyWk3mP9l9U2X8l9a7H}l1(4um?P^DvX=|Ggp-B0rz{>b@2K z`ST!fGenL+$8Fu=Ef;pjMO5P-6&;drsQeiPRdwNp?QTK7N?+6sk?Mp;sMnv(YQ`|S zherqhDx{vm?k!T|5B*h z5N-|zrKm%w5RiFT(J_5|Uezedb;uF{uODGWwstNJmtgOZS-jA;7y}d-SXp+!`n_FK zsUt^NQr?J+Y8x(?0C5u8kMpaaNl#iid{;js&*}d`-+txo-~L-fA@`JH>(%2pnJ_qz z;85Jzl?AWeTe=pa(}Il;L`xf73cHC&@V56a!WQ&ksaIfU41g{tv-q$frI2}*;>-?F zr9jDO)pM8C{mPZnf%1n3Ih!fuDVIy(8rfv91OV{6ouY`f-IW`R@LjjC6&DHqMJWs7 zP4Lb`3b!A~u@C(T1V#?i#E6r{lQR_B==WziLe-yLeb{%<-_AyVy19CrYj&L4+cV|x z_F@pJ;Lf7Qrjd^>eAN_*Bhs)P)4VwCg$*#M?KZB!rA#F%)y7DVDVe$%D2!>M-G>Bv zxLV{Tip6mL;-j2S%da?Eh7&Z)2XY6OBN&bi<=7*20#lFU+h6O$itH+T&>|yl$(=63 zFM5WE0m_1n!88awK*?2SuPq`>!&>Wq88v|~S(lD7_c}L9kN2LMx->9Sy%#AhN(?q{ zoGLo@@^O7eiwcwe*8IfiPu_dQ;nn}n+#d=2N!5%!9gr4+&wk3)8_ zq4jul^qwL^B|vhYc4n|hNzyTi-d(@6HwG&k6gA&cAS;cp`+c%Htbv5w)D|1rQK6$1_A&0*vX3Y^iS-dYzyw2wDCsMH5rG0E?Oi z3J#R+6KATcnDS^k$2j7?$ijQy)OPT5`MJeZ`6N2XHmF5 zkh9*(bRNd`~uXzIUVke`$5JbR&DzCP97pVTU*$e4oMKLn56~b?4JXWoqOz!mCoict` zEF6{1?r(!1%cvG-SE10rMxpF8PponV_c6atm23eIJ_puYDhuo`(0X5ZTA z7Rv&%tRTD44nPbbQ=THKOW9{tQ?|9v-*GJ?sc8=_jRq*e{qkE4+}P}4S2KOqQLE|? zgdiPLM<7s3vZ_ZA!XGAD?@@f)!M_glwn$JNYq6tUs9;PA!;jTV-}b--YbHmCNJpm8LY}y?#%EBP0xBXmJ(}ekCut`LwfkKmsC~D;#c__pG=^}i+B*>uvWwF-U z3(HqI5zM)d*l^8_L5cvJ*HtD53@>7IFY?3MSN_7)*uW3IBbX{V?6rnU?|!qpH@z$P zk}?L<5|9#=(cpMg{A?bpsE#{6q&vL7nmbj~1GA?o8$ABzTzI^8z&jsP(c<)y+LqS|=H(k`lK+Y~Ho3Ea1*Qvtv{;z90_dyybAAti^ob2J6?*sA+cVO*2=TE;Cqs&j zhh8l=?gzVQ`?uXqiVj&dnQgPex(N(aFa>u@Zbp)kkvUgdhoqRU^>*1FF#&XSCkS#!M z>0_>P-k}WSsMlui%j6j4jpUYIGP~}fdSq7Zi?NaMP<43L-GKRTf~bI`RoF)O#){T; zSm!zv_6t8w+*8t>z{qr!bYeq=S!^U^$%kzDKjl`ewnZQtezo4M0CI#v*Slgthgx-8 zFKHDmiY-9=CzxNLzk_vUwf+_%*)U;319DDeye0(+;?p8 z!Zj!Hb4!7d*U%S1Mai6pn9xyzl^e@uxwVPuDf91Lz%j_D`LG|MpoMjK6uN{SlEwz| z>>$Wu8Tn>fpeNaGE|Zy}%24Ni9mQz5zzS-tCUp%x*jayXdF5TqdFewr~=*S9!}O^i|`By^S;h6#{8@?B1Ym$z8Kp?L=LD zR>s~o7OI*f*|&n4kMfNfKM(*LdNiAyT#D(X(6GW6 zW2V`<-9iXaCS4s4%TjNl3w6cc4xstHWnh!Ji+?IH@QJs2|it7vc=*F6jW zp+2j7Y_e__g`V*PAgNJ>M=~8c)hw$>DboleWME}g^Dc#G?j)}=T4FWAxR!DH!OV*Z zGXN{&Mn(GBz&$mzBUa>_MTk(VjY}sF1Q#Yp>uX_e9K5e)#N`MNsTu*1&!qR(>>Z%+ zDPAMaXf~Arqx$=5lNx&SlfUxova~(xchU8423i)MeqCw&p4Z{%Iyl26!h~+D~yyT6iZ;so`c~Yaei|sH9@R=1ayE7Wa*3kMZrJmgVp3tC{Uu z)GMK%lS2aDvZo0y|MD}gUfoIKlUxwN!FI1Zv z%Hk^YPDi#75;uISD^f%wIYKos$9aL~>5|r@lMNi2_~0Qs`#}s|Dz_oM|I^T?I&0Uw zv%z%Y9gQI?jXM(2GJ5_8y>Hx@xx)W3U&`S|zO-f8fMPzMdDwb?8^wJND%ch;kZUum z-0is?_;>+XESGp3#uO45qk!L|*1v>}E~{#89cT+NQ9+9!nPiRSj(^0e;%X?xFYY$)+pdZO4=Vz#?iz$v_Z zGL5Xx^;*2-2ZS|}UFBLC1vMYu7*8q2WH=-n-|+btm8ge~sxj3E8n9aj6xIQ}$8tj#{g21 zEB$1;NDdoNOf;lj-cCPii@uCOHT8ruH9V-{t6d$ZDa_JP0#T?dLf zE28lRd^ar)b3noRGvw>PXWabuhG2OH$hj$|a%_2i=$)3zC17Pb0avpmMiKB6TkqXWynG(io#z9(t zpq|r8owtZ@#W(;_8-5Io<+8a8wRHH?ugYmuc2MoGMpNFxM89#9#MxQ=ldrJrl}Mht zO9PcOl>Vyb)aUy{y&N}3CC_oWCBu#dlm?picyO1c^cFMX)21qC;F3$xl|6~naPGOTkR`XZ?6iA>)`8tjjvPb$Hb}>-UXzC zu>~NsOA0W{U2;5OL5_FssssT8je%24WU5NlbI|{GN7~a_M5gz#ya!}^b-m#K?Xjqd ze;^4+Ei#1uMXRx(Tl4zSWuLzXmDDSl=0nN%OPy)=avYwqY8!FX+<1h;8R1W(7;(AA zM?*^80e4dBMGbC$lE8;cFwD=x&+6uyi(^oUsx;D6*sU8@Wfr5}tylNi3)W0?#J%|F z?E4vpSEN}szPNGs+T)YUU6)i_F((c`%!f?KC9I3^o6x9(dAXG2}|gzeQfS(rsh?ypq{=GUn^j&KV5>VM9tGRaL=FE$kINWg=4; zB1rKgnRrL|%N$%OxlM+go?K+T<5oZ%ik$;h0CIKFJlC4*?{B=F{o=+(Cj6hNjfX7H zxgkd&uMbaOIsG*Ib~j|;j?3(g4}JC2(jz_BZF02e?qVH+hK*_(G6is6`ev%wRqbc? zaKDxe0MogwnbyyzhZ`^qPa_vw`?KxG1I-?jOg%7Z+AK-lkFmkNu;-@;)g?(&9r+6I zz%0Xzi?_zFzDFKXLyhf=T7HoPSd>pkS%DUCOoV!tn%RPp^|KjG)B0y$jVvdmDhd?9 z&jLcPuP7C@E|hxaoR=>wb9o(T!LjSYT+LtS9^B5SKtLcn?C`}HT(w&>qf?a3y}Um2 zAt0%6`e=y{ND$w9HIcL6*rqxF)zAx87FAYYAl$Jj;*@Rgc=Cr!pH3Cs@v#-E($8H4 zKf6q#Nvu<^cSJSwx0dH%f!{mbC?4CknU=M> zJbp>9?m=hmjTw{dk1CkVp z4s7soL|=z*b)u%-I$)}~EamswmzJ5th~3W|){nDq7lWV7qv9D4l$I#1{;DQd)Yn1h zra>|yFRt7@ZTYkM?N-K^hNPP8S5k1NWxv~2-){^=wC(-#!R&W@Gvi|BYwRF9A&>ZB zV6m8cJ2*$YK5nxxC4-R5w&%!P{yF{HsejOJZSEOrWAtdLUgC1n6T^Qk*kKC?>(yb* z%cvktoJ_eO`<-wEq2B9>Lr*)3Ff#zy##n_{0H=hcdiod<5VPcW5TrW5r#Dueo$w!W z<^}1S_8JoL2-6oY?_^6VFtoj=%OK4Ne9eDeh)1kHjt%HbY`ozFK-|?WCK&n{6#fBm zT84OHUJa>eVW2#idI4nCajI1IcbHd1JZQ!dr_)*8<|4v80F9utYA^&6%YT^0jg_;- zw#^Q1v;_~y4J0u+TqHgI`$M5$Vj*xoYX5e-k~Kc#NZ$%fO6K_2n89o$3Q64sBTQG) zio{_$2b8}4xxDeeFWdm8E$t||#7o1wdmo;y&iawl*>`S=k@WLOeNJMl>P%^f)i<}{ zT+$6w8MTREdVMH%s^2=S>42hr#Kmk{qHi}hDRt7d4D0!&f&jM0=V|?p*E+CQbFH6N z^`>ymN;=PjPG7kHnXZ*BykhjQ%V*^czS>m_J#e=KTz+OGVi8M$D&N_7##dU8EEbhs ztGwNx26F`$q<2D3I&ru8pit9X*4U#~>zDncA^A&zVLiX_H4#3p2%UGxtlTzERM(e! zy|!$2B;lK>!q0+QrM{0c$p+!VAxRQN0hwrzKXSk9S#06IxB{LvaQM`4vY`F|ixx4; zn}Y)x+YIvU6h&REIJ_rp?0vGEi;fMdhXCEcvi*gMiJXvpRv;;&&&xOxd12d?@<)~e zewaEBIzg%OLWWF?8kcvy8}nM7C+KclHRV2dm-TaL9nAhdnIm$lDKkU!f7+j8oQ-hY zyyJZ2(X}ATRhO~pFsW?daVB55Em9~4ST=_kp&>Tl7Lx1^hz0>-pw0X0thoWn)P=VO zE8$qB*k@%_Ni=$sFscm_cmAjRq?E|_vL?-IjBUs&-q4t+HWH~-T5*$SisT)R6sRIN zDco9u+{f2t?K4>ad%)9`vOGgjl<<115~-Fv)eNC03|Dw$))vdChT5lq=A%%(+g8)0z*_cTYDWMTZ#C zuWR)hT`|9-e0=r2v^}v zK1y>>=dW)_U|33pR3GkmQM`HoAu{9JYg9v~j>C00&*rQ;jN&_rt4}o723uLGZ0B+x z5gWD$+QOKiG70<(`i)P{v_jU>H2Zu${d*Iv99tRLrGBlC8dBH81-?{+SjC;dyU{e! zNYFyf%2mnnH*Z`}Zl^?nZg&cUOOg7Lo=uT*F&$3MVrA!;@zl@Ca!HX(vxN3;v8l>< zkRG56ofa%7#Y%X+#!qKSFhD{Z*MWl_Ab|#^dQmc^S*=`fKper`j7TYky)fcjnEe-V z`>w@pw?#=pW8~=x6^;w@^*j^U{eqXX$*YxrHs7*bu9VIE-16tm@Kx7Cy1fde#KV<0 zp)MbJC<^Y_z#UPqTVtlaZ6r?g{m(+Ylc&_}^Wt&*iYD6%w9nwWO53!JMZ0+S7i6oo z&KO|duJ(3!=GdOu(k1;e*dxP^9Cw)?uAMYDn;#xncq>f)UTFK|dp0ViefsxhlF-5n z{t2@viQBtDN3FgA?9q4a5AIe%t0eoU%GB zJsUK54UPIV*2^`)t5TK=0g0|DD&ahU6iV9Ioo6Qt5fdUE}yn%i0&Wko)zV zN`R$fX{@#zs&8oUSep;D6N*lxFux6${grJO9p2(+eoNG{BXvyWy%Ej>R#K4Kb#|ld zDerTkNxupAl?aV(UXzV(-|Cl8H6fq}&JMT^&!K|f&b@+HNfL;GFW3?&9&Wn{IKhHF zY?bjV@3fpg>d%4|x>>j^WKb&iArD+?-!`%$V;|0}n!+XU3x}I4x#^p1nkCL7>ExmuF1~wl`1#C^-^@Hvt?uZ8 zuNOJ zXV-PA&_h-`!E`?IYW>UD>xT`wG*ZO_#hWgD<{2#1a_n?}`@BTM7c&24&T;6|2t&NW zJhQ%o>=Ne&B*6PucfzuG_b)CVP}FSlA0)2x0`vn;R->O0I2JC1BE_AsPTj0eFY}>% zVwGr{nO&=`2Vq-&q9<@KlIXr@!Ey9!wD^iN$A*Gs8&0S`I_0zTaOtM*ilom5KJdQv zdJf+pS{3g~Xn3N+ujiM>kyMB2#pyUigd+uCMbnByl1GFKdtviA0)mX)0o}bQ+YS_Y zk&6s7DY{;Dp8u!#7~6V&pO^W+DUqU4ojVShgEQjw2Nv%($HHmVX_*{@1O&l&FPEG( zm_aa)TB}+Q;}C>7QM$8(yuaZPMCDsir8LX&o3KJL!+m1^VNk~EOZF{XwTSB7qpRXM zW{Hp8`jETJps&A8mqF8U^$njt9DphCJjt1qTPbaJEX}Z1T6?4PD5R3fTA=pfiCfmx zDmpTItWh2v#eVC5su@e@j-0n7y}MmRc$rrmnpQYox|wX@7!6{Kl)qD5U@Kns+ntS3U_loF0;R}s{zd{MfI}Xio-09Xi*yTr@|TfU z7#alWguLTZTHa^m(yqC8shr5Rqp4lD( zEmzzF56eN{hlpu_T4#%SnBqVJp%O+GdnvpbC|1gyidh@HdPdj}{Z_8j0Bdb?hP9=* zg)Dx1Hl#{4u=a+rvvp~_+bZN=ySX>@EhX3DPYc+f-Sk&q4X}SPZqIvRg+3Ri9BPDX z^yUU~m?+?R#MetlI_Pd0#EI-I_ui{;nHV&lIPv0hZ*)bm+w$jj-@m7GxF-8N6IDAX zZ50(17Idel+Og_=4<<@8Pbb$_IgZIY#)-GQDW6AbCwIYfOG2cx#@vak`IS`A7x5t? zsI`R6@u}oO>tfac#2m2dRMBgJxLrY5+MJ_3JWZgv04))uW)HVmFzjBQQ!0Qf3@WDo z5l&7wvcLjL-lWtP<3?4biciJzpM6|E5n^r>cIk(<-?i6#vO9EqG(EqRty2$3ZhmaU zaopZIy7^`R;^qc5c#p(8s4@mgAsX{25YB$H>|{^@Dt&q@PI@F2_^L3rYYtM}t(7XY zFA+vTQ{WJ4&{Lpsqk=jD@0~Mw17<`UI?jj5>B@ZC(P=LThO6A*IgI&!;x+)P8 zT2HY&nk>Ai6I|4NHM)SKN2!wpTJLM9E-k2fL<`-^{Uw694K~tEME`84K_{0I8juOP zEwuBVLox_3*Aj8WxJ0{giCG8&k6d-@TF7>h&Ks1=jG2?)BeI?8v_5gM@@StTiBIKPeAs8pC<94fG*rnj<{ z(~wr4FcN%k)N{{H`qy~<_d(x?IQ5qk?ga|5Jrzc42s>o<#y{Fx0%ab}@GVB(k~_!< zX?2A?p+3w02E$F2@$*blkbR~WKSYGYpbNTRhb9G7Fzr{1lq<&i+-lQB#5$zlc5|#< znBx1pYIM(Rk3`-hmARAYQ7}OF*1Wi0FNEOfIzcOIfDqd0b{Ad&TzCUoa8Csyl)j3* zD*C_6={*wk8K?z2&tK)5<^)qaXODi6NT!v-xnfC^Xc*p|-v(w!Sex=GxJzBHxuQEX zLV*mO#trzbB9UL;*)_$zN1pAn)Cv1faPA=fyE4h8Jxgo^8T6#7Ld|RV znJvHD166AH?t6wm26BJ%0pag07o6U{Vj<*rAoiLUl&%@J2memYi$*8 z?Gd^*ZL(9a4`fscr$7L0BlDEy_=ZTWobJUK02H~ju|3@9g#DBuw?}v0SLj@|sh|x* zx=!=Rp}n&F(t1&DAoGYPO!u8P#)-d!?0X8Qgv3nOzp9aHgEYpa?jW;@Ye-G?6+b==Z6_#>`*Hnh%?hi-}+&NJ~C&Pj^9<|W1 zqJEyaf8N`nIF)KPnAHD`ceF6(tNfM)N4F*hI8uHZcxyc_psc#JRENfS5@)QMkGf(K zD0`OnvSX?$E6a(#^#Q4Q`e>4Pi&Tt|P2&~G!ehYhcKlB#)hU(UFpCnnl7&vgdci=Q z3-IAN>$Y+~3sis?#Y12CI|?%H!VCTIMcfNCSml=e5wQ%wNpB!GLJ)0@lYtm>s?!fp zN=D%E|DE88quv+^d$(!pzK0?|l~e%Su zyo-QeY6^gn@YgG7`2)*)7^g0ArL`4)$%bv3e|3S@7-=Oii` z7$~a{rpR#74t_zO2UnSN%Q|Ro@F3C)5i-1TfZ)o%y1t(xJuIH0C1Ez8m9J_MkN^i`UzjV%^uTZ>5{re@S~kg;OItg`C8ot4yj@r!y*Ibtun(0;(b z$m|TXRd5%q)b#s(*d4AD{5C7DhOe%SHNIIT?fKm89H5x=@2$lfhJ5bY+cL?+*f zM=^GtbO7iJ+YIL(8`J$PEE%Wqf}6`^EM~VC7FNq%^oUw}k_$vz$pI!vCQ%FHYIR*x z8*i7C6U%s7bw$odvCX?(35nYCG&la#F%Gy&fIa-BFF)Gkm=|ggfxKd2ucQ|+-_wW* zsyR*Y8u;Ah$~_!NXm9O2@L?6|HLHh{hI8wW`C-uf-sh&@@L9bLy2pN7 zTLOi?A+CSE#fX3KL@XvMR@J0z_onG-9KY(2-vs)dflA`PxA{`FfjlXxee`-h>8BUs zal}Mm++J$fG-$o0 zQgh59(BJl@=+(V4gCc~OTGd_Q^DGU@2H7!n}UewjZRp7DLb6C z4wd>vy|oWGL9(z~9RK&{xs75^e<-_7OBt*mAarf)2alBU5;_mrypHl@E)CLkTv)2A zd8D|R`@vk3J+MD`b)E+*Eh>wMRk}%`;s>&fwBQG!u=PxdWV-Vq&QW0uq95W zp~}DmjRpm4JZgXx|8Xghrex&;19+p`)h!qw13a~bv99UuyUIiZSM5hz0$-etRN2A< z6kjL#mv8G%%^!WL6t9cEKC^Xs%0B*?s;02T*aLuu#xbsw2ElMN5#zuVoizxI_se## zW(3uuZ9kjL-3KT#VuB2$_Myp$8;}||-b7irhWuVaGNDv{>JHPdhr&_?0O-0&UoTM^ zf(OuL>aPHgqlMiFI80%|aVFag>~W)?z4FYHWG zC-_@A*MjknW`mG+Rl|m?v!A=u$k%>V;0Jh~@#D%TV_s;0; z@Jeu9_7(eGd_VVad+sy=_RXr8joakaMsm*YH}zBg6H!sEM8_FbX1GfK2KDkOQ>@0^ znZv7gzn@T6)j!i%njZjv6>{U`ZH>a;SrnN_A?O(&@9zE9gkz25n>$fk3euLg7o0rm zCy?AnMYA_jq71g`~i)Z-Nkqn>bU){h57iwq*$_7 zt5W)xo|Q+q>xUaB)Ho>nb|4qo#{2z)>%;a&*>3LfGoph|$&pWK(9G1U*FLX*t5L`s zb;X9KG%Z4gp8K2vZxqt?qS8YGKamyC`MKVYP@4hw- z?K=qA_O=a)R08@Ha4OKuW|jD zz;DwBj#)K+e26=p*u8KW7?-s@zx5B^ZKixdKE0lRT~#iJ^snsdMG<<5sIK=evk14Q zqUjfD!s8?}^y=Z?Njv+6zr*VII$&1MS-xH!C7`kSr(fP9KP>|x_>B)wfKo+xt9Vo; z?ih+)qb@-yrKdj6;W*4ehw(GutB02BaHoMLK>5U%SCnUO9YC_CVMepNl2{H`wY&sg zF)71-Kc!Aw>wmW5vk*rGz^%uUpyN2sW?Q7))&XT%VV3)E!^MAH3BaVPG2pHrnP(JP zo0De5U+bRqV2GQ2alRNyu5`e0wm9>23>)`^BKoA3*&zD#!F`YHNb1OBhI-Z5O^CiM z##=-e=a}>_px*j?er}<+0P=Q!VxDs7hLd^9moMQab9aB8TjrT@CQdhV^WUXZ9NwEn z42oLsE7OT=2@8kzwY*2#HgW=~vn|%ln+-u=6DV1>#X>q@O@r*Najt)XvorIx^>z3& z&fi^p-hJDgVQ{ngsO1Irp60BcHa$CuQYBluqg1bE#@=?;mS>4GL7M+`ahW-oT8!>r zL@`%oB3UjnmZ*Q&77Lx>8L|T|I@uVVsz~RE^uVz2ERESO&JnC%nInG|^;`q&sN~T1 z?^CuKpB6X(=B+&9*LD(#ej-YV9sZO%l4$lCxJrem#i*aaA@0a5ZhY!fP6dn%{xY=f z@j`IyvFPog{3CF)SAu8j?g+8oo_uu${^gW6)TzsUK{pILId726B`g~GyjAwn0AlJy z1yB=47(-NZr;mdWYZAS-{Ae%H-hxbEqzZAg#|9Gh)C^aHNjnvE4p8F7B;Up02iO?H z;KhHEI^`3@5Nm9v^9Ke$pq+$HYR*G)I+@jC87Id~QW4!JWY(M%P-$y`{z8Y5%-o!1 zQf8|7z&}u^IOMSH6u}U_&uhy+du^7{T1=~<9`4ZhsiHC`2#s?JCcBs_767wSkO^_x zOs?|ZT@>(ucA{!mS-~AF3Bd>LL?%y)H`)BhnlZ!WfQ@$XdThImf(`ssd$4p#KtFxF z33gzalvb=73MbSBD{{$+8;~e_wd#yDXQS1RDb_0j2IS8;sHH?Tl5Mt}2OOO*Pd?fo zP_x?&AWm$|y%ULKPr++M$NJ2sKWvbVK(;ZURtRsdC2wAL{YC;=<6qff36FmT;?FKZ zJiP89)4Ky2DJ7^NiBZV-KP}f$EAk1O@0ak<&)FYP?GAwD+eZZfC#1u}872=^%o{uv z*MEMt5@zJu)~x4NIw^9PnNhli0q@?QsV%4JKfa@XOzBQ`Wp4pMoP{W;wwc+wrc z=qv@=R#AU_B?#a$QM1BX+aIckw*5s14}n?Bw{G(b!tR^2=GS%9S`nLXAG4=5F6P$~fmYN#}tT+W?_c`VPPQej{fFNqFI zB7e}oP`h`0dZ^GWA`-1`xg2zPK}+!2zII+8gW%`~p!UoW7}R^ETYw?NvK z)2y-=dNlVfUI+ieHaDG z0e{)+PvF>7uM>)U(QqTedvjurMllf;sC(G`%nS zJ-DNv7aM#RCq8Lwocp1|4yj3bH*ZaxY`1u-_+jU)l?bhp0xCNy=jaJ<~hMFRRoy@?}ZjOqy@^QlTqZnA1!RS4^Og}aCA z{eVBOlKv1Da2e6Ock{fP+>$*d>xqf|fu$^z*U*TK`f`1|b zikw#rA)gAIUy{CQ^tVVm`SoUDz*QcA>EMhrr!J!6af=Y_sp(p{oVZuXv|1yusw4En zkN~X{tsZ&r403}4kwl`Wu77?tA2K+Cj;Db?$$4i)LuYeeCOgg1o_|jVV8LV_Amq@3 zM!Qdzu7s>Ma~uc##x=+fHME9dTybsGZx6eFgcYbqQXkb4wZme^<~gU&3}5?dzgwfr z5RPX`j7Ont`16S{k0|cFPbsVs=MnQuK^t&}@o!)Q#mUx5d=HC8x8sK)*fr9a|A~@^ zK3#?iqm<%6ZXB7!veev*K8#dQhvVuTDA^gZB5u}e*X!1s)!W_=ILhD9wn{s=lITnz z(?rN?aa6sPS-nc&U#<*=Pxu!oZ0KhAQKACx=X^&A>u-5#M4%i>) zUIWDvd%dync%I6iy#btB@{@7iUJMj07dkNIUhCt)U*~c6b$2(SP$FX z`E;WA&m0q&@Bd!|C9RSnsDs7&vXnr)b|zDvNGYw=kD4<4n}!UoE6^!9CKkpgA|9Uy zS5XO=X}7Kt7zNv2G8a9VmGhtHJgh&=LFMxW|Cp=Yz6Z2&kP2!H3gEX-;cD1j zFg(%|NnVn|N51AmU&mP+fZ)UGFvDjL*#dtq@`+`*a`ylf%ZT$s5a12+Vq+7~%~_wB zUHfF|Rb2%>SvOts!dyzO0_0zE<==i>$i9Z>=VAC89(CGcXqs0Mu5ibejzfss*=hz; zf5olI?Tl-enTE=DOb?~!{EUe-q0N2OyqK5*p4ZXhZ{ zi;_f>9|j8iL0tzx^sO=DYz9Fsc;y-;odx|9g?5+jGps=Xo;Kp@FW6&rb8Sq@H(y0pE9+Sabln zphUJ>6!nd@J7e>k_h&irk;0xDX`EasRW0O?<=wS|s&by>P16t~cMsZ~`#TUgf)O`y z?H6jP)kk+mE=TMQ!X1441Och*7A21$@LDKFBO{abB8x&DND(8_w7Bl*P-H_a0N{^> zMKtJq86dasAFH{6jBRy!bI?-*3b30Uz0KtYJ5bWMeCUDJQc5YNl3K4e0HF8%xl}#* z;?tcTN)az-m2BJwu-ttg>$WMHd&W|y&ik>_&YmB<^YxfUm#Xc%Q#%|Ib zr;b9Qo3sId_s>F9)CK9(J(2~Kc@lX2rP}NHQ%c)7bte2F1+?*MwmWeyRF0^Rq9BUs zzKd{b(f;Gv3U;G3`#e5Eo|b8f+Iu3s@ev_$vd;5=xqVP?xN;???1k`z8Q{Q1hagflX`GC z=+Cl0GwxAxZpv?FZoOc#`jA)T#nmcC4h>oUDA#Xeznkl{(k9{m zDua&SRxO&yf<)A-G%L4KVyx9%XAHoI&s&cbLfRWSB9Z5ZyRTn+Qld2HM5u&wKLDYL zbMpnK*eOJHzJB|>9GQtPgL&c$^95+N(DF&CEz0ccE$T49A9zmLo?Rz&6R!=wdV$sxdMAEaLm{AL2H=1Rg@4bU<|^NS*KAVWy=?FKWYdVd7KlV{ zqvGG>xoOrc6s@&xCbqft-aow*GA4fk6ntf#TCeWlO_A|k~xApIJt=-{)0)^;xr1LN&fJ7o0y^7FQRe*S*fLB*($dLv@xQk;>SX+dAQ#Ker zndb%5R(4mn*yr*ZUD(=_95$UE0~8+dUiIV249O|U4CzMZD7U!5JSX>AdfI2!iWvoA zfk8G_kb?W06!T6eAPq&Enh((<8%=;K2w{e*49aLV)d&n0E;>~la19e00^Bs0 zSqIRIt>i$;yDw_DH@JNh`hLK671e#p!&Ot2Ks_8ev}45WcI-0iayVtQaAdl*yIeK6 z@zeV!ld?&cs+HwcxaYfr!r@*Q_h=&an+{RP;ZPem)sr&RN6GxE3a)MAS(>|m8~TG` zjz|IueAZ;}v!b`Jk-E>H2V(ic__OmyXC9Fv9%S{XU#GY(Q}x%^)E2v3@bh)b1-#Cq zt0SZ1o`nR%wE#e(@`&n1J@^i5{o{^oyp`m57&4Qp%$efW1&SK#l7C?B)&)1 zuEbG0J$oz|L`%zh1r{6Lx8qznL|19+&ksHp1Dqm|&db|ArSljJKO9{g4 zr+t_0x`0lt;t&WF?2P1FVo@R*11jJ>`vwFg%Dagg1i$S?b#$T{Zed5r*|iN$@-Ttc&^jy1~^eF~Ayo_C;+$LvVm8rF82k z3ClqWl{Y-TZ{TF_JHWxpdJ{wYQj8r2UMh;Gp>K4?aN$Ve)WY2)DRi3d17w@3%3@FR zC8vJ?H;(R~CKrX^NgU?M#X0|@f!zb_v`nz=hJR=m3qtS}7hp4i_@S=GGKL@!4%jnx zamJL;g6u>Hl?;`rquxU}ll|qVDm#JP; z6*Z7(-3K(%)46pG$V|JVl8aUCdVKHbs6L1bRgiAq9`%l4E94iiKcaB^&$cmeCV|St zq2~1WlZu@%ozP0;k8Kn_GI)37^3=~GOLCcM0oV|5RrRVbVY+;rl!44W#ZQZzCq$DD zJ}SHRGGKwr@=*gt2a26CsF3{0|LfbGav-MLdo|4Ho{&q@8xQ%+>Du#8IOl$#R+-K_ zO1TJ!0MN)Wk5bn=TWo?MjZY?A3)5#ks=)2(M+232(tUu)HI8YAn2;iQUn4CNZHkJ} zOvvep@0~E>%W2CBgC9%&w&<;BP7Fq!t3RHQRyM5pru|I_WpCYqXUsxR`8cg{VirB? zEzMfVnEo?R1Ks4DPwQ{jWzk`fgAn_`cu$@Px2_Kcc~GQ4uf1ZIpDE{*uk53rugR^J zEEZ7OIqxc0>>g7%Y25gd@XaD$PwuaVxtis+>lGJqp>x9FSSU;P^IF}K(=9zCl*xWv z&%xPQjt-tC92uEleVJN!9`L6#X#dw|2G!#6B{&U893O_<9va|<0%F+oBx}2vb|Yq* zoC-2Rr=mAPBMG4Hdg-uoJFcI{9xq(?zt6f(tU+Q*l-{~39DY7wUW1-+s>nqBb^0nX z_91!keFsY5D#U$faD1w`vFsj@}pkH-DA$mfWSR&|NneTvx zI<+akxO0I-^2P^Bh_%GuPZG6yw*{nZ*c50{E{E2jurTd;Jg`^Rp%Y?gy8IF;vHK7~ zxC;~liD5`Rdw!`9ZB=4xRzr=p_b-GK>A%Lm2d~O4lPgfBl48KOkv*Nw(T3j*WdXD2 z%}M-zL^~|Sj7`gYrS2o?8q<_iY(N&8trB8(s>W6qZEzRA)8;*xEbv_XQU3e&a&c!) zv*AbyuP^my_OExyiTDTP^f+h%0&b|F6Bg`fu5&*FBrvbA{opM@74C9KuqcUdj3I2W z^wj@kXNJVHY;s2GSrM_$S`MHOng5w8_~=R~u$$;P!dwLO>dlKYUd)bKKW~e)3dBm> zjM5bBsQ(pqomO~@R%dK8kfwZTPriFQ*w&u^WLnLO22v{gpJsD^?>C+@l@Uoe3A-}K z3t$7JaL?>LR%B!5L!g=06DT%BqpIgWy}qfU5Y;;Wm+p2CP(=iEz(BY59JyTkcuH=F zFc)AnEl}a{*;-BlG6q83J}kWi-T}EbTQ=qo_Eb&fZnIR->#l%HFku2L=$E0tNq6Ee z)iu%l&Avg^dl2HhBWnbvKRV@cj7a3eu~UHwJpI(b7}-&hhCP2Vh$3?%y@2!6ccr8+ zI?xCmpBMrrKmC2yd+o75KvQ>|L0^S5ow~Q6c2m+optnnF^c`4PYq_=QH)OaMh+iYN zlhZz!WIy66NoNrY_ZWHp<@(HhtIBGN08Vq!;g!WO!_Mw|F_yOAgf!ccy}hm0bISTu zc^JI&O;)&*zgk(1HLWkOoCX z4dg=s*#{H*kMs_cANG8yh(+x5P_3 zQ7Qm4+hUU~0-V>&HgIcucrGUk+;f`xEyWql@qDMkMMNg>szd+~vV?nM{aMs9^@h12 zU~(A~q(QbdhpJ>R#NX`epaoD^UGE~9xZnwGfD&|3(hopQ>I)+Ois%<*oN)d?gleu%vJhdY21wz z-=cZ?nkOe;i~~ss!;kODqD@wXhqb+Vp!t;XIjZ&ebW)_d)e4R(8>~jNCk9c-CLK&9 zxr>{12g+9gM2omn2}@Xlr6pYbmgO`$-copI__2H*bKNl4^?_|e=+)Jg$y~$8JAX`u zi!~8KLOjVs!9BZi%WhCNo{PSM8DD6rXY5$SN_PNf0hxshxs+rW>$qz>k4KMmuNfp`IjIzJ@oIx?blsrh2MBkj=J&QK+=v&N$vEY68{{zq`;*88wdU-q@g$HOw+?3c zjJ0iEhX+$b36p>Rdo>^c5s!puIuT_8>buuSIRu&~E00o)OcG5Fr54$YMv`ac6mb&5 zG5#IFk3sS%%l-jZKNUbxX`bPi_dpLH*sn~kO?CTtD!R-GDgw&x!z~RMrr2A=AQv2# z-uCwV}#lClf7{OXT@?+}|U3pjuu@gNpol-aItP9Gbe3qvHS;kE#LYlCw7H z{XI}uSZ{O59U5#V`evnBKe-M+s5HR{U)}wqv>)wyZOVYk=|Ia_Y~%n%ZTM9VY}akk z9YJT~Qhl?#Ya>G5R>nISk0TsWYKn}kP!s#yfn7__FF?^pgv%w$q;<&!06UB+piHY^h>^X>jUdGo? zn7-Hu(ylR^<DZMSFL_jeR(a5_q4oS2{&YSRLj+zH zsx*?0rU#}79VcfA{C+WjZk>;Mh4$^f4R$@(H;6~U(1R|#{C@d@;x{X1-JrR_yb!#D zqB#VDmn|}@7mh>0GM;7t?md2W7Bx~NXeC8^9X`{{4qvM6`2|0V^&JO_C*{t7jmGBn z%#6L1&DDmcLG2vi=q`wn{1AIkwQ1@@?ePcX7=tqDGEv~1&bTO7@oGLK=| z-J?>TgTGxfpgH@OZP==>r;Q-w&cV;%p*tpCvki*fm=)_%0!sUKKGR;@lENx@E&>;A zFe7m1Sn8#tvCS>N@}ZzP-E{^*^r^GyyGMi}B`clTZqYxqagXus#UwTj{<_JMe<>i& zi-FJ7Cu6jACD=9FU2d?J;QR#tky1=Gsd(*%6TQ;17XTfQ$u)mQzXF9cZE3XJfw++z#7P`Ovt^@loKS#_2rZ9lj)l|n`c z6hY&>8<3oy-2zW@vDjQ*dt1diM~Nkc4aJw#oOo{yIYI?{=iF!aKVzGObV*vjUd&cd z>@T9EAkO2MG0(y0>Qq44GS47*!QY1wTB+rL_v$Gszws+3Y|+nhI@ zYf5f}q+$5>BHsE8E8q9}c8c2!YN}zd3$QMAi8|F3oW2WxInGziVKr*5tZ83_tsdNI z{45D!zyQM=RwDT?%*rRU>ip$JW-V=~r#9habT_hq%IPDS4|#Y%w%@wKzMd|L+Pp6n zF$OnYeQAu_>VLzBA9=fY$rhzfJwKJ=%Wscv_TF+|l20JH^J+lc$Z7$0n@t&I0S@#Q zQGpUL=H*g{5u&6)=0(`;A=z-+=yq6U?spW)%}W$6zQGzz8P!1!t`fw9ce7N8;AJP< z@U@WD?B7SL5lAD4b)DbF5?jo?h?I_xkMuxqg9M&Okd1i z&2S9k20;In3>3&G4-qA8^VJ=Lma^$-XDs~6uGbZJ@J!IvuF2pK!1xMDsYM55yc@8j z61HL6#0hD8--;Ue*DR>6Q)O_Gkr?zao-j_2;4Ajc?q4Ye=yNo~#P4>EOiK%Q3*L?a z77b-E@nPrWH?@X~m6Vgh{D*9qHLi_KTah8hXZ7s3-wcB;rW8QQmfSv`zE=5HVhz8= zGyM>KCwZC=oqO{07h&cPq>qM=yRDf_sD<4+I}s@@2k6K-;$O`aA6P?p@Ak1o>M+_6eQ{5R?r)2cNToY)|I8o?y5S!hpVn{K-7I-j1Vc5T>bZh%Jca71ntSl;csiwKc@d=)XGPlBCb3V4DX zQ`ojku&Jk1-joR+GDhM+AZ|C#ixj+Ddlya$fhnwC4FEDSpPqFB#9hu;EkzB?77%;u zjG@gvGRFYcvd>4^iWdT`iI-qB(5laLg{redt(DnZY8!q%_$rl@(=##88IPe-+tVM7 z{J*RFz0ARFu^&Y%G?h)Yz~YGcCoLhTk85@YG_(O@ZpT|U(yViIfKN$bM`T#9w3LX~rWGOy{4)^hv{eye1`E(mR)maYPC2>Bs$U-xyciE2{Vb z8{X~4EyU+H&FyLlIz2nh$zMqHTro&BDE@48vqK2;DI5gcmM{{fa1?r}fIu)IQp8Ue zi;Ko3=HUOO2+P}c;H%uC=T?S)EjC`5O`pX_j~Lix)Y*2TisD_#>?>Mv_xT^yz5Bi> zsNMEL@So5CdTUe3ve8u5Hv>Ded?{$i*BaA92lY(F1t)F}1j~Vp2GRC`IGrIMmzVfU zq-~7nDDZYOM@WQeyBrNO*t6dcNAF&G>~};#I_Pj^znd7wdZdI{X_x+17bpJCzCi`v z+Cjsh@FI{=e=fi<*b|{@;>AsT8_hI>Hff79d8~4;r<#y@Q2*mF872uTgY-;#z z*HGaSeErN}!a2fvU23Y9#^SBC`AghG_6)K+>PtbRf&2r(^AF`RbhKmh;~t=#_05c4 zWe`YQrW6Vl9w$?YW-|jUBr{x+fs>_?3Dwn547j$b&aeI#Au`_mLGR1};dCY3CfnD0 z=x5x^EW_VC8#z~5-1;i-lt=sC7WY(SR>KMvUc~YKLm0W-jTXb<-puAeSqeyqX^QX{G+p$fu2gBw#f3 zKZjO>AcHXbtG%DV#Q@X}0{?#mv9cyMn2z9Uy2xBR=q91fxFo})Q>Zm_zPCgrJ~=yO zaRb@6@7yC_XbeV(cW^z4k8 zgnnP8dDR|lD=P?Kq{yeC-&Qn6kyLHP-`H2Zhs;>0re*z<)yf!D6J+C$> zjKAl?22TjL;$FKNv_&xltDf3t#oi!BskaZ9ExbnNP{9QRXTKY(DQK2ti4egaeETkd z>cR>RZhiYtd*Y?2+NpZ>(+K-OVW2SUQr2bIXN|R`W6^S%JpQNlI9rrV)I`4fQRh)6 zefCGozkXM|yBnijlzBlo(?9PP;C7`6c$rN)C>Rx5Y5aDMi>TQC-!6h7WB@$RG#At* zM|#MC?6Y*t3KJl8EHV>(l09j9hJ>zO@vpI6kvOEDu06@#E0?ymF)%Jf7UBzJa2mra z)eVe4hI3_4s^=n*>s)c~P{KUD8lciY(SRoPs5cLu{3vWnxL=GscrFPhK7T!7`gghi zek2C>TQX504#fTZJN#;U4TvdUHRZShMb+P1pKk()C}d7N^l>X!jaY_?3Nz?#fN{~Y zV>OrP#AHl^PVkd1dlmQD)}_*YY8OOy+^N3B<*qO;pp{FabG!`fA+rzLQGW|?(jYSH z-$`YvOw&lEaNJP?1Ywfi<1^^9*}eqYgcC%_U-ee-_b4T)BYCM=0L?GtAwy)o)&3IC z19OXa0HlcQHDC$NMNQwSsD@uV-AoCtY+zT3g@j*Kh)AET9cIXLa-o{|q1i;W$Bb_+ zm*NukXVYiS7FhYt&@tQU5m|LDSUo9n{VJ`k-t-xz2n{^olBIp8fqFsDafffjjVH=X}9edE~%*iP@U7qOi`yqcShH# zf>cS;BOmVZzYNZ1{G)NSDP59ThjM;t-FFr)KRS(xOZ$~or|=4%oEn1Nlr*eu&wcX~ z(Z)TtQMp2KG{ccB7EJZG$tBCUt`O;`yah&g!U&|iJxKjP=ne`U{#i*xQo(Nv z+h*L(AKgFDD$`IKJ8F4f`{}Ccq;gY>%;{U&5e-*wrqxNzy^UrD$_@Pu1f)$c*N1Co zNvQz5|5y}q{umI2*&0TqgAq_+iz>zOHEWP%qR+;|g$WsR?@*Fcw*v|Xa>0U(4h`bA z)|C!*w7ONFw8A}nUkZEdwkc)UsM~_eD*&Z%oFN*NV~7u@xEb#&>2?EqW+hzU%ItP> zTW!szhL575x!?nDq`ih_%XPkgp9ZLx{;99g-jF>nQGk!XO`fhLn|d_CNS>^9)AHp6 zY#u~%a(z8yVSbg!N)A24NrvRHLdZ?!Gy)T|PF{RlTXg68EV?qOesL;-BjE)#%m@L> zjO$9bdnuvSVnX^$URO$cC}8?s5O!O6&^d#rZ-E;cUsXDGh#b{bnxYyTwvp#dzS<8t5=n9PXyKPyd$e&JjQ$G01`nQ>9 zxzcIY!Zk+)fTHHij4S(>!3&;z^uyJs(&YOog6uc23zJSP&vp;5CD#^E3%A5>GRF&k z)fjL+3w~zGFjBK0v*y19xf9mg%=fzgeu|R`X^`b%3ut+#?{l**17dm#&^xrrQa)t0 z@rg+K>Bh(I26GT*cAK(S=`wf*8A$j3XD50aK{y+j;k4igrpO{yA@JX*v#*3Ed|R52 z#jOb5-w1iK*YMXWfk$iHQ#=fiTrLefYWAM6$bIXxo1n&cMOs%RB<#Da)5+U^KWHcd zUnA}z{Lu!k4r%HW7IO!B(z8HhYB3&*y8BCsfV&jF13K`)PxrEl9nQ`E5M>aeZ9E=@ z3Y2OuYb|O$?Zv%5j1(U#QprUQS(olLpNVYfLS9mhNW2+0)gg!K|g=KLyhH zknhs`J+}J~*=x3$na{aVnQeL6{yid4%cl;xdKTA@62t;ttKXMmgSWntnh8rYAVQF5 zd;qV%Ugl+SpjOox%H`a;q6*3`13Nj^I|~Ir@MKxTk!;eSbgH9-)<7)2(;4_!arZB6 zWezVvb6mcHh#f^IDc^q3cly3iuz0PbFz{WKi@Ln0>{lt8^=GW!^$^Sqg~+z zvpIve>SlRbX}%8Oew7Tv)aFdoHcs#r6K$TpSsTsximmGxTLR$q8J{0XM6z~yxS%GMA=cfUY3F{ARntvYZ>3yhrcf?2t_XS!rC)vJ*R02;{MfYg z^cT|G6b=&x)CP}Cwnf=%Awh4^kPA82PpUR|05+m;>^|Ks4jvHg??gg#N_vMi3lxLfIS;G;NJ4`Ew62nFdkCI9`-4TbFg z(7dmVfGpR^Z4?9$PVbT@B7LMJ$Xx}6#w_9#dFo?q{9mU>Ac2UF7vaS5Icp!CIa66F zhaOh-a5h?q=UY#saeMKPih)sWbBO`1q+MN7QrJ=8+SHO&Lt|M`zitiGyHHk}qZ;sX zw%y)$9SA)84Aoa%;z!-(;Oe!@-Y$m#&WGJCsKAEGhQnYq;b2~OLz*Hz+2Zoz9$Lw1 zzlNB5s2Y3u5v}l^9tZItb6*^fZ(l8y4H@#}Yt5wANF@s?jBrTbs*nz;uMSq!D!wZx ze-alvZeq-y)c;v?r-18yjr3#k)g4xupS$knfe}$NdRn;>L_7ArfuAndy1p<YC>3l-c4=P0* z3F04q6$A+^>0H=Jh=9Hh2;cTS-t3ll-w=@2ahMB!I{S0<=xIlp#)~V<8&l!Iit8_~ zs(m##ps_4115X8;7En*$u*Ogqnubo1XbyS$skSxsqS6-ou^{hGe3tXbcWkpwPfud_ zlBEj#=I-y4($lKbqSNfcLDt23b^#L2=%KEIYmU$M{)HTUXIYb~eIu?JPnRBHAIO{V z&9nAEeIPEQ!kPJlk!nQ!A31fix}sLp#|@u&_uo=Ef14FUYPhd;I%v~}T|bKY6~EGi z|5Z-!s>3?b7;{rr6Lua4MyHjqis<;`J63qCEZ!t8MpPrt0}p^xnH;7nIPUl@ypv+* zZyyk+R-EzWvs!88+INkkqOfgpxMBn!IsctT-V_u6e$bG)m@5<-a{q9`P#vfNqHP;} zo`vk+83)IJ^V+RcPr&_x?MM(neE2t8jEkiITuuKcW913Kq*oQ=iP510||XUN@KKj@L4jQ=gw&U5>(Za3-Ib|-L`c0i<2UUADx7A!tSvp^*uzbUzk>r zRs{@L`o;eaSzt-@)c*qId(s@rT=##|eWx zqRxaEW!$UduYqculu7ZL8*We{M4&KdLNbJ;*$iyJkcIZWpfBPeTFVL($95C`wpT-$ z1b6T$uHm`y|1l!ecZ{8_;W4On64dexXds0mNm6e{A*t~;cHB6Y-4&^}XV^YyHRZq3 zfFBOz{gAxfnZ}m7W4&Cj;Og6RnqNN~)1GtH|K%7x8EqU7*wiQ~O+R|bZ5lcds67jf zQ=MYW{K#b#aKfXd{!GOz2j_D|_v!Rdyy~7eaNSsdQ67jJRDPZKAFz~iQ!P79rno#< zD}*;;x}A2!&SImHgO$RIl@X_Rt7Y}&=`aT>DxD6~&R7pkeHHw?Re9+d>HH6+(1(Ic zu@Onl<^%b}Av_7=%9n9IUpih)VN|}&SUQ!={kwSi+9#;W{0&Xc3C?J^m>BapQot_) z@}A#T!`Y4uJE4qdR2tdx@J}VP=Web=f%FXu_a-`|MI%v=lQwSyF%c7*!;4(H{y4WdCWvo~Q@+3EZ3OV{~|ovy5e z9!ci|`}hB_sR$cFLV-&RptZIQvZ&?kZ8=XMi|YArfY2i~lEebQVUN<5=Ziygd*s~JCE;m=#a+KKDKRbG&x?NGokjk@; z3M*WCL~8whZ1#y>1ZLG=${eZ)dn~dUOU9CGW49pF8?0_h0dj!OI*2!+o}dy<0(hQjcj}~wX{C2d)*fnIGS{uM`B7r0SWgn$RLzn$>T^z8LZo&rh z;nRpLrRkb}V`Q&}lo6dxD}XGK3{VO)TZ0AMEQ$hI=9sxtx(9)Y&jK5! zXVlv0H)?i>pSMg0kLu2q@3ijg03eh(&kEBbVYq!UAf4l0$D$E*3=4>EGHbsAt^(;` z;-x8%lR$<6+t$^pqsicp0$M@53H{y!5_xc1!Lo|{b2@RKJ+_k!PL3bGgV`*ORnxz9 zl5Mh`>Jq?r0$rE3Hh~UsmyOJPO+uz^lVMC8V0=;P}+s{5<0{ z-5F9;BH<>JBPKuQ_IPSS9?={&&&e9?AHf~Q%_U4VLfK97NBT+70QJ+Fk@;cY=@RqV1Q6Y_Uq|no1xf;TsWhn>o~R9aH3q^>E3qfF)QD)ijplb8n z4S~Og6JzHXGC{`i^#ePpW2$?(PBcU`pQx~!v5LHIcQa#vO9GvBH4(fUo5}d_ff1e; z=Y=+C`BB1n=-_9oBpTqwOzH~5)}(xq&JcUYP+Q^_VlK7e9I2UeKltXTZ)$LUzwFP= z4T9G($9LZMb3G38ee7n@cQFJHdVkeF4$VxMhUmR%--nm=`HZr|FH<0NUfWd6EO(UV zGKe_Up+wjU>}}7WQ>|hg$il>&De6$0)0#$F6e<)GXl-A)Ju!8HPDFytKPIcmgT3-f zK-+7yE{$BW`f&6_87_1^3EOoWIb~RlnzAZ<1SL(?T(nOY)gHx>IQCNK8qPeSc?W{^ zlpS$L*?Suk$4$JopaF;ZJ7zfX>kSvooaWab;&d0TzujF7MM1V`)1gxkI8AO#7O!V% zVqg~6u9OmunDQgLwm}0rW<}rbjoo`L%UM#K9~04ca#f-K=OEwV^4j(BJ=2_>97AB zurE(*N8Jpj$Qi?9vTZD#Hr{W<1Q+i%l*Sz@Ho~9zvy{cM=T5l%SJIf*8l3Mo} z2JVrj4;a-%?{=@>=r9hsYh{=a_I(k{(3+&1{%qKV3q~byNr-+DaEBTPPgt=ad+oky zQE)z3f&U%R&m~oWo?E79N^Ysl^?`Z(eId`U>60Q9d3JA*6>wyd6iv*KN_p0D;8Ejc!jhbf#CC9EEDfPQoJ_m zr^#FUedebA*tbz{P8jL0nm}@4sn|P9$bVk25fzG=R)$_TF^J0Z{SNi_37;21+pg3W ztnx%CJ`0MU@PQGWw2TQ;6i{12ULtaZDIjCG?z~02R*q*(VVR=VUdVE?RxqV@1~O86 z^XI-bBqzYB3+=PuB`}ziKR53{SXbQR3F6_kWUpHo%kA7+A=!B6Qu#Z_S+X>%P6&(j zf3eJcT6-cUR03p|(G!IIg{#x^ZZ!(KNasijs-PDOhOzLFXTBUJ+u=&NQMRl$WJTGZ z$7<6&j#Jc|m(1wWqrY*Au$wf`m|7&bQnV#s@3pgdS*?wIgFN~E!3vmwsVqd*{)C8!p7+FVp&%e=K|rPdF}^({yDn1WhNCJD}`4aK)ZpB7&o$k$@HkaZhfw5|L( zVRJK=_@p?JvTFc|7td_D-CgW)%bPDsocks z{(hETN%N$XruCE0AvQdldgBJbb`3lF4(q?$pv&P2{IWc`d+M);{Ek9)RL2)ZeY@BA zsQ**4TWZvo&&%Y^R{&>er!n8?Y0C(dA|M1xOp$j z*R4CiZnaE3d#&Cz`&cw1MFA4x9QnPv)Y|bY@~)1F8!Y~L>Yc8x2H{TBVT*s2(4YfZ zPMGS0$EH3w&`h?l0k}IsEi=g2!M~%#o|JK2Z~w2}efj0(g@OfTof>Mo>1lqv*XBIV zz6QKrj&Q`4ny%$paT8zfkBdWPt|F1UJmD$i66!>F14PtaK!yNBo1J~vU}ozXw{0pe z*ui&==+N(Sie#M{3JHYU8_{2?w4Fmdl)bV^U_ZGjVV4*WM`N+KxJ0P

9o^1F}J_^ueXp)KvU% zmgzd>hdu5J%U}VgH>u~G1>cV4g3lsCL}pBE=r6kz{faC9EDY(L7a0g>>iX959YP}5 z38QdyIs5s01_%uoP6poXeFQ;guBm(Ppq^1{hkFeEf#Y1T709!kXx>V3;?UQ9AAet2p+EADq6T51UE>hn zvrjtb&Vai6ZjrffLlh6J-#XPmA`iw8G4JjgtShTqXtnXMXXiX`ef!_$Gv58Iz4F9>Mo}7LqD|+x z`Z1Ze5^L_*i~T?J{}cKSRwf)oou`w#qpHhe`!zU{;sC{Z zVD0$1scYI7nLnRuOeUsVE5}D?EFC7f1FyD~9k*Q+~lgX zM3*D|p4tQj-LUHP*WHilCKG0L-t4SWNtMrgq)ZU`Re{$95qnAI2q#ET7j}plsruxW zm3;*(Lc$xdVrgOK0C;k{-i=hKUmKXzbBuZzr7(f>%?c;6X6r`gJc?6z>v2$<%95Aj zBf_?q8`N`O3L_Z*6EUn$sujTuCLSkGpfD0tF|1u<7ULrCzIyiRNM`C_H(5;W8s13~ zCODi%%)5l%JS9GU(?-sHF+>SRzNUU23FIuw_N`xJaQMSNcc6I4^eN7J6YzhcH>h0H z!QUmJ7p`pl{46($I%HSuHc@w&mBqwYGojoDJ1OsNF_zq^I#wWv)b#zr_}8+m5)=Oj z8;VqCSyxqL9L-#{o=El^X;4 zf8uj;m}~O3RDA_jq||vgE0+SQ&C8c_9KUb&JP%vT{7t?_JD0(e@;R++;~%TbHvhM> zQW#Z_!$MJ1k7x^-FuoRC`>hZVy^uD<#9&JQ*6^`}jx#>(sc%*j5o{G8w1~M|s0C+e z>^#`+a90e|VDdAe`ZGpblHX?klWjs*-XG=y? z^4qq56XFxoBODIyoZSR=+^vL>pviPAsUBJwSG%)9p^Ei%#s>-cyLL9o+|zg?B`*iX z1xpmGY%D34)ob|@C(a~2tR7ZDBfQY42Ie9%m=#*Q&xLD?_J@PR1MN`W^IT?B;7stD zxrq04ns6n{#nqEf&jqu5spX#@oZFU_cm6{{`5&RX|K(6epk!K#rJ|W!P{U^1{+b6r@_Uv^HyJ?h%xsQJN& zKG-bFr%APKN^ko&y+X6`rIe4w)Bjey4B=mFk4`R>HBqgH z+JHy&P!Fb9tzy88^p}$O#W$RqFpB zVQ7xQRgq;tw@sV1T-yCWCVi|G20S~CIR%z<-P!Ev5Pg?Ka-fq^cL9yfUw80bn)PG& zrn1AwmT4G_9%w&Nft{Dem@zrv9jZip8UB<;`Ap?XB{QhF8T+vS@v;;OpF2?2xpf1p zOXg=uIQ(_+k3D6~G>c0p3F-+;y|HD3+*llCjNK1W$vOQrLu(2zA`nyT% z^TA~(?5sOa4V_jbz6FqUdj<6lkl#KVT#$rx{tNB|Fwb z&-)3Pqdy0b3vZ<2OY?d^+B0g`AMPutTK*zRT0KdHCUJP;@PmIk3RHmab}T4ydiyoU zqeLXCnsvbrW$=tAsec6wROytvt7Lx+EBW2Rdyyi0U)f>up!6=};fkH=oop1`b&*KH z2V-40GT0O?$N?yadIrAVv#rZq=$sz1l#DkS+#G+Uk9}DJQLLsO)uM~1Vinso*FioU z^0k^EX}yT>X=^s}br!PMrDsTC z5}!dL_s}i-KD6Rr{89#hZ%-}4dO2ZY<;=(ZS$n)CnZR{*cY2Off#QX&qvbZanOa1e zpqwd!8vgu8!JcSaH7V>)P0`Iy4RVE}?r-tRYr!ayV9gcizMf6nz2q&Fh6!5ef0~)h$ab%;{R62w`l@A8=&p%}i$HrxJG_jdM2SNN<8U z`pQT6X~UO*{xu=)!6p!wec13SLjwItN(<*$`9Tx3H2y~1=88bx6jYr=lw39LCU}Jn zu=?G?VTw9Y+MOt76?mafuTQt*08`e=(0)40MjQwJNB;>vC*y2S6m4LQx&Qmu&*+I; z6yYT4b+33wHnDzYU;f0?<+$S03#H0Eot_PJRqZ@@tvc+2cVYBc}EN^5gDxV+Ak))M?v?_GUg;o<{oo25UfO{y@;r%&orShy`YXocnIC2~5 z+1m>9*I2*0w9b=8w(M+cc-r~xMZV5#GZS>Fsngqa!QLE1+J)-HMW=pLcb}GXtIMV* z&vS=53 zHW+}W2{rxkuevJ(=KLcJ^=l-}PcLHsHdX!@72t~NW5RU8ks?Ac5Xqwpg{8Qgbf5@i zSdqX@c?6-bR|5bHqnq!}YXm#V(A#x3uwG#A#R4<`v)bVwUb!IKT=X^-is8U`fko&?eeA-gJMYj! z;V+IC1xsRjc$vAE+Tnj?!1QnZAKr&+A^V~`)ypk|^yGaT4G5fU0pTx<{ZJMVd?Xpq z2C~uD=?BWXx&AZr>suANZrwu#a*jw7!>eWhtVch@uJDf+1xOXS+d{ca4P1OinQhv( z;Yc^UNN}3U)7$c)3@%RdqtgYMOMO2#eK=u|OE6toNQ$MryJ=~E)ln{`uppCk4}i5e zZn5_@Js+T)ZnWP;V1;59J$y$%@G~}E_Z00)m!d;@7v{v?6=;EpTcWvdh`6N>3xS{v zWEuOZpn$4+3|z6y%-#SKw-(PJLO8+@f=f9_%8I zeWvMTDOeIn37}I^rwihoFx$KKyrp_eAOw=>r3f2-w>YqYnU~lQvyx1zS*cF5j*Q=9 zElMe}i74z4s>d0A|5;!SrxpGTv1Y4a{7VOK^}M}wB3oNC8j#_=39=Ew5Tjn8f+-U@ zS|YHVZgh4DX5x$(+4*0)SOXZGDW_$l_PqS8RwVVe~_@{cq~b~^c+YK@@3;fH;StR8dR)@sNP z>dCNo;hsJkKL3<5coTO(XSyU@{0jVSbN^4I^xxNnt6I+FBha8LDB;|*U$G#ULcL?a zj0=2E(S-dTyMOX{m*;MbJQ2cQOo)<#f=j!Zkx|r_YamB}M25}?A0QGI3<2@%jpC@} zD_K1;hy>c1^t_mCee`u20x z9$&!2D233vhk_m%5%D-@k5Zcd?2jbxEvYu?-VLokB!=>R{P6jVKBVfx#8 z^Lj%)43~UkAwr&qPrV;5W;ni)?wInup zZJ@>T_N*i%NRwx2dQEMzG)mWPs$}$>qscO#rT>iooBdH(e}`Dd@unvm`EO}Ucn_-K^UR8O;e zr^Xm4$;e?jn~WFy6YZp%LbqQ^!`fpSB|&4n7Eq@k<&)hYb4*n4)@eGFehFx=(Rn9L zqX*j^t9?`wi-z_)CNHNQ%F{es7~Ty>8-9X6Orb09E31Jp{pD_ZmwI*@BWp8#pknlU z!xkhgvD=y!-fUSn;2%Q-9g)#NRGFt* zF{n@Y>YZ2kU#M3ch(7$~uzzG{GIUS&Qye-a0Ma1`r@!dX)2=~+`WCvR(!2GZNWV3d zPm(_P0m>|wRd@X6=kmKG8WO?GyR3+Yc?pG$2ZTq<`8u^+8}WbIiq1_mWA5zL&82Vh z{h%$OhRJA)JJltb8Wcu2rF`EI^(291eql1~N#fGCj07WGp6XYT$mYj?Cl+mwrHD0O zt0_CI*5cHOP{r!sQA4{p|KmHB(rymXjLAU8PQQ_$WhHSRn3dsPfv&3W_7&xH_gSyq zc`NOhINPjN`5@Y@Xh|N#B`XXPXh)=13*-@t)!`>Ud>l!cx_$-`6@{4_nlv+|=2$+x z%7nNGoe{x{Ic|}qkplz5FJYMubLALy&94oiF4zo zTrk^FuZx!1`^T!CR16ZDavHRE^2xYQo6vz~g>>DHAUV#g`ejR`G8`w02RtwtsJ2l1X$(-hd5o z9+SRB-Uoncw)-U1!Eg#2gDg#Qk+C!Q>CS6Y()J+IjzXEk0#{An1cRdZTS(OuBDj}h zDh`Z@d=bbvmvAJNmZZiZr;z?NU^N(vaGB(HK!RYSp82w!VsW=Qj|Il~5YJ!qOT#0( zYj?AHaES0V_8ZSjHUzuXqS3LGo=xh6!51;Pw{|J(BVB7QHLuKYc=3$Vj zoNMH~LSwo16*Vl!tdH$LqfOLFG7`B<)vXcB_-5&EM1sd~^`9F>tWQ1WntUT(&{WLf z9twPCB-;C~q1E(qW+y7(TD$Z$c>gdkD7$_v=eGa`v?euKzrDwXRc52YtS%pS%-qjX zgtI}>#>V}FcI6f+i9$Y@y%{*e7x<)J>~nztD?>QN;`ABe}F;jpP+%Y;!Ei- zNYgFaq~iqz+0pWuPqRUx$B{zpzsjW=vkq%N}%71*mD(V^Q?WZLP z2xpm=X+lood9O8SJSg?L?%h2}wySIpJh@NS^v$QrRA6dLb8 zB$GWFsvKWQM7mMI^<;=(&vT(L#ewD+Eg4&x-7OXPM$q2ZC632 zjhB5NzACOypI z3@SzHFn@i7ftFk99aO}eCs6ppB%Ul*NtfVW-MC~da?O37kvs&KzA06btpa=^9()eN z^Fcf)r5r_sgoFsllfR1M>rhWgv%`-DP{JDce_i(eyb&EWcG6>DUD%vUE*kvk$dy)T zi93?xxaC0_&G^b>8qEdWocik-zP8SGSUacT@t5!u8(P6m3%g--VLX+*+2hj zxTgV8zQBA)Qlq@ysmk}^HOSJgTjysI36Wf6*si7gR(-ZfgqW&jbd@@K4=gq2kN?kS zTVLUPK>#5C6d8w#v2n9`>aE~z*|cyTi^YYFTCOEfhWVBGvt2Nc7$sxfRp3ILur^?5 zM8rZ*M-q`6E*NTkM!RW`bT$#xF8Tu%cL8meMwLHm!IS0wb>-~>dFjMy-~E%Jbl05c zGtydm=2x%7mE-ZVy2_5kQ!W_sqO*-CQ3E}~q!pm&0w)tc*d-H#dm|uX0~lUF?z{aU z6)&aeO3-C!eqa8KSSwec+t0H7%g6epKI7=?d%nBsVa_IQqN3&^jwQ1I*ydo_9t;A+ zZ@}S45tZ=M%hygtS-Jp^f?)Yg5n5YbwTa?B+iN* zbLXFWGWLu+mB#ogHEfTu@ZN0+NbjWo(<~LAe-Dz;pUJbRv0jP;UG^)@z1;P8ul#F| z4VQcUvFQymiRW<4hct-WZ-p*{1c?NBP!UkP*a-tzJfl{aram`bw|p4ah%?R>=vTkG zP12s{#^#y#dF~JpUL=$>*QFAXPA_#uq)oCeCdf&v{@0*Mx@po5_l6a?@BGLVNa&*W zj{cBQBqtu+G9=iJqU5%{xG=;Vk<$IC>T4y5NYI(~d<=h<5o2>)6G#n{R768kjj{@z zLqzGo4t(*ucuO{SDjB&kROwV)(pF(mw0jvwT8{D-LfPdsg)$)}#CVJss~<{@2!aAx z<@94SWL#xXQt#9{NXHLb@(3A$Px5&v5@uF*-K3sw`o^+D^ z!<=PF7oq~8qdH){^aCFlWD&h&sEloVEtjwf6N0_)3X0X?d1mpe^{zMR;orf3y?r^kNqA%;cxJ(1pewIw$+qPI)#`*F&si>}NeW-LW7Z*17-I zi$;4@(uBjZXXYFr9Ocwn0<-U9$LoCHO`mQ4l;;K(Gd@Z{tBfe(y!_u`BG*IPwF`GOMa` z?U?RG;1yj&TS^4ELB}xm(4_glR){Et><*2ZvPWF76>>pa-e-g3?Pq5K6+{-{<$KP&-w^k=u?OJ<{hm*zu$DlKjtejx z4@2tw=etCM^o=h6zA18dEkmiry&DSM=FNX-+wzTNm3QhQ=JYS{G%&y~AbW5L%GH}` zEAgHn90Y{Y9X6y)5dQzSu2i9(tF4_4zY5)DRG`>8t$bABiU4VP$)8*vR+rixit%$l z)3rfi!X<1*Mu^Kfu7Ib{caI@3=dcAxAos4vQqx?C9f^o)zSFJj=>IM^EIfQpUorKj zBIOh5#u|vU-e^#p_~eHWZ80z_VzuH912o4Eg;YtSL_dKbeCq~WGJ!9xuHD18!RLt7 z8}`V2*2oS6lVRoJKC`}i>fR+6qGpF7b`y$xfGUqt-56hM8Yhf=i2Htzoaf~GEagLb`EMI~|6&UI!rnG-w{TP}24GPxxDQ9!-NRjH?mqh!AZkj3VhPcot_R=w&~Y zh2b|reophX=eN6*m>DJ)t5|lkuKx#ni!8+a4QNdAZ28EW*oGw zn2{jVaVK202?V1RMBt~X2j)-D8k8KCDB815IGL0~Rgp%PG|dlpP#r3~P9 z7M1;?Om_v`gQsIbNXKh>Wv@j%3amwoJ)hpRLGksGeCE=(_qhE5#>ys0?h49mPYHh6 zc)D3w6FXCY;ms)o2j!}(H74?VUmO!M%A-w_W#Dgs>zfx$Gm`wpw~A6KS64$a4sy_C zQQLZ21;rXi5=-*<65{lb^P?Yex6PfC-JdZ&&bXGR`fi6Jb}VrB!6_}6vZnhhDiT7K zicR?BU?`x?2qMy7icqzUM`LPRXJbWCvOfU|!<1k1V8kfMND7PBZZ@G-FC z2AuQ}(15De^7~zHpyn^y+t5x4ZF1L~>Q1HM-%8xxVsmLwye zC`CXYTh}P!Nkpa!V6IA_oJ0RP!>^4Mx>pDegM+(a_X%jTLpwEs+?-k-RQIB&hIJi{ zDjhAoY9X!Cg;CuxicOECgdLc>2q+f&3!6~-+r)og&!HDG<7WFzjwI}Z=%JIBRt==k zB|dHZs0VnHdK*FMpIa5)EmnP3QXBa~GE6;qHtmOliG_Eopx7RO_%Vuv?lgz453&&M@NSZU*J#5 zAo+Hy6Lmuij<=*0l>5M(snJR*l+TRndL#LFl*yV~hPa3FLH{{o7ivF0X^-4A-RC$jb$zeEWU z-|BIIgJa)9@qiXK_sAj!a7=Q4xGX^fv!}r~qt4Fjn2u z09;50N+q5yhM4B9UX(vD7-Ow&e?k$%H~()rvRPqBCN#*>XDcR$SS*wiR4s>~S0`RN z`zAlOuqp4w%Ih;b*WnD0_uAUXLL7cpDxUHB1yq128F@?*XdyM2 z^ysv^hyOU=tiD*!1+#a1ZR{J3Jh-Of$^WEWz3bDmD)fA zhQMW#7wrE~$yW+>0;A9=*NiHTf*_D+nu-C<0)R3ao|D$V&t&{I&>t@B@cG`vRC?~n?ZWcC7hcE zezCZ5P+x!U$$A1to825iSbtd+me!z52@BDZt!N zwu8U|K_IC&dmz-GOR6PK&cBlI2X{a1Dl7cK^;7&7*5^C*!T%7g?0M0!rU*zZ%V0+bT+TzaAy(z9cnZ1A*YA11G$g& z)sS1fC?!)@FtZh-L+U--k3getfy22ls30hWx8ww1V8hez7m4|sF}^zXMwD#ve>SoQ zeB*uK&DZQHoNS%+S+Py3%?LK?B*@D)f{s;p?7FR}_(7q1;hFdImJ_aOPM8#gsGk^a z@CF(0o*^;KhQ8Syv~$ygemdO@4}!LW*_S4cvn!`78IZT~L7>%7+w39AC;kapFaLVo@uH+=h?3tnTdSRCIAwUt)b(&xT8cia$1Szv zRtmwZq8EidevM>tJPp_axK_eEKZf>}=h6ty7=+wAgOe{3`XM2VEX z`;LNV9Uk;W3wgjO`3v z21vP^q5em`R@{H>*pR%A$Z!n|quJZI;Pj2G0oxIWIU{4sY5~7D$hk=5`1t&5gr;n= zHlabHqHG;c3nK&pmux9u0;OwdmOH$k&~Ywvj(4uKO<;vx{YcfZ)Onnw(4o>nC&Vu=!Hhg zjgLf=6q$WKq#ky~@mWM+8^f}Y4(z;j^q~3z8A89BA`Ju-f!?9^*3axg(UsKDVhH*n z5<))$p1$83q_qdZTTWA?T(DDnIkNNsElf>R7ix*fgHbKJbl^M6Ct&FRW9qBJn*RQH zDG3#j5L8lPbdF8|6_F7Vl9FS9q?Aq=ttcQJ8;!sa0|aT16sZvc(xuWNF>2KA@%y{a zeeU1z$DZ>!=bf)O1)7mo=)pI*>BOE@$1u#cfepNzw$G;Y!;q5cU5UqYjmk{%o32Vt z80Sh$r4WuwGROzT0m6CLa|g`*>)k^RQmPDxzNT^)ePG6{0td^)R#_}qqBq`kR z+4+fi`KPz46*F`?Drrg7Yohd9w;BUkkEz3W^bh}%i;gKAC*oUR>b49<(sLxBc)rG# z;f?aNqxt<*vYyVY?ffeWfY1MX2OhS_214LVdT3SF;_A_(kskmlJ|)XI`9KQjGQ@I% zZ7*Sn*hBJ#f*)U@;582*iwC-4YP9z^RJ54h9GF-z-|W~*miIRLm&dpbz_RItDc9;6 z{=vhvwHGAAHjO@-@TENar4#~p1ZHrW^vcwM?d9mbY^f)fPR5rjgRgg~h)Uz9e?QMb zceZR@kLbs@!&W<%B~~RAG&DXe7XY^uy7)l4H4ua^xoGA!06Evl20q-ziB0MUJ>4fZ zR~JsgYqFRYb`P)v#-Wfk#rQ!J6T6?T(Sy5^p~&dFm!Xbuto5LDIIMoL?lRE)lbf$7 z1gFf5ULCM~B%f$P`>xVAJE9j7@1stI4PwFkF9Q542%4Bbl$X)!pryNR9km>ERj=E< zec@vEQ(7aDLYG318FMd0W+GVUJnY;_b0Br?Z;&K3`@^8^70Vvwwu+pnKlRg*ctQ2f zow@Y&kyGIPwkhHzA2P6QhmGqiJyK3C+g8pOnk1WA5=zAM{)3hmUW5*$SAciW4205o znZvMm9$$3Xt)p-eb>*%t>mCnsGYQ$`o*>OoZh6vtzgPK{Zw{_IAA4mFv4_)G zr%jvKL(Vc1F*oLStUCkv6DC@8m3meoOH_2wKLo03OZK*M>*^nvZe2fyG7%PHG3 zIr`s739>$45wiH9pa@>?%-pz}VU5#V4~{oa9lJa1A-44ns27L46lu7pB#>6={47h|O0Ka#Lorp65AXEx_=pT7aWKYO7N+#M#H?djNXU?gi%0J>t4%GrMKn zHJgJKcHmt>(nryo@$UX&1obs#C)YX_&F2{MKAGkM)1~;LYl(Gc;~~|er%uxNE}V(F zisE}t{K$wH01j&`?Tt0m&BMtheEH{*KzF*YlS#kcj|$C3t{Rz^l?(4RvVNIB9-#_a z2tp2B?yxY>zAuo!-2>ebA81sP`JuZ-)nT+Y6n2?t%3~=dOPpEvz zRR6o5>)n#WQ~^M2)^rs=`ZD>qUzUMa3rC@=n6LbAucY1GpzDjsAS(I1l5{e~LAdN1 zJ7OR6^Qov=6ItIw2H*{c8Z<&4Q2krYC_f?($6S*+$aYRK@dVCG(p6SeseUQlPXVz9 zoEdl^RqSJeU3h$F8;(-n$B;_OHX0{Wv<98d( zjyEZ^-f53Isl+epELK|&QI45V&~H)N7@fea&R=eruLwbpAlFHB4Edg!nz4TE3&P81 z=X&>7_@?HTQHx@{NU+~lg|d3*>l?%L1p(4s+jS<5ix(HE;PE3(1>up?kcM|;jgyl! za0(KLg2E?xB z+saKC7--c*GwJ^Ya6Q=Hip7WjhTs5sYdE(%s+KIH7oR8n9|85jJFh7VAmpSU$~%zS z$9nCz3~vQeBa1S$lSFSVF$_VGT>dW`;cL?YZsH{EB&U=L%Ib9jv{zYb_3f1%j~{0P zKd!)z#npf3Fa1u)w#ZdUX0GuhPvR4{vJ7nkM1>iJx2?xsx5P#-;^HCFzK(-~Tu(v+ z{Qd1`0(*bCukTW&UP#aDG512X^1}eb-kngQ({o+pcNW@1`LjNdzumoh$_yWd3m4%{P%o1dYtr`b)sP7lD!7?{vV@;@Q_A|#W zN;c)D?4cmUJ^Pf@O+Ev;ajf~GhK!$?q;giV2bsT;iRJjdmmxlEr?w$ zW_91#`?-t0%Ei|rg;T4uOW1)E1PEvC{XndE>uJWHIlvI=)$M&3`%giyCJ7V|+WEDg zP*b0Lp5ulUYsHbJ3hLcFP*u(36Wm+t{v#vqu)1bf*Q`wXg~Eh53(M0r9KQj2y(W*;GPozuk7k%d`DKc z;Z*OhSD)UqgK&AY2Q7R6$LE;%Eh0yPCDtyi|GH4K zCT{RB*VP-rI#p{pI=^YMQ&_K|-TgnLUnA|~_83LF*@UgxXx~?m1CAYK$KRFQr|bf} zbQO?mM^Cm7`&-SDDD7-@dcO~_6m1!-KfkoT@I`rZA$FBtp90pH&{gxObH14NNM&e< z%A4vg0#YXFD=)jg5F9UQ43biOG+wZ+rYy+scR+geBc}`?H(^X6YfH%AT~r4C9p&vx zsux|}{w2U}R@sIt64)j;#`h){s?PpH3oe&G0zzEJO6oWnLm@kz&newuh;TinvWdE# zF3=Pxx|DI))fu=?`Rxs>)a-l_Xu-)zGZE@SA!k0%&*tl&*?H?+myLSWq}6{O=`Y`*_-6m9 z!XFJ zoM0afOsm%ptpQ=oC~Gb;n?gUm2@1(v#vl}RvTvRlb_{S7pmNLmbemNndNqJ+n^x3? zd-Ol-S41q+5c2d@1v&r{;LeC2Fo)+9@1D%^Cj&Y23WDG7{w}kO=Udc zxk{UyeE(+W&QeR#?E6b9NR^Py_91z@rAx=J&Gy7Lpwj3P7g)VUFAYZoO$5yT2C8Qf z00mV@sdiT~H%>0DyNzCuXoZp8P5b&=sRewha(~5d3wuu_hi@+SaPyNEwd2IU`90II z{Zuzi6=!wV$*A)VV(5Z^;yYfrBDSM@1-?6ZF}u>Eq<;T>IP+&i00V z&SijrI0hd=qOj7l*OnaN5FClwbF{~5=*~LC`7$|eOW#HWL^`o?Dd5~ow}dv5X(y+a zFP<#7?yIxG)!xcbM{N)yV@GaZCsy<=wckzAcKr^=3)$9Zm)`hj;#CyMZ}d0Lc)*M6 zxly(vE~ppicZ!JMPUUcsR&YpeZ^nMS@-VRf${3X{clQ(aknerFyO<*IDzURMt#>(B zgVZH>tLRqa;^`OHPO&R~?}|^&3pc%fVU^=;|9vxB?b)qbD3JR?*JYJfvm_GaruuDu z*tT%k)hmDW^V-eobS2~K>KQDy24e@+ffc&v`r#NZE=m?vB_Gd|7y=80aYlcyLHZ0b zbbq^)+*bZzEKJh3Uwx3l$kR}s#^vraR}v3aL>kOefoU{${f(%vtC0maqi!=jz&2lxVv9rs(d%RUqI{5<73y6#8)7VEGk}?_(nskjC7g$IN{^o5ltlwH$L5Fn&my4e?Yj zZhpeJXj}8cByaX!Q_7Ho>>CB-qZ)$mKP8eU=KvNR+r5OuT6nrt^nGEP|62_O7hD7V zIz%pEo-2U*W^p&o>~S9apA3hlOkC9=@$W zjsYvoGdbToca^?HvQ_#KcpnZHTiMK(9YAdbKgB4iNhbsCl80|SaaPYJG;s%Ve)02u z+sKQ!!b|#$?9}2ad^pj*n14cIz`3z!`B2QPN@PQXRBtUMoy--t^uxj=j$du${Y{#kWAXq zHdt*oGXWc<*{ve|g)bc1%TzcMbJW16H_Rj`!&Um9^>xBe^+{}+Y~Je_$?BP>D}9mG zA-ccNYhnd|jvli|--7n=u1t6Gor2=Pq}W>o%`Ut9Ng`h+`Ab}^VtA1foH zI@+UgIkxfOcaw{sR2@IN{BLZbP#}5saLfDTP}`?p_b*Rjd~mJJ@5(0Qb=~LsQ{@|B zo>@!kkTzIb7mHnWBIW@ZCLEx|ICquRpLnR>vEoVbyN6&z$1>KAG@@DIy#Og{>t7he zHCY#<&jH-+1p|8(fdJ>bN%^b!mOp>>99pu+IJGi95LL(ymUXB=QWX4%MO`3B%!Rm z_0K#DFL@lR6)k#rQ;$78I4iHoj*s!Peir=OVfg%BP`F&J`I)uY(BWpOglEj1eeXQy z2njB~I+ct?zg7IPJ}Trxz+k6JO)FKOJfAQbsKi;Ac0a)-4Z8(6e zVl-5eakF!ZO!H~`FI$+Rv|gNDJ18gDoAH^=X-6Ng<#gU~enQxP=`l4WHdQ-WM_&29 zY-B@3LtE+4c^e=uv7wG>=D|hQZhW@K=Eh8R!4_E0)u?mu;=+6T*6C$q zV^5iJ-@G1$Kt8EgubYyk@jnwf#PK!9v$x|Nblu7+)8m@sXIw^e-a=Y`Duj3dzpgpLQBQu4M{u zYNuVWw+-n*(lHG#D8_nLHCPel=quE5J6vhUx&YzIk$7P$s38KPIuw#Xb46nAMHAhpkE8Q$*3 z`)g|>O386>6G*=WSvr)%#zf&-ajN@;nQfmNIpc zr7Z>q4CPH9Uh)$~l=WFaVML;rI&gmEbD($!(PY;WllOm^I~_kizPB6v zV+}H5rT0hYql7w-2o8vKAeQCu3k>gEl@8x~y$Ad~Ahm=xc-0*yisB4~yf`l_`-{m~ zOcJdZt8|W${wTe_8Nc*wdGEcy4g;Ew=h45+x#5=0iK+Wmb>I+w4zHJFfOJ2V(YxqG z2`!(M7%L%!V@7N8W`<~lStG@9!@dkX6p|4GppjR!aA4QSd)+klmPjkAWY<{9qoArJ z4Oj`K)P2+vi&ABaU?0aP5~1KMBl)HBjc80yy78=?Q$mk>-6(Onp%{?n9~;+`yeCrb z4CI_dg|KDqEmNe&Q$U#t`6}UR|49CRfyz4~;w!i(455In|Cf-xJ8TC@H$WZx5MaS zsUbA%?~#MRXq%; zJrc%zMql0}f4WDNd=~IJK{%!61nVCa`?rp|;eIfhLh6DHM+OHVbI5<|f@v0h_eJsf z_oS`lQnP?f#ym^)@MO^>_LX~WLLpYjSN*`_;^N{zVeC|mET}npqDJpO?*;~wyB)~DG+^_C z%}5y6sC3ZyX$be~?+9V@o2C>>Kct1yWL-w60jsiQRT6ya1N7h1>D~80o;0Vl3kHL( zF$f3+iU@s6-gLS;mVYYxEcMcf7I`Zty8D|?W_sh}BcrcBWpd#D&H{B8p)r!iSD<}v zw>p@Im*a4vWU&5$-uH3I2O?inmRlY+*#?|zqGW2a0vCU0y!W6g7yIVASVHOYTd6b* zNiQDZ$Y^isqY3Dv{`cV6wd|%g|7u{5$CLf;YJozz4W+?KARg}IYNa+7v-vWQW2{f$ zQm#N&jqI-my#M2jcpW<#?0!SgOa9zU9p_5O3*-`NI3exla@;TvYIKS^H@CYB=3(13 zV`B>x?Ox$TOWI(%U)LiQmX{=Uo}dmL$RsZ z!0cLg$Jex&=A`UN^gg%QIkknV{;=3G=k+voIesttjHRltPUVd@7vUbN)$3GAcZxMB zq9_B5&#QeB6!oTtsd~|qf7r%KYY~VLyWsanNH^Zi!zH1#39d->A6qD^BhHhynRRJB zXazdd^NrJ^OvLj$TgglExyq*IwmtYCa!ZDDO}nn=Ilvwxuoc+VV1Iyu)W0MPw44IZ zM3FWD;rhV{#24c)%*)xj$4yPl>59dB*|KlsJL;#?E7_~Qw>UICpXpBvnU@&EbKGx^ zIlmD!p7F`n+kvMsD2hU43n;nqN@RB7%*cQm1D$jPlY^z-Klb9w-d#n=sg2FXwq_{d z{Zy|+h)Qpk^uJX9lPO;P-0{66GzI_{ad5oB8{C4Ou%@i$ePr3tZU@rz>^JvA@n4f~ zp{Tdi(u*VVHWw==+`TW~u``xsR?M5aW(^l^#bp+K^!Qnsd3y9m%FKRg#UAh*KN$2E zAuZ!R?}(^J0H{38>o-Djzu*57HXZV`xLMUZ|MsM;+5Kfg{D2FyiZ53>`^s0gZ^`kd z2bm8yy>8}NUz_)H!K{x;;unDsXmik{$CAXC&5gx^*WU|)v^HeX>oSy3aXkk2?T}zw zI?P@0SQ2PY?OhWZMgC0KTOEkFd(L1F+2X!};~QU4{1BE-mOf#r{WUC%&ur|I-sVzHzGTLNNc?>;DO zO%MJ1+8v9{Vnof}&cfCH3i9M?2`sU5Hdjy~8mc$tolAUuK6f$=oq3dbm~qT2eU&Hi z1#4rNSl{j9gz;F$u+sZ2#TIjROQQA&kL;3xKH+8KCW<%0BAcoEF(IUi+6QAvgP~5* zZ`SMKl2eb+a5tg;FDD2%2eDpD`Qhb!&RKEd{laEuk6$e;Vs}ElMXsa0ds%aPn_`bx z36HNUDNT~@jC=ghXi5Ia@e@%c_r?k5Yh*iM^U+vl9+$s_f9FOOl{yTdI}w+FK{jwG zqWzk`u?N7`(Ky)FcQ_ZGDx#SgQ&(Kl3bS3E53qV%Ql!n-aHE= z#qHZ#|Cwb;6R2HCe+6w>&<+lNgnAoC-T?p;j2S!GnbmP-#-}qqcyyPV;p*4o2Bs#T z*;M}KJooF9Sl8EI9dv#5f=dZ?KkX1y61u9Ch=)tg3qcl$MYP#an&jRj_Ge;0ag125)bupbgv)VxUumNVk772xAeOw@<8l@Gb1^;hslu-G zC$A8z`|k^e8F)^~qmEhWnD-mdY9{@Q$oB6hQ{ve=`qk|REX0#gwTQ2VM8WudsR4-_ z0w*_i%M{jYGGA=0_jfaH!#A916^9%rX12udofN>%6(K9%t z!)XBQ3D6i$v0PzXB>@x9Mbc(BV5U?%lZMTFYapX%9gMXI7Id{6XeCki>{P#^o_;Dn zVP>419W|6ki#(^aNoTifx(i?0Bi4O+H;cA%9Q$Jw%P@Pim5gb^^&%P${ zk-NP)H#0ZHCD5|ShYEOmrhV?soxAc2;x&$b8SFTV2*<>P%+l72o$LHaN#PL@bAT?G zsu!|ncP|d@4U3#TJoB7ne!ZHQVM_^Ny|O9vyD^s{)0`>{qD%*&`%6biHu7{nog?j= zTe)_Dq3jd2up8LYkSR@Iwd$|p;0ydjJI0&Xir$eQp6Mh#H;4wSQP ze{rA-4PHrE-6J3z6P`94feEJF3wnw94A{S3xSH0pgByoaRJ_mv2r2Z5d)+DBAF_|> zAiI{LqLThB-TyDpjJeI>HEsexDjXODj85haKV8|%i`0H-Wfvrdkcd`RB zLYT*19?D0ey*`W( zKXW|?z2Q&SrUNtq%2%CU+1@w9qBh|29!n!s_4-lsk!^ik$=T!Xsg&!pD@!3}h~NUA{IRr}pe!jhkq? zQXb(Kx38|?-Fr)+8$Z@UXY5n)ITg5|y_PPR@K2}wSpUF844U&QM#naX1E->v=UGye z_BYjARktn;o7@<(@bzvqZdwj)F}%+UMV5Zo?I0l`?&;jtF!^-9XIuKG2h-7)r!YvS zeO@}vml2$Svy_Afm8cFq!B70`c|ihlyxPCTbZbfQr3heBgkl zp?XlrytxCA*wE&?ZLpZO(<8z$NX@PfUS0ws#kX|r@IqI4xnw!k;l#`1fziNJriLJR z1@9kv9k76g8LNM~mzdA_y{DEsYuDfhKmW?E64!P)*Y#*ziu54gLg5`Qs27@s!Mq2N zr_*~6W**o$T_6pnZ@9e6V+qYMivwKNW-eS}e>>SklMl*a!pkRlW3{gHv>7yG@3Pc2 z+}M|8Mb(o!Whzy%f1jbI+%B$|?KK;DrBgF4#sYwyu1YNuR%Zh`(C)R82y+&i9m_4?z z`wX~6mV>419M-;MY{J*I@J z7wW2-g57QpBQPiR7jX-+_pc;7)?SuWzPHMqj7*Dq9`|!JGVJp;)@_xZ07OL>j+p*d zGBw`k9bq3ousk+EbmyFw$q&P8h$Z#Nd0Pf=cZLnX?3Tv6a3Nodxl#fWjO2zD-&WMWke*A2%FgfzUaPm=#5kGytyQ zuAZ+q$7DQ&I)Y&5o#wb+0sVj#vufQF$MUexbu=e7V!7p~jzOR2Y7N5J9pup0{Q-f> zlq`h|9kh`(+ETPjffn+zw3vujB8|rKZpZUB z%?WhbPt|*o=n7_KCaeOrN{Y|aAL68TSQ?GpbD2DMR*vz3v9*lv-SPSRvfWDG_5$+1 zQXne0khExmz-th3(=N2cKJ<5P$IT3Ih2OR|JLgL{l4N+-CasygI$q95vK#*$A8Fl};z~}nGDQ(|Q^w|of|zC^HZc&l?y0FxkH)guO>eI+`^C1^lr2NU zl9f!!n^qN+f8o4cndR)}0RbM(;6S>pt_OR){~*kMNnL+{9$HhI_TJjnJM)U$WrT3g zklI2-qdP^W>L!pi!@(}YOSd9Qo1n?tM!TK;%^Om_`e1c*LzQcUrzEz&-keD8%su^! z#Pe|?MnnYErIF~^o<dty^1&dIu6GojCF;qO8PC?y} zJ5Z#358&MUxt8|@0*rt8r?^9Is@&8uIetiR+%6?@fdrH)$5 znQMHMXhF?nhOlV5=?JH%=@BY-1RhU{9ap*M>dbgWH&5ZgLkqZNKnIn-#xz+4lVmzv z1Wxv$SBK~2ZjSEpK==K9NMTE^hb9pigDaTptwnr!tKMH?aC_3TGTCHMRq5e5eg#rA zjsF7-Cq~ERIxmzsPZ?t?hWG~Y8u_nQg|K@E06J%Pg^Fe`wWyPB>b@3U4@Qa@dB%l4>DPsBLE2xoYL=l2XBVqiCOdN8HZyNblq#oWRewJ7cAuCp$fX>DI&P# z5JyjIQqMKZFP*GL-SF17+eUZW-?CK^|0s)1MfZ%>1?!UP z8w!!7kl~F@p%5=p$ZfAyLW{0PEx9RubZfzJh?aR!pjj|9*FQ&6Na*HG*dflEZhBoJ zuKo$wr~h2iWW>24+kyHe=RvfiI#m5R5z-T%Vub62FFstvPc;q2nOfRReef_l+^^i# zn8e=>fu+rBRfB1cl1!NM zZc%4R)tLcA=^m=JQofUIL(va_Cm}`;a*J-qF$UmJoXYkdaD(xP`CtaxOUZbrmX<>+ zO*aG5<@d~WUb?lQ-$AXChIDuXtOq0mZw;^0Qa;Jpro!8>0Br~%s~@uVOB_W{;pbHc z7TFh|NXM(ZP}<|H%g`sPx7AzSe!uI29nA`OR$t5331QCLh=56KZCtfOR7e@^nsg9+ zbGQqxtbI{?bWFIfMxp`c8AUdU-*03^#%G0@p7!9@H zurZ<=Kkxtrjf_nsIvDoEBeW0boo&VE&W>WMfI{!9u=_5O($MHJ^>Iq*Va)_7D_z!) zt=}2DVQPm7YGXq5y{BfM$3{9Y9+HgijVnCc8yst^gC^}&%pSAU-rx~BGc2w5o7 z-Hd1LOy1Q9+xIP6{Np8Lyi89#bEn~$Hx@Y>J4UZ~?OBMo2URR(R_K`}_wRdE3Y6X- zwJG0BagH8#_tnGmzG2CBzdY{z;PlbW+*Zi9Os4=QsrN5d z6S!)RZ+(gI)Ei4|DJqn~ls|GYbZ7b&pxDeR;pq$!fu^XcI8hEpf-2dm_8Su;kAOPiZ7M-uW9= zh{pKqjg9q)PF)zIGGCkSg0#QmDHt~sIHzVm!0X7XGGoZ5)8bw=<#td#4#6L zo2zxAuRH%`a(=oaG(FMdp!4#VVx3;$)G6SBuoZRmG01e_CpG!tPdt^kF(in{ zj46qb#;hy8HMR5Px8z@9%7flJJim{wW5v8)o%0sggi&F-+qy;RbrTe|(XLYo!B3qc zcq)@=ZtSJ5I<7CMWx2#E4KyglR-pene$ZjzsP_jH=IYgV(7 zn8y#i`yhu~gH3qUU}RD_wa9|2L28<*a7__>@sumAiRmn1wDgJ4Tyo#?AikFb66x5r zSm%B!<`nIJ9g*SHJ&;7tScqxn7cy|e_sGrM4)}PMwS4AABXej~t@|(@pB+H&;>pA( zVk%;G9fSt1Rx8q92WuJnW(vU@W-i5a(3(uWdi@{A{`UusxQA!o=!ABklCg|^v3}`R zlKQ9V(SJ1y*x;q-&>@sQ!z4-dee;-YG_^7r^Sid~~FVF~L69U*iCRj&#x){l=TM43u|DK2}C`$o|aQVg8gC>Sk!<#9;ZIkP?4I-w5fNsc%M+ksi$KQq!(S7`=%ht%R=< z^=cC0Jg7kWEeCeRT8fj!cMt(3Q@LB6Ew~r9R_x|~+i_MOrXa^N$#zTfr!*c+BumeS z7Y%+`NJ1?DTY?I&Wi#iZ`(q3K1O@$Nv+j+p*v?P={e}X9^wbTXFT`FEL`$P~Caywq9y6 zr-DlNk-R3A-e6+vat7UGn0)iU4cbzW6Z&aG(#Hab*I74qR+hhA>E#s!1iRGgz-PO4_=l<9u zgn3(1&a8`pPE_+!7p%%dsKirJ+V?S_i5YW{^0~*oRnZQS>RM2G9{T0Aq4t5OJ!X-O zlFFJsP9kiHCHu0mJKi#SAJjswoF#4pJD}R~mB9sdk}OCBZExLzV^dB?d7v19YmX)I z@5Cc8F7cbn!4V|%yutJUQEbz5F-ZS9qT(fa^bMSKMaV}I7*(R00i|2(-IAtNx!pgw z>RZj*f6quXF5MXOJRdnIqW|W@$}6Lsr{hu$t6rVdY)<+V0h`e3!RI}?f!i?wDH{(tgt41*1wj_jg)cpRd5` z+F|D-2){^hDa|)VV8^gSgtd5S4XnJMhlr!UNnq(s@_61j&a#tLTzc>zPwX@kdE|c8 z?yi;asQk>`UkX-it+QkZ@f3h*Tb5o4bRlRnmHxSrh+%*u`X~_JcQ1VZoLh@M5>XrC zO6KI54YX6w6Z@V7i+_R1corPpFq|M8S0ffOfC_PoYa7L81D4>Y7lw5_c#fl0yDGM(ky2qREJz}&2%W=kQp zY3;1auU3OcNpW^Ja}SUkx>E_LJnX7m8^K1bMotGsHu-o%JM5jf=CHb4`!p2*EFA=KZ z3^fjf^zREE6-8WciTAvd4oqek5tA~du1hhMI_%Sr3AMA*9rYX9dmU{xm(^tS?mlJ; zzL}BWyQdwNFt9ZkS#}X^(L~~+I^`GgLe9`?Mq1ieBNVeib~uXoQJi%Z^V$h#`(wHD zDg2=ZL{EiJEoIit|=d?JO6Cep)iX51dYBBzw zePoF9^~Fdy<)Ff?g+`*ClIEq9L%SEW+!1dG3Ilv8Ef=X8CTuKRLlFmQZRdDwV3a=X zn;h|2G1b7e{vAijFC-Z&z<=gh-dRlW!q!lj#Y+s(l4ip-!pPDeM5Z@mxGn(A?mO_M zFYQ1`&DDD-l;7UMesgkRSnnyYdt*oU1_vZ`oscg)ktmdt%X1a`x^*dIw9({TFo95^ z{a8*<+dXshuxIj3iMug>Y7Ia$^pe?S7@dI%=E-O3Kz;aynA(uZ~d-_T2P+5l{BR_77_n%|HgWcym$Gw~j_KIX-SU zt*xa*LIB+)MlNiheryMe^C8(}PXSrk~7){meo$7eRWzEQN0fx3+@)?~tJZp{< zTGJ$`g2*{7UeXqJll&49=V(ff7L9S3s0Fj2wBsN9k0r2Y@*;T&v1BO$b%)Mgq#H;x_&0ZO4 z>G;%MnL}2oKq^o-5i%SjSlOpg66}$^Ird>DO=0zTcgj z=kxj;g0f`51m6Fgd|+XRy<-<}#rT%*4jUdX<*RYADIRDFxbT(A&!&La2dfZMeY!T; z7=hXPytUFr6TczlbNQN5!s>ii!5q6ybro{4Do(pz1MG^BKIkJfiFc<$Be}3|2Kk})|+Mio`Obp-o zMj^{!2F5ndWge0QUSm-G!|My|hGuhi5M$9?aMyo4MV!wSlf!zQ(W{HZEsh9j8A)S8 z0mkI}(?dz=*_jhOYG?G zAoLF6u86u{^PYz6S;GDlue>v40qF?v{tqNUb!l1cdQVABr5ZQP620}Bv!FIEW%(-= z)z*#a?29s)ScxiAv63M0$@Qq?>#4JjZYEp}I%113!8$hks!Ib+OQ2^{NC`C#=CV9k z#D6TIfL6Wm`M1+XHa7L8uY^QWFGbaUHw7)VP0#(O;TR**@eKWR4%?+aPa=QsY`tzV zN^2wV^`0=D2wuUeYBDut+vL7AIS%V1-?5Am8sC1v-K53TG$kWe?v<|!yi`NjEqqlv zT-U9x{ajw`9I?X|n}aA&IZHe^`7_mhf~>yziM&r0cnTpzPeQo35Cc(|)GnNJ6b77{ zJ(e3mhGBWptqr^pAo+J9FcRq_-yd&bS6|61pWD=VU8Zd0DlcT9grP>kg!jd^di9p_DY9-D^6x zun!jRT%S+?9!=Ar%*}U-z|1t|0yehG-(bbRrqw}S>%iFs=*ZJeNI9vow?AtH`*E^G>cdKKK!8#om}Hn$U+*jwqu5nyMRT43%G+(VquC>CO{(mTFNz7ghc z%p%g0rXyMsu?K=Wy(Z-O@EQ#vUG;6rO67qdqdssDBrJH?N^c#ao$cUe!_pYF5 z6su^%sg$o~FD0}A#q|>7|7>;9MtdF4gm`>u@!yU=0MNmsFc%WslnfN>8GnDhgUj@p z&5xV9S>(jsrguPVJw_MY{}923x0ba!(%d6YU%pPLIr*-(L47X+%M&~jcffX*Jn11= zQp)mQTDdf7{NFuNqea)1S5HJ>7;F%rC{oXj$t9v{&ko&IhXt2!rIeihfC*>v;!bBG zFzr`DosgN0)Wmb?SA>0a&A#|w|2+dM2P0))LyeYshx3b*bu&e-lMwZ$%Fb^wH#-`E zlvD0!AbI!<-^8y8D`~~)@<2lbK41R@u+tT)lGoSh`dDRwJL+6dA|}BO;vpmg6s4t; z&z*;B?ZXYAKdXDCnRXk?>%poWj9~lr*B&fkT?LJ!Qa*kxD%OAeXSD?+jg9)$<5&u* z)VcX4Yg=hK$u^ZV``k8}g)cMbLGoziOZ|OqmQtjnNXk- z)&093?J@k|j$KI*g}h@`QKgN`8-L}&LN0TyWx=K)uH)g8rlBE~YuC?>SR zw&tolDlbhg#hiqm#B;=v4$nF+k)>4(+`tedil6-Ik;IdeBUa|ht_Gi^f`&p2fRc1! z^@Br<&ln1aZD*p+q!5d4H{OpaxzPNqKrt{JFSwp;p6)*D5hxEy_#`aWtCG*ZPs-rp zv%Q4UrI8jAAGX7Oy1Fh}^TD+hW@8roCxhqJbuOs<%C$VWXpHc(@*UqdIOZV9mC(kw zV!Hc0P{lkfv8cYG9TraIp1kfM>6`JtI%@OO1zmSLx2>r|Z98I>5%ha}))nV)r(rqs zNRLEJl%FEbS^(YM`Tg)0|57({+L7-B>`^F}+Wd^~)JA=Fycl?i!C{xdcX0y3d~*F+ zeU*P7E83)UO?*zqsbuD5(%KE&`Q~J4v2l04iAS zWEOcCk=x*dHV!zBw*T9-vHk)!-pO12jjT90Y8dY1fzG^N7aYCWsO9W-i>c{;?paL# zVAz7%tK@S&5t4NLH9M2d7(q^^kjrDAB65^Y75NT$E%k48h4PP3VVG;i{@-EQXo;>d zj-?!-6-gaw1YLV8bp3(C>DmRT>i`HrkYA3)w-J+#72ECF?YILpQddlmca=Se9k;Mg zgAzQZyo1Q_o)deu`Xl}GXuLv~dm^Uzu_$h#h3k;b%4TeEZmOy;zi6IcgTDx9a>xBH z)Jw!nYSxJrfr}N1sTI#S+aqLh=M+~)z7}>oCtXwZiK`Y@zc@04hg5+!s`alc@Uo^9 zGrikTOdV2aw0m!kq=VrDx1Ag1w4~2U=m+YM2pfn(U8!5WT{lh~ab7cYo>+AXJd%O!^6 zuhizMyiCJHT8`Q(yO$(%Tve40@m&3pM4661(q^N0a0S`*!DL{QUU~ zW69?p+fu%5x+9rq3oXwl6EWo*&0-R7y>Bc1nh;JO-h+%|AGGP5fBn-N{gpP#MzgQ5 z!kT`k>@o#&(0&-XlBN_DgO;$ytnYn>)JpbS{&Las+wDAADXO;9YVFgmG@`^?pglF7 z;KY6N+0Y6q3Y_{WQ+6{lx|x*|g9(H9iG*JFXF^+$=?SNnoDX%uj_o5bVtQ&-0XgnN ziYtkjOfcd&d$8uLu=2+&4D<5%DkKWC!uqjn-mK@RS!Ft!~`JcHyDeI!g$)!B1)wmE*xzQ%2_?Pc5wTwx6wQ*Cy_YPPm7>z zC_ZV!amI@FxHvX_bY|-^dj4&C>ZN}qrYXdL3d&*W5PH#>$C~^0mC9)*achdq%9BJ4 zz)|g#>CV|UhXmvjPfrg)enL^L9}7&(waPuxR>;Y9`9D0pc_5VE|Nd`ZvKA?k31!JX zW8b65mO`@chRMDsjI}6)FlOw+Xpucjc9LaAMA=3Z8OfTljrDuH-k;y^@BSFw_qosW zoaghp9v4sWRZp$@1;#x7^acK~-@LIjiPBFOiiuo^!;#GZ4C>t7z>ZKz&#DPv8!UGi zE-;<7tMPtvcpez~E*fk+VzOm{Zyq_tWX5HgQDt#^e?CO5=YE!>B7;Tr`1941BG<^? z9HSV?69$6f!gfiJeDZ~LDR*+TN+f;eu5jE9ZO~GhD3E4**Jnr_d~w=$qb#5~_{BR< zY3QgpU6h<7vbGV0Nd;j;_K@ZK11k6}jkSv5MJd15r8VlOI}y8(3YNH+AOuuo$pO}d zGpS?-6kgu>Lq2!Vb`%S{GSVhiw^j1YYv`K;yejOY8a~MZdP)W(pR>}h{&F*w(PP!w z)tDJ3aSGyTob=xS@8VvYRD5m>I!@OVwBVE29WUOjIh-x{QARl7veWU{;3r_M`=)+! zIJr3`fB&#}xB0D2M|P~neicv!u4>C0iypScF4VD}K^XlxtZmKe3TCkpI8l}ch`5|P zQ(*paoYaTcV2a0ZJAs!9IuxYi+PUKSYaJy$s&&WwPmC>MjPEF*Cr1K=>Z`W{hPf7- zZVh&4{b|OvRQd+(2d z`FRS8hx4IyK!$P@HxA`4NbJ>x!|!4?wI2te^){{~V2a?QB_;AcOXT#arcS)WZeYae z)kMF;WV`09nR$`x$V|BC_0g$bA~!WmW1Rw~AcrQqF2D0K&Z?8kP| zjX$M>rT-WWa>N>|ycRF@pJEUymcX$tT>&;v)e@kjjk7&GjHO(Za3E@tw`U6~C5UCV zN1tiQ_R|)&!cYmW{bAH{`PdP5isI_2bA%9k`U(`V73oxzCN5NO#RfIX2PY>D0`1kd)b zDL6wv3jbq zBVQo3P3GV9N(Ea<6=MH&`*#;QGB#D+*`f`3hVSC%?V36by*zlqB?^qkqFhA*9&}U! z8W7oBeMhy+H-S+NIW-b-vST6XU3?9QtP-d49=|K>PP$_4J_ zVW=`o0m5cs9e23c&5u_ab# ziVWW$>BG}WR~Ammm~ndn8RXVY>$9_h?q4ySDi=L81ChGQdYK;TI_@I{w9s`X+4%Y% z@Z{Oji$H6f2unT!)S%dR>X6*h;Q@klRg}V z)@ra8&h`cayJFW2H5^>`SkI#)!Q5dlwY5IVe55XX@aR2G;fI+)LtM7%EQ|Yb7G3a0 zS@G%s`6VE{oi9RYf*-`b>wmEvUBfIAdtd!d?_+8-0?eh3<(s`OKgDQM)W&5EJh*WU z$T)pMJrnCY@sd5toqeDrD+^aAlO8c28PBqniOs+s=N~m#=lj$QiRhdi*_;AJl5_FG zuqqpTa|%9w-sT{yj%ZNBs3;W1l(+H4ukjDX-5#&I{p5}V6yS9Agq7`E{Sw*(_p>MY~?T+APD1W;eAsy&vnDqth`u1 zihGsck&ili<>qk4!WG}wgV%QKTB1-X+4gJ?S>FrC4471_cebcmqtt3Qc>Ekca^nrj z`4&%+u18tJ&#D+B&d?LTNF z+;-fEQopRs>-~TL%M85rNTeMRbI&$d3x~aYY zUW^F2l1u+m8zL2Qd-3kj>buv}=t_DRtwgc!WmwMNs>5AkOrPPT${&yd(eYHuAc!Z9 z=SfXcvOdd^yHMtL5C%@rNbNSbPGy8^2R)oVn>I)3B+BAj@TXp^UJv>^ENDE9;_s`N zpEW~0-)6k2BVzd>J}z`;w&+=~;bOW~{n(meo^grpmtPHP3C|E+wE?cn(um8wW2MT2 zi;EL&5nk17bAFF??fvD@&(w?QrDMz2qy{9QqkywBAvwz5{_-*#tcV5;hN68OhUXsU zU(*_}3OzS2<>6#T^p6g3QwIQ!bXM5q>)?5-K-1a1`cP!-y*VWtF&>k*Cr{L6X=)#n<~o@=2VD_K$^YoZ2yFFJ zCt!=Dk#=RHz`NsW0zjYUIM_MQ!379Q-xLf#b?+@gC3$&;CQNsB4(zzmLO9K);~zd4 z!)mlLj}C<0d_@>f*LA6}FLIsjI=)-AiDoWzoDA*6XDHmplt24vqCYMxrlA2fm4<2m z@8Q=)R{pozvvOu9L>!4K!BLt4iqO%OTt}itfkwf}fhsq=0x7K7De|`64h%Re%cuUG zEjP2pdt}#Bq)mPf&t2qn#4IB@6ONZt)7Fo04x|L}hgDXew;#>izhj!D?0Jdn#aT(i zNC(DV$rSwIiUXV~ONi3Q%3Uv&TrZvKLVZ)qD1-F>E%@F}!!NzzF}#9~*k~O?w~2(7 zh}^}SM+@_FO6v}rd4MwoJY&8=U%?Iv6_wLK_1K zxrd6ld_5~X)ZTb>!3pxoSydTI@_N!Xx9mn)U3sPPxAQ!=gOCM+%j$UbN;(^7YyJgY z?9>k0><$6Izuz9_MQPW+lKR5N?GDaZ?Z{&!^5_sAh$Y*z(>dOY+l_Tq9YgG^o^_w& zMbqMcYi4P77Ev7`E=j|Ty4hg(!w#0qj#Y{2!kH8u69%LQ zNqiB#=oG4ZL_)t0Bf-U9@BfNs=rIm;9S9FqtlhKz|L+3?uM{oN)1hP1A(SRFR1P|W zEO6x9$GSL((oNsHBynleN@r(CQ>^jVlx*zlo*~v<$k>b2srO?Q)#B~i9H^)#i+Kmq z;Ug6IP=9xr4N+Ry!ZY5SjBTT7qY*VepR(?G3YdE?j}UXfY|=@(UY=P*%rt)hfqEqn zyF`5W9rUxiJ@JgY*N%dr8FjJ`UY&!MP{D%KKRj=$JY=H=L^tjb&gsp%H zf0$R^i7$ziIcicq51%VM-lQ}#M&lJwA z*+L_)Jj4&z0Ycmdw#VW#hhM*@P5Fh|T=9C(dy|Xsee2SNt1)_7H>n0^8Qn+5N|dKe zxSu-N;&(G=dJ&7!;`KS@1x$9k(MOJ#l+BR`8(PvFZMF0;ex$=du?$nETfix?n?4cm zTs7f9WHD2@bIP!`fE2la<1_0Sl53&Taj_<6G!sOjZ1&veet?Kb({=^@{PIO5NgmRN zkIf9LUvV1LU_>b1$3dj4^Wcm4)9 zZ@OLoc}JnO#6Q+_yxBt6@@L_p5{a6%C%R2mJhe%?N#(yHSPRhUJ|kI1{E!>2Z!Fd| zy=GCafJj9tyCqr+=sy}0u_#KroqV>mTb+KI1BcNAjX zT<5+8N8YoMjBZ!z+i5o8D-Ct$xSG@X|q$V_=>5asHYxZH7t9T!PTBhkoyeLXhxrUzF)=+iN{xDN;E>`fEE;K{5hHA8|S?oZ>< zn6Nt7S%_<9=D?C=f8+yt*+}8SNn1`2WMRhQyefOU|Ce-CWdD0$7j5=*_?{m>wT&1_ zKf0NVfZGd018f1k`ls>NEJz~)#|7*~W}iFxexKTbUyKb`vzMCz&l|Vmx#5zf5xZM} zjjx{*dxMAOl~H$4x#x++8kw_*QKR(a(y-xka+BV{9qa45Do>Y2?r6EEfWm+iLF*;- zx6Rq0xdQ?G>q{oh&sE;4%}Uw4&3oK|9Zt4wUrsL&+m1wS0T_q0D-v8yHYBWK`s2F{ z)lB%dm$td`o*{_VF2wX_6^+f;Q&Vy^r(651xx; zX4WqqL!+LmFZ`7@J&Tcna^TK-Zss3^qZ!+OoVmkCfxb5cB8XzgGmftDp)M%IW8yML zqcL<+>Eh>rgEt9(_}e)l$-6t5As79o-WIjs^@S0RJYGg^tR%97w0oDF7^)I{$IDoS zNw>5Uor6EO9tt0bq{=}LuQ1a%|0QeHNDQjHF+x;|zOO|&9o=8>_z-TGy*8-A4;D6K z06Kye&@w15cb2wpMxh)wB`62@`bwVAKsnHb;GGvutv|q2@KlT6_{1tscWO$o)wbCE zpnm34&i&nmJTe&4E-VVH)@o}sln(3{k%h|APE~GCkdDd6PPYp6qOMwx_KtYP=#Mox zkbSnEf%PKuMim%a>N5V6+2_fn-lH~pZ5&k3%FGv$cjOgJ_Ydas^WSMfX< zmdE%<#A0CVH-w^vHkWcW7K$}N48k+b(L$y#+OaNuIY!R`aBE)GDCNH`2sEpK`pBOB zfZd2RlS}Hl&f?ACWCS1~jteqsg82U(c-5dJd(W-vG)&|#@o-O7YPeQ}uY21~ z7i=s{hiYn`X!`Yn<2!7o6tdg&`r)0rvxNI+v-gDUHE~xp5ZPJZf+YsUinj5f;kg-W zHV<+sMt#j);58{x7-tmbBaP%X!AZSSyMYGU4{j*C?Dat(QmB4Cy{~>qd$O$?$nhG3 zshizrxmS%G(Xw7yaGVs*192$GXbSKj(;OLiB{et}r#$2wC8_{R#}8h5D{wZEniz7i9T?>^$=z*qqIrEVF>r;SV>jT@ED!$ohqv@Hnenz# zKV$#IGb@)YfMpIl<5fb+L;1oq{AcnsT*G>mX@l+^ilkCPZnI-MaZ5OgOZyoh(DvwS zY^urF&DY#dLP5Xh$*ONCP64e{5-T0Bn;aW@%PUx{c6s#zvPu9pTSdJag=vO#8Bh%< zD1PF}Ela{*{e$OPn4F{Qj}lsZqG;jr)+-APU%}j{Zs{L9hZq%m!Gb5MY93jLtzzR~ zCph&oiAW{5FY}`(O$;P{NRd~&10AvI`EwKu)Ckm9N%Gn2T1GZ()i1zvP>K=*scjsE zoE=Gzui`U2Cuxp|6^CICEL~S~NbIXuuN8)pb)(hCHvIM^Z?KRq{|-%JRuu|+%W&*c zpmQaY^Lap9o>UnTNNoS{ zxuN%kg4eF&-1^(h_Nt8(0?O*)QW2xutI0P&srvAo6Wjp(Y?2nXJzb4e$J#Z&nhB?f z=(;%hjw$%Ag`327y&i=l;dg|0U%|U*FCyaNz7l;$v+aH(uejq=qm;XL@)e|;|5`tg z@3SE^;&+Z*1!1dJnGQq{7(Vxy`v&&Aqm9VKFtGZ$zgDA>XL0ZP%f?ST% ziN0K@ z0iNH#gQV5qtYRA*8Pe&%JU)0Y@rQ%UOM#VQqm(-Ge7TvcgPcm~tc(8L0LI8gBUpHf zk*!X{r;G@G3#4lDz3jS_b3>h0j}{&2|u5ghBU zsZ5mvn>4z~3S>mKLSXjY1ri!iD91r#2a?0-(u85uKf9Wp&ZgRlpL;=I$bVj8@oX;F*Jt5Ca?W$1UyAT`lcKjo`S^AF#k#Y1S#QC2K--TCgJ~ehUbeIr zCX57>P0SdLrbp&s9B7XeDm>!S*`hJ*8h3Sl$?)MCHYlwGIpLSEM1>zGE+05os99@S zzw%X9N#R_aOBP@_WHGY6;U2y0l3N+|Ac~mh6lP~?<#tL|&|gjxHSYctT05dz9N1rT z&rwYV@%Rq#Kjvq+R7U;`@(bBe=4e0+M~@3zoV;q&#1!rMf$M7V|g zl1gTfCZM3){ojmoQxNq$u zph`eV!0NtUo2C#Jxq1t}X^U#$_;oc}DEeA46wtD~AKz%k9>pe}TluSedU~N-?Zk6o zz=mb2zp9$+tySq6d=v%5{j2tcW*n(_c8pEMtfk>FHbl`|Wwzb^vP;W*Rp2gLs5$mF>M{Ub9cloQ zstkxy@zHL`yAu84E-SMtaXj{@$*>uaU$z0iomMDr=S zPpkd%-%IDUqnf5w<)P`+3i0W2sLP-5p*bO=0940}Hv}75NjS`e-ih>PxiZYBDv0P3 z0$)Blba}H%(P3EV&t^9kM_&1ASI5{%d;_7~RMrx)IF3J%j;T2x{+f$>V#@;P_ZB=T z(fWP88AGez>R0wGpjJd4+mU_ezx5cRF)rzWm9AZ-b*Wv`U@v1qTS1)~;rwiyWu@Ck z0X%1hIBvhAMx$VJsd~$Z3R49JBW24AYNG7Y;UUTf~bJ@LVVJ>w+bD6mG z(`uB#)faFKF2!J)!qW#DRX5{`X5H;SknfuODC)yAOBZ|2jK^V=ps*v?1Fz69RgZ2+o(alYseQMjGB2Z8 z;@|X+VU_d07E(m!^ zePApb3|^u_a~HW-@)fz#i>p`<;EwKX(a0ir@GGSjIwGN*aMZTE(b27Z+z^1dbV!DH zul4$GMb>9?q_DtM{Jy*^;XNLddX6kdnr{fk#Fud(2@c$=ajxut((M!H=dbNmM&-!# zAU*&UCEM1M=fhXo3Gs-R0<;RE?UlDm%a=U8LUYxI=3A#_OhySH4wbfe66L8)1hX2G zMsvknPw7#!E<i2}M`kCtctCy<{P?J_**(*{Rt^iUMm z60cqOY&jd1vMga*o^u{=rF zDIkRqbLN^NjYNA|UJkg=LB~@o8`=jg)bGpWF~U43Kmx8dm|K|GtwERs@ZlcP0S?Xj zaq0KbN)~hx$IGK&UcPor@_ob_Bh0_Tw5u0pLkO|NZ9;0De=jF2mtP~G++X=Z=z>D8_^I!IW6^sL z>~-A#rUl@5c+*!msa#pr*b-8W>JcTpR_E-@DdE?Lf)r=Q<%_ z>;Kf1fe#md$)-=;O2aIxbmNgO#0JZgzF1u+)aGNV!K;ZA;ZEo`u49T7G&wDwfp;wH z?28-q);c;uDu5#z%wrJ-3A~VW*IbY`(7I7wR&cF3W-Vo%ioL z0c3{sE)LbNV~P2DG8dB&4Qb!`coS(Ik6B6j&QGExw6}99n&b5Tu#Mj^RHh8u$4QW$&qG08-(Hyepz!^~^&hs*S zZ#einJkB{MWN&1)XK0Qse1k3A*So6?B3@?X;5&53VoZnzKkS`@QYp- z5@wxR{+7iUVyDth;CgYCES8!oSb_3qRhS^p{Hh_W6rH#eMn zBB+sJri-K0I8bjeO5qZO{_ytAvpn`34)OLI^61#Sh&Lp0<8RJ55~)@_2i5*?e1(iP z*1Mt^xyyNz@XY3q8PWX=nn~I~lC?dd`_1?LN`%?!WDf-@J1?e7y{Oc2xo!CLG9h#{ zC-`IMnjdvCzIinkjNkGpOyr3kLGj-mh)U9=-Ju2n2|@e{CEkTmf>B0p7L$f4c(*-t zq7ItfM^=Z22aFM=hpm}AzaSQC>9z`~4-bx$Pb>^6>MXkH$?E0_!L;rEICllhtf6_- zajz>mU(2g_8g&lWq%raK2K7Gs(cM=CM|wL|)50GP*E)hp>Jfm4c}3Cs%QYy;c*=O{ zwT13KUM0A&IMq09F}&!z{qzPwa8Y&W=w1eY`||}L zWpI1r<=DVv@S8#4l+<{0=!t$4Du}n~a$;F!}2Ccw`W2B|uY1A+fGMrvjosN|=7U!v?gDn&8Z-&^Nv!Qdh zq%!Qs-j4?vw4qdZ7tY@r_Dmq*@8};bQ-pu^PX4~EL1BNyh~$Iaypy6wtv%I3hm*)l zhyPSNwQR#}9*jk7uqZq#2;~9NVb7e`uS(b1ZAR!BIoxLp+Z!ogt%`Ntsa-Bm*qaHX z%1#>oowZ(f3|)xW2hot+J?^PK*I%VTu9r!WI4SjWkzBt*ywyRaf7rc#a{(t0Msdqd zklsJETd?r*+>Iop!6PAptkv0@V*>~vKug(x66NfrW*y*CZw^K9yl<^rNLk!e4Rv(cy;?sAotvinf-b%S0`oU77$CW{rtXRuufc@}Va}pb$ zP-x=iWTH-iuXsTcN?ekJ20W8rn`%LU(Mk&5Q#!!-L!V)}sqwC?k-^wlfBn|9Xnn}2 z^Y%Mx6dyu#`RmJ?|C%sgIQX%iv6$`E>!B_S1qCPSqODA(KWpHo#{y_f;j0c}-g!YS zrMt%S^MBjIT!bJn(6USOAh1pE4fpO3k7(XC5m%^c3+>+GmgYG58iMSu{1ZvX4kDrw z&$*avDKxAz?f?8NfdWpgCF`m!QBq}U`TZ8c#Z|04=i^lAhYnI zo|yCplbJsSFyOcSY|eafzi5 zm>EwBF8*N(`x<4$X6~MN5o1Y(_etr?aLoXZa@x2F{CVK$`u0;mYFQBhtNZr>)RB8*T*nzV3+6oT%i8LbMohvBwu0j+{XeFT6$+&9#IE}sM;ZUi2MA$K z&azB}NCWxj>dn*4C;y)6xyE6Lx?4B)#y&0u{%YY7FD`xLS^H$YKcByTi0kP22X4-z z*Pet4;>a3L#I2;^60gUF4C3k6$}>van0S^MKsGWayVWzY^bb7?obMh$(WJkslr^%i ze*dt)G6*?1FV^u$g0MDL^@k_BqGa@i+jD%N%#_K_+2;ovJ%>a#@3uuoSm~utTV&on zaSpu8k5CXG6oaWtdYPeSEHhUlUM%6dFfAz#=@AQ!AUq_SsFf($K*!dPI|I(XCzU zoratSj01K%YwMj*-_V=<71jAr%d`O&RXQFLeDvdJQ`mFm!X{{6cQ8&r|9*WXcD`kY zb#UVscjBJM$2@`8N#vSi0-^h-DlayP2yDGA@|yd=%(9feFA z)@L_D^OtEd4&4X3!abb-Y8xWXi}wV;ff-eW57hryOn*DWSuREgq{%zUS<78*D{4$* z#aDmwJusr&&elv{OfAqA;!Ckpa&hIa49#dyqj@5t6Er2bs5m}}R9%dpQbaZTUar;s zk_hl26S8^l8HAicNpV(t-{HzA=G?Tb%xmc5Eyj`C%x-V!< zlTA1HXNa+|HHN|e;qc21ot?Dj2To++rMh%d-eW}newT2FAV9NlT z^_3{TW|+~MI6OYuR>>fjh0*{m{I+?D_N{71`$~}U&IF?srsez-58+&k-M<23RR1GS zIrzK4*+J;YBa`BX`Htn20QV{o7$QNLv=V!>u{$6yCD(qnSd+y)AIoqJcdFaFmXUNS zngGGY79jxkCptc>1m!rfKtdT0MhWeVCHwzgT^2k{4C38S{%GIO`|_8HwGBr|Bi|Pj zMYbBCmw}mDHe2{UYbcv~?>VYC*z)Ng+E0Az*^lByF`U9Zn$((jvo9(w_{wjrwRikq z>vn>U=n3*j{Fp4wa{~)_N+%s}*H}VX&mm;g#{2M>TFgQjr7|zP7C$vc1)thhfWQhT z4jFjt)Kr47(o&p6mnC0c%)!uH^H?}*#oCFp;JW`s;cEOXR=M$i#hQmw%rv;2kjUjv zW=FtkxG0gA^WkI3mbD;0_bt>VLLRM``sO1|_8%OQ)#egLG)yxKm^$tGHqoI|#NMfB zB0svH=V9hQn~+)ILeL;0iJ3y2^zH1s@R^duVPJ;|O~RL)0K<`Ko7C=uh8!FO77tMi zae;@dxma4J4!ASgKis*oS^1?|vFbzEh1=uR+NHaRpb*LQ zkgM|mXUVjpof@B1<(cf<*xCBqFHd=vR*T?SrQvrn@a=N14^Oin-|@ZQp1<0j?^rZT z_Z3T>XW>JK8uq zsL3G^7jSS!z?b)Wv6?PTW=;II0gH^QO#j%+zkCqPWIXzQp`L|Hs7OcQWT#=y41MOk z>qB>;r^vs|htjoeKU$1i*x5P_4R@u8C1H;!hhdI`^rfGhu<~M+;rG^crJnW z`su%!G4gusoa+g4YzFq(GMmU=a4k`?Beadlz1PZ*s99P46k+KpPoI*x&oI+HHU4kO zl#wn^5a||czWYG#_3Lk!D^I55t5OVV7ZaULtSSk_ZaRB(MqRZdC89WM|gh)&IqmboT40AaUk~2EzTNi=}+FFd0C@fRbw7v$O0b& zsn3iTJg6Nv-tYlcJtscHq{(vMmI_5D-nI4a*|5%7#~ejR($9ZW0(-wca)XmMkalT- zGUwTM;?%V8FOpGKP2T%*#UW#jcvvIz7)A1TW9um(zV@8`77U1(>Cf=t-4yJj z&p(N~sx!~Z4S(X<&hU}0t!R;87D>4U_qTFw3569vHNm=}&!$30gyuW9>Z?hrH!Dwx zs*X!`{UOIWo*3aS9iXwWuLAOhEB;-+9Vla5c>9rFn1+(L?JFa;%VL=kq?W}dZ}q20 z$d35G#|+H}K6~oAdO9{og|W^Kao^sh#Ehe8m`sxU6TA%RjojH^j!ZazxIb)Te-Pa|J64L-*hKchbhSvo;WE z>Vj?Ut$Bo>?r=V>(JH$Cdvi-+yS1SKzDT9lz55 z4)2-Ko<>CxCsL?n{1bnQM{>HGZ$=Q6#F~W<>pd4=4+>X2nAy!gr?hbq{p<$q0d1Ri z=l+>JH?RPt&ZlwL?RPlD+_SV81GVMCDEQG*uj=Xtv|*d$or5T z&dHi8?OmMA8}CHqv$ncdKV!G_V)TxmGKjM+okNG37Fv?rGQWNfxAbWPWFsSTzyl5_^t=E`@adJqr=E*@CTNgw#6p?2t@c4XT@M5ePhl5s#d?h z&9~#9IwP-O_kt0CBLWJYVRVrOErX760jJUsK>sbdp7fta3vT~_$$ffBND$&Yzh8-z+)9<`H|C9wZ=U7+{ zgt0Xe&L%&!9f;#&`wYvvG%&^tyhi*{1E|gw0gl*#Kf1wrb3qc6`a?_(=k^1Cz7*Iv zr7l!TM)z5r7Bp6_|3f`mD4#HfPe}Pj{aLTpCSao-ByJU?4uBsuAt8d8E$-;~&0fOG zT4QY@ebAU+bJs0r6#8b&TXZb=B3g~+_k$VW{!={>z18yVTK1Svw{eOQw=ZA_6u zUI0mgs?J4f#HsL9rPp0no2-BAEf3TW#_ztd;^!4=eHy>$Mu(TfE*Dx7*ucG5 z_&5l$7tbi}m(SgDby&P4)Kjx>;a4-SEHKlIH-Q#}MZSU$n2cSyw)rk&oqEvZ#~~|B zEfZ8@atjD)W%<4-_8i&v;OVN)nV^86GP5xqhX2s2*C$J%)r3Zf!LFVp;q@e^_KWae32(2it*#=5qdrIKfPR1a!DF> zj-Eqkr#x+A!)~d^U@FuAp#px1{!^!kpmh1E0pGqSFKXW}`V z^#r5sV7gG3VS6C?4F6398ajI=%sS%NMG29*Vx!^{4LNAKaRtNe&0GadvH+NDN7dXH zeOY6Uy^VWqk+So8s-_%aA3ReFaZqu*w94%B;b3awi)&86)WWXHR{uG7KsmTq$RLP2 z?FR6*D-ceLly>c2Hd$urh}Jq#GxDczUq-&k!>UG^yhsUcmLXMHS$CSQ>6GTfhq*myF?G0L3Gef}GcR$|8>hM{DOA_ka}W}rKz zM%)Vg#RW^2Hf)KkVhxYsXX!n0-WbzQUu3w&!>=;l=B>hkT~vtuvZFR-#swpsR58)ys%<~{&l#_&~MPMX}7 zbA2Tr!fOt-<5pk^M`v!lRL-n1%5);MiQ_?bivs z_SLw%{02ltm>K;O9k72MAUIr%Vlqq3%E&+8>3WUoK@*;ZU0i4LEy!MT)GxF&khiDH zz7+=t^<@7@@#~3N<@TO((;EMqeAL}45DkI&OBR5A70pP)nA3^57V16vr26+fM#%%M zcNYLG9$_-0u*808j-BRXm3ehpPyqd{+?ph=p=!^ZO#NI1e@`J1&^1uaz?DTOk)Cq? zx+B)|OCpcziNp^GBUW5xE_1WY-2DKRukt2O_ZGZ{bxaV(f&V0X@~78~#81A+;WM?8 z!n*=&Exe@+k_KdtTfoj^9EMlD1;_5vUnVhPi-^@j9v-B6ar2()@av(S&(D zC>fz@+zk3VH7Qh%SKL!_yW~vkq<%#Z4*HkP4+r;uqAU(?H z^?5x-URnYMpCKlvY zT&+8deUZvuOO3JnqI#6ko`QQ`LLbP60a%^?0rG>LfvFW z1=RfsFA%#$^@_*OGlZ}_DO5;$E~Z{a9a4;Y%;iy(!qqiW$2nMf^z zlU-es;@-pTq;ex^>}{h^{TwjUpDy?FB6(y`4&0B*N@~FmL;D643yg;(q2Sv5EYeXB zA9&j_YSUE!_G6r`bAcUj9_TniT&_xqX#bgeEUf9WDIP46GV;~J<7L^6pZo36n zr+|Nyd-Uwi-7D$Gq6y>|{`*C@{yHcDoy(-`RS%Mj_2adY;1|;AcN4~iV+?oB%cTMv zC%RV>a=5mpSgo_y;q$S+D7-&`G)|^gD^+{AT6-B*If*he!j{1)kh=U z>m#Pzh#yohK6+((_j=iNP6A0z5SDcp7_w1#COaM1!X*+w*4YHaVRqyK_AWSIA5`e-x-|UXcc%NavfE1&osk$~k z6@b-1H~fa}8Q5g0pYJY@`s+Rs@-H4qC{4!YzQ6<}OrIeh$0J)>G&^-VQ4?O`1rs6`e6$4!Uhf}AY~#}~TMs5x087m<7SlIx_vL1! zc!c>VT8e;ePCTM+zi5#9OlK%f;sfUq;I5cFCj;AwiW^7)3TFFJ3|m-T8)Fq@lqTQz zr!va9<5~w4ZQnBi62+!A8uRXQh3S^qN^Q6pIsZoOxjQ3p$9&HmJ|UZCUiViL!#f)e z&Ev^l_WP7&wn(;{8p$A9!5F{}4C1ph76-@E7mDYRZI6!6Z{vRTe_N>PEgF6^rx_jP z{#TkKMhyaQI|{ev6v`BU(Tc~8WkunXVQrou9Dzhs9s|_mflCCWcD_zm90wSna z#p8{g@~JnAB7bc^LtRh7Y#P8sbH5fmb*=%GzCrqr4DddusR(+!nx?RlqFi)Vh>z<;?%GF*4u zjbplBzYC7xBB+p#XJnEi@vaM;)=8fQKEn(5FZ-jCbdFePMA6xytlX^by9=%v){i}( zuj0c;S9`9i~md@HMIJEjo<)}%n7xw>UF?^hUIA^aN$ae_##5O z_9J){*YTeQTP%6siJTgY}|=|-ZLjF3)YX1OMKqN*vG@`#O^mynze1F~L*aiJ;730%cAVU1nFug`; zC}t33lz#7+`pq^^UpM_kn_2jMYr|~wyx$PouE)Vi@+Bw5t+igtCCwnV>(bbO&o!@< zog#pckt$-4m6^Q+92bmvY%pgRIN3dvQl=E#t)ehKladXQzvv@}VlaE-bp9Y3p6qlA z(hzrTm*XJ;_sG4~N2uP`3Q)uLsoOZxkC-Zr>uB`oBn*m%PMu~=gDnyh5$OKIfuAm% z{4O-8YZ)1*;%h+YS_Yd5vvh!$^ypFlAxkiu!@$VNupO}*AL;0u7$n1T^yO5^qAr?$ zkOI&g1{1o{DaTz0tn}!YM#6mM%h4%aP}-njjiPP!O4r;Nd%1Kd5lfN~l? zc(Ctw3j(NLSVsOG3Zb>x6>4=ys}0jMj8~Pkk<9-Frn_bWFrz=~j1sU8L)1Ng8=bHI z5>QfAJ`>PS2%X0rg+MigKzxEBJLw9(L~3MiB3r7<8{_l1(4@UXb{5E z@j*f8Pzv{o7~2u2nZ-DacnG?wCRza7#Ou9sT7K`8`(&4wAHAmTKN^$z7$=f+SoKc(twqgST7r(m_==;(HW6sLfSK&Xqfd5k|F;UR;!D{6 zeasYu{U{S5)w+}URE&zfysFTD!TA3a{L>R~0y2m+h4x>b-)B0Z*88h4VSg3qX{?Zl zY_8n}P7+XGRe%(s=@1=jk2sXd!iwHX|sV2YxZ9k25^N=1ChW`ubipa zvw{dtHPeCY;c8;oFyndC7+fXpRfH1UC_V`<#vwxEl<#YW?bnJg@JjxYSv2uzCCYfx zQl_d49Ae9aeg62>K839#03aBIvp@lkPlyzjDMVV_e&5tiLN-c-Inf@0&Cf&LBbj9V=8sBDJe@F12+W88s65rD8n2`Gtt!GLOfCQF0fFW z9*f~XFP2^|t(}lang?|MVbT0jzgQ zzoDkjt?)#>Y7yrOlU<`_mI9??!>DAtu^x9OP%v9wou5R>afNsNHiq2^2kaBjCN4I7 z&{VUOjTfrxo=?G@+LE`uzZkg6hYnZ~+`1aH+mT-mAJ@jarbw*~N{lIicl|eq1;_{E zqw7<_z0LdMu;%m(zQDca-6Uesa3}kx>ATJ$PX=xvTQyhWr0?auInI!w%K%AB|2aIf z(<^A96H!z#qUepi+FcY1d*ihMR`gkaGaOv?N#KVn>TFxd;$<2fxfFLaPQBLunMCqZ z5HY5i_SvJ;PltY@Xr^wz@vw-v_p`0Jda@%QKn$}gB>Bg89fn8f2FtYgU0(5i*II7n zE}^0>e?QGt)h>9V3q%p|>^*Up<@k}Z;--hf?_Iu6k`m#9ML2>7#{*W_eY@e4P@4rg z(xM8$ZHiR5Zt1Y?)lN?al9lE2ql~}-eZImh2Op8aalB$;qV;~3SAJ>1*)cQvPy39w zSXL~)%8m#Cs5hdfY+d;3T+7EFZrNo~hFe?**C-dLu>EJC^=$&)QL{3_Re+`-{81p^wp{cj2zt49q=s{AQ#4e zzK_U!d=(9k$`QAyZ&%exqQHyt>76<;mVLCB&lYlIC`4j>QpBo&{o>?Gc9^PvbiKPxUz%?(TQjXWAdR>`d?eJNbq> zX5B-+u-LfLBKBC7SwUhAAQouB#K=U-$h<`tH7er~X8fPV<1Ef~UFiuk7tl9~X9xn% z2VlX;4K2@<*c{f&D5Tjhjt3u?$z7q%5D7rbAYyL8DeRS1ZvP}{yBQbnkmic(3&d8= zB#NGXFk{|nOpoQ>!?_D54BQaB9@(>LvBzz@!w%4pI>pCDPhJ@yl+fMmxH$l(H)tE2 zCEd{TcH=$a$?WBHk1WjR1?lfH0AX?_|)bis|rXq0^O28 zhX{~rhUEq2p0rVEC|-`NBJ4z$Xk~?LISLQwZ9hn;-;1gLu|*ejiv7kLu)+?A1%3y} z(fM|rDNyq-U607rJc1r6xELfPgw~eA=$LPjJ74>IXLEa1{I=rlYynO}ony&@reor9 zFZ5Q1zRO|n<)Ms7NLXzQ^Y#A4n2mf*U$%VFF29Iy-@lIxv+&)jxzd(&-62;z+lbDN z_T_wmhjM9$IqoJ`NTK%Uxqqr1i_YU%mbIa} zE?~mELE0L(bL)Ne!s*?-aAyVpn5}tv&d{pArz`K2*U)7!}g#nj?lL1OIi z8S~M&OcrYedphH5MmBpI;4&nU#ebV)`@%uK5A<T#jLZH)I?>|%&Qt?9> z`R-4>`oAKbv)7oI5P%uG$J{B?DMVLQx!Us*Dg05=NY(h7&7ZW-V@eUv0*=?~0|q|LoX}q;g2iyVhKN zK}i{RT3Bynxib;w2wBKwA#!&qzU~jb+;+nj-Hv3)iXYihzH5`mV|+Tm{pjKT$E}-K zij_7ZNR9Ywy~dS11a*Wk1~IS=HherHwwurn+Ap4h{%B%IUFeO?07(-x7Nd&G z76LJv$BH#Fwx``VhSIomQhUQzKZ0C|IptvJYU)-mh*QBf>~hRdZnVyQCI1-7#|Fi1F;HLkYpa%Xd2C@gWIePlcdUecD)j+P&f+B4L$a zi-4pJlmsn$Qu{nTU zTC~o4aFqkM1n^e|8|n!Iv4=nPmif0c^-w2KYXJ4hb$dTdDj}ZC+1~fxJ=OGzK@n#! zTHwl=HH~?vnNXiZ3f{$vC;~H5i8#HY+kOY(^;N--!|wl=_H^&-I;E3HBXOxp0|9{O zr-+IXowJq>QS?_6y1Lp80dpDnM+p~hnw&-TJd#=)+qm?PJ8Ws{RaiD-!1!F+BqCu) zbmUirOXW-D7cj`*6h9rFD5y>iUcWR3m;S+kDcvl`>P}F0J>??Nast{;d=X`QGVDmD z!sbM?<^6V&bf(znuIfXte^({`w|XfL>@1quHm6sI~F zLb`*qJ`~%i)h6$MvR3`LE^6=a%TBKAnG~G9Ahg%3 z#`o}+!1Yd%Yg4BHT-1xxTp1fw@id$rY}U6)vsEY%$)pZO5t$%2@XKGb7L#b64tWYi zv)f~={;ltqZjF!qZ@@cYQR?97;tOK>@ylFBj>PzyFXw``w~Ijp@CG8oyd{_Emw*`W zf;aQw7sWE~HDt*32?{Ik$PK&d76wH(kBd{cC)*>o4~?(MU(3W#J>yt5RV}CO&)W`^ znBVp+1OS{O!n+T~_j_GfE~_xj7H_h_SmaZ@QgG6mJ`XOw%?--4J8};HH@Sygf06U{ z91Ff%Hbs0t>D1W{Q2@T#)qU-X#`*F8mU~S9(Q=v38o%qqjKYYNrGF>gSH-ZT;Pymp za1U@DeSA2HmJ@cLfaEyd@;9iQPigMGAmnIC$>>X-H&E9*py9||oMjJj-7le9j(P>T zAW)1~n(`m5yw&mjcAE3|7qcpb&n;^7Na0fqf;x8 zR!lTehzv2UssCu*6KYx3tBUnF9?6;g3u}0aTW0SpZoMkF&lOetMI3XT5}|JI?2&DJ zMN0suS^(S{ObNpb(DBB#?xkDyjXhxxI35cSe+ktAJ|T8#guu-c#EpwBSOibXiTnDeuy<-%fbpG-b$eE?SmxaJB@MT>)uXR%l&R&{7a6qZQ_h zV7h*popKEH70(#rMO|p_Qi7*oIPadkKhV=`SL>W~ESA-JnMVdzA_>+y@jFcep!n<91CYV+5C{_-!5G78GkM|Fr#53vg)yDI7L}yMcqrAMgksSH155Kzqp6|z( zt5-M?YpsV^ele*gr}R7TD-eI#WE^b?4dEiA`pOO0f!bjOn%Wt8T{M zobmb}jP>q>0~KADJU7wO62HmUmDN3z!CuCq6$T!GmBlZq++}43+qG=;yB;>mj`x6e zCDal^SCORLz_|AzHUTKA^Q1=p?D)c6tRtf*k~32p}ztkOD= zk*FAnixjOh8X+*siscV`fTqQeW;K7DtwMcW5i>mA2|8{6DGnELmiluR#TIO$%rQZP`-xV3Cxd2W{!#gz)>yfDegv8s92jHpdut@u5}?RV}@1V4_7oZoSs^BHaJDOv(bBDR$+EJZ(*$mjc*7lCAZ z;)}rB*n>8Kkz%b^bjBMrxjQsADobXS2>6!SmlRnPeQs6TOz`9Y7i#>XqRy+Rf?prD zCIs9yMC_i9`qrA~$SjL~<50dG>r@Cbv=k&`WS-z8x41YRPP!1-&Fvo)EG2N94E#|Q zRay`D3K0^-Sa%?9OEXK2O=MGYOGzKch(M*$9`+Y-@2=3`Khwg$=wN3Aq3cQd(xrD( zaLU^AFQ5m@#SSPMSGcJLWETc=3}IB7yR`VjAcjzWT$<3qcTINPCLoy(2%B?J#RCJ) zj9=6Lq@#Dtm9R?&NFc_155soL?{!+IaAtw%<`|oz$G4-4Df_fdnNPW zMhgy3F?lcv*3XOdv@!CPlxezSx~JQ?T|MDKkqTQ2-wt#PwQp9OZTqM^hSbv zDc?Ar$VV{~LMQDgurUBV3^&4*a5-WAPRYE(Zr3KB96NUoy{IZj+T(l1;qs)lBNC!z zS#o$yyPpQdJz$YLDEwJU1X_)bC$8utHygj3f3KHP;M)1zM?Bjxzp(6_&{3gd^y^Z) zWf!D8%v2b@uMwLMI6kWo-k542nqVnd)v3exK3`O4S}ZNEpqLd{nFHPRV~{Q_DEFuy ztkszPH`D*tN*XA#@4soT40y;B4f|%4!wjV`DR&qH-lff!$sj18zESEtnzABaq1`|S zDPf`&JI3PjXWQOjEHI<~1=(8ja0a&?+;+J@B0n4jFa(%9nWZ8vUewbi0bm0JD0%UVKgLZ6e)h(O|l|2qUowX7CLAQkLz%} z;?<5}50e=an7{L^(lpuq5D`R{%)Wg~<;9t)Uu8hzMf0n{}lOf8kH3%-VZ-Rh8BIpsPx5Y)JOcEg9g3&{Lqym z(Mfb#zTL9#+mZ-fQ_F+yt&SfSPXP~{1*1R{`A0CK+ z3}luSes7(7aBx^-+xFu479=NE@nyEWshW1zVst0v-C5!XuY=F_Cs^t}Pt&(Ln90Rv zVKX_N&L#?0y~_AK$W7*boW&hrGl_Q_NK#>Re|V~caCO9rK=@n{imv%?O~wZm)i&4P zo`P6dq32ih*kV#rHs_nd%f6w$@d(EL({_8J!z0aPZ?x3{S#Se5))GyTsXGL-!PTDn z7QMW6wVy9u@5n;bnIuHn{{2fbj>$N`qFRgaM@4398ucv!MB|6HH1ID@qHgdu>}0Ip zh7IhbB|VnY8WTV0B3E{hoE!a>iS#CDFc1~*0l(Z2`+3%3!Ri??-TsvJ&X=RP>Xv1K z)vc-iv0SO{Wvo;~OPA{FXTWp~j?Y?h9PavZ%FHn(_EMKR${x<*a>iXD|B@m#ymb0~ zSQ|m3mPzqP_U7vUU(@F;Oi-N3i1~)XRQh5wsx%<0hfrPfT5SD>l(R|@D~jzVS^U|; zeC?BeNzJzJbnW{w6uc2)edI>dmY}K$Pp=44>*n?uK~?duvva|WswX+!Kf9B1V_{DO z{Vb+3`X|lCCIx?PS^p5^DNzGP45+_h1d3-vR%Kg!EN9(HQSZ4Vu(aXRK$fn9 zgU7fKWDh}0e9d^AmBI4&Ju;|1Ti+!KNPd}at^t0^h9f-`CYJ-u22$XaKvIibS{x)e zk>PL#m)eKZw(7mgkaUEg{7DqVhmzp1aK)xmVB$@c@jyO1bi7J3WGIoMP$>TC2t|WK zpr6!KU{TXaUIa6?^>00)D(vGw>UF_~%)1)ufbs~Z;Qu_Bj`}9>die`~)_S*Cfoo7S z{PKy+4MELn3%6x!J(+e;3cx6HFiF7(h!R#+q5ESY@XGezYT9QPmyHq?JPU@Y=*F_n z!E}4a@FD$;2@&YNgjZT;x0^o#LYt*INqnUIinyg>^K1l~Su#&lJ`Porecje*wpW#K z*@DvdHg!LY^sT5~(xR*hxc5Nh+<2-v5$dY;QC-RP=mBBLva8Qn7wHMQYv5HpelBVu z0|0!OhYrky{{6M=@_Ta!Wwkw%5Pdv1TRz6qR zJrJZ^U$PD}LK{5f$va>Z`{1m@*NuP?OWBvU>6GL zbCqW}I}>tQVOatd_YM;r9ytOh7e*khY#n|Nm=oA8hj3T~UnXjpM)(7|aX)(d2bzvT z4LAP8B-+|L7RnRe6q|2iz$lZ(pd^-8NEin4J;;9Ckm-?+@jLq{lMZoj`n><xW!1H7~-1XF&bXtI=RTB_R~Fs zeexYLB=m@>$?ikHmX8kA8yH}7(nXrn>pMU)lJC8NsUmO3Wrqdf*SuZ7jU;<%QaU#e zT;j^vmz7-?_T5Gmvhib&?^X z;ik&o5d&gT81X5fAH{1OBt0=sa8z}1enb6x8(FJPZ0c61b*k&uRMSc==~az8oXu`X z_}lOKA)I+GO+NaFH(h_mYgv8c;_95>*Ip$|4S3VDG@Df)Oxn6OePzm1cRL8243&xx z+x7c6+|LO8e&-2AGhzr-=L6<%NTCewz3!xKAO_NXc+KT{{UR7Z$x}iNHU`6EA?}+2 zFb3WTFSe~1%W3-sI{x34 zx5u(0PX3ILs03w6iOr0|!m1-=uj{mwMD)!G?4#s!FKxdof45}7T^(Bt=f2$VZo%j$ zllFHnuFGBTe~~TBo|ZikY5rXMCw!v+(^idL!KETyCi07;-%N4Sl^?kI5ix8IbwSX+ zo39sy(u7__uJW;bRAM!xAr%z5M<(mA$(A0oI`GSHRk&Ut?A)p^UNos5%ElLZb@FU&6G3ql>C29=4I(sRzMnY(p>^3sOa^;jsqg=}g8tCCstnJp=V;Tr zHR#m*?WM=cRd!}F3aAkV0>HVffGzFqIU##O#_ildO3pn5UI4mCTjo)7{C7tXYFd^$ zL>^a59sY3hxIoM~PgD#bhjZoqz5b|P;4{u6xNJng#e_b~#koFUo$90;5BsFZUfMFi zy<8z_R}QEZ^Hiiv+L#sITIDu4x;I_Nz(mUq3)B~9Zem8v;{)LAR^gxdb`sHa-D;as z3y)=SGeDbRyeG3h$gJ{X5VbB8Q))gbGbl=r6ZWF9IG0)+E`1~uo|Ve1cofPz^4aRo zt4l(p`IPiw@@zz4CqO?i5AGDaXTCL&Y5BB0_Bnxx`^TJ)$|rzAS7adB8LckjPGcfK z$TE-Ll?GrIqjv(-yF9oc#@cW61#osQVMxaUNQc}EdMvnv+1=rF>EvNi6cqEc_l*P@ zoP%c^^o*#sRO+7VpBvbB|ENoxS&e`7(n@Ig{c+j`=_)+ihYu4>Sp4>XQJ>9 z{84y!I3saECM>zc3KI_XATI79SOp*l1m$xcwS&`S_64&p?P$k zt?5JLg=Ml8g98=Lm7)}2*z){Xk@B&B|NgXJ^Ht(6r3B@Z$cZZ^Kh)mL|2!@>=F}8V zqLOUzOA7;nCnkUL^>b#0x4jHCo?utBA7vwxHM5$IE*sC-G&c~>Ewa-~xD0=i?QFuo zXHc0~`llcDH1~!Nbny&VcdZSHg6a5~6n%=J-? zbGYYjm&oy0=G_-?QtD*$@#ZkzB%>GS5;~3Vzja`dIH42**aAM~Vtv0hv(wSb<;8c0 z_qXL8d|$X-knVkGCuK6VWnH{e#r_*)XEQ36caW(exTm3rwNhP_KyoDH$H?)0n6I9g zzW8faKWgFi%NZdD@T`xC?(fm?uvDG7RL8ng>HsN^bS zr+5MD&J$%p^n*6sgWR|y`!_#8`tipko;?ZJHHX01t?~CxFqh&g^?zkLEj-B`5tCbS zk*@=)(o$AyBJugo4~Gf&oLXw9P87UDa$kyqXjLsZ_)U(6zZzE8;XE8N0yVrp9Lp<= z#L3=%f{SbT{~Q_h`E2~9q|zYtVDEia!&VOB-MLnqPdEk)(K*t<$U)+5?_l+clL*u` z$fM9B`1NPT+Ru|y^A~sjxOGxg13!!bt_ z^2>$Vv4Lq!*}Xfm*9NgAN*vbJ$O+3j*1!s2c@5otQE(!>jMPN7mU>l3ii1jJ&ZVE!5bA7Rq$yeZt#qTyGIxZhz{soo;rwY z)eW)Cc1VMn^Nx30PRUFed5B|iRE`~7(acy3P9tJewRRy$(V$!nsKe+KGu~4k#6qap zbL09oq?DLD4U9VlGA8>7k)m|Xg3L%V6W^fbFfw&DO#|SEj9#VB4lV<3E!W$W#^-|l zIf=E;wC5>0O77|)A1J}2qn-Z67q%B?^QBwP5&5Dsr35*IAv3xCmAPCycMr@8%CEN> z&U1V^y4LNVDKg$Ja3Lj6RWFj!@3HjYqisxpzA7U`Plc(7OM7RPg zZy4LPh;0_Zg91T_-Ptht2@`V5ueW_()iNLs3~V`h1&a}{*7*H(3bP#RU5J}`USKq# zwS6aJ9~f^ZW$WA~T0zc+DbGt>`$0X!dPB+~2gi|+>7aU*I@@lZ1w&4qFB6tvasqln zt`PR!b41Ha&ibyCK;GM#^H>G`{oGo>hqC~v7cxXKKUdtn7r)eZ5h6Csr`87VBeVN8 z%Q_uBdRLq0Q3YR=5HQ*LdkzPrz@c(!cT#Y6-&DvSV4BZ($(lxwSsW+yJBjPkYZv=e z{^h&xdtEqsSzdTwOjC;}8q0UZsGVSS=MTTirz%Nn`t0*XZ^?3E4mS9^`3!>40)uC& z&zXlN>u>8_BqLioS`onitfJx(lk0{+(O}t>_)%MB1I~0%UjE;lDR1)|D!Yg6>Em}Z zJ$R-T!>h_S|6bn7Hb6G_`?kev_snQr70vH0$50Q4F9Er+d3?ahy`<<_-Z5vIkm}Lf~Ad;4bkTWi$bIbv+^9)fUy1Mu`OjOQb@n+U^19=3q@78vr zjfb#|os_HdnCPj#`*ZfgD}{zFN87!Jg0Q?xxjc2i;eyok5S(14AM(w!`fLF_5w$ds zmnh6Q*Kw|4xYnLL*&=|ESPPz}2i#90e2+NNfZKjNdCbP>UQpPC5yB0wjJNJRlJYvL zSIp?zsT!-UUum$xg$j)CM$G(X|5P$NSpciHoQTs480U^wnZUdC{SfP!U@^UQ7A2Dg z5*n5-WI9hs$Z_%BMF+CU`Lqo!rwajB0P6D%hlM1;ydP?m2m+kzQvx1n@cs`&1nfzYqLWQLm;AJ)3Ah1D~;;J^T$6z_AWOHn(OFLi3V}0G^k|k?#N$aJQ z`^Db3ELZQ&@2?ACREkUVT|_bk?R*LhMs8_!2W%M^*hCv-0RPq=eP8RbAoRY?g&em6 zm?XfvWcaOM^aoC%N zn6`)y=p{6qYZOxVqV8<4!nad`>f_eyKh--vWzGgWQZK#aUDH+JE#i-Jfj4mMJ&wsr z9R20bkR9;-6e^GetJHxv3H;o9>NXpH_?V7Zq;$UDjcYBN5>AZau*d>K`>~4@eUd+7 zHFrg_2*?bhQ|mTCr8$d~0`E+!k6->r&aB^Ev&vi8&^fN$68|e!M}^wFSEg^U7>*6F zTI2UFG%HG&Ts*s+XFTNqC=4@ZAN7O$5DTM@3wF^4;|WA5MJKGQS!!(-zNNa>!*-aQ zi~H)ue|();_FRPSN=EZWW$lB`#rI6ci>Ytq(q0{X>RfD{rMKU>y&wzH5`|M+iXTpm zw02QV^GqvIyWQmLJ2qW2%NT`%{y<~%rXKEPF_>?w8okSVll4r4>cp`hQ>~z%pZzCG ziHJam*>7t{JlSS;qBGo+m+tCtsNe9A`Jkb=-DkW%a$(PUQsU-*bZ+gvvb7Kbcj32m zEh`@z0BC;iEA!#E_u8e^rA>4~d83Es*)#s0y`4?L_wxc_MMh z+F!+L^%V^nUYX>uvTa(C|DF6nGd@nb5obbuto>$siKRN&=ak=W@x+7Zb+hp(+?o~t z&5M-^lLUzFeSw5lslf-|C0$OBSpHeK$n(+_mRsaH$vnf?ysd-u$itHqLEiFu^NqGM z)G-IfP}~^6@0W&mrr>sZ*Dbp`HpDB$!b1gQ*G}!SsC#%+XnmG+%?fO~J~h%1ys_vn ze==!ZCJ|uZGPtbEA8m;L<5;hG2vP(tC%iHo6Fk*T{SvjR7xA?tlP}pRf5{$BGTWQe z4W(LnnkYI3t#t=xd}a6ao+h9bFQZbTqLBk6W* zSecOf?=Pp#mFsHO;dhHXv&WW~JB{`1S_{j>)BUCou&SOPfi)J%w*`iSq}$l%t}!oa zFBLr-B$QpLO{hnv)VhoRBLCk-07RsTFZrg8nNj8&b$mG2Ru$G`*3y4n^{Zu54akYN zAT}o?4u7xLJR4sxGo^vC69CwPzJoyR@2XYol7$cMk&s!ZiHIY*Tz(u20BXoEY!VNe4GC^ zocbrfHx5CiL0bXLZ)wi%FhjXLGZ=e0ouSFsk-gX(wYg zDG-$+qBv)N!c8U8_#N!|xJ_Vla2#IWr03ZHR|cl|w5{#5PEL#0@TTW3w_v&FA3?5X zy~!%y9-4shRkp3n2V*+J82v^Xn_ozB(@aH28^^Qftd@S^U`B&3*?}8j@q4M%I zBX}k`wBX+PT(FF6YP`7q4ttnDcQ~{(QKfIIc$$U{cJ2pKB43nXR@;3$Im~B26mQJ(^epW@!DWJK4V$SzHDd3-`RGqm5;~-nXo=KyAF*pVP2l zKFx$SV8`sHJf|Uyag2$-^A}1k?pj3`GsrPysuk~*ejr-bLUKMRbst9dFCWGrc7?0H z@vLzLj_%aFU+-6VlX`gLaTWEcN!VN{s&+oveH!7Db8yhBty%`C@<7YkiGEO9tbaQI zsh@$-s{L*aR6IX-&%D|`C|`0UgbPI>7br|@Te_hyXr|z_kcYk4vesl;cxM%Z!o`uC zI3U?Qi(5)o=omz>IuJCTkHhlCfw+ZOxc0>nC6)iCHUc0%0qI30{igdTty&Wr6F#%s0LX*b$3HW3Y0B-jr*!=unrEkb+<{<1 zZu0w$&2S!dk%*8HhiA%>%5-{u^cm9{=?q?I zmZC-3WCm~&Z)CdzbP~_PlK>aq#V3MKD-#zrbnG0nE5x;?r)9XkILgA(K2O(iFYX`q zv}@7AuhrZJUIhzAtbBwFu`2)w^|#LQ9hj|XHGiYU7r}b>1dV0oIiUZZ2Ms?59h;@w z4v_BF-9uZk<$d1^#2Zr%4sL>f4N`FY#G>*@IA6BAPpER@PvB7@m79q7g~wOWKy4sX z{wKbO$P`*uUM5=i(7v;YyY}alRAcNa^Ze|Y?3IQ`?rtCo;J^|n=)NKh|1@+1NX-6; z&YL^3>EM*uO?iim90KkS%Z=jYVr?G|?KU1Xfw)169VpP5JMwJhPX`%&_n>{FD0 z+Is2YMtED^JHhQ&(P1Nv@1<;SreE=`{Ve{0$O`+_ov$f*op4ZE=@ut%Q9Y?vrN zH?;^1?-UYfb0)8)NE^rHTn%J|lQJjYU_u23C*Z&_1l4!In5zN_6mh=DHE=XG5%8>K zlQIfWaDb+XMJw51SWixYY(}2O_GTI4uijB^q)q%t;`+m)Bi>rY<-^N%7^UyGI9)dR zpVVm)Gr~Cr#dKXZHM2NhDZ#I6VtFSkF_s_QIPDWUTRYl0_ZVT*M&6X?+5M;G(!?A# z*=sluuLL^}!0xojspv39Cnu()HJq(P4&;MpIP7ApsI?86$o)0en>siangTkMnV&hD zx&M2=>;JZ>9)tAR3DSmrQ2F}QCcHOw%F2MmE8}1bW^mf%PZ!kIr1S;TH^HF)FT3cm zA94Ic!#cR0!ZG9N#m{%?(CPLw_4MNiyyuLM`wydw2Y0UZ13(T~%1;JM|@X0GQ`hwM}P!QcqWgrAF|NElcN@TqGuvEP(x~burBT7SP}&D>^(6 z=L;mm^9|b-i~zC*Zr_9HE~vC~j<7Sl2hv7r?!Gg&uW`ocL0+{`Wm#=d~Sc$egkLb079&&tmR5;+js4*Lntf>=V>kPz3&< zX;S5gvbX^mV&6rGCzg2_l|E`tHSr;4P&vj`=1o$hBW6_;<~?9s#9DiRH!YpXUKUT1z2qBvo0D=KXAm z)RAaWvrK6OS&sb(xHgS^ zf&BwMyF5zdwtcbQB}_S>clpb z)8#@}`jd4<>_qWZ&GkNGIwG5OPxBOjn_ZhRnQ~b0GcYCG5qLSz(VU1hn-A3oU&5eW zTcpN8Q5d(2%$X`FGM!$nj2C+YNLtaF5B_)H1g6z9(7mNo^W#shzHkbm*$UYI7#OPs zA`X`d2`l0~`ltb>A$Fgz1X8cR1Tp9Be>T8-!qt8ohc7#bZxm;4f-Z$#ir*Vk>_nqgUSCO2&sQYQUj#jL;_Tl9E%<<;8b+elSXX z9*&Z|09^>ndtCxDTTRz(V&}}HGev4O0K^&)mxSC35z^@ThWaPIitph&VM6t7H>_Wx z>2$rv{EbWa#aqd#n5xu4e;Tr-qxyN1+CF0Vz;?4$1PJCh`XD*!yco!qf{RW`H+cjL ziU*3$MBnt>vUL;U;bcxcq{!!gQvU$;=jkFNFvQ>7|k2g@P`(OO6 zrw~DAiw@<@Blbq_nQNSziX3I46vHhve#y||w$T+U1YXBi|Mbvp$Y%7=uRl+Wtly{;i83>izAaDMwdW{i#e3IVk=vyOw7P z?!zwal_|%vx|f0{ut5S}w}2_2IUfux&Ejv(C`!ve)J3mU)1OTYmB6YpDBI*^;8_&( zZ=gPMqCN^Mkm*}@@>X8=5>vpoxJ0WDQ1GErd+Y(NA3eXrOP(9l8|{k~rcJ7sf@A$5 zNKrw%oCDEUSSn$7`{X#&7^O84P1In0U}(Y$J#mny8!Lqw_rgCZ)36yT)OfNVJ-rnJ zUWe<>F2Zb)6ZLri^@^P&iD9m;N30~T?4G{ipqQkI`z8nRiZ3rmrB8ZYF0JSwUdmD> zZY{^I52^yGd{z+aoi!u!r}whJDWC-;H>4X@Mb}5gvjt=i=P^_!uMO2I==tYKWTXQ` z7#W+%`JhL^H7082LX76GHXkP!x9<0Y9uI>*%K1?pu#^*1lph~oijn)Th|~z;mRkFf z4NV`~KE)n@f+Q>zsex`ZpTLt4aD+!{Jfc$gkTg0dmb(iGte-?3A+$(-2Sec0TOC~W z)s8JhQ~9QMsbGs9a%(CP4-7HhugbDxPS=Xs*zA>q(Nxa(gdR)t$gOMN9yR=tlsUSb z{E9C77FSYGeM8FiA=Vxz0bI}k7r2rIK1p^OlM6punZ#vPFhbYgf;^M--;rky9Suk~ z5GvOKIYYkm5gBAIHCyJHVF^-p7CX zKexQ69Qhf99_qGX4xmQW@cWmlq}jGUqKPZ?Ac!L70Rlp1ltC5!vva@DmT_*J;_eLT zER_Bzzt*;Q>e@>`t&^e`7rlVM5W8NADuDu{iX}z%9$n6z$vr; zCTu9wTtT)bRC<25zI_v)Mu_U%TxRKs2vm>-s%nb#FYZ5(>o8hK%ZNZ_hYoLIk1A4duJ=9O)(;&I6~he{9b$0$ z{#GDL;a9SvNsbj}7wxI3Kq}c!!G)Ws)vg0GATyLj+`(g7RU=qnx9OzgUv)xm+9+(U z0kp0eVhb!pC=U-uM-NgbtB*GsCvnS7M{DLkffg58llA!S9leoyop$hcPBQY02~p*n zWy{M;p%EgiRDn*-3Dsu>LrjUXtw>^3rB&L`UPCn|;}2J>6|0h?895 zXa&qn9N#V=UD|ElyW2PLti)o-(IYZBvn} z2e~33nR5k$WAOoF^%J9W7H*m21`n5yPgXiP(*D2T#^e!WcP|nl|pNniI|lnEK02j@(`T+?OIp zu!7SA0$>6Be&y zw8iqr0uU>X^;Do~%WBv|0O|4X!A|f}8RIm(e-i3(pU-)k#A_MZxQ2H%@R%MYi`PLb zy;gXbFHN+W0!{urWTe6u*Vp^E% zOKF#o4MIAwh!%$4#!?nQvK*_+2fIS=F)z6oM1fM%0q+2mKS98yt~?d8 zoEg;~GAJS;Y5wk&4D0=;3PYK*_JWM(0&jJC{U}^GXsP{k`M}KA+OMhA=}KkWnlD66 z9?<+bIA4UYbLNZMc8+36uW0 zTmw+dR;@I@=R=*jRUvgmtJ=6?q)np5OUF=#Ul2nB!H3X1TD_wvNKn(G58sV~gnlJk zq^;Y*4}+PQZV(Qi1rp>d_e$fbaW?(?T&|9jvJD+^QhO=?RgvS3GyArcLN-j;_!0m7 z3xrG{Z`})Y;y?cGfvM&0|ISWb&>yEBe%<$K0DkJ*F&TAggW^EVr8N(rA#qV#y1V59 z1sVo-1s(`Y%{cDY?v7C%P~a_xiyC|-wZOHJuu=ICxCa?Sj%HKW_qj*>OA0@H$r=3< zZTdjmHz_GLCikRrTtSg;5Ttv_+Qeu>_}HU>zvfct?o+675~VP@S$+nGD_g4J5?;)j zWr^tmTAS#q@@hH17Q5Nz1Gx|l1q<>B&|6J{*h{nS1J=Enc!f}&DDWSEfgDBJODcFLI!d)6ivwdZkYCZx#C zXQE9`_6rtWMCX1hp&0^DY66%7Mj|cCw3NLpglkRe8_fhxKv|N{<0!5EkzI*}9+<&P|osc2$gN-#$>khVK=GLtr>-;iZTf+ao=|+Rp;h~DQXpak( z{-=ZJiASlGav7@^O1{)LFDXXEuK2kB+q^C~Snr{3DF%dW{tGPs5bVq<#r%Cmxs{JK z5cX;c(2s?HGg*=*n>n@RS~)j+Ne>BlabDo+Tb_CWjNCxg}soZvAW!Od_TO{M4~+?dZj+H0xNNMCwO$!3VmDqrUgi6R=3 z=MPi6npOFJM&U7^HxcxrLoZ-eEkCx#j@L<-RC3~iLXr*s+Ye=z()n1SrN83%4kjM{ zHSzd=RK0ar)ZG{EO^1XM5=tXONX-l(Eh;@jh)PN`fRunB-HL>OQZuv)gD6Oc($X-J zN_UEY#L#&*KELyx>;2#B!tb8F*Is+Ad)=Qj5e0)N#TGxG*jZfc0AIJ%uY1KRju#|C zlAAP_0OCmD-9|@pxAK~SA;8NRXnU^=GsWS`{a*SP)QX8Z=Nkrn`L|sGYZ#c01spO0 zh7af>uhmJ4!t~!H-urU~MGe3kr9cPbo8B2`)wPpz^(kDu;lRr-9dOQf=Aadd#Hyy<0 zXPQ5VU&jeo<^KGo!-7)vb{Nd>2_{`?l^_qQd^Az^tFn_35EVU*w2bPL=W1*D;qlh> zzNr&Mq*f#j6B}?tpbb;PcHj-~hNrMzDp4F&c(Hg5x8@2@9(P+TX;OqWjD3B5R=Y7h z416U2*(TM4dEF68(1b{3@4r$j{0_h`1c*JEZBq4*%TBA#FV?^4y=2G zyCw&pvm8krc1)_4BNc_mpG8t|is(>LKDx#z)a9$$ovLEK{Zl*vzYnfs=VIdVn8ol{ zYbnF|K}%a!)2r>8&QIn3Zy@vwM6+7j7)gjQ)#G!)>CeFqV- z-Tkb*>58M72ci|6I$7!SW`7ns&Nx8$ z2R+0sUR@42`*L{@_R~W;hstksge$q;dL1%Nfj+D>JgF6u{JQ78$w(qf{r-w1y zrqTsXTE>p>bM+E}|L65AnZd;_XUul&ql)_eP2eh&qt>GX0;;~(Bg06sRQ?;? z1Ps~&*+UX$74siqV+GG}-K8hhK~GY;dEm^&v_kAco`(YU=J@v=h!Hnn*uQ%79;#l1 zB?EJtx67e7xgx?uW0{QnS!uG4R5NlMBDyx~otQtq58ioK^g|nr*hNp$mn@(^K0AY0 zm$<4Eg+o-Xl-!Y9BSaqd-u7$vEyAnq;&iybt46?tJr2C7foMf&Ncyn=yP9!%bAbhx zP~%YKYIZJT2v);K6l9-*sWdoKi`y>s5dlk_Q#1N8wGvtfePL*gk8z7Ku)#;;yFRvE zed|FAqewdpz$_Xrlxx0zc@**@6i=5M>-0%UV_KGmYMFzpBoNrHdNgyle2XHBm?fvt zJzeL&$ynfc?Ub5K0ku^NWTZH6J#~ZR$XtIai9Iqdq2g|7*d00B z=)E*g@UX`!Ya#P|iBme4YI_HH;Bg@F4~%NSGadbkNYNnceJhzu(R4*{~hU3-@Dibiqy|L85%xWy{*ywN+dQ{UW=El@UULNK9whpkl~8|(KV=OF;eDqISnFz zmsRdnU!ZMQ9B&E3yhU96_TX$ki<=MaN#eKbWnco$D#%-JqEJzx>q$ZJNi4IP`Qen5 z;vuf4SD7k_!+6d!1deh7|n#F@8#_ChWxqeQm+VJZ65k*WJhX~ z)!!w*=Ig5EWt!IB+JIoNUwZW&n~*z?+JqS~laU#v#_qP~?$*uEsiGOjzkrFT)ca9B zd`Yc`MLg#Di`E0rT&HeKUFrJ!^j*}TTfK?au>mBh4uX58C7y5JEli9lPhXO!y-t0< znD)_s`x|_o4xLrk`^h$7r!0*nvnb7y>yvoO>NFVkB5*-g9KOpS0N4!;?ZpWf4)zw? zKDRc238okfu8dSgPTk*YC-^PH3nwSwkAwc9b(S7tkHN8l`uz8e>$vo=m$8yy>a^MA zpxU{Vah%GzeJ|R&q%@-H+Uf%mdbL{57{(2 z7SP4K=hdinv%Qf$DK5?aNKspnWiVJKO8g_Lz2iNf#V)hyD6m6%)&sEN{u^AVSR7-= zjqna8P2KN}_fif1Ta|epFmr`?A$1K;iv+56m*U`h`tr=^NUPxc?)!<7UXIc-qDxrO}{ai;HjZGSdQI|?)WWVETp^tp~7hT+?0 zmnJNipdT@T(g3o0ef782l3g+IgP8_9^pNWWxOU`!^70>)Nx!<>EGcASU)JXHcPM*_ z4}inW`8oL*2R|$$86G_0E&HwYmj+(-TMcJ?hym_qPb}U_9m4QJy}QJBKo7PZR7R9k zk}Y+tOB-?)9c6K5SYI2|qbOYYNkjvut7|3}-||~?^o{0~!L@A~cFUtK8Q0iZ^}91S zGbIGA53%`w$_dS-&pmS(@tQ)>cypEd``zt1D^s-$2|!mMo)R^jw4Dj4+h?E3n) zYye>57v0WJr?)g+tQnE+3u1=?R{~4|HDC1;+am|*#?_btmJ}?oO<0n2#BVJrsQ?Wd z$Tk^_Qpj?prac_I8!k@pvEZ3Dp7SW{&~#fFU&Ihl%oB%WOSC|d_n@na+F`O+DpyS1 z`XGLM??k-HsjFU;u|>^A(YlJTVgY2=h`2ia&n4qjov)@i&y8Eu{+#HaL|P=?wc-+0MA%e%oeLO?>NB%Y%dR6t^o*8(mYy)1F^ByQj>;^OEfv;?A--qZZCiBPNSB4KNkCuW}YfyxGg@4-` z2~1PtOqghxts=7ku5$^AW8qBBo+9X##`^)PDq0cRF}R(Nh(F&ua30F^$-vj*f2Vz& zWBNoq>Wt5?UK==#rT820Zu|GJ%USp44@zYSp615x8Gk>TNi08TUk}OgosPriYdQZK zsC_%;1St0eOZMo#)*& zJ1gDL3+LbxgT-<=BFdwMAzopm;Ml+#)N+(vgiP1i4w3${-8hqYw&>x}rjD#)Xlm7! zru-oL`0<;|=x%W)B>mXoB)?;j6~O9Gu^>X47BfG+r$z%)P%p3mLO zt^>H(>A3*XW179Iw29QFOr`Ft`m*Sp-Jy&0an?F697D#uerxhS^v*>QG!#=Q9DZ^L zjK=F`44D4_%$I#tcdnb!(i#DD$q*o9kCGlxdAN zFENrx2#g^tRbl)=(iHayLo92Pjr>cg*Ye~s=~LHlYZg2ooyoWod7DA{$55O7s(c^S z*_D7BPol5Os#c;mq>TA+A5|K%}H-occ`M-?=L$2PBqieL(H;Q{tJEp{RrGkYEGt zz%z&5L={_zRtZgirjtHtrr|h~^Tuu`KL{tY%iBhGV53+{b!X*h$FZ+qTtz(L^t(&R zo>C8;fLrSRB&BGQ`>TbaZlJ}?Rpk0~sXGp+;8`t6Ssh&S`G9A0U>ES;v};1#oZjnN zC|Yhp926W{uK4jES*S4ILuCee{CwuuX>>6;-VVu#0ObW%3)NX{)Z!7*Il!bOL}1Xv z1!{Um4=e^rzjNtr(uY;|08-0a>{oewaX5z2)ur#}b{VX-bd907){^h%M3WNQH8u7i zP=9R1Oav+MFcs@qrPhexET&}heumZAP_t7FX2pYa$)IBXpOM}d&e4Cidvf~KFJ<}= zhj67!ElTp@ZZSyn<+|&qL#OhD<=7Q_65PEui=~%E%0{!9(z{oOva*ZB)x!gM@9=6Y zW&n53IeBPyr^6`k_ic}891g&fj4wW1%@T!E>(_BMq8MBTQi{t(AK;e%(PHy+Mr0(A zI#Dm(f@J{cI4p%;RNYJ`xU-!`p>*BH5@oc}J@)Ob^R+%9BeuJK=Wvl&%SuYxGzGQF zdYgWZLxsUwqc>R(Pq>qZ|CpqjN3Hu@pzRq~iv$bdkk48<;yrSFvz+610fcG=Dqg1K znz|G$TU6E{l55yYI1cav_tS^T%fT|J+-=ALCB%mj%I?3w!WtwKB312t&(eWZVvFPL zndr2q0AL5Mgp^jQGwpYSSx0Q(3-L%jSH1^Ax$erjTL9DOI#<46@jJWtWK^8tSS#D% z&D-Lr#GJZ{a)7FmL^R*NOtcb2hg(FBq47@v@wyT!tls}Sb8cYk^2&cyivcuaPH9RU zE*#dFDDm3u-Ljh#w6586|BwS-bpCQY7hWYTAs0loiZjzQelFsjL>qi1OB_+rw?w{09z7!r6RtIAKm4&{>;dUPMw9!pS zUN5sg{u!rm)pEHI2rxjGV?@g2!lxw1TT}|Ebws=>eKZ9C)S=zCkT-)@4kfqqGdC}- z>iZ4fFIWx+yc*(5-Qx6{4U*kht~D(Yu@1Yw4c69az><9o%(@7XXDL1TFcnTGhcm&- z<%-<@_v;@%$UOz9>m@R{56wi*p{g2c%(E-RRt%;uwc2Tkou1(e3p&UQkNfp!*`uyL zU-6O4VXX9Msv?xr)q?sUC*XBtL+kSl@s5mmX_F6$$**Y)v?`Irx=K&)-610irx#Bb z4J-)TRBk9dd5v((lFD)mwe6-z3zO%; z!Z-9H^*M^PS zSH-c(jg}Q#`?Rrdk`+jeHML$^n9gs0-t^W=ov(Vfj2)KTBMZ%$RUEFk*f#QoQ(LVkK>LN@ zdG^ZczJ7ij(ow z42%|wzyRB`2SX!|YpVWTd$Qy}2xm|oH-F$9UGlmycP5uB@0VJ%V^$cVXI1XizBmGT3uX+l)n zwut%kQ>}Ly_7&`7-1%oe6|*)5c9q;?^s8zM>AZsc5N>HFRBrVv*KP{;7QHx!T-D!4W3EjRaLOKmQznkU(r;YtR5nHsAGPpjZJDi?- zP^p)ijF1hw#w*%;UA};Bb!~_NoH`(d{KiGsY2&H9Ok7jf3x zjCA_Gg&(kSgq2Wljp1Lba1_bKvm7Tk;`Hb9@j$hXoD<{In8D%ru&%qHdG}Abn4c>M zA(SB_aIUI-1P++V&ZISfSLG0QpTAvH&=G!~7Di(4CIY8YPyi;$0B*08)3%kR;6~t= zaG8LPZJYS^Arwzc03R!LDsb}alOt1>dcB*$gz2nK=N0HFWX$NG2hd zo@-cqBv0`eFo!eC*bVn<@x@9Oz|3G{BUqsKd8{ymjJETH`kVbUSrm?c@slR+X-x=rsci zxE6o-hTB#e1uD#y;>KkQICb`HJn}shL^Ix-EEketfnWX3b*^hSWpsNH>e1Hb`A zi>0a_=232-qDZl4Cukld}OU%`{$oy2SN>4E-dIq$5}7*H_x zxGOPl{OQ8CDA7)7e<8$gJ6-xCN@+$^%Yh_7WZv_~*fZPiPm>XE|JeIDdjxB&J_Sc4 z2Y8|@if;@*9cvc%FajOewiT?5{U|E?fL|H86u}|VP+7iynR-Ve;1X`)#}(kQ*s2G9 zlUZxq4J*^2TLA7@po)@u{fH9skm>5Ohs8=|V(`))m2=Ap{d$J1$ob7Iz;o(cC6Qna zSqs$89?eFb?q4QEM8vQsu7#+XRHE8D->(2ki`LgOW%0rHH!1lT8lS1J#BVX+y{9vH z1QLL2tb)t=1N6$U)PZ|&ienkM1;k&}MR5Nix$9_G1t^<@!jfOPy@2&~g-;5T<` zzm%khIfw>*4>peUK-@W5R*zcu5OD~|gNzSTJriCG=vQPSr0&gk5r$K>O3enna{*RX z)WKVxf+W_rmT9mhSvHDw2z14{g!Nf)5 z?kUlX%priVS!S3v?S2uy;~gmngBx4w8imLq`AyOy7XC+-WbPcz=1;OsX4Sesei1M}S9 zAtC#FcPH0w;E~Tsy%UnwXhPd?J5*s{M_a6G8d_50T z4+$Z{t4d4<8PyKo!1R&?+UMgJ2Xns0m`!(JY9S|FK`cBLPM1oQS~BVA^W(01XID?w?$fB4sPIN4Mdb&m~ptS@Gqx=X=2RpZwoiCKA<3j_gu$QvQOLY5a zs^I6i-3eJ)bps-KIkKP!)1z&26c8@w1n;Crtmvo4;>SFxmy6!RXkweB6m+YnlWc2# z&hX{#Kk51gCc+R~&!;F*uxn-5=W$&(8W$SHn{h`}$eI;0_}79VBNwgC?$Jmv?OV{K zN$r19qJkKNw1UaBLHATzPm7uo7iydYYkISMrxZ=Jg_@MowM?fX#NhHJXZzLfQr;if zLr_kRe2b^p&VV9NYOqTn;49Sf8AC4zj}&Sh4ovCX1Vp>j#8sIqtW@yfa^MM1$#m#@ z*_cCYuZgc?XWrZS>KjalGF8Uh-rs7_ zR`>3^`oyVQ@}H9iRa<4dLZ&U{)WBlXg12DpnzB}8BkWSUuGc*qNY?MUitv3Z{VV&n zq-k*~w$r5NClk+=uJID9-*O30MM!@9$QZ}GUxv@ew?YMn-PX=DlLI~+U*8+|cl=gL zF09gYVl~9tRMtgR-iKo?{5D36#Kd8v%Mnj^cX52hM2RCe;STA-Q% zwu2dov31$Di4|(4bY@HPV?Dx0AJSdL;h^#BN&&wsf$9nJegKNgh{`YBmPR3BJ-a zu5)bmUK@S>5IV9huK@|N1f$d;`I0s0TzhKu6l08QpX;l)-gMb0Ypz&%<`8H| zbcyz@&MRC@yOyGQP!8^L!lZucuy9ZsyW@WQBq2pMY%hWpHBdC*7qRdEm-gDWPelCV zx~96sjmYKZsO1*8;Hirt!&sEFou+lEaTlJXpBXPFvGSo)>hYJc5*u*YTu?@BU#4`n z)&62Y-BFwb#<3?E(xDgm=Kj5SBcO{BhyQ`0JJSSJQND~2@-~u7GOz@uK{BX={@Gny z^m*nROnOT9s9zJyL-pgFQo^UD<2x?!s=V$dM5(+>rx|jhUEH}pqq?cz{K$TENYdP5 z`x}A8%JKCh$$+4<`}ZKzmV!0sF5N3y&hFX^1Q$OI06N@HeIB3;aG;Z-ngi?W;Oe2L zn3EqN7TkoEU1g=#Wb!2iGfp-}VD3eV_-nivSaZdm!3C@F4r7kM?8?|PMtxy}%rl>9 ziXW%D_}aH%(w27HMn>IzwHp9a{$v5F++UEPxuy_Hg>)*E$ZOgbGhZNhCsxzyiVh;~ z^cFdr(>5WrYvf^r!Nh@Lz2}219({$$b!0eGNDcoPhmmPn{?&jhwsy^kgEzZrOD5%i z&DjlW>g7XA1+;G8?~g3O1*?}Hzc(LVOXwIQy5sjo5S<0dHgdG)`=!70gF+&$&EfX} za50f^zO2b4w7S1^S1D0s0jObwTBm(@(fR7Q`<#M8AZ?-$)0(^iV@S4u-PJPEoT2Y} zgAw|0mwm*g06y~+f_uQ;G%7oqa)sQmRG)D?l;G-dhtwRhN;LD3?&Zv7oSJ$3Vr?z- zf!%}zO+K>c>*$h7Y=A}>M$*kJ>X1)#jLMV+`ujQ%a~as6fMlNYK6Yv=bQ;NiF`^Ql z@+n2~H;x%USD&Xdv*>kPR*n+w9)N5lPEo|eRb z$LP*oFU80I_WR3eOr*6`PP7H+h-}C8f$q(;!zNB?n^rm6(joAGD`k<(=LRn3o0bja zq~i$p+fiC~&-vg>3rtWOt|MSncD#*mS_hk0F?~KDJ5s9UyrP7KAf=EwA&AqH7pN69je{7{e2B1^|a~s~wQ-23Cc;fz2u`o$cL} zjN9bF+0-zHhnZ`4Eg;GBxBH#U{`&kpR_MZ4b!qE4WlgDth{w-aT*;ss|F%Sh=;t){ zjm@cC_}|)D)?Y1D`u<$|V#z#SU^>YYvUU@@v@XC0VNS%AIO*5S<9CL(H_0mt!Ce?6 z{M@H}h!5O_{GR!lQqH_7O?ICuh5ei>x zp*44|T8AyJbHw1}vq1srueaync<1=NL%KH@O4)SCkIS43rEE7qw|7Ua>qLB1A=d{e zb-OrNG5P9UckeGOmi+Dp@ux0vgsIaE499Md<4;dyJiFXx`S9L_AWs@nf+)C0J z)Mls~$L!UkmL^&ii~;W*j_#Y#@cr82X|G@Kw15!u6`2&1q@e&D^o~Lb_}zB9QNAlFcd5*=Baq)e8S^Wg7>WXsGbRz`iHmSw`Krhbays5hb+cl;#8 zI_Ct6UeR;$Pkps7`DprJUhpC(bVRCF z%+drktK>NR{)c47hg+7rdR&Kp59`m^KApNG^@AQ`?RnBgv(5fp)(@s_PbqXhV~|}K zhF^2M{xa^Q!^_kLA{Lbd+UuXh;i@S2;-=V?|4Ud@2)Zwa|8H%u1hyR;%81C_azT(y z0|N*N12pA%=NnAcUu(xZnn$T8F@s&!X2#dKAo<#d_GvCf{y2RTGeGeKfqMI`5qt7q}ILM||)*m-g#9UPCU5ntKI@meECbuWq(Zf(w?*=T1A;w?>F7|r&G&pGC&(eGn_OL}oVTye-yi4ZLHaFoSl}`&9 zuN`bH(py))?zEUhvAvW}y8#(e+l)A(s+YgHXO*rJeMmHo6!6__ze7JB;!htiRAyKo zg*G~(EW|BbjxsWxs~fkv8jz&CLf=s0WQdWOgcK&{p=ErE{L^~9qA< zwQ@gLnkvPv^kBX4SBFj16kE++WTXBWa7|vI@k8nFu5%X%FhdWcg zZP!IJvhA>==|!CBDb#BvHfyeRsszuVQA$(qPFj2gc*^Uw2K`^LylZ%oiCoNEA6(Gc z7P5jIk!{?)l7QB)eia$X_JVImf9N^7`oTaO0ju*HeO!9P@x2vBxI@?c2y-jq`Ul~j zV4XIDNSWv|!ZApiy523UpKYXE*qPu-tkR|O1vWwBOJhqOozJe4+j+w+8fYr4O)JHTO2Rxj@J$0ut^)t}xQGIo(fCa1H(9$U=4K(bNsKO#N7i&aM| zr8V^TibOWI>~Wj#3MZTMq5_%D?wIpH69Rsi)|A9pr?qk&QO32>$9ZpjnX`@N;mJjR zr5=vNi2kjuMN=lDJB##y4#TwX27G8lt<uRyzB2khHo7`VxoQ|YFz0ZgLdFNRGHRm)moK%Sw5^R^8!-;aa`-j zJN}Q6hz^uN%xh3gv}^nm`mo8JaLd{!rk}^g-Q4Wv{OCAaEN7t^zxf}5d$7tYYDe!l z8MrTHaYbP)(r%QB_Pl8S1y33g9WWbTu!bEIQEIH|v=pLcoctQ@?$y6Mg|z1QSVEIW zfoR~}CH0Yp{l_nO8I=WFakkZ_xP?0ZtR&3z$KE2DzAgmAFUJ!aHx^O}=c;r=%FV&k zK*o;wz$-*mmz31xbmTpt>{+e-f7-qwV^<9A#)}=l`&FGt+Y0gOr`wp%h1y18ct0xs zUGI*@ob#h<2n>L_5uAA$mw(%07_Jb;Mlc$8K+?)jF;rzye2oP6>Ut}J(Tyt+eYh)j zbajW7QRL8C_+iIFxGpu|*uJza?FcaXQt9hF@WdwyQ^N!&jY?$-nt<>oOMJDZ#*@am zV^7m+w12{tOIt=-tsoW*ZE<1j(Ndln4h{~zB_nybNKD-?%$iy?Z19M4hmUa?EzO_Y zZ^ha!RfsEpi1D7*hT`jWgEqkbQbRxUG5??OE(EdlrIHB0y}TAQ3B1iXj$!=vZp1D- z!HMR2h+=Z~Xf!FNi?XdaGK{I$gB#v%{ig`MlSt+D{!L_uI;F#@JO~ehq+KE_H$u)J}9n1N(%?OtkL&3fv9^5vb z`|cXk4zXZT@7s|L(L%s7>we50^#AdE&p}Gws`mxw|G3XecHL9tC@ml){Kg*toPdqy z$d3FTZx8uS3S*)Gk6uo6yR%5L+uIbYC2O~@XbmjOE5+kqt%#q{S%NLEh4wBPZNanD zTWpl5NSe@kBD7Qk;iian)W#$F`Z4bruh$Wcd$cFdyDhSoPacUk2yf_jF!GP4R9k?B zp!n2a2QA|_th8XC4RRu%>B0qdgWx+al_dzeMlDhy=Sk&XyYRA13 zSDPUu!9l~>I+qT%9v^iaG37iicY-p(gPMz&BQXMVw?8If)J!5H73UKIUQlWAawkyV z;|AM|Z)Bqj(Uw9<6QdH-{^-#R!$@OevBE3Np6g#(ylQL;UMg%lTptY!Ql_U=}@qMf$zhgMjuvmjve{n=1By>=76>Xq+^b1d_F zy?P>Z9>|AnEVi*-5-!)V3V3kdltu7@`^X4g%EI7qT=iQgDq&5_v={;PAo(?&h8|@Q zPhx(d#ht8QYh%(N-e2aQ11{sLLj)A=tRqF8qYwnsIb@V#Eo#_wSJ}E*!rsT?375n+@C2-OAHU=>QiiAkbD690s-f6j-X1|zEYe31sIccXp$v+JR;WlhE%FvLgMUzML%5@Z zh*=&b`Kzk57DV(gkLrxS5dWhHO7$6!_qt<_M*eMr|NGYW;0J|#uphmIh9H<+=(+{X z=uI&WKI$9FxEvM-BI3p!rWOD|gRb9c4Y@ma-5#bZ?Pc z^auQ9Qub%+J9Fj-F=tKz*Qy@=75n~5qlH_ANzw7h)~YTYG86`(Tr;U27*Oek`m69C zb1-)XTF))kFWi!hln--= zOo_E->+GQa7U9zGg5B`h@Y`vLSJNqbI3%lBkJ>7Wi!M@Wv$KZ6KOXiTut}1@D)a%2zAp;X!26h!(u0KAv?dusTN#e0WOAUiOYsV zm)REbXofU6=3Dy7j|z>?ixjGt9D^=LwugnjR;rQ=APXuszv>yBYkm*8IXVk(vx|kE zM0!hT7to%<%A=F>Ob2sgDf>ytZn=n=VIseQ^LnlK3S5ihFLKfK@9{V!m`!!7<@xxB z*MFJKyjc81g>M~$@Z&HJJMtkp8(!l38$tEg)fCfNf17hW!x$q&bQIq;5qGLNx&&Q3 z9g;C*Gu&$dz~%VVSN6i=1XlZ z7`y4Ozspea`wr_sTjVd@0BGY8=6g703JW@BR*AXW-4-IU)G*wINOrS@xE*)l3>e_^ zo{&n)6IXR+bEFY_d*j1r#nni8lHXJvdOMiVlp3WQ_u2yVan$Ni4?-6P_*YoMhHA`b zy>u%p^FapFZs-61S!qQ)m3J{V9`j|&QUM=+{eK@Gl#GrXZWBV?uRS?eRD6xBX4JQ! zb_%rysaEdDXLNp&UN0kD>HPBW!G;~3B!-`Z1j!&Gc>m=4jge|6>mcp3C2+~Plgt;x z65M{xORLo>WynXy(v_t5uDtT|Sx^+Pxi;^;M^D|Lg1$`E-L`m^VpjiZ?72M;2Rk&w zTR@!Uq3DW$vCt1@x02j9y`ABUQ0H+$)PU95Y9yv1gvU5Dc+u)-d)*w#73oRU0W-gH z?*<7ON$6~A3$9!N)ArFJ2xdNG(|FW8AO`tMJgF1(MJH?5=jr10y=D&$Xlc|P+wo&G zZLyB+4&MSJd@?b`3NkGt$^iGt4BMP3X=8afAt-ex}+OZiROSgpF(JJ`SPf z#~$6wb4<5KGnJQvmI?i%q=mcpr{S_`0VO)P5OyEY)2SA^-cpIyhI&k3AEDYFq8SA-9F%C@y(A3TrK`{B;DW;9$Va2m zAEt=SJP7eTiE3B^UKh*vh*`OixmZs804M1k{)e)9Uf7sL0egt38YAEMiGZRS;p4GuXg$vD%%`G4 zG{mA=m6A`w46WFFg?%``-P}wkbv7~bQGDW?H`5J24-;GL9V&vF6A|;1Pcg%o1bbu* z-U(ZNw_s#Ql4`%)ilgsb z|3UE%soR=clc@F)7j5$cK5xJ1FX-1E)+%AF(~r^ik@#h(PHk=`WQmM#+@-{1&SH z?%Itp6FkXTw-0UDhFOT&@b__S+xzvfgzq_ps_$+&@GP>u&&F7x9Jgde0);ED=-1ry zR@_89Sn_;0CHOSpVW038LjbeL5>;Wgp!TgfvB>scDP>Yk|0>VD=WHQ|eleDO$2k?jeCHz~9Xt5?L2IxAY}t+?I|c2;alH`8Sk z3~NiR0&mn?eG7KwaU0}~q|7Xyd3T7kj-x&ILCL!K09pQ zqBX%>lAA?QkyptdqL>3aqAy)1&x|587WROa?r_@FHiNvt{Gcp%hsFx><+vs)Y59%S zQhw|9#UmPNbix?f@})(pv3{Oh(e2IKfT#hGCS@P#TR}*>jQmf`k>~!Wj{M4l&D@_a zQ<0HqAM9+oA9H8%*nc6-q~Z^imzHZ^n((~42SWAknStR=n5z*+@FE+($qg+{Q3DB* z^Y-=X6g4wCMqh7^$~y^SZJV~?hZW*T2Sw}Tmh%xk{Gvn@dPBf|j|3<1pz_rswdUi*9@ zYnbuv$&?*SfAB98Gm_VzAd($XTTWMa<@Q_{eowv#xj8XKD>od&z%WJS>S0&8aTVLW zS|sersatPA!)rX>9+*K6aHtIWRG$H->AEc?;=e+{m-a zUdB!iS_`NYUT|+Ud06x-a+zXBp>zD!Y5MuCPRU+;i`&L|w*LFlRu|rR2SE6%-d!f~ zP71kC()Z4zaga2|l^*YZX*XYPxRlS?h;nR~2Co7K*IHJGoR0?Q-8K!B@hLfL+;vk$ zBI#5;H#~t)qgSlsp1A{|QF1ScayxqQ8OAFJdbpWDV}gFU(BTf7j8=+*B(8Tl&Iuz& zh>fz~z<5VOWL+AusnbQ(wi7a+6K*|P?fg^Kd<&6K{-X$XxKR-yXug}oq~Or9UaOuw z_vp|!?}YoL)6(4HsPl63rD#Wqsn%NHm2hNNn zVWp@CESw&BE5@INNqn2O!%@y6&`&t!=;zW^ogp>uJ*B_BnN$q8lnftqVQ9Lr^4b|f z@-w!vB`gss2SY8Zxr0>{c(3QhFJ@!cGM?WYX^pgRXk&}%i%H>ib;;M-%A8;@L+|g58#K{i+dU^&k2b4?vTkdDI*RA>@~QO59e4vY+eu? zDDQi7&Td{k3UaOCq8?0y*fOR|4sEc&h8d8_MmRqb%IsWH2A0Gn(3j?Mc#`2x`G3< z(UL2T90-RYGNQxaT?M%*OC6qEcaxFko=&Y5!M5p{wGS zhR^%^vT$qLH2>zLKzF%G%4-6-*`%?{v9XTt@z_I?HWiEM!It0%%p4(G;V19jTg82$ zndy!nXdFz4V|qMBZEH6!!c0vNZi#BWr(0d2n6dY`<+onv`R4^HfQ|8h!IKh#+hScR z?6t=(2pB=B=c*3xN)9z`8N~d(dYi$?z>tG{3E4rPe~_r<`S6WmolT#m+XgNOx>xML zPkV~knr%tnZ-gj1`5A{qV}C{QgSIDOazU*2(~~2^DXG(Q5ao!M&>ENVt+&~Mt-(Pj z%^@W!{aGD_8Q$&TC)X&v`}U5HDPtNt_8R;4dy4rhZS&f8&%D2%%UNBT?Mdw`yEyj} zdp-Rth^-Y49Z^q-?e2mZk@Y@ycssQIdkv`ycMvMTE#xGtZLTvbc;4!7ACrcZUk)QZ zR1w$y+Y|4~zy=D_HI}R|kTi$a-*l9$WceO^45DuEpH{MXxQmf41<#OY^zimHhiJ0*p z^}Qz|VnR8(#h#auv7PiXKeBND)P*{G(xK}?z?F&F0%8DO%Pi%alTWL7?B6wt<|6$O z(lGPH;^|&1zx?5nxQ46W-h5d7DSbFyJA|RZO(oO{p_Q-1MUCh9!7{w$XXB;U5MXgJ zb3y6T#ZZ{Jh(G1w<;k^|?+7o>-V?8EI&PKm@s^x-`aMmknmX28%7c!kP#kL|Ae@>Q zhUOzV;c2JnjYpsGg+Io+Suwl_LE1v9UF^~uC5*D_P&a9(!DD;G5Ekfyg#PX$XNV#B zV|Mxikeo03&rX8Ag0QRir!}<_=IEg;ZP)gOS^qh(__+K(J&+A-VBq(|oZat+Kl{-i zohEf{H*?;SW&>5gm*L7sSjwn0TneRFAbCD|opmZ-g}zV~wwkjCEM_W&!CXpG8_m8P zD{bYNDxpcwZJ}JwZoa}B5`*n=ucSoMzpO49la?NP!`?G(&C`mB996xHvBQnPex&sP z7D{q=>x1H^V-Mz1om+Xne1?QHoa5H*<`k{Q?p0CLjhkKr!PL;itoRDqpI-^}&E6yR z)VuQzV33p7D*4A#?fE5`Cmwoz?6!m8=SCc8W@&6+OO}OBu z4g=o8swHCq_&v1CC(CRrx+JWV?Ng>gQ%2Kp{YmgIZY&za>@gIb!!xw3{dFyIX>OOU zM_Gud=3R5B4ASI3y>uBj{JZ9xvh1mlGm3%IY*De$`z3bd;*T^}BsnCH2D;f<2)R@)zd2*HVl6Y@<7$Tk zE$~B=L3&Elv*qvMa}ov63=fYPHE_1L>v@|&qo1IY zFaAB1Y~1j4Hyszc&A8fLrFcevJ(;{WIkk*riTVBXz+;BOt0#YA0@q-8b`=)Mf1aGO z(G5#*VO#3Y_!!6WQnsnh7juz7ik(je3^?A5v{l*B`)(BldtYB}+Z@a~_wh*eWKX%U z2?8$^Lz!K3LOg3y(#{y0j(fOU+JQ-6x-v&;nlp$|OYL~0#3exgr-BCGmp~P-zAJv& ztisb#nUy?ZVL+NanGkxgR)?sUN9|a+J-`!;E22pGu2}3;$fquF*Gr)aIN*6%xSfY0 zhW@)*`Do#-^uRC}ZHdMDcRuG)bB`<4drOl7|5svQj;YUb35i?XsDzk@uy-h_7Qf4> z<^8wr>(>*kxBQj7$LgPZ*K0Yi`teL64lZ;`h2P)E^nD{=)q78sr|@}qbgjNjR2Vo= zc6y5Sm!<$r{zLaHXud6@nu$1=&&beJAifZOE2yQGRw#k0D0KQOVmJ#4)x@>nhYq|P z#p@uP;$z;%6+{EU`T*)9=ald&)u2D(A`pxEx#1ip?PzoGW=Ub<#<=1V`x+R1qW3N}=&dq1sKTl|qzjMm9_(_P&0%q@ri#p7_J>)~;S&9496j^Ua zXyJcq_%08;iAvx(fm4pSB+rt!R-^0#6*= z+Ou7*Noy<%Kk_DemZkpK<>6zwz^lihL_}QrbB3DLeC=TwPJj8k<`17Bq{2Q=~C=u9?)1#-erG$*a#4;XbEhMA}@UQ-l$4R zM1I|#59dy6MhJ9Ga~^1vw~hLplW?73udozKVMNgNBV$(|UJVW@;tg7ekXIogH?61+ zT*vO@6SIy;#xwqHSRul>4JpZcJJqUaNZwv{?HO?JMN-=VzCO~oK=|KS);HY3>uyFxd)^0YaWBGTE&W01(H9>(3p;nmU9{;^*enwLd&QXpf)FTpaR zv}m7~l^@4?rA1%As+qhWmAWACq4(2Z>04RUCxsmLJ=68FRY%5DQIx29W>`TSNw^dn zdbcVZjg|VT*lOXD9iDmO=d?|0QjN>b&fZxmIffAtv)mdjjg}}*eTYDEwk+-Q%joZ> zdS@d=ww{R4Cxz0gymlI&w(px*Jaw8Tts_Wa5k22*!8Uztf_AN3u-&0o#)%o)L;0zw zPPVS=Y2R{WS;5?&_7Ah@F&&bK$ZfV~e7{tARC-VzB9~%qoVvX@E|KACgw3-2`gcE5 z<=z8G3tb2KzFLzzzSm8bNIL8z5g7B`%)iNaMNl2`fB9I=nhu0$XApq5cp$89F?8mb zgq4JI!QY)|HN{3cTj8#kb1JMq(ZX9rFpXAfFsIwh0 z?b;A{%WV>&?rXMPsgZE8f-0v{mPq#*!T!$tkfM}Al@Irj>U1Z~!P{c`sCJeiF4%3sroT##L zEAJnvbnj52n!d3);49!(HW?v`MkGCcB4TQ6W2I5?V}jK#i#(uQ9tKouAy;Yuxfo?}DzM9y-2){jN{%Y5iN0U7Tp{$Q@eJ5zP8q5_4YS zd5Z)JO$Oz@t6@J9aejxIBJHh7J}y2nBZZ^0aDud96!h55l{XRN;}cTjyRmN{KWsVC zwQt}1nb7~&^pEMoQf7B_7Il>0Me%{0_oNqzzi7k@f?kNqiJ6_J15k(oI+{8HQTPwdGsX0SmpGH8PaPaCZDWuTVhLXOq}F>m~%)v+=X z3iXLvI*^w_-gQNBD0pwXa>y9ylyqY;U4WsiujZ3RFYDrSKRy#ab?LNXuGL%Gs>eAy z-K)u~0cY~rD6sG*bclZ#fL)Kz_&-8qk`Jk zHx|vSStx3sV%-GK_;U`D}y$@5Qy|*nzF}mZ>ZSUoZ zdbG~ZTf%kp^jBdY{9I9lm&L#U1U}P|^t<9@HwaA125CDzcdhe9qLhX_sy%Sz!oA3M z#ELNOj=T!1`GU`|FrGlugFBOiPYO+G2P;>~YvmBbHlv@&pz~HW zBaLIQs^yr+QS^YtKJP=j@@q|swj^Rg_)if!r=2mW>g9B~Tq8+-xa{V5=E;MS!-XNw zn3FTV0!RhKjWC^#@u@Q0Zd{k7O*IWvqHKEm599Vd;9g18d5Z#DoNDYwe=@GjwV~Rx z+$gym`D?l0_n6J%^WSgylebm0KYU*vl!$bY$$d(T8Db8^i^5?n2v z8qW9JD`ln|q0q!IV1XL_+b~)NTV&lG{Yi1N3yFG98fO4nRAprlsZdh`BZXQCbcJI0 zQ{6li4lPyvH8T(7v~gDo ztzw3!@OVrM^uJ=tjp}B5gFAcw>8tDKjPq;HtVibhcB?zYHohaNr6ntb%ILUqD|T`4 z=`MDYD*FHUoNfw%0}qb;w}z#D z>+zg-gOx+bq=^?JQGUbxU*xePlRe3Gnal-<#`M56r`Mm<*A;>PX%X23&fnW62?FBh zWd8~NHed&)k_m|W#SjHF0~+@`jgo`Lv~j3F9C(|WSWhBiZDS-y{Z{N0`(nrs1gRr0 zF?-)lEB>y$9zd*p?&stmLa)({x0#;s%sH;GTf4N<@pCtaXo|E|`JlP?qDWO($$c4a zU@o+)N|8r0N6;M*HR&{e+l6pG^Z9X~`c{6eh+Jc7KQFwo4>(@-ZQAAN5s`%a={rY# z2qxSe;2i@Wd+M3~+ET7Ds!2G)eJ1P?-F3etoLe)DRS+}w@!28pY_%>@V4^oIRM*u` z?@nm=7(=wpu@&c_C5ta!zH?>cfrrtcAQx;20f;;G<796ZK!3tazXRt6%%6VjcMlKg z;LA#5W5$W5`rOOMBg$XB-KPL{8yOw|N9V%)Et~i{Tk33wBUR0m{v>fKZJHi|bCEjPfsI*M&In8(K#1=7!6N{{D7RF^BX$iYLKNU*BJ?oCzyG%)5r` z2<&rgfH!e>V$?S;ALq1Ke6GyGU5m2)L?3^#Tu*r(NH;#Z4TU+=^J&n&H^rPv)|*W{I6o?nT~aeACquckya7B;zzZ>X+p`=@k)m-u;Og( zzHvgimc(_cUi)zCM?nZb0IEZ+9|;I9c_W!X{4J8w&yC%mO>IquJEmXtrQvPA>l)EG z8*z$~pKFPQoA6U!Kz*1hz&1-6)e}ntktKU~VFP%0#`@fwXTQ5i&sj2)db&B4W7u9i zHhR&Sg$rYd`0B$Y=N_=3aQbY;bw^r_u3+ux$(ioqZwC1;m&?6BTjn3Oyxuvz8*Xf_ zF%sY9>}_kD@oB58QA8m3pq-SXI(Tv^vLUYVr3sJF<- zb9t88v4T*c6VGsy&$AbLEmRD>*nk&zqVO8KsH8FH=>7EySG4PrZTN=UyA8)u`?*YM#n=lq!j&vz{sscA_bC6piQkcQM;;!>PKqm)4o5o zQ~QZsv#;=upv(IoR%HLUT`|1axopm{*vB3reIt&a5r+k9-Xz|35!H@zX4_9|j29#% zR#@v#u)H697bZ^l-6wOn;OQp}5rdML89^1{8aG{4A|llUl)I$NX{HxgiWyHt&alSp z8(?`0Uveqbnvmy-AdM3ZOEh&NIaZk^1lb&M*JD_{M4=AZz79BW6X-KH&}BAUu&M?= z8r8p}(%R!N%Nnk((BJmrsAGz!f5+Z{Uf(pkysiWd^qCTWc`lNC{FzH(`%A#H!3>km zC9%EnV7lJH%+(;3g^(W?+&L51?Vi>}{F7=iJE!H>>-IU5a6t0^rso)=q3ilEntwnF zRb8U?KK4aoXW6b5cdf~tf@BL+-_uJYMA}F?$SUipmr^o`fMcF!cM+?ZfrYgnnzbPl z{9oM8ZngYq|LoJ96w^CzSPDEZWrqs>Y~V0>#OI6Njt<$zN6-9)p;eFN!mX#G zBtoxH8HKm+on}6~7txgC*E?&zKPO|j=GTI@!h+tI3(aykV{v zXzS$%cCB&fTDn52atr`OmPq$GXsnOL2VrQ)dElUPSva}8_YMmcA)Yk^`0I_!C{Soyb9>68PZDpwuO+hYVDkh zv5vG(DQ>S)UDoo>Y67-4HfmPz$c0_$&8uuH`kaXq`(&I}uq&zyBO-r^3~L7Bs6e*} zKtYG^XinbD^BIkmue|%bULrGC_vaEPZsf!tx4nGy?&xsH!K5XVcv%%uSbJp zRT82c{3t5?EYDsAUkz7IYrHrD!7ixe@5!vFDB*XTM2F}kIBm;+<%Eg5KT!?!+ri}3 zS!GMZJw_+0u;`pOBLIDW@MvOxtoFY9P!ZqJO@hE3sdJdIV(W@8x*lyD+6oUSbKC>W zdfrx87lzBgSj`xa84(^xam0@k(aR^Q!ygSzb`KGtG9En9CIP?6^>Iny!K9wQJ1u(P zvHtLd=0j1kxh13&DS2X4a3o$zy3JG}jij$2YuKi$?G)-dYNB$`h+Ep=P8 zxoUWNRAUZ!<;@QlelXBf)F=*YbV6+^e1La5#$@!{j$tAWD&t2KCz3>ct~x1#{OcMn ziS}q^|K0Q+`>WU%+040qDJdtA1~scJABz{YjcP%k4fnyH(J0)~oT8QG_mAeaPyQkL zf_QHlrV7LRb~s zhvaj4uQYV+%m`{4f($Jeo-Sw9U&pE^Q&NP8MQBF)eh#><7j9t+mK~z@_Y|B~V^NOv zi@g448IAmnAX4yJSf9Tj0mYnq&?Zbo*v|FV>Yp~RJZujO=7uqS3%UxluX2%pD`Gt7 zcpgI%4mL^8U0KJmVCNUGE%>}@-Wbob?`$OG3y`Fy!Q`&Z-o?Hefw9AOwL#1M6_Nah z`TpTN!7QJ#wpM@y!x9L=&gjZQ0cz zBIy|^US&S6`9Lals*#)PaBoIcgJDoCbxlZOIrzx5h+uwGQ^!GDgs@z8!rGoFbU>hX z^y)jX_#ZI_6}6OjsWocL`|?T6I(1R!ulWklJ@1Rzd79i>&@E=?FSpSv4gqH_yge29 zSuZXYoCY>^YV%Mzo7A6_6|TH*G)ubfoD%Nunq2VB*QYqvaj|6l2L@P15E$REz!d5( z{q>oF>vrY&%&RAJhYW}id!gXpHVFYsa83!{X&RV0k{LJC`7A}kma0E~QYtZ{IyAZO zHc$W4)ekA9JN1Xzv9MRFwqwSX!zE9}!bg+KUVc8ljOs65MJ&0T@XyE-ev*qePw&ai zC=_xnZnhkUQ^6X=4yX8Q7H2kDqrO^lY&cd{r)sXMT%{~1Yd$c3=EoLG)-2`CsO5#o z09_`(*}v+c(KLGs)F!rG8h%F34miBW-Eh^xvZ!hO<|g<6y%Co(;2xN;`VC6djG@p| z{7uK*i0|hlPVK3$hu!%V(4_L3r{iAPlIYEE1pMHo5AqBD0+rJb-_seLnAUOjqZ3;9 z+1?*kD-lJ@qxYmdc4VX0DtwNaBfX3$chDJ-1S}6I6J7?Sd@cpxq~jlbg29qizmWU# zme%i~JD-2LgE8>waM_U|!|y{LDu+sgOZJ2hec9;P>Vw)l-Mu^6OI$XT-|~k>n#>!X zz%SJt1?CfI0I={=R7i_Jp9g~s007U$K`cLvFSn)vE%1Lc7@VE#7j%s*oK`dm;89Am!k|KJ}81giV8^ zaBw2i))nD|S*EjtSG8o)s+v+qJ`O|Yy&;O26!qw%(h#Ao_FH7`wegVmPb<;U+my2% z_h!|jhpw6ql%*G+KjMbDdaJiLShzn4oBlbtW>S}3DUnB$Okxt$RQ73Qk10}G=VW^c z$a%Y31Z;DQ`n&R#ogph6C7xG!W3@uai4t${%Mw_j(XlUKMHZ31f<`y*t%X7ih6$hi z5FM9?qBYV!NNH!#o{R9p%efnczOcf`2SF>XQ`&~m30k{3qUn2rshY16cqjJ*9BZpu zYNWslEPF7*;dFJ~Y!11p?|k%^y2OlH&PycO^^GD^djVg09+EuvTmo_Ri(*L^)Qram zb|Jx6%}6B6|1=&lJLV2^T*KtEmFLEitJi^n=P2o=Y5xH~!CnK@ zO*;@xR9Z}lR#8rk?YK`wIC?BZ3EDEufEIA4;9=m5wQ=E<6?2ZLV?Mv$i|W*PL-ZF` zm-ONk5#MoR;NMkSVQ1rch(GE*?x>|cbmU*X)gHYw1ZcuBz#1gAa0XvIE}$7N>k6kH zd#NdcY@*HTcrd>+A}M+2w{^}dk6389;VLm6`lZ-cjBj@tLsLaFoek818$7g$T(y8! zroNV**lL!9i|wA!0|+A;35{o9zG9~e02ni;yltd2Y_oZfE-*GkCZDe;jB6D)XX+&r zZaGB}sdC1*6(xieUth~jiGL!3d$=mnAhY!fkc3-JlA`{|EuTe>tL%_P)|E!k zEJf=46*BOB|c5Ut(dnS99=+d9CrVk?_G2vXzVn9QKV~Sht=$r?EevR z@l!&}_oLX=Bw(td%hdqQmfNtdd_&QJ}3hus{x59|i+o|(HrYt>k` zlS4xo*RQ&;mksw_OCkg-!)L=eeMM0f_|h*eijVg)+}H2cl0WUKB^5I7(?*`l!=!b@ zd_J_FF5+dY3

b#exYsLpfB}CLal1=K~yPWeS#4VL6gF^%vJwO%rl=u_2LUfxssG z&TzCN$>@yN7e_LTojwm#<|T9v@FZSg;DWK({)I1f`!ytW(h<&ZBKbIyVf}AxquLHv ze>5dNFiC)b0J;qyJkzH|aT^wFje8wZ6&@W*p=|V7b+l4u|B@3l?UFrVnU>dEpUZ79@xm&x$z8<}?rfOfB1wL&ial%6E!{yBN=< zCbr5O11AeHVRV`U!Lc$W9;3o~CV~lX;2h6+#;(Dy)=1th0g;q)@62z0iIr-pV94?| zB&l&I=uXIwi}>>X5{vIGleR?t7JDXz;^c(e$2BYaO~GzFI9c;7_mpiApljNWgt+(J zdjARSt^1$UWcoKX4-#?ND9zsEp?yz-e@Mdm4k4dSQ8SX7_rI_~o&z2)`kB8;1(A~9 znc>dgav)09tLpHcxTwJK@x#lXQMt!j2A(cw$t?MFWDJeBz%DzSDJd(z3Fkf%voAc> z(XO=QJFTTz;C_+KtN8rBSbIXwO2@ z9}-2lA69(;kX{y!szYyrWiR(QInCsGRZs(4GmQPsqsPp-QmFTLn9qW?R|<9G!;-cu zkO$0ZN))_uvT$3EDf3Q|x%HOa!0}m^Ac-=&H}#t|<2znjGEtzgEv6pEaO82+rlSpC zzKDo~8s^WQPxbIm!V%O72!#Xtoq=!>Nu;Z^RkcTbnOg`ea5q#7^r)r!O~9%VahrUL z#fkUIQeJ=0A@O>JO*_;!tMu>2qOr5nO<{j-CEHqiQYK%!M(Y8Vajwqq7GLN@|JlKA zSlIHQ+6Odz0mC;BCR!(*ZKSoGpDnaTf3c82;Rle%6*l?8#MT%y6+ z#R$GXSBM6K&9m!1L_$@16Ii&s#p@8j9m^gfh1w~q0L~Bfbu-Gl=ZXD5^*b#ixg4`Xj?N=%kE;`O5p^IxbCDpiPxKa+~{ zhcSUw!Bosxl_=(PPTA!NZl5pNCg1aD4njeNdPr2nh~@8!Bgt;g<72rUTYW!8f;=~9 zI+RA}a$99XOdcFc-qId8d~}b$pN?|HhQxa)HZR$grCqSl^1byV$eA3bh~m@Z3aLyE^=e<`sB zWV83aijJR^M`rFNjwDux|LqX_xuZ8rS+ixbZ11^NonoMPa!V_dpu~A)Q>_oC=ZimN zB1=GU5^?I(@TBYk(5{2&)u6}OEO=`Y9hTfd`aU>bRr1d5SI%zvp3IH^ABoGb&1iK0 zs#w%b)+5;tfoSA;ef@gJPrfm>gbhz{gLu@JlV%v_Bhc89_g4w(6Vggwgyw$cVjV3V zc@&P^Vr^?bEF8*U6Rn58CerU)Em)_}gQ`fpn3^?wYPi(T$85rusGi~20o+`z97~SF zybm6=LwBPw{s_g70CNhnSY=M z!xyd&?UWIbSeeM5(uC#FVzMTfw`{t6EQ@F{K|J%Dx~P!UYd1xNNjDN;HdhyaeTsE_)onC?5d?jVmrlyA#CB!e@(6f}cCv z-Z^|%c$iLj%V0?WDAuRVz-o1YF+l2W`+|fok2|iPUy% zKH2h!I~08PZsv$4HD>Q3L_5&v5YBk#fVfIE_UQR&Kn0ULw_Jlt8Fl63g#4xXU&t5L z_6xVHlOb?m9`G3}sUA_agl&3)?o&Prn?RwearqPv-lX)|-2YEB@{y>~i##r!U(rU| z8DSL!`6OLnJYJPR?Q|=Y2sQIbTSflpMpO`bI+C&ft7@D&_+G}0{8v~iIy&3>c{F;&$r}A26iZXQ!MvJS>NG~LH zJ;%^ItGqKw^NZ!m;Kk<@T|z9<^k5OdWAEds#)mEg94;f5ny~>pTi3^}y|Ohv2IS?0 z{Pnh9tKrEnfxW`W$JmN$;leZTKHCYLnf1u$`g(tY z@72Aov89`e3ckV)oBg1u!O-VVqAOc8O+1F&y?)K5X6scygmkJ(M6jUOCK zA)oeuU;FK%jhqV57ClKw$tgBu4p%JUYV`bMI8FANzJFpw(q5wlif8?6k+(v-=#0op zSaTeNB85^8afA&_vwIk4syOeWc;Z7$0CkFK^0wn;dmM*Yvc&*Rhr|bR{};nm6XX=e@`F4LGdFHn#na?=vjr zVS-`td3_@^+AizYt|w_1xJmw~Y*P^UzQTA%P_g2W469g4gxT37kNF`kxD)~z zei`7pc0Om|MCvqzeN2GB=chIPSZ7My6oB^kY8z|`A(#_LX^&2%XP$QRsT6y+Kl_7d z$!G1_Yjd>?NVo81toMxHMt_YW9Z7!9Bw~kYj(-{!Fy%(06XI8?!Pv@SffIjE*TWFY z=)8z0yTw=@Mf4?L*%BVW3d(^QVQDxFmxfhgOu+!%{-2M*mPpEFc=fK%(`YRD>FzV4 zX*8WMueGGZ&0&B4)|#?}R8wLqf!;4lL1^{YVj1Yu=LAc^`{e+r5+nZT9f*D>Ab8(g z1j}B~rSD041>eP71cp#ZRGrV@mp_0I)W!IPM4WIv-h2JcConb(&c?A8;`30e@REqe zD~NdHPvS4(Sd=uP9n9R^VV0c!XFtwvTOJzcDAT5wF49%6McO)ef<*lhw0F*;9suR@ zJXRxon)tf%;& z?UIZ}y(&bK)B3}nfSPdS%k&Y_ZarLm@DblE+tdRY=20kDh{Oew=TQqDa6`yEp5TiG zJVjtx$|gQGR88F+y{x5?-oNW~vOthR947O=^Q7x7hz6T*vXZ58w}3C!MDO48g7elgMC~}8dIp$q>qWe7}ncG#;$pt5lLiH zn-P!vZ8&>NFzawn@m?iXkj`j5S~6FBuoY^7%8s1XBh4!Bi{s-49xQ*!G%0Yzfo(=` zUhsF<)tZE<8*2Iv%?f~~!fk;5T++3NX|saS_~#YT{(XAzZzf=4fe1@de@6k4B!>K~ zk6_M9YGZ%SlMr8L;=Ei2NTF)rXBt56Ao4sG#|pwX*{+xsD9|QP)9I56iloj3u$qJU zyl1n564}Uk0OCpgQBN_=yzw_mfP~`w$2|jplGw@x6lXsV+;H65PSxP%x2;c9UsJAp zpN}*3Hmd5{vD(OyXXWfO(lha5NVL|Ngaonc@<_K7n&ZV0pJ%HZ-@=6XljRbvQ?iF& zC@A|)<34D-^b?s_RjFUak~J=&aZ9?L=31H?=KB!l8-Mrk`r4GK=WfUzD>w_3k?j6V z%4%(QfnHsvI`2P=7WPMI#1FW46uBFR)^ z^*Yc_m-Ui&ll_C5@hM^$ZHy-GMedBo;aj6+S^b6o9NixPvS8d+SEdL%XA4(b!d+3S z{-?Md_m7D^mfVUDi>~WEtI(GzRS-@6kl!AG<(w7_`mT)d)ezh%Nozg*SljUJ}7xbv$P} zaBwCG!O`iWvG1NI$@1s2WqvbVrGMpU-5jyz;*<|qGQdBXavr5`pIH(EVP8!K zjkKC2=He>6GvP0c`CFB3PkVim-oa%sW&3W2?WDsgVC~tVr+lgD=gRN7cbcnNSims= zT|+Im00-Q3_W}&goMq_83maJFiuyhd%yt4IXnD_`vED44BH3DMPhfXut!1w*E*}Vh z7yQN3&2&nbauVwc*-r24hu;+PdGqeI@`$kE-`K8@CuykiEKp6cn&;g=)#{!wshexm zG3Q1nYlvT6*U=YFMxnjW?au=sc0`~ieaAs$Fp$g}qam61*At`cekMNvnamcIEm@(^ zC<22cS&-x!B<7X>0tMRs5!_d$#QR(Vr=E76h{;B6Bep%{+#j4aW1Ka}v%lv*!J4Ep z)b(+*TB(dU5(im#i18Gd_pk4zo!(}?FXD&U)40sV_76PoklYbi5Hlk+Xby6~kB;|_ zbCPkBnh+T9h5Lj}{OTrQq0+`jHs&Nm*o)gD4{?!nprX{o^l?)68lB>Iv^XKMfZpL) zhhbkp=rt2O-nMeie4BHZkOW#MFnwS%%7OH&k936&6lPCMc9Xtp)J`Om8$87woraO2>U<^36$Iyf&#)GrGvv`6L=Yxqo_x7b=;a?0&w; zfz+Rcn{RPTY5-nJ7jF9Nc`tb0ilb8LNHjeM_mrOjEXFpLj}FU)#_vRY)>paa#kj#V zp}wFSGq|rr4$IYv@0j47js@#o;{CLd-e)bOD~(cVx)+_8K-=> zCUO!2PdF?u+6z}RAj!A_@9rq2W%zzs7EageY6xy~?QOsbXjO#0F*||wU|?ID>jYPX zj)ucBw5ZIN62bhngfJ7Y+*AAW^%kVV{aql9#fDBNNjhB+viR)JsWJo>p}F|ggYnXc z8YuA$Vh3EqQg@D%1CO@1x4{X|4~cN{6OTeth0-CuNiQLxh39xL&aZs;TLD4;x<}K& ztI$5M&NXCZ;bdbMU+L5;{(E%x<}~f*4P5G#5oq%hu<1=4qInN&^-Ic~6-iPPFCjZb zV@tya2X@lSy~=;-STpC^#_tPnfPrLs#1`A2WB4=q^t3z0oON3w+~A-i3Z-L$ zfY7u=+@vj#LJjiCl+Vr4{#Nes^EG;*WuL?r=x_37c^ZHC8kQIaagi+-PO5DaVOnI$ zeRn(R(F0B;ruL64@)Pp!>HRmC<&P?I(vSKa*?1$wfnrn3E!qZbKt%f z?D^kh=3Wx{W@4qGr4h4x?qTih!LQmzWe?y6DE*p)RjFgIicG>Cc~k9{Do!0Z%AxMM zLTA8c4Af}0OgkHgrgpGA7JGf>k<}U4@E+$vEHwTGuWJBtF1siz3ITrnsw5_yh8cV4 zpv#n72+B%*AlPlCdS%&@K&tKMmWB)A6$fsvj66U4)66?;KM16Dn&A&m0)qSmfPeKB zM3GE5O#~soh>;pl5}DB`X=-4dIX%AWgD(mQxR$4h|Lk^in9u{8?w*#|3+bMWW6B*r zbr9^%DPFC6xtu#>vMrJrr@F-^mrscs3Ga>K(kLBCR%}0ipdWB-8W(HEamnbKV#!U& zO~QHn3og)4=^kkegmJ*d8}z6*t&t@#mu?G(fV?G`#QpWJ*1uj#!#(S(TN%m;A^TGP zS;JHckJ6X<eedZp9P6?+%Ejb-daM2jg_#;sy`43sR_!yBfW3b(4J4HiT zlXk2ABuQgtHS!f04L{`tQKC%mv&dV>4c1C#3^OnAM!ujlU|;t=1Y;Q%&c_Wm7Ur-`N?vwjIG0a?3=O(&&kS-=9T^%lHP%? zlA$XOU2e7zxKVRTGfUQ72JD;|{1o8Pk@#rS+7!(VF8XdRH62oB(RFGtt#Cyek<<7M@?;o4lSkN@i(g8$~7< z9k+z;JJO~FGYt0#4r6+h|FWtVlu_$V$eA}?)eoFdn)5a#K_u_~b<$>{SeKIDt& zX0Auz&^0p4@NXoFqX(hJCGlPhA~pv2ubR31CA7=vh+aW@k?QFr^{9bNllQUEX176? zth6*`p1YhFhSjFhpcDI|gSX*ZSvaD}l5cP6j%4A!U8o=i+)>+XkSA1LO%=fRJg^BF zV>`9N7V)tr3ujsx-rbEz`mOi4k<+#|*j&a=9>ppCo>PEIUr3?QpP6St;x}{e^bp?_ zuwdXTxK!=hhcy!ZyK_Zx@|SU414BZ??xUuI0&Gk-<&dbXHUn@0txn({Q{UMy>}1RZbIkM-=50ZmSVecQH2BUQSN-g zYIMRP>gXVa#igYWLuPq{*rzLxum$z9XxvT~r;~PU3Bf2&%@QoVYh;h_!b%XlOQd#y z9mu*=IG&WYlO+qO8L!dtyeR+eoJxqIG1&X<2z7@FpJC3D2we(9+>*n;I%0w@@(m!a z>8S5W1!^jlHsldVG-JGnO0a>i`jt)KEF@A$U~^d7YwyZ_rn7&X31NUN`qZ-nY&!_# z`I!Yi3uM4;@BmR=0uT})5CZzU^RfSZ?SYePVptIY&5m%BzzvIOuEcdA4*f1=&7^Gg zmI{4ajob2HVph1VKZLP@xi;1AfBOF_FkI;hT?w88;Or(?$xu#I=DMOa^JXxUck#oj zi{M7^nFil2t1PWhrcX%dJ8!;|Hchq%1zJd3zoyLZ(nQ~PRT_;F_s0Ji_GwN6Sxc6! zd_DhJC{YE(N1^RfMl4V9S%rBGnTQSxtpp|U(MT<9FtO8IvnSHz};~NNC?6WT6^>?Jnl3l!QnvHCQUAz(e)P-{zl9diSzIyUUJ=)#`zh!lgsU3gcjWHCbYS ztp+&M!*B&PRRq!`-wR2byDxK-S@DYct$MQq4Zux7%PCgMuHS=&nt%S~pBF3+wtb)c zIDD=ZLYbwytMgaPu#wuSC0@cs@1rCOha|By%eeDCA5CB)JdV{R4ca7`2s&-*U*eXi z_OM^OUg2yajA1B2c?p!_3UidHBs5T<0}K3Z*HgAaHflH2=EXt0u4`+9xx}ebF71qy zmK<0r*s~ks=t`))70#wZqVf(?rBB(+uNAvz(iKag#ZQBN!SmmKVPAC7d|2~U;fFs0 z->U8@|E}Eu|1j^bj{=fRgiC*@6zIHbGJ*{pyN`NEB;k%bZslJIcl%fGi*SX82VVW~ z$Ls2n>}_*;T4+kXLJ`o~txlT3+U2Q2fnru5uw9EDv44fW4VU`&&pt&Yky( zS2l9~A6w@g*3{N@d+AkLkfKN^(h&$C(h)^a3813ViwOh}P>M7mgep~vAS84_!3G#X zigXBs5~ZnB=~a;4>s|4j_xs-G-h2K&kD9&LUURKE$M}uBn1rdEdWkF|JDL$k%$@Hq zY)-{zPmb4V%^5B3uM|;i9SWvuR`unt#VN}cweXEPEc<6>GXXSAaOsF2(ZRzDRub!~ zS$pbdS01C86S&;#tK(d~90 zW{cNRzPWWmQ%yeypJ;K#EK;%MEei9#7kwzxWCkM}!&LI=j-J3EUiHJ+fAd{)oiQ`cQ2M zy+HzvW?+1!XzRfnC%b7Td;s-#wYDm@&5CLVTe8qK`#fsxIOD_JV7dgyT{C6IwDT3L z4MtKcJf44AW! z)wv7Zd+M@sB!Xxke4-i0zR1K`jNCx@cax!+rL$Q6y=erhb)V(n@C*dcddAWTIJEDy zu)G9l1;h-;R68j%WE+`W;0lkFdc-V>kbkzW7LfenyzjW832P|Q`O3&m!x`#OsS#aB z96@NVqsm}RlCR}dE9~9znkIsw|1A@`72s~Tq9QGgLWitBdZ(uy$Vt3bph*9K0+|^d+ zmrBV$OXQ!-%K2(Qez`qV@0j-_qA!CUtr`%gZc-fgGaBsCcOJ54iR}y5?8Z+H$fdO9 zVuX3P7llO}e^1W1sw)_c0czkQJL86=e%b?(6xNvxtcu_RbM!1AbFn1Va4MXwyYhwJ z(eedP^XFgMeU$xP3eUK^+ASios{+{~HEU+{f}cz~4V9`GUB!$*$UQkS?VyaSql`Y& z!Wr+f`2vT9?=s2vVC{IFt3u8Dw)9~Nt324qHbq>$KjWd~#)mzP?~@g?lnHeax1>G0 zh481lFn74XPyN~s4@9@KA5zg6Y(Yj-SQCuK(AS0of%I_x{0CA7hb(gB#6$nA8vTi3 z-<00jxP5AyeCz;VfIm8c`8h9E)ML4qcWF2-kjpgtaOx!pQPq4n!iYt*JOcj*iZP=U zFm0QzTS%e!jdVyt)^TeZXxr0CH~_tqX0>gz0=5NpW9wm`b@4up8^)Z{)oNkubTfgR zZyaDKjv>0EzRa7iT!*G)*G?nyYdAea-f>T<)~ckNn)w1Xt!PopZNXL@sQmG@h&F+d zyL0|~7hCQry7sjRA^BE*G)HQ*obS1-qwhlXS__7EX)G^IqeI!)N-5}L5NHP8-6_1I z#7$EHZb625U``2;Em0i#T5OGLTP}W#|61O*{?X{gKuxp8jOR_|5F!Wh@dsf!t!9#Y zI{2IOZ)N$ZR{@4sLfI+EB1FV-54h=&7eDm4AT^sw7v*V~alvcIOmWpzf@r;Ly$J9P zjqhLV4=062B@aKOfy2c7I5n*Zpl^;WQ4bOUB)+TaQp7i-zuw#pNe}rJ^Ijv_EizEE-OUE`fAm|%>H zymDkRtTxwO?Q+s3$O^mGsGf^(AmmI)A!7t)F|%&jB<&zRi~%=FN1!&f&GO}+Gh$Y! z-I5>{5+AvU6E$P6`xl=c`J56us}?t1X5hNMCt=5;)p+GruZhE+(k|ygx32th!Onv* z%L%2SX+4zt^W#} zj`3^pTI+Wgu|=r8sRh##i?0(UzLnVBQ`pHtdxYq*P54>EkpzCGbrndzZ)AUEotc3pD?Mm$Kc9p)`n$6+Kbj*}GlTLJ$Byy334zxuXmfm#Mv} z;iJ9o!(PwF`6Jm-oxPbZ)UAzSxS?ND^&#SQ&L8YDV5<{Rekb&ogiwe&=o+~nZLueE z-W45lI0b;h#w1ID9FZmZ;pN|SF8cM-N!8u2iX)!zy}~blCvGCt3DuGurqxwDlZ{sq z`Z+f5Olcu???1!fflA+tzD;JF^g6b+*%$zA5->r&7}}yrC@F(w{Q@5|r{d?!#xN+} z*B-@8AUv%%q=@sf$)wdQoikz;4b;k`HYn`k(}CHXO!QR`$epna;=aG#&~PvTy-;8i zcCVEW)Pa8T$9;GYCG<58M?58_6#jd^G_`zgnNXI)AY_I(S9jxTh&`Oltt+@U)Lb=e zfXFYbH8;K3tzF^6A*aGn96-_jKnZR0@}6T)-(_b!d`y!zA2M`h_3c5Q`B$org6$CK zR;huxbR7_|JGxh$x9FItG*9DOv%jLD=`dFU=9yQcak6m|b#B8_QVNM>un)CY{6@u& zbtkU{ z5HK zH1Hu?BG~OmJ<*Ryz|r3EByiK?XA-H}wfND|Pk&!D+8DRX}!bMd-KRS+F7jP6^iWnc^H*kC0y_!sS z=RQXOgG)B2!h19R`sbh}*kj!}Q8G6P4Hxr3xVrIiVDd&^@yx%6Sz*COh5k?}-taVw*)XD?@{*P%`Kc_>2{9NsG zUxrf(9N2aE~Iwc4}G)C&OsR}P-@x|$8%i5Epja45*RTCA;Z7FY`ru<5 zU(0BHov;6XIKaZ0cXd>xjCJ=xJK`6#TJF}y-Vv|PM?%s|f7Y!Z*l&9J+{qqCf{#j< zf#N~^^Pr3vb2;Em17&_-Mo|Ci2SDgLVWXy=N#1*Z)Lv{RIeh>u%6*X~x?jD%m>2v^ zSme{r_c;u5thIkf{YbrK4}Ky>hFc-8Yy0+?WXJQLoAYUHLoIGaGLCU~AMJkpY})b- zOFD6;_R2cdyf~@mOny=3Zb(@h+P(Ybn(6YeW*_k2;=$|SShxw5CObAR&z7HxnSE?D zhjrR76RAz^WZ0K+RL?8>y-bIkVr~9Ps1Xcym$VUjwPK*FS$CyvZ7v;D)N{s`cOw87MueJ(JLrX4o8cC$0!T3xDQ{oRxzjmqqB zM=!PHL|!eesgU;sc;UA@SxgVq8kg%~21k6Rlre-9ShCRwWqW1Ha@Ti#IkcG8mh_&f z_H>8u?%A{>saeqnX)9YSb5_m(-`eokwZS;CeBxYt!w41PT1vmF83umcBNc&%o~}Bo^J3{o_;`hvKUI&uC=S zP#0s$;8E!H%!=llabHH~j$tULW6!_1iYlx!z}O8QWq@#tExzZF^w8ZZH!##yRZ@=$ zu+h$TMe^+}OObadL^`mN*-JNF5T)GV@9n?{?R@C}4G-~a?u(B4Y05wO(xJFcK51g) zjy3xc96tZi%5z+!{@Vrmv_-kOM$cfj4r*E~2sqGD-fyj>uC770d3}t_aeZ-1G2^dW zpS%M`dA;h3#C=|@#`3PK2$q&zJOQxDsp~`0&7Nyo@0e$woN^m&Q$;zSR@_Bwy1IuQ zJ%?>d%RL0Bi0DW1&Cnh3y%etAPcP&8jzcwF&pFb2Ijq0a!stM~!&4|UG|jX)(fz<>@`LKg1AOEdD zIj&4!Bieg{aN?KnE4>iWy|-_bpPSXJNl@(_>2y_JQrDLb)zPi$bYNSsVfi z2_z%=*j+=eNjbc0tC4ZpE5pGjN;?JB4hPc(EL|8Iidw0pL*EVrsCO!FG-oN{`^t_) z$%8EVzBqqlKanoIttM{~{wM37MaqCa1Ywun$C!f8>dD|ClhY{fXs=&9*w`)7Vmv1Z zxTH(3k!Kl0H6E^)0nx+XGM(Q{dTv5PdhT$bmTXl9md^Nc(|8^0%HWtE+o*587kD5P z;iD?8S}3`cqTuD2;9i!fRBV)X^sYKYesY#7$#>1q_b~YEaP|b13|rw=amgON>!9Q% zLN`T#B{jiCHXAL2=+?RQQ(`z|;%(Gpk<7XJtOd7GapqI7w^u>vhSyHxy=Fy%9b?*d z!{=PP=J48oKM76{E|O9PjX~>nVwY{xmT%6TIr;>>tV)01Qc!v2btJKJ({%aic;EnZ z6`WHglmvmM&Lj3py1Ml=;ma5%^T63<2!Z+sa=b;|@mI{it^Ft*bw+x^5l=EH&k?>) z)MNKt*JAvxCJRKR>GQ?)f0>g*ubFZbuK0E>N6jquWWzud3b&Qpn; z9DYzOgI5-;P#fa0CJQG`$_||@AC{UGL4zB0)mv)1%HTkSaGP(3-}|(GH|%=6R5GH+xra{X}|%<+%*+aMi-46E^>Xb!S!<88DtMIsakhF2z-N) zO>Xjb6<=Nk`2|x2t%c2d0R`pT=Zj7d) zSK`u;ZPC4hXNsNnIAFQsf`?coJWgCoM2PCQ%2>*0wKUq>knCKdH*W>nWVUfDDt(v) zt*$KW+doU&=8`t{FmyeW(|rb>DK4#G$oiXY=Ix$vgnHddA%G+9;#b|J*Hck0dGQ?} z-R9yyWpZy2jOfn$FP>e5S_uV5(Z-6nAuM(p)C3L*4)8fMblDXRZpChBT8>#ip;Z6n zA)D|ENZ-W0TY%~dx~yQ0`CmG!Z2=Qs{}6j7hSWme>u$F_;~-D(b=iqsF3)1hG8J`W zJ9{Y3wvw^jrQWAYE+p{aVju!v02+_KSdIa>Q4?bJPxw3L9R2Hfm>iEg3q^L9Y z@zsH0@~{)06#i=A<)K$~){lc8ej2JRt@5D0Ycdgk%xeq@-?k|>pq?otJ>wT*lRsT|vHRv;^9Aa~?DL*FZ=Vn}?lCRl1{ zjPF>;G*>fx70~LI!lQ6=+?$!WSTV+QF)6t=y5Us*az9}8$rbIr+od!5W8Gcxy#quS zx=pK{gn#DVgXrsx`UAFD<{TWEAK$N9RjV)Dkq)4TkKWCy=l&M{ zVVzuOEMFL~&zbKWHTgg8#6I%r8f@~LIQ<0g#o!wY{RrKHtLO03C|HcgRUj8d%7P!M zk8T|fT=P5#DOb0is+t)9F&Q~``OGa8bB zq4{B>Xi?&epJhE!RUwU?;}5kMb-EL^n03a1+3kSsW~sCjL=JZ(>B_}!lu>`FWq%|5 z+kQCE#8@$#k5?3uPh`<1n0In!auSZT!&gXzsnX~)BT5tGlRY{otyB?&sLi`Yoa96> zQ;MuO3S{S8Ye~F^+EYS&c;!mz5eH$7&>?-fk%VC1Q{MaZ&u;DE93qN5psOw4vHu`e z7R?FZb7dV2LsZT1hf?v7TU+IHl#|h`l+1^Z`+pw!@}GwW#9p$VW^luJ)Nn&)zb%SW zo~NBOA}N<1b{e%5((-P{^vOlib8w0VnZAb$u(YZ^h5j6RWH8%=fA;=_gdIP-5oedU z4)&wd>I+jQzABf42`nvi06Mh;4KO)0G38o6{|pmQ_erZ&P|3jV;;q}1qI-#ihyR?F zKxw@?y6I*EGtRXiE~~!swr{biEl+usdaO27N!WrKY$8)>L$O9 zv25#)QGtA#bmoc5vi`#c9w!*d*T{waKfAj_3{JU|swnE9`7s^vP&C`$A2D+0_OuUT zz#4q{`xQ44OS)$#pG3TH^5rg?XRsBr48}T%*m5fz{&JL-$vK8S4Dx*+i|?%G z341it^2oe~F4DpR*TzH8D2CCO;!{BCRn#uMZLBGY6U%xA3Ob9PusEcsoxBx|e9H&r z{JUBG9AwP6%Q`OtB|Ri$2dl}SSD#QBp;DcBy@drC0R;6UNqY|Pn%pRFE3aDapbKQ9 zwcuSFsna~yG-B{U$DxO^!%7V&Cc-A~&G~M1Gaw)9*sHnofAN{ME_0Hc6ew4Ld6sgN z{6d{wws>fbtE8^tR```#{6)UEsGRWoD&WMveWaLSfy0@eHOIA;7UxgL{QeY`vvzRx z^w8WkuwFaz^>v14UGT^SCw6c-pZ4!bYKCu>i<&=Y0`^2(zt?e0@dYk7PrK}fr;cS{ z-+DTfjabknisg&d`%BRV9Pe&RId?+5>wE)4BL%btAJPfTND6N;bH%7{um3rnSBudS z9<)`5v9whXUqGZNYbkbOJIR`h)OO)V6L$YrpgbUQ|LaPYlcTt&K@?UN+upQiXW*gb0zBcT250>O^ho`w27Ad6wNvB4mY)6CsNN5{74csIy46!=v zXhT+y4x6w>E+_wI$wlLMjNk!;3j^)?TTK;uWv7!YZ4r4qUQYr}0yg?QWOm$a`^5`R z)<`J=sj854$C`>@X-}{|rEu%`0nGUCg7Q@a0V4+!tm<@kyTV3E82f;=js8BE4VFt0 z;t$X?5VbFfo z_d~--Lf3AJzaRSG>@@Xajj%2V-T4jQP6VBnLArtqvd9%bfFxnoTu5(MZY`8TeS$XV zY_1RCDD&B948C7ziK(o4C7cgxxT3WIi8CO*uT^ni8E;cimxI60@3*8{%%KpYoY+r$ z?t%Q*)YE%gWl);ie4WI7^vkl14~dZT|6a6Rj5rlsEgSr@0s{Ehh^1lrtA%6nN8&YL zbe`okY(eM}xK|5KGy9KVx`yg(kuL@UJ~ipUrv|ni8!wiFlfm8%M!VQkF*dIt>EuQX zcn()c-*-P^&hGv0xWCMMBK`_ta>44K%>Dt8`L(MXeuE3?2PBrcw+K&$AOYC4ZCR?1Ao!NT+&`ZuSe6oz(D!omby5uvW74X*Ff;9E6Lw4<2 z{o^8pSkc#sQ+-66ADatPOf*I8#L2|jB7j$4f*!s9C}Lo9n>xg19=+%H`*mf@iAbkl zm_MQ9A)phdha7k;*{kiP$yO^3T(W|MG2SMfyZIE>*i$AC*}u7Qdf?+|s6jZNeqBJM1|L*Oi)7zGYUmTr4b|@;rWq zkFKU3JwYt5+&^cGV|ZS{9s5$NRTw^Y;B8GAKi)xrZ>4g=7#_+3$#pl-_3ebG-YEL= zicP!Wld#;i%T|$bZ3WuB&ai{6R#Gdlo86_K;{=bXZBnp=u zt}@OBk~eAKkPGAS!U5MXX*q2?;&Paa_%117XZdS}E_7?x7fOC2H1`1qq0RGB<|M_R z5O>UrPwv06`9M&*hiO7AC;L( z&Y5lcy(u_)E)-5w2i`Z}XdoBb0Yv`sEnuwsW|a$KHW^;~L7Uk>TVJyY^+br4hwsI4 zPPVsvyzkHQTk5;+&^^T$l{{_h8#|D}KPtn(8T=;(P@!aoUf@W1JPnGK+D0Tm4EFlw zDwf$#OOERTZj{hr4_L`pDFiR}GN;(HQfubsoe8GTdkFx1!v0!ooV;CHXwnwC4gUlk zAt0~j6z$xPpc(>jbrB`GL#Nd@70j^Ot)6{;@qjsMS6bMnhY-Qa zT7Fl=ApE0puBS`s4`pA~`XmdCF~$jw1C;jWxTpBxh9ZoB^Zd9_Hj}vs1o`d_wC?%i@S6Pz|K5bk;4Ng?W`Ru1TRhzW{u0ao_HI;!jwK4 z9Ua{qCfK#a^_3D`K|;aqJ4Ala!iNLV`kJ(_V(~%y#<;OVO=5>&cO;Ux_bBhu(c)d` zMHt&UO^g4Lc-I!NF@c_8CrCJ=NZf8MCl2RBqd=t87aovr*E;bH9FVP?$@x>-vbu|< zL_~gp6^W0!14cYpKGs}y@w7NA3r@RhU0=NZep;Y21M`i;&hHk0hll@qG!i%L8n0Aq zbNB+sp=1=a@Gf@2;tC0n2g;6>pF$RbH9wUG+zyNL3_%S#n{L4NL%?}CzCZr5Xp00@ zFC|R}|4lHi2L7!K<`@9l-xUI=nVGAm*445%_QSqJD~b8x7ghV!XycH~Q}L8FqI2<} zwZJuGDT8WJy|G@Yjj6dw`hdRB36Yzrkvwq8fGBuD0Tf0f@+GIjnHV+TH1mGnHZ%od ze&QkmbR2|Ww=X9$Bop)SNH!Ubuc~%GUz*O030z;$7~LEoVisdR6kj?97YF2uGHm@$ zzqMHwCc@fFZyxJakE4D8QQVeaaJ>{nIKv>n6uQm_l1|O@gCTy7lELQCp7#wl% za65#GeXw;KmLwb@;tIjzQS>vHkv8z|Sm?f=UJo zUNfDaW*WT5yPW4sJ)GSRJG(F(>BhpL=qinLIfX4w2aUpz=9*?1Broy03nNGRbh$)K z?WSff{bi1)LE9V({=1~6epIYGgG6O8nO<<>a$+t2?eOt6B%PvJ zLtgC<$POy>mEfw5>pQDDGO})!jXofLYu#hqU?m%_<85&Bl%no?Fwci2b>+e!N3eOn zxqq@UE$BpKd5t^-d3NEG0e?xa^&l0;WA*MEK6h4eFv@== zR^RrK2Z%UjgVr*B_zOPGmLw|rQD@&Y>7HQ^Vx5;==PjEBxUUC%VNdRM!ChGA{O6%* zVYL9}@C15`T9DyNy>kq1f(sNPgO-XDmH_5RIl=W&2Y4U?m3@G73t!<0ep_D}tu?JW z4P8x;=uf(4C_W~US`72;z{`nSR>U?MX^z0nzMuT_|GZ=#m?xVYaTmX||AF*<`+|Iy z->`RXVn034$%BZ;gU%Kk_!=L#>LyR8kedxC0x2y*^W2mPEQvT>XP6GM3d!9hv!$!E z!_5+?6dvL16MYV(HlZHh;}WAY)r=F-9iaUxG9olbM_}zt3{=!+*qw1`8K^X+UlfXn z0eDv16=J^)NRg|K7Y|7Y6C4u(Vbtl$h75zEL`7btw!IMmm-9=YM$AaD(||`1n5OVT zVa(vBHuD{KF+2t5OD5Ut@T!|rxe3%a^rRf~v1aj5>6v8<(g8ED_goL80~E|pB%GAI z0f8DsA(B8@`1{VtRxxSK&_yOCF;uj$H0vS#KF6y8S=i_k*upo%p;te=RTAG$Ox=D3 zlATf1MVEfAu+#7rKP;jY1nZiC9+U$JeAOx=q)M-Q5ZFV$g>gNOw4tW#xkVjCxI3n?I4ygH zQ|v5fWa}g-J@1Tw-r1alDSUwoDYM`&01gT;GH;qtXsxv^ky5BUpL6^?;q9S{?x6c_ zaj$4$nKJ|sGn{HXxj~?tdgKfC3QeRTSI1Fgyr68dE3YsG%`7|+hJ`k8InWs2LkfL2 zaDf2tY_sZ!9;f!TMz$4D(3NJHQ1*I|??I*R!)2iUK_oFVos<=EJ3^{4Tj;&zPG!r(q<&=$JN>YCsV|@ku zF*G3Fk3R&<%YL;(f-K|ye7?mMVKEk_GcVjC5$Eb0i5p#nA~3-lruEG5?$(OxH+fo< zKATRPcR?*c2twRK$uJ1f*{yJa+e#2>2ux97*KB@O{^fc}bp3y0#pACcvYxKb5ev z4c-{2gxr?cd&OyYTZ=Mz1%xG-G6JF0g}*Cn=WLfVU={~@WHj0}>@muTg(5cYQW;;P ztgza0s6Cr{tO^VORZ92uVM#yLd;m`38<(e8{U)#Hr`AKW?7l^afjc7onm;-zyY1iC z^buS;3QFXYFal=7@xj0rK(n#^qEi?Il7Wi!4S_m;e6+XR*;jmg6nJ>FygdFRctKI_ z@K(>5aBp}yrCJ?p_1uZqp=_i_XY0VbQ{&*O7OfQ!J@-^ZhJr>?zS-7+F}C-;ge(}L zO839PN_2ZL*12chqpKbF`7z>PKLe<`rAY5VeSeJ@cd7B<&U*;7j?H&q9#znOGxidZ zzj%|H3e;M7(aJ2$1IFKGEUnvHe}{=BoU|U($@(#mvU^UzbCK} z-l+Z{1#1vilu}?|;U`B*5rct_U+|l5#cfh-AMP*jvDddC)h0%R5Y~)9sEH$Sg`{(n zDrc$N?Z@0_2=eCA3heagM*Ifv@XUkcqi9m&TwW&mH7@+B4DX7%zaP8UX7Uj; zIg8_25FkK2m^dxYvPu(gowq!5aHfN2V=6J{x^BXAD{=q38%0KbGMdlU5vtKqaqAP4 zURceC>a1GDK&yq&T>e^!$Pa6`uFd&ligMa0-(b)}z4bJkfUkOW*^C_>fenvXMpHhoIVUP0JOns@R6OpPv2ZY*HCejv#XQu_(ND*hD#7~lr zLJ12#j%odqxddlzF!3Xc+VdQF*gIx^YjEJLw1AW9?{B{V#$TdHYn=}c+jVXPx`5jq z9V%`sWU;sUfB*hglSF^6?Q!bh)!B(?CLX(N<#RuEq@*$T8(%ASpSqYxJPMb3IQ!3g zZ{4F=7XB7Hq$cC;K68=$2URrRB{9nAjlP|9s4mp$k)*Lejqr zVXhq>=foi+V*cO^$g0&{IW#3{0@Ire7`Z*f12?CI;H^)o(5w3H?0fHaxYu=W^84Ay zv3mkDpszO6a5t3;nZuYye+{C@E-dOunZdKfZ9Lma_A6)8Z__kImW`Z_oE@LdM&w(N zW^2qqE)&qJZxi$zm;561#5)u2p*+$eY}R_5wmyJ*cw8l%N*<*?>p7ykew6kA9v1Y^mDm<7Lj{Vtl46Mn&8!Y zBFXjd>PXfELxg>>GtGNHy9H!-rKNrHMRA-ZTE4*Ccv!exUkd>*K87dtrIFcSe6TTT z!#_MpU1i(X02qHvhj(2Ge@X0a65{d0(J8m8WBrP$EqkwZNoPK_tzFzvO}VQLp>P!< zjhhm1*=GZ$4u*H%4%57Lx0Yg#9;z-B%*wXW2Tu}~y)7Dz6V;V}b|3+mb>8tzpu)iu zjCQDa)Pb@2*MsyoMBgV*vAo4em-Erba)^16TUn4vM)iWcKYtntKi6)Han7EcM@aVZ zpkxoCuiLVv%G&ds_y1qB&al?+7t|3&^>gB z!r|4)(`-+!1qJU(Z-iC9KkXjtr%m?Jt8A16eQ?RS+%_jRGefO7U1GIGCn|);*g_$^ zks!~qp9pYR%pfqa`4jll1Oz=KN52UQq_AIYO`kTQD>4q5K?C2q(AUlu>aTA-Z~e6% z74q~?77Aw-+gSYb(@|^+R>^j%j4#e7k47ga4pmEl;Xj|2xhrIo$H<6VVSLmW|EM5G z&Z2iZ4Sr6dT54rr%h^r4msrfWZaYdUKEcu7X|n<+om)A;DW{m8yw&Bx-eINap(NP* z+c*0%w4)E?g#W)kdx!vU$@#mruYWg{#h>qb>frk=HP!^y%(=jgGjus|^iVtB(a*9% zzPCkDKk3KvSSBwqEgjN@Abni6#hjz)ZN5JH+IAGU+vQ)8^J&3`9Eq?afp(XKl}?rT zl-KUBpoRP#KcH%7(DDs>5B9*ZA}PnM!F%MWur=|cW*~HsjhtQT!~L`V0rep`u+w%P zZ#$4bsgXHj54ttVfu)0@zhPOoN!0n@B7ll#NHvT>*ui&UOo63r_DoK;GFP|5`CO-} z!X}2$X3@7jU-DVblE9aW%O8!5)_FqJ8b5KgmY| zW3&(sb08?D^mKwdrh{@Y*$Ao8!nd!>=*XYS-&81`=&L!!)DZUVqsA2ec&uz&Smwc# zy2i=YSzwaJ9fne$1H8J|W3byK%ctZYj%&7#Y64g8JdkP3G$^VED`KC~bzBh9t(XPA z2tk-O#C=jqp&+bDPq^%TDdEOim7q0dH_*8H;Q5c$tpF=@>~TM@nN9G~I09Buzt0V? ze?0tFi6UiK280Utyuk4*(7mdQ5$}9~wQGJHwssgeLb*!-Jmz+=y*RkvK{8#kS?>X~ z2rGtE$rvX_K8=U>8?TMmHPY;>N7qCfS4bm}SNS`oG%`s|Q z^XWvW_xBTOUz20x_3xwGdjex!b4LMo@2RItr-rq0G!DY$Gx7mT<|zD4S&f+3G#YEa(BrL9~JBx_sRDY_P%7h549u`=43gZ+=10&mkb%(&l} z#$^}GJ_&-e_ah3u2d?sEw;`5wo4 zd}ZCsASEHWLRa?n{0%-L`JXLbKBk5v zVxLPvM5iqBvb~P9aCECuN7PWTzaNkwPc$_y^S$Dkq#V@9K~{cLjDNj3!d`vxXw@nI z$LhB|uHyllBYmhlEc!&V;(k7l0+@EI!c(wVr$dHG4+ilq#UZ*PO|2-8rAW+M`?PR)MM!*)h#v8}d z7(nYJN$=6XsCBJBkV8=fggh~8ssudR_&2>-^Q|}FMhpnO(d2andpCHluoMvi)ht<; zmaP{>+qs@g6FwXYl|9dqLy36$eAC^p6%)Q*9G)MbJ@uWRx`0WoS|Q-XeKels1?hiqN#FiCGfZTdPnWk|3=%PgZ=&2@-D3u+XgNXw55CP z5?Eu4-Kw}tAAB?M7kx+(F7M!7yJqFgC%*GEeu*gRyeRDQ+CDhyMz{m}K32B&)k#@Y zpGHNP+`7I2`oAXH`_H?^ zqKLVqYwpc)?9z*?U8#1v6%H`kekf4KtN*Rb(pxw9mW)UrF6W1J2;I?L{q%wIvEWIk zV5xTm(6>9sA2F8xUdtmcNUxnA3}GU7-zjj*$V6;;joTeqB}6%|Msb5VzE^b;0(ZF1 z(kANrTEU#U6jJ^Nc~c>YCv6sg^#D3+x5`ah>G$||ZcQbN*35nwVVMD$n#AED%3+JSrUJt+X6m*?PD;%876)_J*1K58-TCT%X!WRMS!!}qMEP%OE*6T7Qp(B;+< z@X$X!DID&bc((eziOux9bgwCIuUgQ8IDH+H*2u_9Qq5< zgE6g7kTD5n6gdP>-!b+*M^BUWzAxmE(d_7t*+$(ngVz`Vc!qQ}=g$J^Kg52~Jzyxh zuT0z;p1e>fgW_o2uI@EWZ}gAE+0-5F@82cpGo*So+q1Rn=HjRg4VSP5*R2s}-9YHX zXBzFKP>Er#1As|6i z?70R=W`@k(T1scotmsRHQ@?N^mm)Wr#tPpE?8U(ID+7zuIA61#6qBM~V$ItrRCBCJE{9wwa$AuM=s6Wbr+cOho?J8a>--w9+ zNegA&)WnCQ|>c6u`*GS%1|1Dg%!Nn#? z%+F(KHSHb;#vOLX4`_Xe^^@oN=bKQUpt544Z}`=Kx*t`Zjq-War?0Oh7F z$uqu>uurHQI*kxTu1%Yu_I!q|gi(l30x#DV*0qjSo-(C|zxQR}7o71!LoP6h{XAh} z$EB2=0j4P#%>d60UAsG23)h^iPeG7#vjo8{1EC@o12nZ9tW9|UAY0zGo5Tb!b?K2| zQGLX(-YMKUw9mO`sOe&`EN91<2nw)n)b>3K_Gw)KLhvt0Z8m|tKE}imjNtrPdHNk=GBu4pH}OFr zlObED`-F=4c6!pKdR=wp6_-+iiU@>0iX1adT1+yVR z28LAD7z--pnYuH$Jp*~q$@L3kHHd6D|2>zi%l3;y&9e=fS)?)o?XXy9Q)RNxb#lke z8Mu#s&p8KV`{q5~nZqcJ@5eLv$LDp$?iHWf&&T4Fnf9WQINQsS`;Xg~ zVWYh=j{VT0k!xMC|EUB*hU7}1!Lf11>}b(!!v`eYlJlM7^kWBp#enz?3+?rl)#=@B zQ(W6!T$y|ceF`wJ%a%qchV;i>?6x)s{|$EOd4TV7J(x`R8T6e&nEEu^$B_A~x{Mf*Uk;R^`$fKS1C~DW7G+&3y{XcOHkfzh7arSgSDy~uZIVyP7js3re&$D zr6KZ(Nz^AFN<9)cCY_uY@=cjF_}}+WiS3M(&w^Rc8#kcUw$LPQp7a1{Qo?R@2)QSe z#a50}!soACt7lL*S?&hyCj-A&;0-NUPJ-KCc>3|{hDNew58wO#w zu3oYrFQ<{FWA(<@dLDgggM51Pu$$3W0QS}0$B~(7-kWb>U~Ky(|5b+C@?B`z5!Z<9 zQ)pUD=e&TaE=7{d1biGTs#m)Cv+*+`U*{Y|j7b&<#5%x2Hx`eA^N5SFc}dwCJK`MV&#IB%cm@`l}GujMf($ zSY+B|uoXp#)wjsZ>SH*sA%EErW?8q8AC{cL^9ijII^7jvcVQ4g}R8#f*RJ zqy$Pvk5j=f?oTDr`3B6hapD_5PGQi8+nf74qkYAnRFiT=MT17+-0UFl@pk<=4Cjna zB1AVo`-?n~FoX7d>Fa#W=Tt+9Hoe*zktxQ$uCR3rDS41k7M-T|T@8U@dE-qo^e^?z zOp;Q-VHiRpQ8p9VrmQR31?cenx|@c?8tIm+i2a1(o-JheqrMoN%mx-4<-T+qW}KuJ z#V2YgU-v5Fpu!+O;d=F_zb>k#6QgDsLs%t(3es1SrQ&SE7fvzDt_>c3!hx%;srx{u zn3~&Cir#7uuB$|y=wA=;`q_^*FmsTwy5Q6hVov=Vm>>=V35TyYQKsJqqTOM!u$Fq{is=`wJjnaLcD(CFfK@&u zEBv+@YmxM#aTVFKi2HZqd@pE2U{j;qRR%jITFU;XXDyWT4IWDz+%N?Lx?_&x2LG+= zb?$_Wh;w#`KS58LrJhLXr!{PD z_w293I$?aJ$T)=uS49VU5QdxvV>&e}9%WOi%YvvQH+u))w(CP#uWdjeaQUs#n6|-E zEN?FbPant!2|gMr`{z!MK$wgAa7us~2P6LI^}gs5YrH3NrziXz_ZjN#Z8la|XHQVg zq_Fqr%e{f!qrPfmRk;PLu>(q3Rqe&B(O>O$iyXSk7rA%tQkGvLf{;_C2fc_#Z1Y78 zDv5@EGA%DPhkl)SETec-r}3XgX=M>84}h zZ8VA-tasV;Kb(XJM;V$y-|3GOVBZ3v!d}lBd-knXojul;kL{w4x%~AMKjH?Q;<<{~ z`4RcWq>a_@_o#s*E9Bs>pRU=#-J0aG-U>5lIkJ=pYs-xTvjfoPnGXpz7*-4hGdE7T z6yCh^pU^!5c>ZBo8OI*zwD9a#e_iJ*e9T_zTW4jg6Z+_~3*1M%zx~0D>0#Rx_at4L zyk~Hr9SuHdrSTFVT8Tfn`3C4d!FU2*)&0Hl`5!e^9{sY@l6Vm;PndQh3WIJc5#5kZ zsmh58q>+UK;#7aN4%srU#-#vLLSx)4n^e+s+OXbn6Vq=K+FS`oj8X~)BcyYLW_v(9l zz?TJsodcj-S(`f%c(H-~q9c=XvL~*}` z-P1dtg?QLWrMu2L{(473wM1)#gL>XHdckkyDR(5@QRgD5Ht?&A8l1EnaNu3C6;8l{t4*m zDZ=l37*L2_1-I;$iEqV{sCNo8&koSQhP$vpZw;-h1&OFZUV$~*Nb$Ut-6(G1iH;RC z?K_A4g8(6{Td^CTmNh0Q_ie1~Jt(#wgSdUnkZm0rPqjstzH(yW^BH6~cvtFIq;EZ5 zi4PXdit-(Oac@*$^ds_R9rdm(K*sOl0g#FP-C-!CpJZ&#?D$r}03j`}rILHgQNj zmQGpspQq3X%SLkg!R|m^-CZW5FIg7+y5f#NCvPhgAFFrWQTlG=!b?5?OYh12Z86ln z!@gBN`aHkAx-(kbL~%fq5FeZ!MfGiRXH-nI)pPrX-@#E9Rncx$FzBqZbkQDPDP(E!21VU zVGni%tzfXf(;07Ei5(Y4p2ZIVKqO#!_b%O^Z~ST=;5|z^7KjNXTK9Bk=Rg%#7he^_ z)mbZ!G0k%YVq!k+k9IkMEyGn@4?TS5OkQiu%RNUXPpZ8?mg!E;e|_z)F^6`4`-6dg zFv!KV(909!^qQtmNbxi#;T*Mx_J3Ug9ia@#oaZEjf><${vFOkFSBC6r?T$G$Z!S*h zUkt(hbk@(8rxmywDk*w`Q&ekJUXdQlE@P=`+_iBRN1DVt0^rvYIEz(CW>lOA;3`<7 zaeW_~`>cY(q|9&d@Cvqqs;=8dW3(q1L*tzvfO{4)IsHw+&NK3Ua88zDGB6Z?dszAzGfboFf=Na8pOKg|V*hrjcp8;7c7cy_w!SetMbw5GFb93eApOtt#m!7B8wiDGfTIzhlstjlTD zGjT#0zR6v#I|Gy!eU7h%;DLbXs~>H|&X1>nW4Dln4^=husYcz|U~@EX&hK{3PNVnVyBiv!~2tgUZKm0V)$o;_V5-mxvha*=E8rFEv73E5o z<=2>LZefux2s3uAZ-1qGt&AR}T9c51iyr@1h)ff%Bg>rj&VP3qf(_^E*Nbn^Qry5b z`($b;+4p$1Zz1R@W>aM)Egrzli2JRZkhFLf5%@4GfkasyR-Fmuf@NZ+?hkEsCoZkz zKd0!|mnuw=U6E%9rT9;8rZ@!4lU%u`}`Z_S;(q0H66{%Wb;+^X0bvuvSlboAjL`kk*a%DP^CE4Vq(B809kwFP+| z!mXA64VaNmqWar1&X3QXM25wCLYDF;AkjO#3F=PgUPjwbI&wetI~J{<2zmP5adb}X z`w{hU z0MypZkvhAEH&SpzJKbJ_sP*5MO+mZLKq&^NOXB?}@qZLWCe$lkPPuLyCyAup|JJS{ zy!FAAbd{9Aed)EwcbtW+dg!5-)W}$A4G_Bd-*Og~ABxagmKhUMJ(At|Be2-XzuwN} zL-Gt;aBq2C3c>;P7O%3xzbvI4whbYljMMViJFzF{rPX5EQ4%`q+a8iUX0|kC12?{& zdbUS$Or_&fXa^9)03lKH0zJqri_lWfo4r#T$&8j?dv1q89YmTFdHgviJ+m61-R&7V zuALSj(RVw=46nr~iiC@hU+Q$A%Fkevsw2{gy1g})dq9D0upeWocjn9P0-YH!-?kBV zp8N#6iP!wFOCQWI8)yS?xxWp-FiIepS7J($WnMS~*1Dxkn?k%`xKq(O4wNWm0Y^hp z&?0t9fy85o&*oMR;@ewDIc7pn8I2T3%Wd6K>Ar6&H8=W=y7;OpNCRud3eErHpk5Yz zA2Tig8YDfd<|Di5%xYgR(pg*{V7$>vIXO9kSlP{9oDOL$uJyHx5DQ0K59oqem-_0e zbVf&Dirii5nUlDOb=D06O;K+`*!ai{cJ@u)Y+6?y&F^h|K4am`7kkk>%n(w_fqGV3 zbGyvF9my*}v%k0KK}f>@xRw)OXK=CdK80vihCMO~PN0*m_kx)_o=L4(753y|*;;Ro^{DI~?4@ZTC;4G|Ij7Patwn`pHU83Hw!l8`k=-F(144;A}{-562Bu zKJeb};lzD-?cLegF}TG+)auwaYPkUq3iEV#kHiw~XnQjnpX|QSvhZL1X?O`8>w+pj zO?n12HBNn=1&E2q7(NAA=PM3MRG9-;RQmMM849?@ig$m3T|vIa>Mgi)yf)r;=2)ZN zwM%o>-_1&d!UNkp1E+G|-0A3zGRCV;GMc&X$JZtBk&(xH+jHrSTUIG(Qw^?92hn3q zk?5-j$EeS4Ki)7%ee!HaR2~m>r|K%P3}rDPsUrhbpO^~Nc;uAd>u@(#ccl36k!=;r zapB?7sL%j5^#uUHh5si8Q+$j$lfM44d4z<9>(sO0p`kBhZ(2vcZj0c{YeNSgUvC<_ zt@u#u5D$)gJCY}deOHO>asjbHEytGP7`wRL)5-VDy2e*{S{9?r$%$CyU4#rJek`kk0q+{PVpwejS zqdhb(XChhmB-daRTn<5L(hQD%T!tq*ATK+ZDl8*z5K{vNC!+u|_Lt zeB$nNIG9w4S~J5l;X$;eI_0)!`OOvU;HSKj6K2t9osjo(J;PZ_zMP{9aSz z?368A7hLG5R@kEjjs}pmiqmUFx z|15-&qM3F06q}3$crucnrKq<|9nTOO-@kpO@Shv)i&SItS~P@l0thBmas-XC+U>m5 zk$93k$TV@P_c1K%c!b9d9AjH){)UIBUaGHBf~(Tf)eK`UtJn%Q2e(dEBn)QGP_(ytrX*w7QO90vwd8m= ztd2vs74y!|5H1wu4z{>WQlj%_xn7|K8HmxfF&HL(XlPcFv{?@TNvl&m1^NLHaL+Hz zpzaz`ukg`{ogo&(Rc;-KqkMg|_>n0gRA$1iXxBR3*vt^4ZVw`nWMaqK4VOKt66PZ+ zK%WSVMu!BIuRs=X7`sO@3crqY;bmPuCafy_xj$hQ z{?n49KP26b|Nm?a->+?&1N6oQP791cee zwV7pXZY-SNrXE%SuaaQaB))B&e5_*5rtTavYjp5;PhUS^gG@w7w8|$qR1*9rDTcsh z0nG`Nh3lnkL-sba-a{ePr;UI;S^Mo**^}ZRZ;pLf{nC%ZM5`+WJL8U4BtG%pN$!ei z=Zi+QiH#4jLH3$*z3^@XeC_5-9do{^#_CtJKJbeT2T#f1+> zwW9znWtk;Y<*hyT#+LIIRQdUGC(DjF!mYl9w%=MkKgg*VzyuH5r+@D&vh3FO&RZ3P z*3JMo#8+PyWNDsb@|4#Td_aas%Or63>VuNyt};tsynrU{#>~T<+A9Z4p^tXU;LdQw zIMj9^OnFbh40%#^mX)tx#cy2AupqZuWZ?=?FSK*B$P<6A(SL>qY9xH>OCo@td;K+E zR^Lp+)b>){EkDx(%aP$*!W0!qO5C2bQuZ6(Y$4qf z0i3NMb9ItCz>(lZzpuIeeKypTy6f=D+7HL!Q!|RVDf-}a(WHVonSAwX&XcJUtz~Uv zR7HsY9zF2f(qJqAW$*&R6c78{ABBwr1M?yo=;98kM7yWV*7{>Wy_7(iXtQ|UWq@pU zSW#DSU*=vpg%mW~JL&#K**#I3UNM*LGil3V3QOQ)Nim?mU>;*uso$ z-0@$ftVYjKE9XH^i@@n&Aa{*_NqAA=8Fky$VxgF*vYy`_>+Hcfh3;{2b;Eq3k%4N>rqQP86<&&L8C)d;dXdpRR zr#3D_X2nvTIfq`xvS^xz6uO8yqq=#NH)$#7wyD2Wh%S<@r+-ZbAQ%f{k!qpbH;A%< z!S=?f8bY)zsrp^7s$3ToCvYp8$#CcTyEDn2d{D5&-<)ZGrmZ&l-a*T7gmpLe{2eXR zAY|;m%Kv>P>#f8^{a9|DS4S$}%v8KP7C4a5nyr-PtugczjdD|NiFKU8TX{`<**UiJ z(uP!js7^8IpEl^PYYj^&4qraW5MpwZ(Zq(;4l<7vK=wk(pCt=TVlckf_rRXDvP6k| zq8n76sx)KbEF8dpZK6M#DhzIE_g2l|Q~VUZVg&|)rUwln;`)Fd^c~m}@0b8uh!Tml6Dzb7!w+ zKd=Q7AU{)EgI;KD0@i9Q+I_eZkm;rI14evHP>a;G#Y_=#0s?v zh-SAl(M1HLB(k32(P7^$#wzV))uR4%*-?P?=Z+{Bd6$gP3Q_|A-3=OVT+%Ha^Z;ACLZ>k|4s&iQ+ZeeWJYc zSX#H#W$NSaN3J`Hzs=QC@l_<7gQ04^Qs zX=JA+dLK$v?|ZY)4ytGtN6Jf`;ivTo?DDefIYfP~)|m}noZVXlc3lKvS=US6%3B|b zcTx}qZgn^E@`0!CsXu^`?iGWP3~+^*)6Gg51Em&kmR4iHwE|L#_x_J}AfOC1F^ZTu z`{5h|NXnddZyW3~%-UZH0B-j1M$wKly}#l2cT#9$qmdYk6HlD4`rAjFKZJ7O&; zkkSmE_*Q_8j4S$hx3Px9MiLWoBs{n;@&E73u497~fXTP*IlHb6+POAA)7>Lk7d?TE zD@`@44Hja1wvjJVymQ0Yo$-&zFE_I4r1)a_x8Ox)vj6iR-bCqau;beXYqFL!j9;hX z=5_@xeupZsi7E(3SUS8OWa{p`)R`(WkBPoBne*G$U9zva2=2TfGf-THJXRgmTaG-A z7|5soHWz{M!NKOH4iDH_zgLJ15R8J!oTTrde$Ens*u*8ti;%DZ24`7n6WKD*vG%+~ zfG1~t1QE>|xD|C4W!GVp4A0M64NzD*0~pLiDXRnq*g*))r9yL>q~YTOMab6wjO0xFdnyuqDP8b>n+o)n8&ncEg}Gkn8W*za}2#!ebLEodhQ zN&d198@|T6a1k#ji(S8_(ftTa7N5spMD}ssJHNL28_a5iUSB>1V>c%*AOK|g5A=!D zl|HbPTO8q4yhz+8RRNWXHQ((=St>P2pS`X^+|fdyA&oMK#&C(w0l%1sQ(D=?=SoBR z){^_-V9KISfQ5}PeCQNVcxE4~OE-6k8^97Y$F^*SxjW{Dx0yCvMzPV<%N3dhh8%L% zw9r{!;uPLyu0M125!iVrM9dt1*r^4khCY!m1>*Z_A9TkmAul}AI14+s#3d`}w|S9l z-<7>Pr!6*E|8SdZ$I_)G2MwUmcOHu`bt*IV2T-v*?El=VVG|YCZ%;|X&`LW$c_0$R z4gHPv^ve}dv%`O<#pyZQppM0RQ2+sU!iZ{Y?$q0AABwpw8zxuF5)4<$DXUTM3QaOz zxD;wUTkB0~|4*hNWK-|rp|GI=!1}cU8=hj2%edhU7 zpSZ&f_;nF~%oXq05wp2v339R`|NfM!6AdjABT#Os?ofW*s?ewj(UEOqmAg})6j|?2 zLyWACk~Y6Hjpu`GT?xrlN(#}`QM!W=`#Jl{~apg!_lRs0I5G>H@ z7YdQ@SZ1&1u=}N*VA%gPk^;UqK(@}Sc|zK`DL}yr(t|e~_4Uy;ExBnmJgxgm$Tv$B zjP`7S!>~lKKM(Zb2w2fSjO)Z|h6mRbh1!SC?xBELGsrjTg<{Uvk``tX>D!w;tU{%* z7d)+Gfz@>&bD?~&I~*7lJ__SlyMF_&mFLoiJ!d)`A-5U7`vp`15!*bkGvL zU-*xu|7@qdB^y~Rc&rxvrc--cc$t6H2uxCwNgN4zPNpU9-CzfC5}f+qA0Di-kLACkrJFI)joBOI*X>9U9pYw-9EWba;YRi$FXfN6&4r0%h1=C7Yz;v7- zh^8^G0*D#*|1Kol4x3p!(T%Ui&R*MC4Vn}`^Wx(SUwWc1=6|AO>u%Sh{$gO0(ZOuy zTI{k~x+xZLMUcq?eiC@EzPZBydu=?T!E=WDx!~rU*1zZ|^*2DnVy-{uvuCN;U_LtV z+&_=*E+P8kcG|uw|4*Rg-fI%q_inL>mYWg=1T;#Cz|_n%6J(8vlsX_Vo`DrZDB5MuEC$LPQmH|j=4m^+qr&x`2Q}h{ymeXrIgawtd(dk z#cvi-U<}v?_Q=nuqme|cH360omA)adQ040CI*-Xg#(Pe?k!&C-O*6|=p{9=a=rDRb+aS0CgUi8pCZvocKBVahGZ_KUaow&|vM~#ch*>H6!EhA##Ot2vZ zVcvQf?zVM>D6I8OI~eln+rwzc*ms)w&kbY`+?QU=NIKw?&~U?93=G}HB$pxs>=g8Q z+kefCZ{9o4*R>f?Um^+VnZNr`)IoFgoVs@FpGN+u1kkt zs{$m7C#Z!d1C=(>#DU2Zk22hl8{sQJOTW?5e?Lrsc^|44a#Jph%svML3GvQ@My#;5 zYB9)>la?BO@Xv4dO@n}IMXg99l%KSNe@_J&g6m+`c3F7J6l=I4rZ-f%4xd z=O9vBGh|7^`4M+%KTuQI2K4|9>;rh7q9&BVyFMg8}` z9r4uxx)PiY?|Z&T{KKcq{o&<7ey|XEks{jM87%EAWHF(iJ-`b@ zWXm$890OMV83ESX1JuIRKX5~zreWmI-Ea&(8|*Yo3w}UinVm0VD4khXVc3`) zc4vGvGZ*y$l#p51^@wOc-IUHJFI{@;UkG1xj5!`>#Da>D|SR{oU^l zx~Y+W1k&>dWMC#lizu*o0VufR0$3Dqum$cZSt}4mPE(-8Egv6QAT z;F4R0#Iri7Kt^!qq8?oM51HuDL(SyZF#RL^#iM@15n?_HUIe49e24m?>%dSt{ zeNpB891TDqD4x-?idw?%=GsZ69*~qxBls)h>$J=n*HUDz-9?P_fJRRB%=Tl~7_>NY zK9TNDw&-nGmvTUy_O(45(8jDHJkrYKXEx35kH-zBc`S|^4lXdf-$g8p{23R8$Z zMYO|dlJ@IQ7ePxwD-n<;&30GLSyULNlbfsKb%W@E6-o?qdm9%5SCxT!cZ4oH{UKl- z6xD$h>e5ok-im$ib!k*|*T(pV&aZ!#6ID zZq_8A2h-h7dSH?g7pVgog8F{<;PxmT|3Wr4{(n*h=pH`*7^;e&w18Vz^=fnQL#rdv zm!?Tm_CT|sWRKJ&oH$%+m5|YmZDwM$+;3=o2>$V-TkCvTfyRZY&53)Wv#rTB@*yI- z8u?3U7tQq5h%(|K=lYiMkYoYpvZIHA?c81(RofI7~$*cnIeD}F4o)*o3jwFmM$tpG&8 zTeHTFggGMhc;*k$!@=r@BUaS8ehS$M8rZjU&nN-+kzt4UJ!z=Wi z)m@R@-y|{{#C-AGbE+sq4&jmZ46+T8h7|1y_h$@cH{D6R8y-SyV76+d;qN42n<}mM ztT>7p!(Z!Os%2*d`Er+eSfmv<^>D~s*i*_v&*!@&KJ8imrJeZz(w1hxDHf^hV3RSK zvDwHF6C&7JTo&9krjlW^Ip$N}q*rM_+Pn~x4l$lJDy?dGEUL6x%&9!cf7;=cgg$eq zuwbjU^t~k-P^WVI?(OR@`{TK$IUj?$JdzXj$Ct}D1^pWlSAY#4uwCJB2Yz_-C``a0 z{paZ8`V2lt-dhXoHGjD6Yo%u-^aT{0rLPufxGdBki5t;nsz2n(@r_OS+sD|Hh^OW4!P zg4ogJ#h#o8i=BU~xm&lLKWeGtPMv-tP+I$uIw=g;J@aMpE&oT!ljdaX`NUbvw3x@_p~J_EAgz*t(!MbtCoC<>Q(@+ey+#MehIQDT+?JI zXk@lls<4>m3s)dL8DUt-H}6B&p!LsjWlhba_fU&r$Qblq!lov;-K2%QE!=KX$i^n_N zCcpc3l}bXEejMd5X*_5 z-PN9EZ-4}WdiXr>24sKZlA@Cxd%Lo0_Cg2R(=}|}`1mEZz#8*ZLAW;Vl#Q%&Q^77v z>Xc;QFG+V%%W(dwHU^0YdCLyS`(nZi=;s^v%8g5k-jxMNC_L6YX>S6DeYup`e+TUD zR@InQ&ZOv!2$M9bs=n-qhcFI=kUFUc`nB~9Sm*-vnjJ?^;CS}KJIxa(a=iU$%a(eG zSe1^l+`Wy$ZS^0$dR+|0iSsrus`dYKO?TiDLzl4^HD1DF%m7CU*o}9BZUW^O3&~kX z)H&b6l|_qPUWqe6FGq;D0-BPLuftUy<$gLWD=tSG^#BDV3&`=`PQ7QcmVqKCRr%zD zG&%r}=Epzk!kO~`=bmi@V@a3WTJ=sS4quGjVl?V{70N*N%&@>#Ts2+W@v}aHSuO1TK$<)V=W)84)nhkQfhk%#8DiY zzq`+TNJ5?3J8dL1tQ+W(N3~f}BWC*=wDgG~tvfj`z_ONeK2rX-xfJnEw$goRAR@^g z(KXR3R4GUnKmDu{oYP@dEoiD{vBYgp=QJT+B7n#J7_#}C-cmcW70P9ede}JEEP%V; zsUFNyua7=pX@}Q!?Mq!(we_S)l)3j=PSU_k-uo2rRYmx=uD+PPOiWxf%jQv|b+0B| z2XwEuy*?Vsl|{tqx@Gp!#HQ@jm_yd+hp=L}7{6}xk#oVae|6^;ypl^yQZGfts-WZ| z#yY>$4`tRzh`hWtmbXk|#4O3@{oZr~9=dS#-IU34zc9FodWv1;W#vWizkua1I`~!hy0{njvcT~$7xqgK?-0_LWw}VAnYv? z=w(_v#ohJRlg)a++0n395^_X<-Z(U2%^*Cd6QQy7xUna$bJr}lDB|Cn3J{{9nQ54X z_JLx&z@Iy^mHzLy7kq5oDQtyfhb(aM)1S~d0LVD3T^%(hY>YIRC9dSj5=`C*efZZdRq%;z6S=T_|G4WLoSXB3;0G@4J_$T08G}B7iZ7+aWM5S zKf&}un8`SXxB7x_mc0lfg@rv}<+;T6vinQ5StK(l*di72zQ|2>shIT7aan-M3!8^- zd>u8%6W?xA(GRnat^eAu=5dU?Ja=zWc(bJ>XAFVCD`JnXCbIJ=VSpu|zyK)XeLW$i zF&UQzD{f)*e!I=WV^vZSp|R#IQmytRhNJ-qSgK@%8IIEZ*SS=ihB2o`Wi-H#x886| zS>!_q0q(5BFTsMuYgX{vdTwp84>j_6`-9mp*D$V4W(Qs(ip^8*0gnh%o2LbPG)WI( zhE#Ha5#xoxuoO)oCdge6ZgCGs&=AnWntD-v-)Yw6Dk8!UPk+{A#FoLS9IHVS zr(!#*pJqtKF024p>6M>g4KL!pGE(u}2Yy5<#C4Ak_*?w9i6Ht+$l+?{cK$*+E111mw~!k|TnToqYfUB|iwB=>HWwY!f#BIi!~J zLPkZ#71nXysqonrvt2|8-F=GL>6Y@^(zLCGmiyuTf|Is|l*sSq*;U#(AC*3GtqDG=TRw-GGw!2tF93}Q|tP`1W;eCQJ;D5B^G{$Yc{2{nS| zMSca~rnr`F9XIBp<8c?^9U5;DX%7}vG&WeA>BfC7C_xS$2xJu0a9XXX&rN!;kzwkJ zsdw{*e5+>5KfKBXlNva#UmTmvJFfvKew%K;vYji%D9vVrBWqMPqF)jf}VCe5yRpa}Xn(e`DmmsGu6ofk$NU z^NB`{ElAU@V6agvC4xC~x0!A7$0$Mew&}!7$0J63t%lDeE})|gw#4Cl0e7lQ2AViV zLd+TgkkX+yn%taya0>eBzH&EF;^9J#%rfuHu7}dCfPxj&cmU1wk0-ca+y``q`a=rZ z;jf;5aU3dlWeglY$Y>^_?s4!?+vBZ@X@m>cN)O_Yq2JupNNVH4S-&nbE&*iS%;)=Z zecZz|JN$Ofs~w%30c?0jY@T~Sn=N`Q)^%)?81n8ki!tMd%mU&8v8jmQ)AHgm>U|h; zQGi;ZqoR3~U~gDQE*FxI2A7&L&hJ{qb_y4tClH-VypR1oixi#P`lWckGukAKLZ>ED z&_V0i{%hBZef^1aklO?~o=wgBJ*c_y33&cu!+}@a{OyCL_$>t}M^0 zl}clQ7t-#8-Mh{*OhwLX&+p$W97uP5P%|cIa1S5i<#%bA#eplFH-OFD?Szt=8u;gB1-G0(^yr^muZ-Q)BA6f5$ zJRkxuXan%>3|FW@_=f4LueM%DY^V<61^Pn|sM#^VvljK+FV;*5Fq8~R{Lj0*F5WZC z-EL)gHC3vhm=Kh0$pIQT56O91qzjAlm^RicgtLK*mXuRfwRO)%5)M2s|BZ0`o+ch< zjkzP-*M|Dm5PVlnPR>I!w)17nd)*Qk#FvIDHyH$qJ06P{&$t_tBn&KV-=(bV^{c@mctKexEf*NzG0R%IlmTZ;H|Lg)PQA=p#-B4MX6A?jIPx^lXD;VYCXn;$|Q>Qo<) znFThm+5@}Eva)ZM!F=4q5w`a0yyx)$_1FWA=h2r}(1pWhWwJKmkZ%GW!yyiro>|f^ z@sk;X&##}#G$){+>J4AZXM@AoTg7V&>=I2$1`Dvrq*IJ;D#}x*fe&x+vVGfpqVKQ1Dz~{Z}1Ya+HVI1?8 zkJlP*ksv}~xp=ZQzReflfb)LBZyi4Zbc=HAQVrx?J1`zFnIZGX6t%6azP=Z?ogVRi z=Tb878j)BMb5^-n$%LYCDKj%?ZdJb1(uY5=o8<;;ac9iV9QZ1VfnynJv%rB-pwcM%h-*;w zinXkBVe1FFWZ*lrq&WDXi2d{zz9SI?ay1C+vb`ZL?Y6PU#^)3vTa@-h=R8kJmL)fj zEMcuxPI}ic$XFM`vcnt4R{Zm08Os828iGRkvFAl%7zG9 z!DxRkjz<}p=j|tMKlxQ{io@g*J^(eE2=JjpxWbO<&jYF!RuO_dw;JNyoyNfi5a{q& z$+fN@(lV)0jD+qidd9g({6OoV_JwNz8t?Dts)jEg*D#sD(~Z~Nk{6w3wqqE}klD)H zP0EMDsF$>?aOGc^ zrJRC{04X>yxG6n?EI|uKeH4=@w`-t1wZYfmJHdLq6LXI#F~C@Y=1jiH)OVnmf*%o_PI9#HH>jzJ;VB2_=1kS>WH#aULZZuDqR^Cwbjm%hIWGCn z=O!f&w{m(_O5U`Lgh1>s7g-g-9@M(`kW01>l6}zj&CjRikmJUn#~Dy4!~qq+H=@^K zPF-WFNW;(!odI&?>FF(V*T+A{wW!YFGZi5PVC;NBfi@BB*Luc8G~)eaB=gOdIN__w zNhMc9SMY{~EyBO*HeYJpA@7eLob*B4fJ*(7Gr*>}_eFUz_Ka+jf*^M4+ z-aGWxQ-=rP(1P=~ASt^j1dIwvZyJ&Ob3<>0EQqvvftrPK<5%?7v329?(Me!>f?yC7yXJdEv`nigzpAUkF-M-QW7~5573$>8v299PU_y zOBxsyvm+BBJ6s#uzf>s(xl}B-@s_g%FsVHPf#$T|enB3l=3vzaBW1{8b-T7PJznK* zCLfKH_>wcvEt$B^&u=hL6%N7k?Ct)EeTAXbvjR1B+r*u5cCN|Q^%gNTNxE(`k#3Kt zu`nu)-_J_~;P6?5C(#m;_rYST;C8#ZfI*|rwSmL@C>d*?rECJ4q4$8NQx>%Dh&H`4 zTvb`cbfLc5S5+6-fc9g}tX~5OXL1$LXg7+x$+o?bWJ|Xc3Y@TMjccs&_65qu`2(xo7t-bZH=lqIKaPglm>7tvtBHGZ9PBpvnM~{gP(fEt#DfJ=QMw6!C>&g4ikQ za(BLA&6MvlA@OXBj53Exa{R?# z_JCUG|6MCA2Uw+}cr_nicJz-Mu4_1NF%Ge}eOZqctMqk-;4c$raD)@M5cFE_J9!h^szfcjY%{@x3u98o#Ps2?2Uif;&02BgpX2Jn|)X?xhOnSM75bxes%;mV2e>ReA(L`2`V z@+_+`Q9lbHZ?4~h9ykf`+n@!$Z|V5nc=Moa zs|!>=xw(MLt>-cuA*lUmdvA_aVW)#fo=}kIJn7w4+p;&8s1mMj*!C1;rAjX7dNN7M zvLc$!`KbbcM*Eh7XtAkR;@+$PJaBGC@9*Sv`(k*$aRf_o#M=rm>jBfMsqN1rvx{t2 z7-<{PdpEKzG!M*9z2H20iKHK z14!IXnf!>hTIj2XA>EUj%4d#FW!3lFGQ}9=R5VAJE~iz_P~3a!m`;pbJRq+GOhXp> z?UHAchv#4Qx;fROLY~RQh1${vXh{HZho7lr4A%~sV5v|;x5cDy+MGyux@Nt8m)jIf zDBUs9U;X9g6_Obx`yzvN>i*}&>JMM$7{|;5#rmKelAs15>7bK?(8ivZ8(0IBs*)}h zG<0-Y98@R$hG&8X9iZ|+HO1cYkRZOY_nUat-pT&j7unxHD9asi2enwq8ef3fkk2!g zdYXSv3}BvE6?=gJk4K7keA;13_hVzu6v`lWGH8|t@3XE~i6EfB3vFurtX^;=`m49= zaY(EpJzJi5HO)i0#5k>#9bg1g86a=)V}@hI+x^Z-Kj9TKjrx0Bds{h|AziI132y!2 zp+7bgw}u?%NiPG(rd?wgwGtq8LNL?jd3IN(LujR5K-nNeW${WErkE6er%9bS9r_?8@G%|T#^3SYiwIUk|^pkGMsa*l8 zUw(~Oqqi6#DSHu*jqXE{Qp0T`mji$CgE!~rWc2{D5e*-ci6PrCtjP>jlEV@wDf%Z@ z+uKVC{2w;2Re9kz9WE|h4N{(!#x7gL=rS{3X4`0(KjSNsPpb3S%-ZW~0``-S1wQhk zF6x@r+yr8>GBTYpdTC}#S+CAQJ)9Yk#pMKZhFV6VPP+%$>KkOMLsLw|Vh zD*((=M4AkAIV>RiEkcR9!Sj-Hp&UD7*27@@$_N(wZ8LuCeW#J2!<4|(EkML8t22e- zczHs{kQo6*A6`F2rCs zFKbj>ziXSp3X~8ag^5!*qmxD8%HG9y@d1vdRm+1cg9O))v1d9$#VP}XXj>pV*Jxh- zwoc5V)IH&w_txH-%BKJJY>9CH(5&j;r|>Y_&E?41_Sfc4tuNS6#AGW5H&RfGI(5m# z_-h8{S`!F?O+smci=QoV`qdt*!WD_rW?dQrTTR>?@2=#&kX?`P7M?mLj;_V484mXqNSM48|g_vUv3ikc;c6rFI&lLR`vZ zgK%5UnSEa_(fupJ+dTW%7E(iB0%`>34g*SW#Cf|WNzd8+6yHm}t@D z1L?tTo+rSVnPGNZkuWzW2@c|A({i`C4K-VLUE%_BI>avTHCWH^>zLf32Gh@Q#GMHv z`fq53Eypgz@Z=7=cTNEN4Py4aN=u=v4@Yv2#BpA59=0WVV(aB}=3f16?OHW2`p3)i zlM!G4$Z(&eL*CfsLJpJNh};jd>jf(JCk(#Iz)IrOL^-5f?cV-&+O0amZp|?SoiXJp zSnQhaDJQ^Ub@Mp{q%aakZdJ)%N(o^5&keP_K`fk8eYh0d2vB)vN+zv#%6MLJyWyk=G~oy1EM1upU$b63_yk zCEHT*o;zNlE&xwa8z3(R;hy`T^?8*W2PB(PUYyj=0ev!nK6;F%-g{fdD%?S}4cAmm zNLJ6mAnxM6#n_dGurV3`3$@k$OPkQH}Br_Auo}2 zDdH+j^ZdVF9+&J6ReFuMn~x&-J6}8fZdhRa3tG>DQ4OUX;{9=)<8v2uru7kO@lqWC z-g>~DBmk*x^$S;qgns_Bjx-FFczvkiZTIT~CsdLFHtlOCZvl%QS54;N1PZ;`7c}JW72VLb){p1r!u`s6CL( z2dsdIjfwpZzZ#PulFb#kL^#=&6%4wx=6=b5RnpNsMM3i8s&8eiCp$QC?jJ_mX{PuG z>CYrMz%l~(hz0TWK*yFLj;Qs$MJcvtcuJFG2@u=e_i<_}cbT-z$5Hcfl;DtrfPylS zgNv+dPGO0c>xz^*{WpT{Ze8*cx^9>2>+TV-F(~|jH~3VS%Xl`z?t7`_{Yiz6-*b#! zp~7xUClHw4nH_;8W4QH72#sr4NKEXN4$7_ZkOMrsGrjOlrsWquP)sIN`w*<0^D}Yh zq5e}VJJ!So#;`Mx4v=^^W@%~}-rAZ~soszV}t*X;Dp8{bJvn1W1mhJ)z+6rU}_{RPUce5I`8 zx!PTL9V#;bSyf+ps<_8iBjW?wb@S~CH5l==gmN%k5HSR<1P0wchip-g+De)h1*KNp z=iq6fPWmYghHr~tMgQ*`d3uAS@eAz{1i^MDppwR;?+Yi$0lSC6x!Aiw(ltDV2a8(I zPQUVvYw>8z2`bYrEUV$E>QrmFY5lRn__IlVF+IaKs*u3@*q!ezuBbG#;2V2KyquJf zeWIBa2#R*P@5}OIuWLVi?O#yCepcdsF0wI^xalRH@68!rCHJC$H{+2gkiY()kb^%2 z;97iUW83kUTyg|@Nkp2U+bI(bnib4Xf2Cb!FP+yYIpIvpH{RFVj`oR6qH)*&_Kq>n z`4sn=#(_%B6i@a4=Y{pNQ_Np5B2JUzss0JE#{p>ZK2>DPk2IM&T!RlYVgNYB);*qi zzGDCA9XtZKbp8AC9p4lXdqAwHMIRgteC8tkxc%mvI;akZS%Nm_9KJOoDZo!S(ve{>t*lM%|=1SqS+7}5h%aN|# zc4Dag;*%u8+1J`}E*D#mL+1qHvubtl71wGjUTDz*C2H~6@ir;@Ooe5vUB{({U~xHi zbqNl9YvGt>G80CaEGp9WXye$1amzpK?#+8g=fkaSmIt4pulk5AU<(s1NCmzmGJG@j zI25}_`v$T86Zlfuzg_2%yXtWy#UAG#3B@DZ3&-l?f(2m|<$6X}O^mImd0kM4>X$wH zAYj5WrFwbUxb>d8=jPFbJKH^vY@qvy*@`ip5j!R6drk1W#e*N0*zW#n4zxyJ{5rpP z=heuyi=8Sh*$S72yS4Geac)8EQvz#$a6<7j(%G^PUo$Y_owO-Tv9rQ}9W3n}aZtLd zy^$M}bvF0vHMV`?>Bci>N$+7@B6ZR{9%r}b^{+Q~-RHjU0L$ z+}StqbS23m?WdLeoza2}efO7aZaYkNda>aI2~H;snncx3D|wpBTEsG@C8idxO|e3z z``)!KC*cxbktLxYwQLF44nk+_PxDK};0>nSgx-Leyv^9`Y;{e_8^-_@{Y-zx^=9@w~DiqdS{}2Z@zkX<_?jxC2~N!sG+bWTK03V zDaSq<<9SV^cDC6sL|%L)8S6-nkF3c zSar&0xf+l>{N=x6rfsbE!dKms%><)?XX)hqizkvptM6}hJ1=B;tgORuihQcwC!S;{ zg*1kIwfq+DQ6=J_=@mP#IeZ*?bt!T$Wu0_x|AG7&=Sw%&9I(3}ULJy;izUU%;Ezh% z)o8=pZ#|6mA}-$RAB4YPz2GCy z3wp!;iD(S|yjb12$eD^kRPOIN$l%yyX4g}X@5R1C%X){`hPCdfhe$_1^Aj{>6y_G0 z7N7Gn$F1V|9lD1<|3ALoJRSLUz;ZdcfD zK$I22M6*rR3%osUsk34_CD$u!klzL<_}+4zcTCjW+2)bR8r9~vhIv*|HcXL>;6ep?AmnyF5 zl1;+mD#(mremI_!i;OK&NEj7X!3CspLVX^m?BncONCdBYTE)DDm1By1f=fw`u%SKC2&oc9wdRJI$AuDAxHKsxq!6IZq%d+k`N!2nh6ORMym6dE%_kSiK2Xw4$@WY(DCKB9B@Oe=zuT|OH7tRYEf>m?llp;+ z!#WltfbS^WW@kJy6fq>eWNgVfHubPiwbd;7zt5EwkLf%!hW8fH`y$Lp$V9xZ{;ldn zuce6F%7t~}n=+k9G5)pkTMGP-#6_hRH|oRp^H%p*p#z2E8O*5>PQ&KNJjHs#SaU@_ zVMpR>jyRI}BJa?P5{53NrK^)u5M|?ziVNG0JyY-|hO7g%GHwaRsF<^_n8IFil{*Hh zk<>*LS%(?qr&2^drqIe_U{y8s72PU01-DeJu7Y%X@XzCcndF@oZ<}rq_RP+Nl}?Pr zE1a*eDhAI6vDS$OoSq7e@@@J*Ol`OZ?Mf}sEURh0xYo@IJ=~1sImu&{PduOZb=p=F z@6^{fNsc3(zz6lQFt~FVn2UKv+)eRHkKEjO2T>NSwiph*aF|zL*xlrd&@`T)U`FoB zguGe@Z_nR{3_NsjYG`-6wz5~gNI=yS2qr8_HDAsVIoZeu!}XS$1rc*HR~biBruxJV znW$@tN#j}O@{#YTTyRl35wMBL80_o?#rf{p5YeL^AiZ}Iv=J3L}v zm+rmR4HNrf+w6IU@1$3+;fKQ;SFEf24h6^vFO~h(7N7RueQ<;JP!60nV@+|cG8g%!2&oa&r46B-H**VbjOH)3fUq|+{jjQiq zJdbiIN;%eEt%blF90*Subj9wUUbn8x0-DhbPdJM#-o6(7z*FfDHT4&!8ZBUSor@%h zTZ)$n0m`M>D%|3rP+A?)m=o4;P|ETQwY`N$8=dCKm8=knBM%-w6fe{I@*4!{ETm~p zJENtRgLS^b{eYb=;D>dN(dam6P6&5ljFZT!)A7*&j47m0CTVA`S#meeEs!)gnhJ9Z z&+7?}LJO)L>49j+GEv2|p>)~q{=c%-Cuk}nm4>>7h1;&p2rDeds7<5_-EMCbc-UKF zGde+G-8whA{0xm*4ph`^ly=9;J*+F|sJo~#4i_Mse%r^T92wK4#us+tJ7-j?-1i7B#-8N^t6`DHt2x&W@iX$8 z=f$ZhY30)T_%zSQDVRKCH#f;EyKO9fGcIPlX+-_2!4gAl3~<;kG-!&+tw;$v{XEUnh@Kat+ zs&D}PPCDp!LJ6@XMBQECXJssow2KE}e{i$nv5S`c;0a5c824!5kP`ww2)m!yXia(n zqW~sXo&O4(qhE%`6HIo=%iT#7dhod;_XJqw!>{DpulBNL>XmFIAmDS)GTzA*&b?DQ?R<)%uUA08 zpl`<)Mbk>UUs6WXCmds3;{3!{%cbltglZc|k9c^as%Rmk)Q$?lTdrgr&Qpkcj_cEV zjIN2sjROREH3!VJn#`?=y=QH#;Y4G+K~&G|?Xmfh**JrCOLF zCLR>i50)k#L#?8nQ-yz0UuE+5TQvxBjp!4`ROy>5{-oe;h%Q79fj0vT`^Pq;rM{V9 zsN(9Yx|dF>h&R4TYtcy2ceJ{F1M8?!6dyHwuV!%b-eWW-cSE*d`5aQJ$$K7e#;>Rx zB19$Dcix9z2-iT3=8ac6YbS>Sx{Y2BiKnH-hIXZ{^8?h_%FgC~pWUn2wV^CTs`sM8 zU^1678y%ofTg?iYI_1Iw@im)Z-?Zetr-QLRWYi52x;c=S1EYdoF7m^X_M8%fA^Igo z4LVM%-j;XPHl?g#u$ztq9y`)O`GMQwsJNF&mq*_>Im{aY<1zRZ3OCwRK20`x*XGXl+3zU1 z+Xj^~Jysq2^2~rg3^U*0OdP})RH|%y=jSLjZe)4KIxgJn4-I&CfUA=^xZm-tiuY+v z{k8RDICwDTztU8bKzCBdoB-g8i$1z^d)i2V6fJRN4ZkSzttl3|l1T_B?R~8L87rDD zZeBPJZ|0i|iGj-PA6aH;7hFb$CN2^NCXFgkDF?wet*b4#%D^&|#f{A)Bo~ zUnh`X`uM!D?AojeRb(zEjss8;F*q$rehQbe+pMR_nQGjY(^&|RwKiuY?ERH*L!OSv zAKq4?2woE9=Xk7n%+JVn!d%X#@I^vS#AvVp15NS_%-`gTq2Nw>H$tSGU@K~*O0>86 zv6EHMex~ENlcr|h%%NQObC*4kU>K|hH;1ADYVZSEM%afp=oLkHJ`SJ=#08d3gW|V3 z9?q#l0V|aRa^wAmZWQa#OK@mf*k;abqz)A>`nm)RG~VJA9OueZ0%>r5n_-5;J}(<`|+7-e!&q4F3x0)~^s zgVSpPqS34A`{LE8R*6ogY$-CGUj` zo7Wf)=9Ws9<}|Q={EnCv&vD49Q7mJ!@!k(c6=GAx9>>lKgjq-9-V4-#{9a^kB)wz< z1RO8B6}K6PC$b5U?ijY3Qv)7m3$76Mz(_P~s8f38)gq||rMi6y-a}b)OhkL6Wmeb> z51kNdL1Y!dJ5TO$Ta0!LF_fn$wRfhvn+k6NLwM<`sP@?12jpZzm`KAO=SkmyA~c(M zeZR^QpGuKvcWR;H{-e|fpZ506j;1)Bem^Qx+j*x{vXWN(%OGx1l~N?mEO@SkwV#1Y zdAONmn!SWDdg)4r^Eeuwi zLct0bL@Z7931{gUHb6%%LD(>*+xJe6@Ei6@>iG~5WhbN}hIqH+EL$0L{EAl(qsR$E zRui5!XRwfIyJqqpU9#aiRO{p0AML06m%d>wewzB5t>;|I>c&Rubhr3i{mPeMX1f?L zDg^wZ=C*P8T65fl)?-oinEtfTG$c=CXvzR}wqEwXoa{Ghc&ymLw zR`7%aFloRga8u;2@fK$BK=lb`J~}Z%vO6FU|7uqFlLY{>+Il2jII_dhHXtj5)&+9` zsUAWQl?aX7@9cmae7)UiVZ*Ok6&b>_`s!C82$Y8UlvIPl)`^d*`J-Q zQzl1zy#5Lmv6+@}$@f;Uh%7-o>GKvEy*WG>8Lerb<)mkQ6Dxw&YH>)Yd!)F-Bvv6F zlhanUXht2Pxqc$m*btO$JX-7sAePY+n)-_XtpgWFOFA-aP$tRF_M+?c#+Cb3sTEu* zF%aeJkKG9)=ySiPe(~d9JBKR_@?YXnrofMguTjG`CDvZD9**;q>x;u2;8RDjauqcH zc#NMJmkQ0)r2Jh>BP(_EjVQm0EOKP*e8W!7^c<&NG6d|MK}wCR))*-|!0-q%UI@`6 zno9v-S9uT~{xP^{8SL4ywwTgR^;RZT40EXjy=`;GTAI4i2+#pyYQO5qGZ%qbwbh*t=AvWj7?1hZ$WWZ6sI}9h7Bu3_X)AC>9USS6bUxo$xQF?0W94 zX0Mn1agh_Aso}Bj7aEhMMFe76+#VZIR}uon1}lw&mJ8XVZx&uj{n*R%th)%!KkC6b zgy!ZP*nVET?j+@Xfw4#1wNz04@3@KAY9l;2ohmVBcm3}RBJ?dqt0zT-{8{4pTIY43 z$XjAh+Z{5?NGNfrgp#!*w0BzK_}MDFpJlPuy^w2Ayjq%o_n`v^(Lxqv-+h5IkX+Ny zaEH6A&Ls!{RN37VEmw?QXiwZC{GQW<+F@yS@Dy(7Z%xW9V2XBpCG*(5T(;@v-Q6;I z_UF=I8tw$-Q)WlL?wu!oO_v6COgR^1g9oaQ#1`0~T9VGtg1>!`w$bHOj!SQ;9!~Aw z%vs*6{OkJ2{yfBgDCC}&U747egnwAZo|pHwnJ<^pfGV5b%?5%zsTcjNoe!SRy&2~h z?6D|}0W~4!6W6_QiHjATU){8lD7cct>J6QzRL0M4nyOzqntoGUVf&%AEpvQj>tL_2 zT%s$R`%S2~GKl)ulGqoz({%<(&W9SD-==93VXK759zO*(@HfQ_>E}&=Vfj&i4gFxJMlr- zqc+WQkRrDM_n5aX2&0?cu2RbHdc3XI{#s-1dd>F73eK%GHei@XAVRRdf96iQv3gZQ zJZ6}A>(2)53jXt&V}~s7Uv;Sq(OY9$5FX;wn;c%QezzzcoSwC6wYwG*&Hoz>u86Mn zM1(3Cx2gFr@WbbRZ$0~u{vZo7H5v+I{!)@(t3)P7{`Laj;wvfNbZIe?%oDil#EIZS zOpyuWF022lk6f$SlQc=1=qlmI-U;iZw2^Hk<>6a@Lx@MErzzz@4&X|h30|w@u>iyV zv!$>d9Wq0wDhLl*vc6=RGIP+%1c)5 z7HTtNjeUzY(a!1!`GU&xyNf-p+J+455hYXZIED6Ig@h=Y&n*@KHGe`sDCG%N$PH_= zbW(+Fku;PHWphK+q}DdcZfN#ol|QiS@LTNgb?owRh{a5+x_#7Xgl7+X3vI#yc>Zm- zPM;7ZYJFgG<4kwcgmVrIIR&{K_Bs<-iYQ|`aCVXvq4}nhm+dt#EERQnq53ydXV6EB zmS1j$wFsXaYfn^YHG3VOD*2BX=h`wgJPTuP-4lw<1l{kVqRXf);VS6O&;r{tf{5tB zlz_OEiM%e&s+jWatK}@#^2{i5M3Iik`O#G@2Y1&HXCb%H&dZ{m@K5H13RH{2Kh@jq zz$R-HIcH$*2PwgiGv-2A_l=6Pl|8Q1>4%?pWZOZQ5Wn%cSZP@!yTLiEk@$3HIIt)1 z#KH@8?I5OWMbfl~N>5+eoEuu(8nDuU6i)Blyr(ggsCVexj|z8A1A=gs!vO6tAB6zo z#NQ5=^cO&j&JV{sb~yG`54PC{IbzfBqQP%5`~qdno~Cb2ChQy5U7UofIopYEqcvIy zr~bZyAPl;u>Y!G6!kD?teAMB2I>#CQ5umdlj7c{;5fwXB=(GlG}Q_tP3 zmc7&IR%+~ituf%qfD-^Kw(|9>20P7%ed!%a&04?Ew)f3nZ&b}xJ3R07tEjmH5BRUL zD86NP$65}x-1sBVR(i<85)%KHQn8SA!(+E=?V*=++AKxkQifMYfIW0jwiY-AMxiX%>VvgK!9)+E7;HyGS?7UF}fWSc{jNWF)Dn0TZuVr}KF+6-p>pZXG< zhz?X_i5%Twk)|m+u0@!kb;VXLB@9XMEpaIqNJzPMkOq67591pMzkgdoSgPA;vB*q! zIJv$Y!F}I0X`^V)e-qrHxqK4mRELhbX7XJ)8Y=ndi* zFOI;*#stdE1TRx} z5WH)<>y`udvuTGB8gtI13+zr!y_o44C<^eeK40pxoyeG2ZmdCE*6MP%EM_^k^vsEB z+n{Vnun$-2ZR8?zDNB` zmdLXDxmUa>t?gW8kz`L5sfs-vCUR5znXD<+oVp^pB1iJvwN~DKm~RkUAv4r?Yp%?{){R6EsQVosS3t_^?iJMqUW)XrTU!Bgesjb0;^rT_7 zzqSOdKHIDv2!p{A=b1iOJf%eD&NuLm_-M~g*eV`M=M1MBOb@3ES24SL8a=(EKl)IT zR3Jb$AVgg;`CpYfiIQ+z(I!Ag}0Pv;dG;;ZJY?xiUdXFk8 zX;gz7+E%w15c(TVEybrllXW~Y;m)MCz%<|g;S4Mf>?60}Pe<=VC_y&eKCJBgAASg_$%RDK24dpUaixR1@0-$rooWEi=0I}exOojw%ym=R6k$Z zjeA^LqBUvLoDUnx;p^8Pri_J#`zf1pUi2F~Xixjs(z+H#BYFm%XE60)loVx%5-%n)HojnfyMX*M}{y=SqbvVAdVg@T}KI#0WDQo zxV`bzlhPtveXTc?7+iyioe(kSZCZpbWPgOU64l$z>yOP5M>4kQ(ELm^PyaA zNtCs4=zi#^L90o&Qm{ztS)|`xo*-CGg9S z0#5btA%r6Tk?=-efuZre<{w*y>+q>5$MNxQ;4lAn%i_rKj1wvji9Qj?I4Ea(D0ntX ztW5Jp=^P)y$9(x*SG`bLlu~Yj>@GI=#U~8okoDnYZd1_@q?`+wlviBKukBtdeSeSYfcnpO0%aufq)>vS9;SQZn)CNcH zayQdAv}ag9ib^~`13!m&zpn0H#{RR%@iEvt&p`^oHRob1&bfKh#cKs2b-iGeiN*x6 z2|9Ef>T@*9A_L@L<{bbnZkn`faIw}MpRN=Dn$}(1Mo^|QXZV=(XX07x34m^IpW|3~ zWGkXw@otXa*Inuc_tPP@jzWMm;YjR-i6y+*SuXqew5UjM!}^Y_env^`d@QZqiotgo zPgq;*!ngThdQW26xVa(68rr+J&vgn8u;a^Vn$`(l*Gzi^f2dc)On~d`-%&ZKJdj%+ z$`Iaop&zA5LC+p7GggvLX@R_gV2*}x~=Xf2FjCJ$N zHZ9imj7toOv!2foY5kWL!%~GU@;0QcHh$XgLK7_CRG9Bv)o$oa#vC_VhlEFi!}Hq$QUg9b-RL zdzN)-7qq8s$yof(Z@U2E6Vt=i{rBBxx28p|NdKaw1NWx3`^7sBlAC&G{Lk2MemDP5-~?zI>DasVL4vCrnnd!x4t+L#oz)O5%DHJUBkK0V zUrQ7i6_7IYZic0XLsI`Bm1D^NZ>8UVA9vCB#&nTE1!2m@PoRnu##Cd7XGy| zn#}PdZ>(yK18oUYHIcq2&Q+aHJPDVA(gg?6JcFDXZo=<`oE_DLq4Cl5=GX&wzvq2R z7V{yytnQz-pt$0#E;^N9Fc^boTRpTX8dU21^^`>%=A28i;#EeNaS&_tS8*4f_nf;V ze!U>8D}m}gHgo4X-En$XY|5KpZyF|@Kwi%KK>JQC=0}OKw})h%)(6Is19|oFU;bc( z*&&J+Nqgqykm+Kj*rdv}RT}fvfAgr5F{>!Zw6&YeYI9zYoR@cw(lZUMhLtR^JI{1F zK!J&h_>TboG}5lsxz06WVY7T^JnIp?SYZ?BchKj+qr4bhwHFd@YBtrcqkV|sA`4FZ z@GXKcQ}_HP4>-ty!7yvn;ZZD?LySRcg};X@WUqg;ACcxBi?R6WnV^L<*nHaP{s*Bw+hNvBnbSSKG~@xB_D2cBCLzgRNT2 zh3{m^;&9rRkiG=UynNr+aUXg?jt+Z=uKx5JE98D(9@JigA7sFJGNfW7w1rZJdmRSE zqrTKv`nkF(S-PH3_a5yE5!{yOcgG6-kvs1cU!@=}V$oiaP&If4bC@W46w$uU^L&l3 zSc>k;dj}csN_jNiy@fK!hz;(0Utyc}A#pM&8%Xa_i z(J$Y08XMfo5q{9`hiDzawAlb#i@8SCKJj=|x8&Rx?NF`#3n=xnN&jR{uG5+m&u%u2 zqX%P8ShU7xGNf1J#G^Y+V4_6}sQkpL6d!7yc6FAf^K9VQ)mBjU;HIB+OCPxMr2ZjP zxtulwO&`I(kdyG2aQA*wHhR$cDB>J?v7l&cM=-{#MDHhit*G@A$Kc%LD7NX;fv)Cu zVDP~fZA&z0+vHW>DZtQDm4@HoRZ+-3`&+v$nKy;&nH}J@iaW1La7!Tl*Q*^-kh9`Q z^E}G%S!C+s1W|S5!b(YBQ=w=9=k83}Xm#jb=A`g9c3t9~Klc!d+xNKNWyygnus?Bp zAy_n*olgjsFnsyXMuoLAqa|)Ralx;nAEhtFXZZBXGbulDZqj}SUG+UO^l3)%{gqLK zn+ZQuK?j{u(5ffCSG(B>Jt3|2(6pV)! zqjS`;=7^BQ3=K4f{#I6&B~PqzY>?0bC_OH}%!IMIql`pLybq)wYnNHD=R-SIPar)}B*%dTk7sh#Oay_8vp^`>lhWCEC-qiXNdpdR^HABW`f%|rA>Z$^wWaAAay>mINLEc&3pB8<- zzJK8{u-ZiiucOeLd6f50Fk>REctRe>jH$$&{f1hv%J&qQ$MnZQ9%UF{@=NVAT>jSB zyLDLPq%zc^sx!&0Dju`yG^e3d#LEX8YjGPDeWKuZ7V&;kwOH@as3P3jT=`;*rh@lH zBE*1@33uz*bNfUC?;7^Aq&7Ei^yUov9A~1Q31#AjN0Ah4olS>?N1JZ+3*)g()Z|iI zyP(RiC0<0{Jws^9H1iKu5X-Zz5;6zbd~HS@xMAfwR)?;>dj3*j|Iid(AZ>MMH$2sO zU&3W)5$3YX?!eQ-3<`|aQ%BahI+Fo(}Ky+tM=?PuKT+r>vQtCsi~BeI5+Dd#6kxZ?QhVkxr}(=K)-&zH%wM zG7)%E)$2@!*3%=&pN}`m#Oc(ysXy9I*2OSbCm9`jv_V%kjlIsASxuvg$@sW{3=TSO zO=5q3&Nf2rPDOVf2kklwOs(Tx)wJ2)x}7Esr9_WOAg6R1qZwvSh#WZ%sE_t?YnMc; zycS3Oo+_)eEHdnd5WJ0;dM360(P8r9{hUj>gM}@j^w%P`GPHUdL z>x9YXTeo1eA@``TD}8tk8u=F0F2j&48RcO~02H7Sy# zKHKV8^Ty&j+WM~4w6ROp-0!c7ctd;O$3`Y;v1-lQ9kA^psVP`NE4^++rQG@I$t7E9S zRa;KGjtZ&aQ>iW1?Lt?e=CfSN{{19 zyEqHfZg$_|U7t#aQo)bF&WG-%PVuFQM*bHXehg4L0PDF!T$S(63)zZi3F3LaZzfuT z6R~ycWYw3(hou8VB_3n@O7FPTc8G2=0+W6LlwYk+{!2ndOkNl6d9#zOT|@vzsIU}y z2ZNaPtIaiW(SaG#nEKb$h^IxjzvkoW-Qr{w+KQdSWs0D@*5k(pz41k>{$O(i=VgeE zHnl#k4m!AZ_>$-z+I9Ey=Uz_N8cpK4VP;sh2iCm`R_x5LEbsrUT>Rc<&o9Sq%U@@4dXgm$ zv;EhV{fPL?k-(mulggNwi6qCHp@}o9)MUc6%6GMT{g8+IAVV*x5I|fTKIg(SBK@@m zn=>o5b}6ku-yHNA{U}~66{l&SGtfOt`LOXRnIf0xt^gp?{ch>QH-Fe?ZT|K<@A*{; z;}1?%mq+flf>NBvt$tw$V=jTENIFD(BSYE+!BQ&`)}*Fuqd$GMlx!t-6-9_jRgSEz z^G3Nrkk+9eB^y$DBHH`XP8Te8{M`zBABw5z?&DFWX%3g>r>Sa8uz;_`&LrEL*xVQu zUrPX2IusGiS+1$8Y0`eD$-Ov+h|E@o#f&MesS{a#IlP5*Rw%`F{88`MlE9jF&>$AK z`@^!!y(rQt`(C}2bwZIMr_II(?HFGu5uz|>dB?sAj9V0)DQ({gP0e`i5~<|2BH}of zjVS)*>8r9Pbb~Q9=F2F~!<9IHXTE#w?&_T9>?NcuaFPS){bw9<5mJxPeY0X@WBk56 zOOUwTx=Lz=WJMNys9g8OAev19#*9**9VA{R%xvUVeEfzt>t7@K@KZ;xDNYEW_77zx zg<)J#%fA=ePRD>pGYn5ZF}O4*Onl6*nkhv0`L(>t<<)$)B#R>R*6tfvc|4aNvgl8v z9JAJ&T>^65+V)^i85MXE&<7;+6^8@z{v5~mF|UL>fM2ooPQUQ?vSOr(ur%Oxe9+bk zb4#!%5hA3fqJ0sa3h{aEDgBp}*tErpVO%H{cWl_m2z+&bIGDTmT@*fdTQO(i^TaS^ z>Yr<0 zN)QQpLJJwOf(t%{C!Ofz7ohC%s@B2ciTYEo+=!KSOA5>P;Adbr z&|u$RGr$nQF%4$KeM&pKEF2ffrh_T<3R9AuWuUucCppL@i?}vf8MmE$^y{GZ{&`Yh z5~+N;Ms!c>#ufOn3#o=roX-IvfkI%h_g=^Gc#ifDV+V2X`yQ0&E4qp#7e;2CdCHsm zZYOKoaG!{73c4SgR&-6~j5C*UvX>+XlR@Ybq12L4g@QGiAB@zqQ%qE0=V)9|p#yzn zCF=7;5-buT6ESeJ*GT!)LNzGz@ynWhyu$N{}ibDXPl!%*{7HV+O$@*=i$|%-!;hJ1rnMaD~v+5||x|?jBUvS=e zV%s-+771==T16D0`*$K>tKINcXN)2)HMP?eZ8Rbmc!lrbkOu&_wOBgEZ=<~zm%_=AljO_fm*Jd0xXf4q%# ztgnOEUvt4LN_1-=g~Wj@0L- zW^kdxXSa6%Zt1YEVH8@3ZxQXn5|7BFU0MAZVpk&D2qT}K`nrk6Iv=WIh1UT*h2E_Q zY|a+@S4%7vnLRJF3i6@A8)?P<>U}EpQG?GF>+N;$6W2TS1Oe4v@HJ`s+`qxYX17Hv zjO*m}`q-r^;`oMk%JM{Pfs1o@Pk2D4uOlJ)~e+@_SEcnG?kTfTY z2JeEZR0}$EC(z$JzC!>L0`V zY+jt#))a}0EiHRo#`!T3e0YZ%)K5}C;}C?=_U7JfkDIk~`x+noSRv^rp_H6cEQHtF zM%q2O>oo2^uNF>kdIod;9YRibsBJmTiCNBFau@ne>V&6UF5G3v*LKgwO2yWt^Ei}Xh`3T3f!p{6;alE~(V zcX17k*2k>2bOUGAb2F&{1iyNg+C(B4fVzML$XoF=N{nkeRs&kJTj8jJ#DE$*|~egfotdw_Nc(ohNy*1 z?X65s$H`C6r!u?6kxP@tPcWMViG~~SYJbdzPkK>ugT+t>J5+hwhVY7e>U+iZnc}n4 zW-eJJx0s2Bc;5ybwB5&?1$M2KWmCQQiBdaYh0U(*DA2xTA7sFscDG+%x>4od(XntH ze!!(X1cW5ke{$XW4RJ%B>wQl}Wjoovq14?8W^<$AEy{Lud)+x@vXG8;@mu>rk} zqVlfYW0!*?KeEgzd7pCk)TQmN)mPZ6Oj$F!n7WuVF6*^_FuZ5sRCnV3wbitX<*r$R zc$-+LrvGg^#m`a*jDtK4YBSq=4%y3N+*>j|sYKJfy$}`pR9@B9P)>*Xe+i809V;Gn zQtnI=mrZi16!3IoluAR8H3@PH5lQHC6`#7&kJL_8(a8!+B-_m2EWCvVNzWAqL$W{y zISmz&+@$+9ab)OOmGP$f&S=ifQ4hWgP|BzRhVgZrOiajH=mc)N1#Z?}7ln&P2P)9X zuqCJAzf(U;f{v*dME-G)EVX|4-qZ zj>q`aKPGWbr)~*a3ZGfJenM#=?K*Z8-OJtf*vnm(exzt{BnUuSzm8iQmUa3qVqHh3b@px6|&AZ>k;1_pPdr{#f> z=}037br1L5K6L0{-NaDu_g;0feWfjqx=m*(UtW5eH2k`C9|U->*XZ|)Ke_jZ`B@IF zvOpMNoBi_<7?Q-AT7cwg|ADP@sjeBH9oR00L*k-6LJSt-KrK$kynHv?Kg~x_PZB{rJsK$gOF9xh8Wk z#Z@EAKg=q!2NH0O?^?%I-+?s&P`Ki)P6STdN7(1M+iRCb;WuE!gp1XUsaVerGy<0F zS>Q-_v!iKl14{6t@E|<(*upSBVku`O_&_>ed(qO~;#tSP24%78FpY*KkU$+zQLR-H zeBwYoeF74Ix@&_ch?&O1RfhAF=~lDPBQln2bpyMh!}kPlTWyXu|Ibk>wb(eDMA({| z5zz;94h7xqt$W1Wfz4!3#`%wb=I_@}A=DjSoE{k9$Fy zE`>RiZ-})LF8MapKI59p+E8(;eTB_J3csoir#?a0iu^&}$;92l zD+nj=6XY@e2=^9Ycz~GMXY1PvgM*u32RC8&pPLB4^pRAF(t^v4pke>j@!z}n1J!o< zpSxH-sZ85x9MUeV?V1V>q&{))`6c#xg1jrOVDvjxD?!7*aAfIKQ%i4OOJQ2%-SZvM z5y&S)xaf#hNJ%?;^Nha>oSV(#O;-62KN|HOOBl0y!iXY)G987STEm-_>$z~OzgfTr?wR#6ZQHh*5xKC3XzdBO8Pf>y78<0pX}*)(hv{;?=NpW_Zg-lM|!`xf?e zH9=?fXip1&I-hE*n__)RwRP`9!5y;t`v@eDWW?Fx)tZl990KZ3G`Yf`KBMNB-uqo= zT2r53HmSO%*-G#tsACgfh1;B23|5?~b{VJ)rwZZH_U>hnxRoASn921S@&cV*)cKlv8-Uen2hGVSl)i5f@ybt+OdVP%JJ<{o z>N7r<#7Dy8!A_vR#eU!efEXM4UF0JZvM&g*DRKRqAj2ox!=hqMG+5K8jhY0`RgB{= z+iC_}58zX|=@G_EdU}yf1))*&$(CaigV&$Y9_;w6o&Xpq%HgA(i(JYbP*S7n6K0RZ zie)h*^HTKNJ@Nj_Q`RvqFQdvcTQr!;Czqe0o;1{P_zq~JS_NWDnSx?N*ammlGm2Pp z#E|fww$-3AI<~q2Rso)R<(kOT*>K!K9bOgL9!mnW&bUvbuUG#^W5F|v{f61~^ ztCb*hU&3V$qC#O9w=D#mY@;at$Mehmtu3o)($@6Yo)zbZFRIuRZud4%eo;@LfWQTm zVE(_A;8QF{r?Wu`_N{Lz$YmORL5$z!dDZsGb7A5lj8uuKsX&bo8OCm+cSdQOYB8jt zo?;!l_dt&@vMwnRaGJI!NK2`;OsFXFBy8P7C?eNaG+2ZeGxT^M;=G2!PHf zoi2j6!GDu}?k)HH02G@mMLO1L0dIUSPTct|fAV&@(_K?If$n2e?It=pX}sCX2d!TU zP6G_ER>%FXB>`reGPlwf}$8@l`V9X9aXU|uKbjI zDQ8vfr|a-I_HUdVJLL+KMSgtr-WOJLoT5U8NzKyKksQ1^=n26;#kYf^a#P|gWd(KU z?S)dWz44br20bKuQNYJxhwIE}b<+>L#SNn>t-cP>(T@2t2kDNcU2Eyjp$sq3qVLg@1eO5w;ah;=+kkU4wK;9v!jIEG3bQ}p< zSbKJ^kgSHELtw4j1>O_9PFnYce!BlFeo`UIG=H#wXhPmm|4nf2IBez~{Wf-ZTtMM_ z0)0}CH_uR*1lNwMoGndzK9F6Iic)=?=HOGj)lpNEmp!98Dg#E?#-0NfKV-L&hIzSg`QtbX!t%TCTzgt08{gE)PPU}ZZ}TnRgey2> zX<}>J{OJT&2n$S4>p*5%68^nUMxEteO(Q@Ul#Qk}w$hIJ%Z1z(9|+Xrh}(N~I%L|~ zrfdnxa&x03xyYlvVDM)39#yw^TKKK|QICo{-1~EL94d! z7kF%&IkEWg+o?`3hOKsMc`bi$n~zD~0u^Tud!OIdw-$Esbyw@A#$s&CUEK?t&Q-dP zc+RU;X44-2vd1tXC@;+q%)}DtL-U(cBp7myOc+VSmQB?;nY3ArEEvim3`vEIXxPXGIdawF@U<85t)GQK{)VpabH-S^*Gm_5Wm4`ICj4Zho^Pb^+qrM^tCi3BrWQqym6QJY(1PW!5z)Anan zW7|Sn2`U}W#~$ChH~PY~6Vh z6RLxD7fKOuhzfb7B~Vjo_#mIA_RlTO81}nSjl=i&3AG{Ol)B$_uj_frr@`45YrQo0 z!Ln7eg=N&$dV0s>2PG4Y0cEvI%TmaX&)&a!o7$sq|ISJi{cZfQ``;H>C3T4rhL>O1 z_BqzQBgj$8z}2BNcna}(8F6|4B}Ey=!VEJmG!+So^NJJSADkFEJ~rXj0G3AGwV4|f z+(ZQ7>Q#F{Ye=v9L8;up55PqQnONYVpa`vaOsKmfxqaJ9{QogkXydf?( zZuPh0gRkFY%F z4;H^vV^?^ZbdIhs?qo-m58WU&ddp(#lmip6+h-18Em1eJ+RLJFi+surWtEwawD!O# z%gxp<-;q-@eDz`;_F)>mDnCF=_)OScLPd@Cg4)+9+dqHKFja8ukiuGf3y-FY8Ae~o z=uc{d(L7oN)S3NHMy2jUc6&Xo;uCLr2jqYi?MK#Yc1blUy-cyh zbh>XgrD0&3WslRWV-4u^ufIM9#bLxl{hFTSVx~U2>xr)#C6G$B0;ch1GxtX!D$ecR zIxpR8i6NrITxi@C85me5WO*~8+Qgf1>WlPX-nLSCXt5Nj3%=_L81)x%;!@{3>THS0 z**B4Ydw$XADEpyx&}6>#0X&cc_Bp6~I1%j+)+-OA3fhvPicOcsl7jCx(Kt%m>o3FP z%Kj%74##}WcvfHwb1|J#FNE(Xy=c$e{Q`yo3<$p`EKcvRZ5p+5mo{l}47ol@YYULV zSuYz324)UR6hxLd@j}bT1}|AEWNbhQJT}4JPo1kDWLi%&-!WCB!?1Fnj(y0U5^uu+ zkItoidHY@V!k3>!aYdYVf0XLf`?Xl=0#*BZmC)LfsnhSJL!A6zc{H6B0@p}mN!gxm zt^k89!(n4%YcAW}MY2#o99OQ(H(pRx5UcNPO@9&fwuX2lR&w!7iL9d3>B(vQ-l^68 zUMT9fobA&AVLo;uvz*?7DEO(3E=bjC$s`PSd{;*#{I<@EuoUIc^ZYZ=-!$$Fp!#}O z!H$>Jcz0pxZZMQJD7q!Jg&GPQF^_tuTWh$$iHD-l+pT+ZhL7!G734Mw5pSvSY=}=M z{tUf~4cB3{Ip@N>+_c|jHY00Dcu|mD!Uc8t{}}rYwkDUZYn7@9K~Rb`0Rfd}K$rZTy{;y0vAt>Gk%V(>rrH0=?3B`l3!2~bVhi3?{v z?fq)HX%}!>-D~zxfxok0&A@$OZ1@(6bghJ_!&Me zCrPo?dRKyPiS0=*c=BPT_T~eqrXJct#PDYrC2J z*vCmvKOR3lK(^hsRZxtfzu-YR=m1SnN+}X5NG)HlsJzFo8mdc9={M*KRVm1_lClRx z-$$ikdWH>5?G{ebT43GNqYt}95cJw&YiG=7`T8-mcBKXyle0w?wIrBvct8G?O>yScIr_b*WT4VUm^np z+Z9?+3-6az>_@bf0c;86DS!F02eSXum$A0Zrgcg@pmwr#Ki(}93tnIku@5_ZPZn}e zsJemrkT^7LpzN6KpUS_#N##04`cHR;b$EkFqy9m0s&zVmnz&GsSX9sbYRR!^e%U|n zH}Ht#lD-O`R3Maq%qtwW=~d4EWm=Chhh5~-bMNL9KZV91ze705}De(^0hwH!$-`At0Yl;*`+MA*kP74WPBe~ z5cel1;!&|1D`FGeSzZuTN%2U4{smZ;T704t6rD=4$Z!t5QwJK+t7|~TU@-EgVQ)MZ z(Joa)W|d3E{NW(vu!n?1svJab_dQHgVr0PH4|%`z5}1><=X)LBr@DY)~s5hWA@yUbOf zC9M7hx#;BFKaBh)su`%iFzT{8C*)I-Ngvkz3DF;WaHH{xVYejr(%#A9$<;qz4;OZY zd3)4fBu2j*lX){tzELY)bu{2>-r@=*2pA$rGe>OlhJk29RvhY>s0+vl5)Aj;m69>2 z_Eh#ht!G-or|J_pIS6Q_J$xx-PrqRf&`Q@=eID?IB~9dLcG@+{ASvo4B;uR{>$fCOA# z3*|A&E#Od3Z2IloHMR<~lBA8Cb;*(cyrH+6iRt%SgXM&TE<5wNpWbyD2ZXJBq@A6w zf$4)>&FaY2pX0w*mn-Kw3v9Ane zVKyu3^ShubYoCsl@&#v4K+6GO>OIoxUh=-V<0bw%R&%(^Egd^;9>SX&3@PgBUZ=($ zI)n)YV4gA*i14}VIYLrfKE5~m=*_W%_fN)$I6wL&;#VkERAn7t)cq6t=!30RK{J~_ zb0m|OAr0Y|#l{>9}N3F>H>WaH2&(sp_DP42J zUSfxp_lUTIEfN5Qv{R4JftD2>n@$@5xmkR+Nsd2IUmj6BC}p$klxOG)xEu7Ur5cW) zVzJhf769%!BFBo~bC|DAwSWO|k@^CgpCh#`KR#S}ZYyCk`*4{}=jvFOv(E9}qpS9# ztc0gOdo5=y#oYaAl=p%$ACnsTS9)_PIRt`58lRNX0OgfXJM*q&(pEFzmyYISx3tx) z!|chwjDtQRq8buVt~PcluR6(xbn@-*6kB&$x$=!C{+PPmK5mG-+Ior zNg898#^koz|IeZ~8=|Ji7M6$Uorbg#^#jMB2BHh%vyW_!t7-v3uiX`OiQr~6yBy-L z<_uQmWXMFLZnQK;6_SMG(H9a<3}X`20BX8($&bfA)0V3OHA3n?B;V+Nqm$zlH9|8G zqGlskQ78u<<^G`*@$1lAn|Gd3|7NA8~SLy z!+NFXA>VJ>u`az2c{P6w9Q+iVeeW9iRMXGaNp1C1@I_*r><#4o)ZIO$NCd7Tx~FRX zdx|NjOwCLWlp@#E1V_F2mH_ku&QP#I1Xj>`@Pxvy2;EbD7-3%n)2?t<(<2rwbxzOpwaB7D z>gXNpmDZhwVm}$M`Y248=A24@_{-1vsnTh`j>L0qg z_og@TxDWe#qRqS-cRgY4Ul)y4E~M`&YOu{w!VyDz>)y-XVDW&jn}ynk1KRsi%uIn^ zZ8S(mniVLAbhz5%NAy1jasUzx*|Ic|p^%^hDzSh^G;;g%$`6B^xHLCO*DQLw)3{;< z*SF_b@d5KaY1Sqc(-Z^P8%+B$tfs!Qkoe$#ZX$EagSZO?+l^_+&eEm9*VX(!@vDas zu@2u^e|WIQma=qS8SY}8V7Fmn8LE6jEL7*{smtuG)FcMllh*^a0i`PH)|VVM{n-*Fn1N%SMKU(mpLn%1D5T}> zPa!=MI9u67&_jJf<&@Y=#riUv%V#LJvS5M3W>2`=ZjcmBX>orWeN}qeuov{}%;C-* zYE5QRexO9SQPpf#IG3(=E0X*)T%mPg@(K;G1SP6ysSz zx)0JAr)9{rE_x}nXK|-(hG9Wp-7!l-G7zK;%^N0N!7O~``5br~h>kf(aDRgf6dg#o~KKa@JnY`9rL*_*7dL`W4x`*j&)(?RLVZgG79Pd5!oHIlGsBO>Z@pNqdqM>=dPeKj!~0mh{v22Q&mI*N2y#ztq9&szAd+2?xA&1S zY5Lc?QQz+efAz|fapi<}9(FarJD4XJ13)qeoDnk4lU$vmIe=z&@~4L6bRuTbnS9aR z^!ym_z$kfe+q77LZTu6HC@y2lZ4*UpL6a)}n7f_I@<`>0slS;y*o z8hlCmqHII^SRsYa(!J?{TO^pVmzvmnq9(o$z@Ch?znJcf$$#}Nrd$W7%~g@CN_d|c z(h$Dl;Ingc^apA5Jkav5GE|jS@5l;bs z!v2A2{47YQ6Qe#zGTu%Db=t}qT*#QuY)zb+&B4mTzh@#sjK=y>qQOmf+q^km4G8Ut znI!PCl74SBYFR&AsC+-`5!(8h9nK?sGZeW=ccRWlpiF~*mQfG+$=#h@*>Ho5UlWSH z>9(q6G1k~2hyk>ku1PACQGyK%Qn?hTr#MwV6X9ARi<{1TWr!~_a-d*c45GsJk+h0D z;KEAT7^UFa69Ib)>6M+DX#D<$ftzQ_M&?Qa>Midb7D^bi<~!1xr|Qlx&(fj+DMbX> zRzPVJ^Js4unzM0Zh#bYpyK7Oe1CamQSTvK7duyG;Ccd)Tb$vU;5IzxLoxg=2 zSUsbAt}3vPtvh_H=DpFTs_qkhNM;TD>pqG{fIvwDGma=pF|iLpW+wZQluHo5N#3 zp6#pDN~y})nyW*Q3OTTW5bJljr@!rkPB0w#{yiSvpc!V@_~8^l1cEfZ*6@VF7XND( z{P4N~(DC@yr_{@~Oy87y8JYkr#{mScomZ0>K;DLvF>(SAC|`&dB-yQVVv>mWzSx`t zdcO}b$P|>$f(PYJ4JwX3dS!>vSDH_QKtM#m<&?_$fT9!>8g%|Pj(k(_ePlm*=&%T` zEK2};A-?$hQ=rHZ_PO_CuqfoKka`LfQ2l;EHnKZYb5a$KkebSDhXGjP5vvTF)@-&+ zQq%#A?BVcPw}JPD#$*^k;Lq|Tj#(?kP&9-cPu1M?P&SL)3$$DwL(i99Amh)MD%%-I zop4#lasnQaDbbn+RkdR%grirTsQxvU#HMzsQOH@d zN9l*B?9_qQO`!ornmzW!(6?lJ-+FgXd_B=Ido)nmI?envL%KJW$2ci<_qR7|j-}aG%uL7F8Henz zxP1gL_Z&ipm!BHrzf+tbhMQIdQ{ zxMSY<8NLA2iul!$IVK=||M4+N0{~W$1DR*CQn9>`e9#5DZNY>zJmpOg03RO&qL;VA+_4Svg0_t5Cu%+r0U6E(NX zErbW{3r4b9wI^d?L4$-|2ag|JnjY_~5NgHJND1j)@&%6Mr z9U~B>NnloPb7|;gqmtKG-bc!L-A&)%uZ+F# z3Wh^Gy5T#f*WMf#ik$p=|D|S4wGFv`(KW;rAn677>3kOJr5LZ8oR9VCnK2#a4IWB6 z!`sI!cjH4)fgO>TDDRd`eumB`#|>k`SJkh}`(CUf#cpggTx(H=jWP3YFv^Q*sp+&zmuLD-Oh8-_oDmu9Z*N7@#;X1Bf6gp8Id{bCnQ&BX zTFnMZV!KZF2O-Op6tC+eRi&@2T{Y`SYiA{E;-ZQcs$&iP_UF~|_5i^RxsQwL?Cl|c zJ>G`GvL3i7YeDtzaDma1jxnoXWgSRXj(x8t)q#$|dwZGcRHiYLLuXYXuoc<61{WR| zOneV`i5tc_4G2V;PfFlqE5(v@-aF^< zSpnIqkrBS@htBXMYSDX0>cvbomu%W&B(Y%*k8*$o-XzxYE+pJiRJ>~Lt6ODs+_GHt zZL>hn96~4Ud~(jS-JT(QA|;7xJxym4qG~T=C2AqvVammI(#|JaXbbD&6JPzJdgx{y zrO}v58GODG%R>QCs>#bGh8@j$(HOg&ST~%Wm>38Y;TSLoMndmUb>EI19=zV{BhHgA z)0VRyoh?vw)dGCvMvGXqYz6axecqZ_lbP-&RHkYM4A4e2)SOFfFevrxgD@cXQY{oZNDR_HFc($#cO1vB9hfrK7Pwoi4w%-#4|V|E!)xhy{r1qkG`e&K-%#!Ley2 zDEz9bIvxD>h*yeFlT4`4r0q{ClHCBLRnS3jPY5xWo zl^2O;RHQePww5yeC@?7_Ujcg?)7ZcI&PsNcqXN_%s?_eq=lJqD874gKIj3vr3B5V5 z;z;zpTWFoEKP5^9H`M1B)@TZr*`2zCEy&FGWtQM$sTI>aT{IyIf)4H1=haz45Oq$% zRD-5_CQtN26h_bA(RVO$mC&j3njbo&w;5Q0+~>`1YZS3VbI%!DftVEKt#kbZn0?%Z zo668~O+bgM+)Jo_kdA$tjpv=Z@TI)4sh@h zvQ}Q5+IYHvjxUV#V3xQqTKTlOWuOo7J#6}>t!H{0I+)VaqI9gucVD4NB0xq zezqC)C3d%SK^Vaz{b}auMdS3`eINo{KOZ`j|mKHkZx!(B6aZ6mox&e}9_LLhg58%b2FJ)(0rG za&t+0bnMN1NPR+rbV1rei9@NJC<5H+aKSgZmg7{fC-t^b1T*B>;P9D0O4_ATm5W-f z5`YN(_D%#N>3F-hOzx~sSUg(iR!-Z+Z%+rDGbG4=Zm?U0+HKUQQqfDOi|7#y<-tz! zk+D_fePg}YfS2OaPxem%Db~&OM_L(XUeBN$I`(HB%7UKOaR75+N%vlM zwaqtR3kI3Rg6_wh`*p;c&U+$sr=In9wiNf5sZ^hDQJ-);mZtQ=gQ~CNEdN3);DHlAu|APS?e{ac_mjaSXT*8!445&a9|*7*0GRIX=}fdnr7p zvF=zCaf7&OSs11KekMRE3TR@@G@?eIy0<~|I}f*2n==l_qpmlZjd^EGfWplNucqBW zFODg@eWa~t8cu(^+^AC-^dXm07B)Lb!Vz858nd;r)RrD?hGhD z5l;F zf{towxwnTjxNxI*B0Vny$_#XH75Zn_1DPzz;Jf8<+~ukULN zG#juU{1}{br<+uofD0@lyZV^|(C*1!6qEBmQjFiE`gm^3QziY3-!}aj zJ81X%Gml?Wr^daHaj81n7!Ek6szzzJ8n6$sCA=|IBKJQoDBJ{7SylnPrE0+e3|fd{ zEwe-u-;k!Z46i#zOXo8b6%*SQj|Yta`2lT;gmTQr-9 z9$V6v;HG>J#hudX4OXlT);J)t-4J8>mK#I z=$;p&o|dMwk=O0|Msxmkk%iza@0t5w zoN=N437Aci)-FjJZLy*@lOnLrou@^SgXhp^HV;pZV86Fih)Z%L*g`-}QIu6>Pg;D2 zYW3)i2e`3MO>YOg=Wn(4{=-iJQU~x;v`bA>OK^3#?9*LZ6;}_J z$2h-zbcSQ*p{51Q0z9)XmbFzuLawm0o7SN7=WZ0Rs?;V_EcOyOW_O?}ft~#kgf5cP zTN*hlFk#DeM$Z=wg|PTcNDIsq)Uw84%S8br8=C`*mURSz-^F z2~Z`1oT+QZY}JW#C8{!)(^%;oB>&YZc6py8eUTW{-k#=6r6x;c0*ANzgPuXqARuIW z%rVuvCoLX51H72sQs!_SK^bwg^48B=n3{CYcQ&0z;H z)Z4`@&Pp`3$>8AT1r_$1!}d!isw=~Xyc|oeL)(Q!s?>L740drMAOtUE04cEyMY~Z^ z)c4EUCgCM)L_d9f3eJ3m%F#6W(6Xabe{dZ@L%o6OpIS@fY4cEYpMog$BO}Tu zdx#P^T<+i4BU%JSurNLwKY(t3>-N(E04D8<0{#_;tJ>k;Q~mF~%4)n5MlmB*S?bP7 zn#Pv{f{}R%a`N+qpglc}G73Oy93;3^U9-Y9qbZ@DtqoRE-<}`_Q|IF1j+JzRiHx5PEt{YPjoTe!f3=@)(PWv&{*%(fOK=X|a9+lM)1LII-;3N&>C z!q)+^(d8tb#DluHLThf^T9gD&Gc!$Zf)b8KtBkO8^5zdN#W=&nQYx1X$sjENdL5cW z7l=(8GZEHj3??!Q_N2;Pg&_TA?!A>D+j@QOm*Ut{Yxr=AtTc){d)`V09NEiM6Tuwi z9yS7eQUzaV=U$~VDyb3c$pD`cNmX)0L~8nCrzfWVy>Yyq|w%{!D4D+}Tx^%wp> zc|NvCaeUy~mt%M#7yIz~lXl6>!47V(fYV~rvI{--lbO{Q?7HJlhV+%M;b>|nDA%Wa zlGbZS#eeCH1=X@f!n^~l4p32MD>g#fVk)IAVVnQBP5Mn{8Trj%K1*jqrg`8|y0{`3 z-!UdqH@F@gR_0}-i)k2oqIqxQs(!yfdQ<}wojY;V0uqnvj5`O5^WSDTR@9mz8h20n zo3U1A((!hA4U{3kfRpU40Vn349F0H>@o;&=?biAoG2q%w6Q$dn%vef$wmGceRIqfF zsx)G4bl~`~1q<;jxS&>56YCazKTb@>hJXI6));F+tN~H40uA6tAu+<*4xq3$l&iCU zI$5P3b!jU0_FJskc4=y$CBNB>1{fP-sUrOaQrV@4#1HRmpux&CzDl)e&f3lq?`c02 z3J7}wxt9+@s$P9DNM zZ}brf%XxI0n(r|!R%<9~+Ka7D?ZUj-hz#Rjz*-P*_{0hs2J^wXJYA#04iB9J8gy|| zVyX{JA4keJU*bkFBk?EQ@o8uns67Cj_<=y)(eS0GbEX!;uG^(Ta^M4$C4v$DTD#k) zeQu5Q#%jS_QCFU|kX-rg5*54(eCUPu# zztSHSj(yDp_ZZ*VG5<+|&5AM68u*lmdz@o?^Ums~MTK>Z?#$@f7jLctW{YgUq*_fx zZ0MOfwN(kcGPJ@H_d5+8avphvTn*->oK3!miJ(7h5hLY2I%g8gvYCl5O_V48ug4$y z?-e0?BvqU6z9fgUQ2GH#@`1GR^8Lr_3}7H8_^g5JZ>evfOWXhHSkNF)a2=3}ktyf> zH2x4ze*ydy<9ux*N+rT2c>#EZU> zeDr8Uai2ANnT7rB+_MrSltx~?t|X?tc&lH#$_TAeRlh!)G;`W;8WCQl=U{YVK2$vf zHK`>*sr_pT%90DDSFq{BZqsi?3vr$0h&|Olw?+ST0q3S&=vB9UL@9YqwQiLKVHb;5 zzhlxtIbB4#WjDq}SyRs97J_Ff1_;x~(FAr*MPB=ptn6(3x+x8%a>MzHuZ)eeuJjZU zC_iNYBN^$iWl!^sZPIvt<^aJ244gsZ8c1r*pNg)>3u4^pO|cHgh41LR@Nn}e(cnk0 zwVe|_Qa)(>5B$*Ix$W<|);Yi4dJAIae6mB+aGSy2C) z_rV<484_usWf#}4VXzPsaA~Jjk)lIQ`#$vY$?+co))R95Y>P~&K=tq03)pKVRtqt*8{fcLrxj`U1EqYTxG8aTObfE!C9xd zG@Et7e<#e*K;KxTFSJkVT~m-W_BL%*Uq-WphHRZgeg7DC3b#|1>vnWWZAs9p0!UB; zX&)jo#r}(sTAt}DP$&66E}Z?z_4PY}#L_d92)C_461)uQG@@i)yIVVaWFvQhk9M|z zqoSTUv3S*fuf;BhG}|nOeofweG1BwW!AU?DG~|&SqdY<*$OWbY!f8I9F06%Htu%=g zPD-waan2?}_JbKApC0p=T?`5GW@NSTKl9BQ1Sx6kUT8TCN+n1hI%Koh%ojPK8;cGf zD&Hs-Un>?Ubg-k{M8{|Z@=9xC8;Y>q^q5VgcAM~ zksJ*cKahDX+ab$bXY(SU1g&F2njtnxh1Qd#YuT5T`h}AOMfyu1zOB=CYlQVO+{X|Z z`$2^zt0vw3%#}T)MA{A1CeHt7C)kWK`+xo6e3eVSt#_`a*AG!A_52w*X%tQ+xyD>ZiE_H`5&#X&gRdQP?n%%T5I?#lqKE7wWjm?hQgh2p9~Mb z=|70yXtu+SnW?!O-E~S6D#cYJJgwRvWegPJN^Rq;JWD#LKc>@n&Dz{@2ObnV5|EH1 z>)fwDFnje^wcT=UA6BZs*PZ-t)(T6~;OEZ718^zLcz$DJcq}J|2hIFLUMX5yIDu%a zo;@{*t{9o~Hdg}tfh)+PRizzo^^kH%FsZdtpV?g8aNm$mcNtX2t2tMA?qEW& zG<%-C9`g~b^G&5An7inodMsXMf%=&CxNQl<%B-V>t@MH1ouG!3z1{!fYOz1JR=TLy z7bL0lez~pG18&{I{Kt*_YmHLE^}!Tb9~@9g+q0r3DB~>j?3~?&!e>VhKf#0*qTDLN z0E&asr>ZV}12q0ukNp;>OvbZP!GPO*EOJZ7PZ?*7O}2p^6ex5ml)?pIO6K~i_;o&( zY?Ayt+%tj&<+=?nMY)-X4UznPp%^y5eSA`s?O|&}!S!f;GbDQWUM8s1$5(2X6|zs2 zB*VzGVWf%n?($+yfzUNkF&{h+R4!+Gx>idK}M&Zl&yco!r zx9mR~Z~BX>O4WrTRsWHS4?z+X)ENSAaC{G0Nm? z7NxIh>J`Y%#JY;9juEL;TJ#^V{FXNe-pob zl&MwOUe1v2#qf5i`vw*KbtRslDilYwj7P{{jaU5rkl8CmLOn-Eoi^a~x>R6V(qygD zm2GqVW8zd>Z}y^=eu%_&{Qz40Y)rey9m`8b`H}di7Pzu817vOb0%}GN5}-?OcA7?} zBEl;RADAbUPFS$bJ&2_uymP=!mVTzsWYE&0SDWoDw5M@k#3_H2yLi9lweu-6K#TSl zatY|eV7Nk3wds{>93YDuI8Io_lChN;hVY>zK>0uV%>@puT@MgEVPueYdVL>yreZIH zp==)Emps29oai%{w99gy@2`Aj;1V(Vd&tva3UL(QV%m@*&O!X9WtsmEOK=HpwV~-& zSZ6l)%WIKe;!CGNalb5NG0;;$+cy?+?2Qpq! zlxaHWCc_ST{WhP{#}AHL0G)q#ww_tG0xBY3Nfi{AXG>hFRaHDfBUzjA-N#d>=Og2k zL*W91X#i-uw-fTeL3U;NZGv66|8V$u&@;GZi*oNdE5X=Gpfdk<`l8^Oey8CYac<#^Y8vtzV11}((68ef&7d7%O*_uS7cfRt>Ub{Fe zNzjEtg1F>fvEt`pKSWzT(ADrCC0)q_v}eB;x3zCs!E5s9zHsaQ6?WET$sZf=Er^~K zn@&skgSQ`2iVu4{F*3KLs75 z$2R~|qt(aF)U{^w^H1}&4~zUBaAxmOJaBn7W!~Y|>&r9nL-+@`r6)&)OP=q`@|{f( z^#Ztwn}McKzYbwmwc2p}LVM~r8r@MKs9@U1lw>egu+?zdm|x_NoUGe=_Dq8k{0%0S z6oY64;*STneqX%Iuo{d6ed@5H*-h=R%>%g88UMCL$&?elJm~UNd_W=fEZ-^pD=oLG zuF8KIF4ldP=t4cYa#AL#lKndLC zhqar2=Pyyp5g-^7nHYHz) zv48 zx1=192N*Z1yo)NbH#)rk-Kf~u(_o2F649c?xlFE zyI{mX2IyZN2#^DUF@B4K;`5q84Vqp-JeaB7cV0P#oNcIEOhUb8bDrIR+cReb(waMQi@jo+K) z>3a_uqhDJTs#)=^1SQo$t}6|fEeo_~#O_0#Ey4NVyFP%GE|fFReKf*Oq@j6#jX49k z1y~9=`Fa=Mq(`Na!dj9yx=n}o0ez(hYkCUK9Wy4SDKq`%1lpCVJ5l9#_X#c}f#o07 zlX14cG-9rNsw?{Vg&IK7?%ACK^a~2WP=MuJ)*09SoPC>>&w-4_FxK1c>$EQpBb(>C zoP$EF0(+HDmTdM>#nwI4E{Cg9ry53;3tmjK*=I^uxkXh;+jE&7$^(?J1%oYr`kac; z^wR_V&bP~_`N(=lo%zTmXriBma@vf6GX@YJ+kJk4+rY^BQD0rLu$vY6-o#@kEOyT} zZbXGWSzs4ceeCq0r@Vj><<5h#6NWoWN}t-ABJm@V4_e-q7K^T|e+Sf&LcGP?Tg$?V z;NGd0CocM&5YjSi0lQ|SX^&%7I{d1@9KNPT5(ixDklCYu$<-tSHe|IRi^X#}&1Sl@ z0>2?sg~)wJN9|2V;r;o`lW9Hh!=>$GX<%kXaF=})!oub*y?eBLB)Kb~Ls+%gO>mN zHo@6vSPIa0me$M+?_HyXm2Z`+65Xpl&jPS(^eEU6+@H~Q;`XE zEmkj zby{SE`CrX5OKRk3(fsPY6`?u>y+dFXq60aB&sSx*awU&A6p@cS{n;sQm_ccn`iXdN`7%N4!stia5LPVk3~N5 zf~WEWALSPsonGapGR4a|JwC%S5SwuDRbT%xEJ3WlL(M+s>Z?%%3s)kycokkyDYxGQe z`Tg%#bR)&*Yfg`y7-0|QNxIlT4{ap8{+HAawNYeq1As~5!l^NrAeG>0?gdrEkz{;m zUsTqkR6n5hw&=R?V=r0dj~5QmmMA<0$_^yG1Fq1&uZ=+KfqxCKj<_80+O$Vy zG$&_Max-u3RJ6E7ab<+Z+p!-+N}(@;GL}7XhLuqyk0?>d^7B0 zmM}vz_|bVIJ&jR4Za&pltf11KwJ@rIpPDUgIrZ#&X~r#$92fL<04?xNcWLL*ojmrh`&?dJv&1AX;q-_c zsbE$FLaPH*-4D(mj9y@f^>l?6>z;!lsT$cWh48U{Nqc9YBI)^74Ro;J-`Jcae`>ZJ zUaR`d7@6~lN41`8srYbn+Oe(luPH6WRtM|Fx69Kc!QxCt3dmSsS;hbE&yaU&!5pu# zi>?xJVS$i@6)DP0J+bMvo8`^d!6Apr@}3=r)Sx+Qe&AjyH@DU`X_q80#80>c3#%g! zIXXkBG0P@RX6uU7@q5n3xuHTzX|V_s{9bl|cvNrk7XY^t@s9P3719H6mM|nswP2(U zt!eJD?L?|ym}cZ<@}uM z!Gx@T8MJ-LjVE$H`^Dj9qsIQ}PNN4FmRJ%uLIz4ZUpD4vvdFDH2@30j%lsrQDF zqX_HN!>{jNA!)g z?OgSYy1DV^cAMq2bxfGOwSo~0A2!p(_Umf@8e(dre=UD&YpYeyx+I8BN6@U(aPD>m ztb>@ZrS*RZixiInpwJoRf97*HBN^VCBVnz*X$y{-y9-alccjuk`fiTsc~PC@xvz3Z z<{6$M811Nt_I!J|w4OGq{teDC=p0t~s`whbzQ?N+k$SS9?lQN|);mdL;inSfamfx#D-fpmX)>}pjnFStK)q=% zuO0e6F2+@d{}N|&FQwQc0SAvU^fXxi86@;MlK$g%6A_=*ev93V86h=(T!#Y8Ym97ykmaUVvjU_-Dl ziM1W_3(&sz-T}`adW`syo4#rPgnAHKx~=5icwp!OrCXuBn0b5jm8KmN{q zwp?(ams)B%*Wt0-#*A+?o(^gN-1#f>6c920x?r1noJPo57;TQ1$*YTw&J8kLBa~UT z+~aeP3Ih-oEy@gAP(r2#PlSMB08_~-$;oLQ6;%9_UTa2eSo{nG3)NH-1YbCD(Al~h zlL}2Y!wm})i{;s6`pq2$G^aest`r}6t^L5iP2NlbQc0@YQb`iiY05qA|HW{noZ_L8 z9-l4d@hze*CG1nZeD*mbnnM7jZ>4ZXa$RBfj$_sOzZ@W6f0?Ez-7&6hIPE#F2{3N! z0U_4Jb*;@*Xd5G-XTq9;pkt;9o(u&=i9kwf@DJg`mOMX+*$;D&=$kxtC9&s z_-rMVHos3FS%wd~B7k5YSI{3FVTxhH2XF^<#|Jv;W4M@!ebMcMWO}kyGWPq6T!7rT2T^$Y`TrD-69`wqctKN~|;oKFGAAvaD zYl!vC{_$TfKyq2LNW<`t)KCiq>NfqgDKSZAeGnch@izVPeJCq#m>Sy+|is|nK%=>w{NbnUHA zijAkR75Nk#h*e~s9*Eup@KV8n9XiuG?RrHNb-%3D%khZF)KT+6PGqvstLIZ

VFMV3HQ@r%VoQ-RJ;ZHgt29dZwh^uho8!ZY=lbe3LR*;5nkBB&V*ujcm!yd7ex6 z!89zrI4}7%S*a(DOj3ukAw_$<*m5%5jqqXQ4>O%yXps>)Y~wUvCZMIs{;rIWoX>=$ znl=<^-%E6}Y}hz8o$r$NjbF?Z+T;G?An7Z6*@rk-FG``{r_Kmf*u3{lr2N@S z+!BHFyaBDU_IXGr^jV_O>x!B5z+azwZJ(};JB37?Mza_UfC-X{u$RBD!xo5LmJ)Qi z9M@I;z*-@-L$Cq!%nzkVReBPHec;k$w&FZH)7mhiDoCpCTha}90$;6v)@pIABHL*k zGt@Y_D2l~7M-{(pcAZ$`tQaI2mcKcL1%>uDjODWs$Mm7QKwnPo&Z_nnbuf~KbkIqL z?OJ%XEOnvfgWH6yNfSe~hbzuSId#WWWlmDFhX-WnX@cz7?I=vuBL>UC{}6O=*V%ec zUk!|@^9Ksof*E&fB&8CXj0kf7PxU|=fJ6qVGajps-slPy(xPJYa~oJ%7@+e_TAT*$ z?4qDO=a#OnT`Rfd=gPmY)-&D36ifpG^UgMW!EEAiXChQy)SQ(Rt4_$_Mf|M&>YStW zy%Y2ufNTt7Ev7dIoX%pcYe02QZ}@HgPq(wBfOaj2nMyZ-)G)bo?J#NGU?NJtQ93PB z)z(KJq2I&RbZzWx>bvEgXhEm2`D{le(J5f2e@y?o3zeFX%!&9|GtxQiRWmXaz4l=8 z3y>k!-;fta?tka?p)2$hpfxL$V166#fPrQg3e-z;_N0HlHCdgCW;A4Lw`BQ%h!5D=0862IlxaIXG4yct zXI&!ohS{WN*aCif-Ew4ykJo^rGe-Ls^ZIec@SH{Ic$WtF_<#;;Zeuypr?9~)RPUUQ zbAn6I;7%)i_(0B?91!1#>;jtZb$<~5%fjk&eRyWa$f0N*{!e+9q3?f<%1dGKXdwtjz0r`zXtEZ1^?f z(YGeVHEZWdUbD&UV#b<|h06!6mwIy$P<@%(dvD?pqaXWz@|L&ZvUN{~A`704SO_fB zIhSy>b)~eREBr8Sz98{HEksne1q+hN15{rey$Z;$Y2`cYHMm;Dg&<@W5>7WBT@ju={=kd>$ikV1W8NQ5(QtzsEL()tEs+Lqz`JdPf;!}k!@GS8vQtdMhgxo{r$Df+P|0io#Sjq z@l&VXd{py|90IX6qIF>ChOqT0WQ$KBTIKn8MZ=1$+ATt)hVT` z%$SkNNORx-TEdA7tel`Zh*eCOkAq^i3Pzh(XBR|&@*J!Z!p>g^HG~Sj&OHi-n&5s* ztdz-Z3>_BZf!u4TufBdJvbix}Ym(n2i=yEvU-SbD`f*>AM0l6<+UfFf#l};XEgFxc zba;)ZDvp`Iq4Haf!umR^bHh3-fBpj=9mTIZot%e0I?jf}Plji&4^^vcW)1_f)u5dS zN<1j(s*qP92Ye3+TllP+|YmX#{=>oWrdQZo`-{%L<^>xhHvWB!4A9C13xL2A204B6X5pmT( zRW;891Rz=;>-cA{j8)D|_H9+@cMTCFXiIezM`NzbcO-fb0P?P$`-LA zj-0p+G67ypjgl% z;&h+9r_jN0*8HV8Nb+lU^b3Fm)c=nKyxpRBBPe@jDsIK0Pf9IC>7Pz&fSS6(c#t_w z^mQneV=Xzy>-^|P#*Vnl@i9R7u?i4E{6VAl#cO`c)aUP5tcHcH^4rCDtl`Ke+1mhA%yDieu{qHLh`j5kqaekToFDHSh)uVwb&{#*Wceo1xnqK~0O6p+Sy8M)4 z&_IPB8g0>jnsAh`XU4?%+5N)A1E8!X=wQWqlBWLSNwQvizpNZuIo^-`3IvSc)U&QR zLX@dChxHR6^A+9vao_Dh1f6Sa@4v0Y=(UJtJ`0{MR1TU7J+40V81bgzMR6w(F!)y&)4|f)+b@Gy zW(}yzZFc)E`J!2pByLaX@gx0K7xe=#r^@HRS^G^}FYAzb4%XFfTK;dpt5_f*1$NmQ zL)JOSDxV6cKp#3;TCz=5O3_IR75crxqEaoTEH~TvU)(H9=AzQ?4G^2DpN#J^Q0^c- z$FI1pU(a7>SF_tS2T9cWhl#IV1;9#I`s}z*;~mi+duXphS$)M!?23+`%3}a22OU;6 zt%#OyAXfRO3({yJegLoema|kZ4={Tt3&?G{!rK^d;m1A?Cz2D=lo~#iNwtgw0_9^7 z=tB^L=cBfvHqaK(Z>fgR4cp{$wiK<3vJ`^_9FVbr=3ig0|Gur@%J1`5a|7II z$mfc{UKTBc1-eiGS)7)oF22O8{fEdCg$gD5+1e4$4IUuY9$_<9&qPn8`$kJU3)LrR z7lWSA#?JnZ)vO=nc=Sn9e=SQb+d_8;SiI-Orj$|zQJ2&M{mGe(PwKr~^rE9q2I3R{ zXF~;4(!h|Boyj!3WY=HLdi5$CNDUd}CM=ZARmn5+zYj-m-Mp!(9Lu7kCZLx8gAhwS zXzx5Il{*6-7JvrQ(bC#}5*@57y-u}=|Me*Pg5jwHjF_1&ld+Iz;xT~G2f$R&mUMHD zzn}d7ebc_~e#1*Uqj#v=_zW1~xV>p{K&jNIT%0AP1`c z$Y-Vo+hR<*w^-VRhyS(^!bDv=G`uc~6CGd52gh*>-U z0#1lnv_B94@(Xua5n$;i_%&672B5p2RKYcJ>RR1V(U9K$6xq;Qtp zR-ZLf+#L!KKG==2pu5fcpE{a+`7D*$?i->A6;e8$CYY`cQZ>L16s$NKGSl$_kC~o{rx+CJ#)TiKcDkCEvT-4Fmq_tBPE)L7A7s& zK6s#`S7E!t4nu36`PQ$J=J;aS+J|G`ctf!X0CyUnLp{AG|LpKVK_L}-_h`ebRlfd} zy!I0+Q9UdXo^2cYR@Q5reyp7j6W94PwWnu45HJX5kXz*$i#`T;{N>t(;D}|PIRL%> zn~Mj-$yWyGEp%Ch(Zt+fSw+p_o2h46x+FFC-o=Sam}EVZ|Ht=%8?6#mri7ah3Po#H zTZg4u?$~~m9HA%i3@0~{OB%uS2ZtwZYsW6$TU_|~3$6Fp6cx)9sf7;hX3A!OU#vXP ze+676V%)S(9u%2UZPQ~=rJ;@WRaat=9|DuU8@{E>pAiatK5N~tX;u1l{`}Cfb92i7 zt^U^DcWSrFJKaO6{N{f=JlIsc_1+X=H znav*n({!_Fm1g6kkGxIHRJ2DdNUL+MGEU}NJB*~y%%~*B0a_y{-~7|r2SK-^wGiek z?|cB1q|iUlYX&B~rfkZ0iBxS5+Vd|iJuPJU(D<4r(Xc^_&HL`S?ygI^xYl#3KiwN2JUxIj^=VluCrHn#%2UEvaB~VA`XKK0oyw=wD*-&27Ey0 zG^)0R@0TCW{URC01BzjilF+g@RtJVk36IikNU3D0j zZzSHtmd5p;&ou*NM(haU>o(t#z!R#0H~v*;cUZ@?f{fIrPx#u}dxVjrOAYnM3btY| zt^IKF*uA0ga|!@FbuIGD(`)CdUb&-J%F(vOtwmQYGQi%?>h^8T;I^27*=pLph#TTs zxWJ}DZPp&=SpEDSdx~k^OVY-cisGg!k$pN2u}1;8+ZDwQYrY8_hu5Eu0|l;K!rnK; zVbNXC)JWI1$GO>u{lI~>PL-Idas6lJrc^g!-vbV&c&6Vvu#h*UWOLh87m$m5d?bE# z0LJTcQ1nRW@7o7cuD$?kLR_a{8F76_H5uyIoIppa)VvtgrVN6jN!uY?uZ2fJTTS#V zJ~Zf}tMX%B4k-75hl2>%zh(rw%Fa#q8xB~y_4s6gNJl)-p%P%5`c0ShP-}k{7kjA}w-Gz?GkzL8`ezk4GWC0Sfsmht z+{b25kYT)GNh?&}@Cv{KfA_iLK;+|qU;y;^G1%XL^q469Mx&3nlr78QWme|d#JqO^8zy$L4;9%z;}%(wk99xF$RZfe}gs| zSdvN&L}k(zf0%2QB*#9)T`c(nDymbxS^}jn23pXtfgkF-KdT`NS-H*&DcxY3Ko)S$ zqC+;VS={CtL^~`|b5rD(u__QCEE9dSt4(78U%+~8N80RxRzxqiD+KTl-`u?~7 zGFPnx*T4VVclI=TsaCsY-A0H)NjLZ4+aq%%*7aZRtX5m2$~h9#I|I-Pp}v+%U!BVh z=~o{2pg)!ofUiCacJD~ra6SQt-ro(-8R#v8Zh9vFJ|d@5Tb1gn+NgTwrC z2{;i=xUO=0(YJ_1J8Y}6kQzA|h44Tkns>sL-+1;WAlG;CZ)t$*TH*T5XxqeZl&!7c z70%wh^LOoP@5D+>@$%`tbMNOjSHOKnY}^2SFK%vof!VDo-vQNl>$sWGHLCf0EHCH* zz_y8jkI;GarhT>Yt^@+BC6d4Lbal0+d#=T(nEJL=;NFqU7$8rqFCgr8-cI3D6?Kw3 z$^uJ-uVmX70)!sB1D!JsnqP2_4)P4wd*`#2w0kkObrS-f9$iRGIub%yvb?drJNEUp z9oFJOCo1PJ-rFm(7gU0JGY0uNzc85kJ1e4VnSh>YX@v)4AwjE1Ggmgm(tWHPG^p#t z^(q?!RKR(9@4c~b^NR)|oD1%9O=E9L%C;6{AMMge)EeFRvruQ`!_4cJf$ecVb1$n+ z?^Z(VE4{7n<{Mz{8~4rOuE>jZrLrEaIec0)j7RoUn4S+VN#OLFRcE3ym6fn?JFxIY z1D%vG{I-bT3fQuqQk-GX!_U5*LjCx;T^?XRKBvG2Zz(^q%9JTs=MOcO5&Y3$3Yy3* zB>v1N6s@cUE%`aW*+H97fe9%6wjunnN68uy z|J%RX;r#NK7rr2QjTXNQe}GcJTQjqLXKr*q~gTwh%`XK)n z26Hp+aKicUqK|vG)wPFp&L9ede$e&i-Z7Dh&Pi{9N~jQx)FKGuDk?NW{`HSGxuRF9qfmn zjSsdCE$ff#?0bH!cE{;Yc=rBV5rMkvf@y+bw}dKWhGVR&O{?#1MpTzb2yFPg6|*i- zt07zn+F(`Q8FKqpZDTkz+25G;<}jU2|G52e>rlj`n9_px-Xq$V%M}){pRkMO58bFz zCgm@#ik@BD!IE)5#=?FUcNh#*uMsThBKqE$x|Ma1e!{_^KjYS>f-39Vs;$Lf_s{W! z7TEH>e8*uM!@@!BGC}1&sp4TNA0WR1jgMrqRjr3*8WMkeEWgi!rbWuP0W=e+0dST% zdVLmg(+`#Jc!lG-mGJBM!pNe*^(5O>KMm8KdhM_2&A)YVRv(Id3IML4PQ`C>h@}~ zS^9u)Y;u$&FsOFF;fRH&T1G47z-&(?#_i^#6YbaD6!^L~g6j3fGS=6LjEa4cG^ z7!fdUbJi9jk9kONKJu0+QIom$8X!FXdz-Xu~KqJ_}2>a^G1rO z8(dGIY5OfitTF`s?xii4H!flt9l^;&4N1iqmoNYNQs~9bumAe`oGn{>!s&=m#MkWi zIiVHqbHJzQKP3+}yRtXW1tUuqzg;RzUtBTEpvqFq6l^BW*Cb z!oIZ9U6*-EbFtZ=wJv|5r{|Hukw3NoUst~|YswF<;vzL1A8iGZVFtA1DS^|!UI$~X z4lyr`SR7`Q?%O{?$xJ%-IQG4M-DsIARsY<<^KysD3p?P!oWrY>T(#|0K^CTOO9d(nn%u*P-= z^FLc>29oMTFzqdj#0?7mtEOw4dw317FDzBTvPjC=J?YrXQ^zjoab9bTR;W_7zW%v=867cf z_4ihL9o3qkwHw%xB*5qkW^iuF(`W|_V%|w%fiXFD6Z=VLq?zF+1F(6Fg{}~VhFt3s zZT@FtRuzA^jI--3tJ?MVt~ANb8IDlh&SLMN6QM=j&8qD-|C%!?1MaNs1-nLr&+NGm z*Zt%iB!z7}y|)IuKI?f*!H}~WG*HBf0YBf~ceN&6TTk^}zs%Ddg%#Q3wrEUhY!XPS zk7)Z?<6Vct&uwu;n)6^%__B8|vv8n*vj{1RmWjx&A zR7BzMF4!@92_hND|M`;J2R)-D9`pxBb)rnj2;0!^7?GFKOvM$yE&gcPzznD_@q0gI zb3RaC{OXJ5_b~Jgy?W5>Bv!c0txc;!Y4ty|iczm$Q6%QoA< zh$?or*M>DEnm_UY``W0B9(qO()!N=J#~auWsm~ZRU`PRov?}J!j{6fx8!K~HgLs60 zJ8>=R81bem)Vp$cSyJ_{*;VX0n)O`ygOCgNt9rKGm50vnT~V$$M83AQPDTA(x>Auz z=C$!$4iOYUsdy7+vh+C?B@%8H@vZv5t)QteSG%8+61s7IdQg{JblR4OVG}&I&8b~NZhLXEkWsk z#0(I-q|ncSygHtXC#zExL(kxhv~kphg7pR`2}(dEC|Ic$C> zvRdMctjl`;t)BR1=OXGlD^^V)n)1{PL5Il_keVVwZmy}g5qb2npxXB0M_G@ZPE;Ow zs8+tuvq7M;=GWKf@2wh;1&LdgY;i*PHI_hkc(g^YeoOHLHR~)6>1oEXUsk3R;Z-|^ghM(Yt?{k=)i@koZXtHc1B zHEJ_Oq1RDf2(|vI$+nA4rm18QBHjUPvJmsGN$67EW;3NV1tFL_!3%8kkV-CJ@`kV- z4tK5}i@LYBX_IgNk+OUGpG~S}l6fmN#pUjZJI74|?xG-V4i7=iGu_~b&8koevUDi{ zh0CUg+demVoz;b0@q=Ovhex_do+UnTy3Udd6paWwJG!9(4zB4w>S8EqXB_%EycRKF z85|mIo&a~`n&!FNSArp+GU95*AWZsD%!&~&hem#dW3(t~FU4Sv?ySu#QL*)54=0{i z{PNyMz?a7(4HlSp>Y&o>g$#e)rQp{Cf@ze+U7o_as zt=C&1tEhX(hJ#i)QTK~oPcB`&*O7*Va=gVXvu}zr}G;N`t2DDKp%CkIhS!-*m!&wX79JQB5nyONIYeaLsiiqi z4}>Hm2*1wb1KA!=-+kNR*|Yitd#~~RX>c-+mYO|7 zyO_VCW6 zR<`$@;bAhU;Cv@BUqgFzV?CycyJ}+r2Ew4;r`9b30^5RSt1l~DABDfW@9>+12PSDD z$oPWnTJR=lw}~e_$@*TTTRQdr0U^3efx5v1h5-<$T@MKYY+H@8_WBbq`icwjI1x42IKsm-?E1}{86bOK}sc3{_ z-uBV|cvW*;C1YEHBwQ9<-{-D95SFpfO|%bedT8DLCjQ*EY*!pxYHCGGQlfqGtvkg{ zjk2I~3i|qDl^PPmX*T--)2^3QVBt57X>-X8;HRBMzDeQ-c5x6_laFFh;bs7JiqaH+F>-Zrhn**J2;ccRXW}(N2cAv_cSh=)__m2PlxB1h*H}5m*y|&)(P-Iep)anz4w1dO+Fa@8xeY!{T?A3<~n?3L)zb1?X zP?H3iiD4dljkfdO7UYNO-*)!#CY<=E6o3=~S5vDv7ln#t-C7NPd5+pwT#ahl&}S5w za6rKj+Q^!}F;EOtBu9U4K#8<&`ex*bt>afd!2|pjZLOICBdrdNgn3z>?=K;Ft1 zW_9BS!r|6F>{RD<&9dRh-pwgzYHDA_GETi1u~Fd*&HB9+zgSSBl!aJ}f9AV7xRpEJ z>xNx1g%mUQnc3DA#_N#8cKO%418oH}2pUgwzF^ zEe8MK^7!StB>rxxElm3!-Pe9O*)w21S~7?R^snthOS#`ljeHgL=Z|kBP{7WIbWPo7 z))smLdH;?hrulnZ0m#2YF>2i!OvFD%Ei5@UJ>)kq!*=bZo%eo7aksjhsyX<_ z{If3_bBE`P@B_7J7OhKON{qRgRS(YsEHVI$9F^shYV8XxUMOU)7v5%#d=RO!&pSrp zpt@~lnqdwqx9}C~V@avF-p>YQ5sCbfi)$p(lOWOn0i%?<&@Fa?KWLV1lX2jqEAEbO^UuZUU}P2FC10ucrtDv{Bp(G01h` znpK-;c2QzCNKlnS7A~((UhjAO*8RaXh9=Nz|HbTB=0~sWB8xoDIGOa_gxUT zkyT5YpqB=kZrTc`-yL0@59TZU@GMvMng=W96;LHkl+chzZl-gkdPQSos`q2Ca_m3y zJh5tb$ugXP-xtEQ2sfFkg?C&%Qb>>4{0H?7Ywq(^{W!5lUheq|O(7|xyIPl~zy$Md zlSO^alm5kIWcx4R=H3Gjo7CFpygWCB)1S>Od{e6KR^Y;HCxGYZF?qLB0ZwZLWz_4)NNDAW&t zD|ij`vUsp&l&;?@eRtRA?O~l@(@FGD_0tbqT~|>@k93W|FRm00b8hnO_fSq7J5qj< zk<)o8s~IdJF)?)&v6`goGbUB|f>`@ew-efcY+v+vh^5!^p?jeiu>eAcblRnqfxNNv z)R1oRP))UmxVr(xKGBseqYUCacs3(~vyx`5t^VDQ2DcubQLR2l%|p~5wJXBerI`!` zT|gsk58QB*iOq9vC}rD6IUP`d;Ar2{znK!S;uEOA=-|1euUrRVX~ylqhL5)g9&Qmf z5}>JRg2DluP;CT+s@SuPhm>@@A!J=|k_EVny!O4z17xuF3_#k1i?y#l5g;kuXLEJr zWVJq{n1R1P1_&`OP!yQ{LB~B9GY{>ANPtgqrT}SeN!aB6WX;pZEq0(6eQKT)x@)S^ z2J!1cs8&bg#4(bUEJrqDkpcK3NzLNJ0^8##3qm9DhpU9JXx7*pSMSN5M{b5Pr-_zG zvw4Z7tQr*iK656;i#w06R?Y5YJ4PW77!iwq{F{SgIW5Qw$H09&c;MDtUb2P=<+&Y0 zIcLru)>X>7khXaO0WFA3dVqGCZ^yi(2|ZE+0Jc)liEu9afD+rsu!gEpe! zbE?*UV}l!}o{1y5Wf>;c?K8$-j8E$5R{Gf@97Y(7 zJ~g+sudy-Myz@CDvCZj<^eruP@?31=r4JRyTe9XHWU>+({K#n#UX88LhsWPoN!1^$ z)P~?9ujiq?CcV4p;gtuVeF*u2_3rm0s_-edOd#^mVUr7(@oq<8onT#Jvvw|o`W@(k zvN6Tjsr@1j&b*LEC#1{+%v}|)`RWtZiPC)!ANd|{_HCe~F7ImTN`cN?Cr~`DY)gTT z{Ze2fN#gA)ytG}bUhFCWZB>PPOS#=b4jB}uKvj0lP8pYg;lLzT8vCd#%m9(QGg8-X zN~gdC+|+)?P|m8U$0ALyDBZF|0iSZlZgR^~qei)=-=rSiO%nZ-yK~BRi9#IkBjWiy zRL}#vpp3#6vv=;Wlyb0R9AW+uIKGkc1o$lO`4BTkzzq}98rNh%WNBP|qa@rTJ;5Xk zDeH!<_5=S~TCxZF*LmEB^no6dBSxB&0$ui1GuS}@G{@+GHLSJD!3BY zy&<&h%aHC)9V66GrB6M7A6#bMD){kUS4cLZr(jM63SOsIpE>QS0%mNx7SET*sHms? zRWG%6YDa|0wBpjFcivNWCOi2EP=z^*vFY0TPflv!TOITZu?N3J-Z&uMA8`oaH zY^8fYYFqoe*u_}E2h<`wjQMW1^}sBy^VMEUWR&#*<7l__)TS?#ETco{y0rEuh)kq= zjUGBe?~Od-Nayle0yP6#toD8}aGi+b8_DEQh-F1f$4|&unsJ%1fSR?vco7ym^waM7-%?j!k2~?Efp0(UD z`7?v8BEYu!pa1F+!XyEa2zX8kuUJB5eUWpxb&^9ulO!FW-tw2NzP-=$nNO4<32X1> zuJg?o>%;+)zNrlWjarwgmcSi?1aCmSS>RO?qHPXvi(L|5)Xxs`BR;5qP(LAHbVQq} z=#~TTcqRL*waKsO?r(;C^1Oqj@SF4!?!mOQz`u;FA zzvvNZFs|~)L3{CYg&>eG7R7;^QNXQ1j$bZojy(dl#rCG08wyu>y5>QowpEz#T|C26 zh4=YcYNf7(*}pyn`!NHcW1F$`lUIUn&2qg&&Sa^1#=Li9iyG@W*F%8QVwTU)by{Fc z&dH98^Lm}xEFS`o3(k(s6JwKQSnCqO^s{@&CVQ?;a|8xRKQ@5%n-w(B3Cp4f!xi!X z^Ezm8`Up{B@Syeayc#&QMbiHbTbU54N-@-7TF zP&A4+InCAk2g-ozAdU|20(gK+qD z|EY23Y1AH)kkc)>sbp@#@gyBPTzsJ0M%LWeKD@MV&oR6n!3Y2i4!*!9S~8 zMV(evf+|wi#8s-HBQeaiddUs~%5DMgBf)(i?XT}6>QS)GnfeB`5g>w6o(MYcqIXfH zjQ~ghEiE#3J!MT9Ov2?~pJo3ug!Sgbx;zt|!0Mxc)h_|7Pn!CC;8?(KMNYQkYcnLC zp_^twDe{Gs2joeK3vPPzg$Ib{UFw%R)NLk@0)QjB5X7GXz@qwUe z4jLgRqZyEDbwGAzUQ+N~wPfT#Lk@~j8`>8*EU-13=C$x>vm)nrUqUEFu5VJ?K5O@n zfe1i*hXJ57xWeA7WlR-1Qp%M-ahloSlT!!dU3Gd8-_DOX7TLBbYbAB#7VGJ^5-@qv z$1fGqPrez#A=@`}G=_Rmi@FHXihv43?u!Q5a5YHxs|LN8$&TIdgP-C!1H?r`PRzq* z?_3q33E?um|3%yi?RQM8Td`ADr~Sp}Dm|uob7Oo;ymEyvxJ%$5a5}frhT>xDm1&f3 zbat@|!~)cRtA%CGxBzV14eX27CRI%u6HOApK%r{sDMW}$uhwdULd6IKjl6FHg^Cak zIK9}W3O3rf$tslG^!!S$4gg_|Cvh{07pGHe7op)2ezN(cU)cLHc;&X_}m|s20 z8-v917?)s1%0PJeXVV0PNBhCy)fM=ao{E;F#R5|YosOLVxa$F#rYTpj(*Gb>5V{Sw z=EBPO{^|Wi0?Gz2yCzB>FpV3jQw<~C)VS8KsWe&D_eaW33Me$DITPrul; zk?LoWX0lWuy9k#-Dvn}xh9&oc(R_JZ2^=_Ys)4_OnqRJyv?P5am8iygwsp%~iwdAZ z!SjJAmCB7$OJJ|)OO!Gvt@*)!$T&Eso4Iy_74LRoc$VU(YtWhklmtQyvVTn+;txN+ zDZwe<+u3`xz+bq1%5z5_xhF4D&B~#c|FbAq*tG!8fw;8m3uN;$H&cI$Yg5JdrIx%& z{rF|8Jrm^RAf|$02fsD(3_T0b+?VpY}6Q2D#ATv|NP73 zk!!4pXd(C33c!-Fb1p6i)K0(-TP0xINWCC`&Ax7M5h6DyV8A`!Aqjx7QRMc2273VZ zV%@YrBh5afdj24%(l@mMLgM~CFnWjBa5GMsK_2}g8B}j!WJeI+G`#=8q0XineV*nC}<-hzZ`D>9js>&-7U94kBJ&NC($qd_Ul@2c?Y zru-}%yib!#`oM`i8=msb0UoIXtiq{^pE&hpN&JJr zT$v4b)%K$8Y2e%R(kI*lFx+O$1!c=A0auO}?0GwE;v9|N_lIvIfa5&=6A|lKHPo4d znf4(foZ@tB!^wN$wj#{q*};ncMFA)M8^>DqYF`43#=$%Gbp!l7YU*G0&Kfiv_z)&B z;Y3$R^+1zf3%u*S34=r5Hb#1(lLC-G3~sWpLNFr^Yy^q(cNu~gzNueeVBn{3tGmW? z@M6<&iZEWIwK#H{z@Kr>WeD^NCckHoODWG*H{v* zVFbnKU@PHRP|5udhTNRn))h`LChCqawfGm6RcJd4c%TY5X8{IPZtm6T)$|;n_}=ep z?afWW_Ajc5diw_@7os;6Xeqs~I;49F9=x6<{_ANH^199Wt{pk>{VgoXoc**L%Dgvw z7ypY5<)vnE(|sXu>nZLUQ3qfY{}&Y)8gqHNe)@W31H%wkqu8$I@%n-c&zBE1L3G{7 zzF#Oz0>?JKC-IyUHKwz^kD5F)(*B@MyaIUaToEBx6~|J2k!I<${l_y%Cmk|98g?H*+E1+SZ&MCYWa(hMby0-sj6p+9g`EbZEo39qM}W~ z325(ictDQ|s+*oY7E~BrQE(TmU}BD+-|i3NwlzRWx!gNUk-8Fd1Fvu^QkvM<0z!Z zZ;cv)O%}ym2c)<$!OQt>xi%ZVM)&g^v=g3j8nO)j`?n zYeXx9ZXV?_R zuB2AfjM>22r%0rgRPFST#!-MyhRSYZ%c(KoJ^ZRlO3q|Ca%>DDSD^4FgTT|Ph~@W>7R9)R49l(vR0bUXnNB03J2n_^+(obV z00naba`o5=qG@V>)ND?)5_U)O5T>rPvm7#7jGhQ3-X_dNHdW%=~SuUFy8`>oP zyTe-q%;j7kEmdRcvCL#+Qqp>QCBhl=a9B$$GB@o+b^QA)#FKyoY}7h-Lz#-C3Gp>B z)+kQfPh$+1-0~nDHXL!~1b!>YfefrwkpLaSLFjlw7iy$PTMHIwvplL3V%09c=k~-+ zw;dTdvI08m{>pk*)4|!}eX}Q@0MB;ap7H*cCURIQ~jSed1_G zu7~(9Cxr}6J_%Hr0IFr0zoP2d#iqv4FnOBW#2>$YVI^CywN@`zDNgV<>0Doq#}1bF z!Mjc(1NM}zoe2XKV6BCS`OlWBL-{vt!`;GidpXeh@>C``6|&TML`l+2pFaU(c&Mn* zmV}j(1HFJ7(P$8f#KtmzR)na7DP$-hBh?l+!-qy1pbf!s#r&g6T6}ac0)f{ALtZvW z=xkHW6Z{S)?vFH|RotwKB3{34~hzUyI z#_SWi>(^#5sCP73T_KSC3oD!+;%CAVL$EJa|0#EHfk4XasEP8MzN5GCj-C3HF(j5g zk}xobGGX59PyqyQ%iMkk@S)7mk}cUyMQ_`$YB8*FH~))rb)O~gIBhnhSwD!%J?>#W zB;I906a%;6h-bgqKfmODF5)a|;^%*=V#qRl9-mDdCe2X zc1~AP4(kM--=$+0)YUm8?V{*#}X8k3U}6N$ek#^z76 zb7wXmQfRj|uqcSBW3IvzBfJBHE@pr9f4eLJ8ZC!t&l!H?Y;T>I{nYrb%h`x=B}wZ9 zUn$W2X~i_Cf-60$NE=84XYGFOv$+}=E$9xq4LR4^^P(}kjgDrGnSrkFIagYOfAh>i z%&}N&9%hL_!{tNV-~*j~3Py8I?0i%&KV_xTkgHVdqLU7(a7u$H zwAh^O>$W^+v$Y_uc>`;;w-A&F_^AYeli+MwYvDv*Q;6(wmUbja5@~nX33j{1!-L{I zNL&Ltink!VR<=Xn&oeUIfp+^qHO*XzUNS*on}VCWt= z1y!yCRvZm6eNM{NrpW9Q*X!e{vEo$^0JCaL5^^kI!22Tr&Q$4d@(f$tKv--4+ESBP z$jhY;dBDB396zO~itnTb`m6_6V%K`4rCLiN+xP;v_GPVhT{(UF;%iMlKwAa6hhosd zba>6o&+{;ZZx(=-(Rr+i7uJ925rIqRp3z-a(%BERC=)-d{Bfj^__acJmHDVepdaZ6rPDlbc%=cza@PmmqT3ePm!uz-@4j zhq`Fq5ac?gN(p-4w0tDNL~8gx_i!E#gl`MBG6|Bi05=^-`ghghB3vg{9_keO-XqKyNIBv_0rX9ZBpd=Y|(*X%Fy|6 zJ(0P4eJfiMBz(>*Sge9jDqjw~{~+pTs7p4+?5UAzQ?XwPg+jXA;>_|}(J16P%?=$& zl;s&3gk!x6IXSRpY!r=z;!E?-<4aIm9$!deG{mm-rM(+|&H?tyT@ZxUXm91JpqAMo zeM1ienX?UP*8(wEw_9K=Li0aPetOZ$bL!c}NuMM)-=)`elh+f6TCa-*>6L7yE_VT{ zyDk-QIRv0qejzrscT*pfh68dRRG&Pvt}I*la;AP`EDA9m`+oM34G}FsHRDSCC^146 zphB`80{&IId&lnPg(=gC{s}Dyh7X$@ECBr(0L;D$0FWk&D_B-c_U_qm6xQi1bnfapybBK11bJ5e2-_ghIl`i68G2GzBklRSb}ogI1wqLo%bnU(485-o1{)3&?-)3pVyzVT(C#PW;u+n`tn2tCSia?CLy*?@ozL&huf2`7 z^c$KT>irU2%FB;j+!=Lw9i-l!frk*@@^2G=2w@Mo9gXmNhX}gx&--oarw>-V$b$?_^swaa~$m$|HB@l`LpG68FYmZ-^QYT_mc04!Ypy z%1Q8R;CX~+zHtNxFqQ7FP`;|a)>9>B!*HC5gXF1OC`BL8rE8Cu1~CInI{~e#1F6Ee zPE`vaO1uBy5)~ILOG5Dh;OxSc=|y~BmfV^8sU+n1RXzo-O-xCqJ`^Ah#t}JHd2LyXP>oD;KFj9WNZ9?ftumRqaGQ*t-xy-&quD3HGuHU@M z;s*;0Nh?I#-7?N5Yw=M(nw^+^EoiXRKt5C{Jv4kB2=1Yjjg||6+yxq6JfXqq6o*`6 zhYzMKxoXqb;`4fBr6In|_jqiuwd|TgTbM%JI5;!kBj<3I_?)jDl~z&_x^x<{Jx^dg z$6{Z!%%|3A14iZ=>Q_-+D2K*TU*8ibLe-gXvD8wYwXFefFV*yrHrds>5iYbKyEGf; z-E&)`%I79T`(AC*!b>*A3%i+rMQ! z4+JdZb&GyCu^l_vX)U97O!}PaFziCfH2z3$t<4|{M2{F3T`*h+c=!UxseK0o0&o0C zdk7UPAn?s@0XICIlt9-N9)WS)9hpF19hdL7_cWNw0uF*vLc7Yvb>P4;?*n%gG4=D? zj)TiNvubxA%V#B=Z$!-3t07$Rdb7XV>zYrK99%il{Zzq1{0zWNaqsJb*x&}H|A%N{ zY=`w(5hwQ3>~Up7u=x5EOHuX0@^<#efWqO+u0?@&dfqI^$``PzJbT;ujo~Z<=pH?8 zK)S;mOvy|DiV)`71Grh;zGe5wPH*GZ~3a#3u#vRNHB!`GMl zy8H1JsiWt&xL^R7ruOEU^c2zkR>C?Ta{{Ad?f`*RaHs)k^K$lA6S(Y#VNAJU8A>1o zeso(_ha4rsgt!48{dr4)3R@U2-<(YhAJCR6-VBx4#{wQExrwi>_kVl+q8mpSgFUvg zl_;H+5OIKcYsqJ#ZDAEsXFe@3&o1y$JKnBt?tTj%Eluk6N4My^xGnEbm;!yUu15;1#Av&v`iH zh6Tr6l>vO>1h72ls?}wiu{v%SyLtQ^X-kkExUdCIsR1nEh47I&w25`5U>WzL1+D;I zTszH>H*tMcud=cV#TTz^Qdfn+mr^r7BXUAEsKSz8Lyx^4ZSd=lc+_Ne4J`hUEHCG2 zjQ~Yb;FIrjU!?nKBiVif5oe~u2wbT9mT?W4-(BIl$=dsH)>7vlgO3fSGyH(Ia!nau znNYw(J`Vi{(bnYQ4T=b5xh?e|UIDPt87zT!bKK*_Oa3eJPCW+F~K z`s1mnFT{OvNK7ZFD+*!n&Ja`uCZy*u_-6AEjKmML&L?$#(+y>~_*Fj0m$c)X|~fZ3z&FPV=A z9{AVIhiWfF4$^LrxxsGa?BYr|=<|{EZ=N5BS9myN*T#g7XuV@*cIj69C9aVXH(OpR|VGGf3 z+F<8}tnyPRsiw>jd1nTb`#;cVk|x%3pG(u-8o$FfEAY?C)CuDuxA&gOnr+h@LoqTE ztgFP|p*L$M^*y0z*GX)I8#|=kBkhJ+JgTGV!#`%hEO+rcmql=ydh*Geb z#{Pw7(1TnQ{>3@kZCnJGlw3eNFa zPtsphONiXnau&cfw23IOA`{Sn1I~>xIL5R8EZJiC+%<#QBDIPpn+G~g@>l7m%hZLS z1)A$z@wUAyXlJ@lT#o>Q-l@he=AcV@HXe0VDDSW>H1` zZ=!9tgLww{+|N^MaI6A$v7KeYI1rr4Z_U5GE z%{g+T3~fi#=aMPMZ(oc>%o@}J)}7nIA1v*9;rz-32?9K&FxGS~F6GF{yW}?ew4m4x z!Isx;Fkaf3dkG(W>HKSyfeULz zMXUN&chhL#1H&kmQJh$Paf0942RG>^OG#;r_OM>7riaU$p5*CS5mUS$ zhO>50^{*+KZDW1?%;`rX$CT(cT16n2ap*>Y{aOm9>0+Y_GGk&LNZbpu(!yD9F<_nc zAn{HfAat~@!F*Q)&k0Bk^dM!vbUq?-dR7p1tHNt%=D_I!X>E@pex>{`pDMl+R2BuL zRTWoF92D@!Qd-fBx=C-y`n-b&QrMtDx<4Z-DT23g)6_lMZew6+-nr{%7TTLMnEN&t zL|VT>p;R7W>ZP@z(FhRNHwn8f%NB#>^6Z*2%EC%&4kzVf8%fgLtonN1i<_;(#-B7B z(qj)xfm;0V7k;~`?>bRh;{t}DU86=#IwG#21_sOeOPtmEm4qI@iG|rv726|M9-V)5 zdE2j+qDtHwVE7Lw$WKo&rpWtAx=3 zA?rykF#fgG-MYOIgDtra1``W}a`l!o(iRCL3(G3(l*ocZbQF7%}noJO*7jq~8c=savE`?&Pf0#(~!yQX@`?O@7C^Nqo=QtO<&I{ksD zvGpeaM=$us#Q7{;O5O#!=KZ{pvbSiO<4I1jzmai}dhpTaY0&`puEaS-SFda}vzJNi z)U-N(JM|}byoh@iT2KR9UKFZzzgfg4Qt-%hRIM-CBhazzWs_V_w9`^_w>K^@wUh8t zmyi&Bu8!_;NBjO{lJd)kw5X84D@G4`%+to?B2pZzLlf)Tbgx4N~xB8%eqZzoxjzMlvj;t2*e);i)C9VguYF(S1~-FaN!@ zAo~MlcuYUr4d($C;(R=83Ce2EF}k`>S~TQEQl2pnPYdJBL_A&JL&?J zsojqh3;rbi!aT=fEWCWmG?imn@7?tnRXgKz0+M*ej}k|GJon-)+{xW!f4@iL=~>vIwmmg z`f&cGnEm?}C5+B^DR(_Lf43!;8W598Q$PnbM#s)NFGQt&-Z|M(tTJWM(hc7YR()Lx z7%pn56tZi7a^6~lOF6%(D{@ZA3Z}Vu+V#YSx8Fw%Tw&GvpYt%TkZf3xET`MCb@K^- zWS)6aSl=<+Wo)N_-qX&^3LLgg#vC~5)U}i`(jZZpX%Bs=z|6HDzO-(>{82#QiQ5&j z5jp6wiQAa=k&?NYg$k2q+i5m@c9sqAfx`%P#v$wXpfby{Ce$Y-Wb=)QxKG&N?Qt<2 zwGiHs>~n+1#HPBZ)FG?eH`!=;9d;$|x7T)yHneI6c9{|K2_rM5ReZx{C)e}7Q|Fx8#LHclVr`4-nnWMzY*|Xb-upZB{=OJ{|mGvvIJ7RUGdnnG$Df$EFeQ zaZahrfU2%@+>Z{GYMnXU+$A|OhmB@vsBf8b&iX^R-0Wo1|DMINz@YmaBrsWZSZ^nPX-sQ%1iaCMO94MA1x!gBJW-F|KpEV8%ug>;fz_UMTxd(}{JW2tA?sy$ zjm^8$^si?Av0q*1-C&$`xdiw|u4fEx*{?q3y`V9ewpm%8BCVg6RrEiK3RPS98_KCH zf}M4?)rDo@f9^toxn%M~PHltZ$?GmU#0^&h0Ce`M z*+-a1e7X_B>{3yA%p>DxdGDhd#UJ#1SngbX<&3+tzCxo5YP2&1aTciBr)Ii8NpwXM z-Jp2_=VxSW*P!;-=m*Hx{_5WfVqc{m@MH?6#W9CThV9E%KNnH6Kb|5zXFj=EJGObH z{{4{PMb7fl*oH+8Va&YL)j8?T2@Dv@e?_Rl zV38%T-ksxd`{m709`9%l?y?>x9crjvY)nP*`(V|8WSXYWi>>I@@q_L+6l*ye{S1X=RGYO-HD zW>uwjKRT~(PFZjALHwNhfyvVN35!7Ikn0xDj8OOUuq8|?YhGCzg${%qb0r;k7}39L z?BjF$)zw)fHd_^LY$Z-nq*VvR=QNN;mpPcATOI|U4s0pUh>W(-CHzcII!yhK`L$P` z_@4Xza54e5b+egz-*c8HXs@Y7Ws{GrU8NP2RfaO|&Z%29)yEv88_5+GeMt;T)7*ya zQta-uz(Do_y9ZIUIa@)`lhD)hBB8w0xd&FGHQI_)v%YkqBqJvvE}DVtwR$-6V~X-u zJO5KU!n9*?Wf_i3(XnMYKYHWg+O9xtVAmmnBx+YVYK6V5rn;F(GWN0>(b>62(VIMl zVk|_qFFR*EEu8a3yOt|DFP_m%(A-ISMjeTd`c9F{9`W&fLaZ0Qs-0~Y>C(j&WM zeypBU9=mAy%I5H0jDEYuQu~oWz0wRDV<-a?^ZnOvIiztp*?`o-x!+v3CqVb3W}W3= zvupouwWSN+v!TJRZav4W#;KVVxtjm|bCR)BaR&>Y+t9iXyf*WY%`7)in3i7DuV7oV z4+K-RI9X*m`}s-}Yz!zR#ze&-4F1QA{jcG)Z6uBxUw$L=OF6`{j02I_70z8zkQ@YsWlzrgNkkCR(| z@`=3^{4l@yokoDI4qs`kjSi(4e9wiSevcJffZ~*ykwbV&x(eeLi`!k0VAMSEA7SFS zcTq6z!ia4TNHbQnU;AcYAKH&dVF~*voCAw)JwVTO*mcf>ylvJ7>=%u6%^Y}1BYl}T zJ^Skilz-e@hhy4(in9S%P(}YLD4o&#KSaxoUdHspkLjNbN-ZQWKQfLnFv)p-G5Nm) z4z%ak1CVH}DCYb2hQoM;qJZFIBNnh8@`BX&3e3#htMR?dKuPR5(V`d8BLf(dI8jB; zn8sqxW!CQfaewqiRdOGycA52sm&&cx z66Vym1Vlv>s8AN^{C*y0m8nc+%9hKnXb%ITyX2}qwN$~zhfWg^2$gr#Umx5iYE3#U z%TSU>N(ehJgkYKql29?2u^xZ!n=5_EIme0aAe&Yo<7M;JQJk{{g+@KiHDl<)m!UNC z3cq`7#N0$bT{m&mcQGe`HD^ibhn>B+&h~H)_988QB5F(8PrL{#mXkGp1b6?!`^?tO z*t?W7%;ww7Pw=9@%31Ga>T}M5LF6@>GF7#Ue?{8LWb97Y0&GCwwxti*^r+=qIMvv) z4wsRU0Mv8Qd=pTYAzXK zb0uZg`#!0?9N**HtdH8q2e-(%j{H#|>f=p2xi;d==W^josdZ?WiFT~@ zCEJo4IcO88?vXRQ^EFhMjTGy_W~@A78I<_Ea@`fh`pd3&SC^X;D!RA65WBL$vrgQS zFm7H?2j%E}T`=M^zt2c?TwaWD^+JCB{fp$gv&dN^ZH2yLC8x3VNly!93vqW~)=R%6 zg$y>i{#m<^6*sRnn})wIGG`_0Zq{$^ zDyxv;w>8O0Lv{T%sdkzn*6YhWR~wyMu|lE(8*pPfY@rQgt>^8M6Xip$c88=7^1XZF zpsqd_d+Z8bEgx_3+gLFAiCP@3xV_y&mhFI}{9kil9@pfRy`S1v$F`Pf9kp&SqgAVj zel-PTNwAAj5k&#nmv%rvLWmF$5+Go$Ix3JNA_kPGxUnQDLJ|T5td4{&L=+N9fM{8Q zMAi@jgynbM1k_q>=g;5!M?Xc9``&x*x#ym9p648TBR55`l$b8R)HoNP%*h~co(uCJ zL_CcnA+Kh0Uh`+8S^|%+v$V}U!17@p1n*x2C$N=eEZJMU=T#LC*rC)_|81}5YIz9x~)2zgF^jg#Q*%V#IE?bGR0=;cQ%3BUB)+LtdZCj zMzuW_M=rn7^B)Z5i33PZt9p(Z#^1 z?m>t0@AcFCnO!>l_mLZq&@+2ph%V&xyVUcejC9{%@8xq2R7%bnT2b;l3nEz>jo-ht z`9~5HuS9l8iz$d4YgcF0geiTsu`Xk_Uwvzsd6D{Cu$*zEueU6%T|9;b_xv7m4)jSq zyZ5C!$p+e@$$~O-)8uVRuVLEse6- zMO^oQt$h=a!+Va&3OG3QxFdE$U%}TIH$5Bbt$rUq#|YwFqOYp1m$)|*hTKN2iK_7< zD~gz2#*)G{NKBY=vr6ZqsX@!&94Yt6(zl=z0>4KSKN&i{l98u1=x+I$>?~hy#ndcL zZZ%u2Ui;OQLysaPfE*`s4t4GdTQ2b^7Pk95M_==}*2gXvc(f>rJCwH#7^@|fk;;@o zJ5t@EsA7tvyi*u6F{uR*jyV>ZmBcHnOzUyzI;K%JSoWT;X?o z+RxLezh%-`=lU8oYrluB;+6U!oX{#k+7(Tk!DL$REy71bi)QjBT>d(YfYZ||@N zCnH+&6v!{#UUSM@%H{B%x4E1M?EvE*p*?{cU6_l2YEu zK3%k5ty#NVUT1w(18Mg0$=+tXL$pnHiT~t-@o>fyOaIo-r(-WPq|ot54sUos#DTz_ z+6H!v%yRxlQlRM{u@rUisMlA_V;D=S)VNuP(C2A$%tpeMST3W*0Cm_b7Ez6pKTUbaG@qnJ7j*vB?PvaKk940 zZ2D#4(=Lx>`DfdX$PybfKgMjzY81)pT1MVOjXvwZUF(ntm#!rB3ST{@K_)pj_$4J> zr$lL+BkKMBjpt#RuDdI9JHx=Cv4eQ}$?1vg1@neIo=s{x8b9F$j5 zymZ0eoLSS8Jr&J|;tzN5hAPORaT-F<)Hr7D@(jsh-Qg!6L8DnepckUP|F(Rm-4vY( zVv}YfX-tFZ5N&Yaa5tP}4@ft9>~>!_8sgQSPfD{6g`29n{T-CoCuV5heA$Wm3JpgS zu#UQ;l5IikS8=WSmz&Dvjg8UW9(s#N3BhGy4(6xd#1h5{F?Xf@y$>Rbc65#MPKlj% z;FHTn0%r2(pp$kEMI0}c;Zj?Oq2EWLaCZZ`=9lp2w>Cd$S*42b4*hqV;2FOAGFvYi zsj!YA;A)$0^u@(!Xp?z0D$t-b>$b%-r}fnN^m{HCb!>#EdftZ*%A7ZI4-7>k!M8po zbL0fQD*AZf6mduB513mEP^dd3@a#_%rR10wR+xXurCc%|Bvp>VADaV5I<^18HG}51 zbM|or=c%}s%1-s!Qyu;JiwkH?c`2pKqQfBDw2~IdTm3j>2($jTY zDd*RrE`EbuVwA#q2bHi4zyqhY2NRZE)H##R1vFZ$;F{KNTsvqjEsLm#w2_xO+;3rW z_IHg%Q%q)aboa>s)=1YYd|ZpJdP$z+0I=y^hFKhYaSOO}=b2Fu3+ocM&p!h6rqCMJ zhN655zCJ@PuZxhCS1%%M+{zSY#L#U%A|HE7ncx>36F2gGm;^EJet|6DTJS^@HcuIc zR#B$pa6R@*OGVG4+BT4jvA(^9%k(*WfLmAt->MzGy)vys55`_B$Of0b$~1xzGYhx` zj-E=Sch1M9s=vY2MoO;=Db&@%#?F&Kz%6D;%Laml(c=~5CYxmS?w}k{T83t{2 zAw$z40hH=?PHaq@qRV1@qN3Lg(H^-EuKVeDEL#+;&oBdkQU)>4UZzNF9=ZsP9bumh zFRUabGS^8&k$tn*$(?b(3|5PA~Ckb%gjWKGq^Q_=qRkkKqzK2Q>{D4+@ zKiqkPatE-;VO9&_}J5c!IFbr(!%` zuAok5jA>Q`7Ddr@x#T}i22xta##-;)sc|)nf>oI&<%_{#zVv%td`&jZ-}s`p@v zPDnFGg8cYinoc)x|54E&o1x_<`0?&}3dt7ulUVDzf6SzXdgg# z8;N~TKUSCCiBT>7ow7#5rNY0x7xKO0-^%M6Os9;$;=a zNn1q%)$XCJ4V_zJ{C(<)J7Y9KTk8Y5G9LQfWmgM!ozZgsP4eD64}}T_zvTT%t@?zW z{NLKv5z2qM3aX0Ds{7)m{;%777wFW@e)CZ?IiPFi zpl7{8Pyd(j;TeTsrnjD-gGw-kX|6f6+R5hIrm51&_{4?uKH(klP`ts~DdyBDI`}tEQa&A7&Vv6AGt;qdy%|aET%C)1!xv^_yR( zs`K7q+m%HEP-W{%0yW%3evoUtv22YVx0#J2%*$i_|B3`cLw-z=$$eEzzr6SW+O@b9CU zXJa;}4(77S>HQ8(;&J4tdaz;)0P}wrm7pH&H%G_EuYO=cW=%C-8T++$HPps{{(uf% zZpLMbP7j?=Ut)4U8F?TMR@slTbI11T`4hgZ4`vd9Bj?9|JdoGzr@2b3LmA&E~ z03`Og!|LK)Iy8&Ww(2FgtiP!G)0G#deSWFm)9=Q(j?)WI4Z+CEdl|8Xe-z%$Lpbji zkjIv4Whq=;cN7DBfGw5BDtlSqtFBgTZR}J$@sOLXQCIfn2^Z8b_UtxNlDXV=Ibjru zTgJKu-0}Qh?Lqy<$t|BFKMKs_W8z=N_Nj*3u_Ui zdwRIBeHSE*HGVM=lnl@&qR^>Eb5XmWC@!0=Qc3EX`Z-PXq}pxM3zu70pwAOl(VNhO zZ;j(Hp=S|P>5uw^Y4C9LmP(8KeK&tBxfdBBG^V%zsZ3%P;agd{q`9SffSnE3*J$kH zy7%19#cmqsk*t!zq47-0k}us|5t!zOzq{-(ptJ3mnh1vGR9_bJqAl7~e|v z_X<`{Ct4#Ce7n_RUK`0GYi^Z0caiW?PMQ`xu*Y>1zxp#8N*;FkPi4~jaH^flFcs*o zmZhD#Ep`O{)1KQ1o8u2x=k;~Kw6TaabH_bPl%yrj`ZRyk)zYR?12s=Bz|)C*!x$6r znioUhcleg7q=UFW-tDX2#GRu4#Li4%AX|OH^v@OGnIc*6lj#*Rn`5z?>;eHMd7jJi zi^(Eo@$$N>TF``@F+OYC58%|BB9z~p&RQwFenAmam$ zt!Q8%AfOUl_)DBBugPVq-pv8opFZPtjJW4)3N`L1@X`W#YP9Pwggok=g*yE4m{*-b z0YVx~yrj-RaI-E_7xU_BqNr?XFNv1u%4jN$^}XIUfmkWItAVc#7*kaAKfsCj)!&5M zlanEb=H!%>kK(s1PwHel0xN^v26Iq!=>&gZd>5j)5A*upd<%iEj8gn8x*toa4;o$} zdhE_x|3+JRj~m<y4Fk7@f7cI<%C(5 z)ZjqqPEK5~syGS9Z|Mr#%=yuIH=9Y?{lA!Sm=db~U-UB%)253r3E{? z6G`wa18^0*?ZFbtSrZ6sc(difKXMsC$_(}1_44HzycEs+o>prAqXO%4hM<3hWqSI^ zX2K%GD&$3{Ui>So5J}KY;RUuOj+EI~=81b&mX8_A z@uvJi-%bdX2fhH#i-v&8-GO`NW6RbM>T?6c{3G!aGZES~lQy2cec8R`F|Li`7XA;< zialFPbvOn0Dso`i)Xczhe>JE6fp2lO9bs3=rRtM$E3-{I$i-QUkdXRp!3X^*bR?(u zhAAE(%2O2|qENrAf}rbKpDsFl%9HeK-5@7H=#}uWAGMi{m5)!2Yrb6KT+c9f0Ib7ZV0vkqU{?zIN@lh@GHbJ&w)9u1h(u?Wmj@C z7}K^#IhE=Y*V{u)H**=Wyi)1gm1ynacGT^YbflyQ*EDQe)+_h{A0XFlz{3xtNW)z3;Q%(keaZ9Oe?kXeMv zuqengTM<<$6;z^YwpfSmuDoXFOU?90$Q*x&5c0@ZB{il)tfbN-XQ_Ke+)LIf?S(88 z$cBW1iZkA#;;YL6+mJB%I9Yijk|xTe+3cgd+qpofg)B(VplfnlqPwqRnbY#qjBxbr zUbu4cUf57o@se-+5Nk>7`|Gox3pkVGB}XQ`V+K*vNvZvUDe+z zcByYexc4Oz?uq3;2eWJ?DY$hlYnSHTQdK!1oRHspI-=+iW;NkdDdtCJFB@j{e4);DS7=I+?VB<6&tHj-&@jGI); zDsPw@z`+}lFTrJEqjp}j%}P)*o3%+dFR3NjXyww{HD|7#p%RYzCgB$7=XEsFuHTsS^6?P z%j+!=JQgrxDUgbj0jw$l0|}(!Kjbw0%M>&n``Pb;j}dHCS+Y4H;P%pz6J@8KE!fl4 zsZDAX`+YT$wuCV9fNVK5aU!x>D#VJCv5U9f{EZg}sT9zT{*>VK@I7mcGM^U?NuS%| zYSrNw&#f-|Wp6Ubmsnze$^x@kI2i{HHOfciX^!rPgvkCgF8fNaG`DLD23A&d=JDxM zhkl5=o%Q;fYYp5*!0h5zU37PNRzTk(f%m5c1HTm)a@&FTHGXR0Kgt&a0J95_WS9Mq z{y2q1xIlPqrJSg^%0h585>)O0HATt$4Gg*`mrdH;t`^ja{pO;&sudYosg!!mYTy1r zpzy=nAYNznoNBw7PfwPSOX?9Ln@vB8t^dr!ftjLw3|5w${01va`BFY)fykC_4q6Aj zG5EU9-FrYik-;M1M4C&4Kdf3l_Z0u6zeQy&`RJD z|FFAqL(jI~-zQeNX1)r%eE-EviANuz-Rx*(K-XlZfqa^|2!$H1mUP+L46`kNKlrk6 z6P5Xb6)LF9*ew}|cJqblOMa8)sr`P~X-gsMNL5H~DTXL2S%2e*1OMW4E63%XJa+8I zunx&np}cNbO-4UOkSYf0*t~(zp|Qu>?VA52mx<5R(bVUFE=lxuC`xt~ol|aP7mLDj z0K~r8FxQ2}Tm6ivaBuvS>L8(;)$MLB< z3?b6E6L>dZEo$PZ;%P|-uCV;nwGnsSIPHMmJr-S1l67FvH`Iw`xmA9}YnfN10JQ?6 z;GDpI2;9?D;Am82QR{_7HYr~$DY`}2jI5siZYFKu%Q3gFl*YKG)x-&p1aV_XoNnPc z(e~E*3C7_YYIi^u|CsXUNY!-EFOBJ}>-9L9i*AcV0nNg?i-MY=6|OH*?Dz6Xl*`+J z9#n0KF{ZYc5K=4_wdrk2JW=cinUwejCBw5~B$OY(jav$vbE!eg9I-+fpMYBZqh znzaDnW#<|{PWRw%oJsXR0lEEV4V`a%!VxDc3ico z5G&bKt;&zvAlNQBr~IO2r0U{nsS(U=U5t*1`AJiaa(tu3&im0Y`T()`zvgIDmai{y zLZck@W&0BO>_8>Af3xtJZ|gVl3~NP}1) zD684~W#VeJs-P;mhML#5t=l7f(yJfpU#@oP7xT*|cdMduuRP4oFhm-~i_@Fy8rS|d z{kc#jED`O{{K9vU7kI7X4<3o}vQ?fPD-YNy=pVFN!dNf4sd@Z(wMvSUg*^c31FsSg ztsQ(Sl&Lsj(44E*T)3}m{Ge0_(2K+Po$R{k`>N$DW4sX!k6t5bu5-?_n0h#7FLo_d~*7q>zYoRZ?y0SgP)A1z1) zHnlELA*nO<yiW;|Too$JZk~j+Gb?5%wW-r8-eqQ`wQNV3Sg5ui@)`?u zvY6}Pi;&Df|9WDPh4$nW%hJqht(S-(W41_TI7X|p0Q?_nl}v|-LV?Q}?be$sSNqX# zwPCs@xwxn5o-1GxU=FB2Vym!jURuT0wn_D1kjjlAUMDM!FqmXN*2gOHa`rQ-3%`oqB-S==Hz5SSw-H%=HE>q9AEadrE*PsI~2|PrVCsT zSWUN0j$&8V`muCHP%w!*R%4F|0ppqHJST&ZBt!XfhT@u-Xn$KyLX-11nPxqNLW2WY z-PXK-VA*(Y3aOXfyDexBZ!Z&A4Nm)IaKleKiy%L9;MsE$b;7>u;!~vbY1lFcyZ))m z7lP5^sJIdDU3^|3yM@;6Jc8jIN0Z&|Y9J9apqIbeHKS`g!tb@;=c%^M5=Z=fqxZj7R?9s;1)<{8(oHEl4e$AlRE^#w zgC4Q$0!1+$fm;b+dkRV#qwVzO1oAq$Lc!7G5?7z(L65R{qJ_Aldh>jRwxh^Ciw6i<& ztBTOxxU!1La6_(nJa@!XGZmx#80!2+tO#Jyu2(uCm0&dsfyL#F_mmqpSERiwxf|*1 zIk-Zjs}6kQS+aGvTFGUH070Q6vR9qsvyp`p{NkWz>471wSl?3DVi~G!Y@-^D1$0@J z$MJ4L9STJu?0&K6n5(epTX@`~8H~z*?|tGUzi4o5-e@|oITYp(O-Aq6P>ce7GyDCh zGr=|rB`bT9N$b6FJ#EV&`DX1U?%Dc_TEEB~PnOP9m{4yn=KJQ}Z-@{41Us*(m0>h* zrtI;J3-itOvnyUyvjyAd-QUisSfcq%kH4T$)|DOLuuA?r-BvbSAhi}Rx8Z8qY2YZg zB6`cZ@baCQhVdUof=Cz7!Il+BMFnyfZJ5Z77%8)*tR(^`4vH$FpzJ1CBW^X;7(_Qv zz&fOlGEiMmcG}1-3Ri{W9zCpiJQ*$8tW_;&-(X4XgWU?{Bb9PP!#14$Fr9}qn9Dk7 z{06-=?eNHDZ|%#-y!x~v}_YA|p~ zVwbm$|1^-aksY+)ptlzh21mKkK{WOJYPqU*%AM}oUB~O!Ap;V)=mJS|?vOf&4bxe@ ziEV=(oU5;I=XE2veuzM$1y>V0-O~2p&^M|)%+Rl^+6xH}G!wVu?;FestdA4b0=kE6 zpcUld&*Wn~JQs-uS3@TFO$rkKIMiEOvJZ)M6L5#+b?2ru>Kl_+e9`py)C$efRa#@L zy|eQ7)4Usagr1JXuag-F{U^<(^sy2BDNPj}d(Q@Ac^o%O(2w})AeG&2fBZuZlL5}1G-Y-80io$XnH7o?4I?tMd+CMVoAF4mS2O|RCx(5 z^T02R41n(8vwwOK1`O@1H)(yDgKng4K<9Dj`MvBH z#;~-KG9-T|lPcx70QDvYZ}suZ;+Q`U_gAtXw&d*$o;0a-IVD0faVGS@6;Nc6 zsgyynLZnZ_YrYp0L;>4V(QFw`)y?m~FSN01UC5SPdpgzKeBOWCw!G0ihcD+9#3 zkf!8j)jr=1Dr+tW-$_Aco!~m;P#&gcnIWtc`s9IIn2P7V&s>@Le4b)C`ToROsG$9b z+6d45!E4j8^YzYTwvYnQ^EQHi9`J>L3h=2!U=h_m|W^yztyMnOnsX2hRd|y<)qy&wwtj| zQpE1R4*Gg-o(58b5UBqSsK(Fbd3KE5y36R>DMErz}CP@ z+bqv8c!#SpEM^oEz{or9*g<9GlAnz};9w)HuVx#4*W&W3sM^*^_TfDpB+Y_V?dzvY zEUBj=JEg@)7lQq@Z`>M7BxchZ*`TsoDKJjT=H1Cya;72<3>Mr?!lks{a$&t%DQx|4!^2Ux`0 zDbZC1%S1IgpNlncPIocsY!4p_9X;^5MPciKjT>pAUqmP@Vm+dVNVAfqp8K;rAPbY?^OY)VhRg3)4^0r2~N$H~(S!UfFLW`nPR zGdin1YpB;3GqUsdBW&zDkwHrLHLuN7s^~)8KH?c&93I%F_$1tmuG5-{FCn>fCQ>}_ z3UW?nwf?E6X_PZ-HFaK!1u&>w4x8LQlE&iCe&2RdT4rqoS?d03Bw>m|+0f#L*Di0e zGy1Z{rOHottcIX_3S4z5gCF?D$B6yzlJ_l1(4?|b7qR%ZKK(m%Au*~^PfaK;u z}jO;^dppoYSV3i+sch6hP zt*1A=^2(n~t4pq^J3V?+#tyKIZ~4r;`gEzfB8nG<*P~_d{YW5azmtTGK9#7L$3jZ? zb?5bX|0fQp3yLb0y~vi^_TAUGFMKxx@#80%Ar0LwZ#yOkslISD{wcv0v^}9>2rq3(9-G z%644{g?i$p7v_`N(QKm;&Z{!{VUM#FH}(u6u2Z!)1S4-`O<4CO9c7wG9!0jTBJQLf zWfU9Pz;XGlysT|_NO$P;qYYo#%>bVuOz}c{jbowTiykM*JBvUhK#%o=(L(~5#!Z{3 znx2eFtT=MY3@K=3dhLG7vF#e}sb~VO3Kem?A2zz;GN2H{BK5WQNmnf$^^gszV`a5zL=tyjmZxv3 zx<9G?0u=#D5QiB6;`bZ1m&IoXCw?|Zx-!*6j|J8M(xfIgCja594PY!)h7A@_Fvl?^ znxsB=r5I`|w*zRX$N)1GGsbt@jDSC2mltHxmOMx?h+WDWKWy{jbU-5~-$?3#mt7N} zD^g(FYD?c-cTaN(x|(97w2UuJmHO^xrh7ge*>BzTe4B2(!z)99AF}<|lfOnrcD(Cb znHOyFmxDUwrYX||=W!YS6{gGP@g49cWcFY{(Z1LZ6&>vJ2pbLZNQwam%AF_2o@9i3 z|0FvP9bLj^tfWrQDtZj_zI?T%OMRJbM7bB5ji2c zeeyRjymP|w`r(iUG02tu*5M#O6&egR91&8J*2NVFvoLo?pHT;e* zate$-N^38vuhMnpnAKX^Hb7eH3G4O>gKvcIYn@D&{)El?~z5!}-b%+vnSBsTK>B&)f`4Kc1m> z!Hh*i5_2@da3lM-7;Oq{(*B&`|K~@G@h{1Kyr+}IvYL_?Wny{5%bexMyy?l}9nx-{ ztCPXL>fTJ+;kco9ui1pu2P?nHtDZ6AZ&6ea;9W>h+kEg-vaw{7#E~H>#zO@;@+7$4 z4d^=gv(Z}BH{IZge4na!2Xz+pO*_Pf6c!$*%vje<7g%pfu2yzLzDPWvQ1xJ=4E|-~ zYTG;4}Sg?5o0HC&kL;yO7G}58h&i z8giG-YpPQ3lZkKGRyLHC-Ovqy%7cPFSd?X+c_c!-_*1jsNwQ{lPu6(&U($c~N#Njv zfEza3y5{XF0@j;WRMTGEWdhMWI8Aq>pj}d4UxD54ns(L26y;Wa#Y$5mNmh7l&YY~E zRi6}?RvTz~eW&AG`dhvmg8D?Cw@KB5G8OIRwlG-dsh|eXPl2j*D|gSOsF2T*THd#w z!MxxV!yddo{aXhLM{iCh1gWcvu>;wW9U1;f0iA<7{v?U|XM-ra`MOvEyxy@83Yw_= zrVQKtVSG1Bx_x`3CC+KxjBn9L3W#sQxEy-fZ0J7u5{W8qh|%9q0A2Iq(1qOj|7^)H zvwc{xS)t4`TliqvGJKDJe(uPh?xH1`HL%p5VcfYzXWdYj&&Ln{ifN*JrcAML^pPbW zWg1H!ni8tr4z$|pyvjH0d3NNm&r{;%dc8m-Pg(J>9M<>iNLdzA)WF*9O*iI{SvxZ= zm*(Y;K_{oTZ)b9waqL`or5(v$Kh&*G5sSwCG*oquRt1&!P{9hFXi{HUv-$GSgpTuPy-%Q0IwJXV)xGH-VmmYLY>{eB=rc9=)k2v zmtKbt8Un%K>m|d%&!Dol6Bid}sP$sZawA~EJ>3-aBfR#Vz0y_0Yh|33@9HxGXA5$d z{kf7=@izz<(~1Qi@aM@O2cxwW?9%ZaV9W%`AYEv`-ev+22MW^*En!1Zo_Zw`0gt{- z=~7~ZNG>7CnaU52hx;1C<3M0hgOaZ;G3H2F`@ zLKQy%vNFOP#mFy&J^7hxvDb9m*) z_yD`HuTpG27)E!D7oPyi4|E{=)6>&}LqdHn8P|hF$O`Q4S=bYX^Zu9+U^n%5+NYtH z0*6`zXIbj7$_JLfnn2oQ!c7jjh_{+a+dk9w1LZb*dP~&e{m^kx`B*7`5niC^zkZWR z%bD1Bhz3n2T+1Jj`pHG-y^JLJ_tnnI_=S;3CoU*uIo^+SO>6Z_gN{mUC$HYZA+;ev zM-$Ptr%O%N%|8A|GA>O=MN;Bta~n`UGSnClK&cuIvnw{mCl^V({yy$W4LN_H78w{y zNYCo)WH0n6CIUN@7$}wnmI#75JzckwCxMI(C6}zs#u`IDO^j;+T9;nN6Dw|%)1GlA z|G5FWggQbuL|bN(a;{_*&RlD4HSPwq1jPshT#G0Vb$Z`_GYE%ioZTmVWQUsY%7XgK zPQu_p-`y+&<{2f;6mmYjx`O@BwXSJMGZ02ncJ>=r%gS$Crt4Coma1RGdnlBOY7 zF55PnqhsbIXr3xAdl0_BYyF)*ElSHMAb_Zbq}KV6J!gJNA``?IBL zvpn+a^VM#`3w?q1Dq8_55ZTNv=nT>M(?j9+<}etHq+1{_=#=o<;&4s3W__tW~v#ct^>UJs4B9kuz%A;G8W24}i3I#`w*Rd8xthunfiF5^9qHIkRA zdwA~6(15Oaz7Y#}KA5e23;teoBS85`_M``}SL!JQ;W9jiD1Vw}Z0{K574bxc$?6(U zHo`?U8gjc!n)ns2`gfciB+)?vDGjL212J7z-%Uq}W^U{6&&Z5WmS;xpZ7n%ZF0zn5 z9_-rN)b(kGB*Y|^k1Izo_IQW^as@I(=Q`ucoyuo+Ga=1F4MEMFK9`5wl-NYEBgM&H zag}ihj^og0%_ouQm<`b}aC8vV6VrtpC{eLKrw*(ZqBh_L_B+?A%v7Ma8;N_BesD@3 zJ+GD0eC&tRKyE-PZ|e~PODlAQ%p+e!P7Xbcu0JZM!wRFg|71<>7KppwB~@-UVythv z$w+~2lElsrFDcqjd-!@nW0_K9{;|6GKZf~_7M7D*AhP#Z~%gFc|AJ*aT>)sGQ9m8)7$>vGLhJ>G#r0rB(O(wb%ZOV3IY3CyTl z8aU+#s4T?3i=%LeZZXB}GcUdK8FZ=Lm+Q2_&)wnCnO!mM&`X8PyMYKQNhc_KL{P>R zir%TjQZ*Z?AksY(OW=FoI0~gDGj`DeYJf9Zm?efZaFwJ%bz5YwQ_6GVaBhMIpdR_rHKN z@=_$gwhBjDqn<8FMiBTYFc(>N(iKK}j~8`E^$YEkp^G?4cga}tP9Uqo!>VG$EdC~= zN1^bCjz{(3ANU}^OvS8e+LTt1U-0byHP9H{^?|G=3s%!R#xC$-jyvAPpBZYs0o|MQ z59_GV{!5dl0>xUw9&4$$ zG1&XrkBd8pGHH-kHFd<~KkrW|C{MjZL!mx6yX)JpoEa;M7rTpSiW{tzm}F?(qH2A` z%%CJs{6O~$8n0?LD1SDU-YuxxfvbrGUrstsZLGB!SN58eaP-gt>^>XfknV$y_|Km% z#x8Ga?M+bxY!*5_VI{6pceAL0`m?daV z`s_aa0ua(+i`#A8n4xiM5RvLNJCR@RQy7!;Vz&i9Eu<-Y+p!dr$2 z8zEUJsxa##pW-k{Oh046*sh+|Ldh!0e;E>n?Q%I%(x!W&=f$EInn1s>8j7S|aCJ#) zc;b`s)Wd7pN7#+t7nStvGkikW-)oho{N7+K8 z_f!6528q;{J+=-jntHjk8aVmqoyE@{!Jp+LV6y`2C5--@S64Fn9%xss9UC%&>fwTJ z1~2n05O)LK(Xi%P37d^3ZH#5cUQwZuL0c|zsWL2EU+AV2&K(D2 za%GSYB8W;I9};p#yF z7;ylyhTU6hq?g8QkCJ(Ys|De>3PXIXu|B5=ADH?OKH%s$>9~}b6t|JQN>0rJ6p^WbA=!&f$q1WU7p zgY2B=B5StcJ$%gz;SX4X%+k|vIpUhp#YE+_DYTdPpUHpvUHz;oCTJk(x-i#c^YAjBSU+o6zdJJE zgzGOzP1DR%2HiL5`-74eZ*6O9lk&V2s-4oD8}>=AI!sR{)-u~dy;bW!G&t(1_yr&iUaja814a-lR&)o zxkv`3=KAMO&&&j--C1psy4tH=Np=zeS|Q9l`Jj^^CbU*lCUx8Fs*Ab|Up;jw*ON0l z!f+K?X(KMy6boj#c)BsL(9B3DB4d_9K@mu;jbbix@Y>lIpeS=@X6Uear6+!4+GrX6 z#oHM<)kb|0*5#oR*dloip6G}$+VxLD1@ywO<$I~emZ#tC z{hPN;k02qxeDYaHfLYJ|rod-jnY3UGL~TfqkD2EVabgr&A6eXz50Nt4XYx_Vm((q0 z=*d0z+)4KwUUmfpcS~80xLdPdhi=D|VRLk3NGGX_`^t$#4Uho|IM9QCZ>_#X-*ND_ zsG89dhH|EOOE$?O!u{Wns*%Y@u1l?7cr;KjP%Se<6P>oEElldFNjm?tQ zg;eZnrrdKZ?oBDEBj{-mx(_7W118_x02xa>J@>}p%r8WvuHlQnd#>b&w6NJ46ALZq2GVNH9;tiFWx`!QG7X#mYE*2{6aI* zpl|lsZptMDa5B?-D?40Xj&XP~e0qI&>TO*UhMCXaX@<~q68Grrf|(>B{JUF{kPz^4 zPWk_(|L(_+pp)3_b9g?qEtvfwVK;b^vp=A`z-GMAw4$AD44h`{U{~uNSUdYRr x-B|-}?~7k;f{vswe)#|KRdXif)06R>A0I~i^T3Jkkg4w4vG-f%*Wds6{{R*72f6?N literal 0 HcmV?d00001 diff --git a/utils/jalviewjs/site-resources/images/coolVeryLightBG.png b/utils/jalviewjs/site-resources/images/coolVeryLightBG.png new file mode 100644 index 0000000000000000000000000000000000000000..ce3252006c5863c34af599fbe71a3376a8c4299e GIT binary patch literal 560379 zcmdqJd05hE_XkW_Sy?(|Ws7N(sne#Zxhqatnz=PunH$=;hlq-%D5zy+i%V)s?lq>? zm`g4oifFdrPHKUQqUJ(|h#Mf{@_uotp5HU`ynnp^y zurS`bdGBTr2(;DY+?k6Y(0VlxXoLR74ZvTvAFDeE{BI57qVZ`^L5uVV@MfL+Df3ex z(Cb*Sxohiz_nUmq*&slmUGl=Yj|@((Kl*~^_Qk~tM9@Me?K9) z`UWJv=8f6+H(Kk~sjXRk*Z0f+|9<3znG^8XUWpss)~+tIM#&=rQyn_5V<&$rdG(K= zaaGmu&JD^XX7`;GzW-5g=XwPg?WyYqW!iM!oF?bHNI|>LYz1emO*n44rU@dOc-ijA z&ky)T`jOYv{YF+_y9+->+J$ik`6-P*8E^s9lsS&K0)MO) z_1oqnU2Y#=o7)ry+8tqsQv0|$J;YrzG*gpOuFX$M5M-tL^~K{i zjZKZSQ^$Mg*yhTr3k%8P$v?y%Q> zFs0M{{gQp{;)cj~e+al{OHSkM>RW#5u12A)N5^_&4X)?_jKr z!ydQkg;wsU>6ZIRXK$Pa_6FqEW#%0wVZ704b2a#$%xYKLn?DbBmsvUwGRoQ$<`rRf5laZXeb3haL58 z(mJ51i?PqV*$4r(yJp^URQ_qwy7eFz1x)iZgI}dODS(QMUqso0N<@G9#y$^`N3a8J zr;P0q=Dld(0!didfhU_*w|+cgix$@8)Q5~_cW+E=6ysR-8_+-L(hk*)FQ5Je zODzT``223wQSj__pU#huYe?}oNn0*GfYcP5pS}W9+hn)D>CRt1e5a3N#aMNNeK zE*<<9?42K?A*jPZsv>bVN%gG6F06&Ov;79zsUIsBx7-)r^!R37DgTcC`LV)TvjQtf zkX`wf43Qtp(>eqL6-(V~^6NA^$V|V@ywhk_xs@F8;~CNqAO}=&nD|GRX`_nv%Jv%s zw|@R`3;2k#?iaBTdvU=}6O(?h<$}%-RwOAo@M#9?*vWadb=73E+N8LpG|*2P>}8~Ut}`jQNx7BV>pVHT- z5!##?QRzTTRl~bCxxYTiYn_6$soHry(C%qXsU7&S22jvi@w$4Q#f>s=ow*-q=dGGX zVkkRgB7aE6>u$sa-tDK|gPqk}{J#!*BRoPKcl-MAtuw*Y-mgyE^3b$*}rE0+~(3zvGdMpiUL74%6#RN+n| z@E~pPn8RNEWlenXq+h=qWznyD&NMwi6uLBkFXQ!V{`j#sKJwxV+UGoIIj_ir#Pgl>p%1S07X{MfA$&R(BdWFe#~!%V z{qDGL#|}E={AtP?Lq*I!On(3CG|dM0^j2(R51o&dc4GgS?ndd3#@`)>VKn7Y6`LHa zg_5a#s2C-4pA}6%{Zj)h_A_@)#}B;i8}L1#EE3|GP9Ef*w_$V71K7a*jZzX*-LKbZ zW$h9&KwyHn;@@##W}|d>0xTgSEFYF2$OBs?0r=kO@e0b)$aJmZE-zB%hlJq|MG)eB zo!G-nHGJVkY#?6f3~+yXT4=jt7&p2gGETAIXC99GHNpp0V-XZ`c$1ANH_hJL9xJNn z$cUb_aW7^0;R1=rMLQ(Fi>2?Q*4Ly{|Z4T0AG&vMUtfT%|@=pf}_byF+mL&o5?_Zo5gG39yzbThk=^t@(jXr|9W~Gw!u(US1Hi(6)#~WG5HSTiAV(`h$K(CVW!Z2x4RXTj7=JxC5-m@QC;lT6)bwc8eC(1h zK2Ep`MXx6*#^Sbt$tuH?*8jk>n$KEK`+ROq!HN#j$^t;+dXrbBef5TSBSF-8CY{=kaRzM41jFxno>$kc8I(PaZD!%!xx z#o%;Izb{Qih?U>J+V^(k&IZ+UaT-(i8=`0~jzREY%KFiV+epqaDuGdq;N8y->;0to zH$_B?lQpaQ&S3LSMb?SbK8lYMJX|C;ziPwc$V-uAR^~IhYLbtj3|Vfmi`%SDJlQfpLl+HK z+SR`v{%|9C^f%Z~>pd`YjmZ0rJxS5&#hP4lD~8j?Y`b}_zD@>%6~E|bR#>>mEV3ho z>+e@@jTuqx-1f6C>re>|CzE&(rvrc{5LkhZEmc#h0`M);_!GoHH091j6Tg^)!Br7U z)1mn=36ebeFl{Qo(Z!fg|KSijwuL(J1}diZZ279+fSbQ9C@;`Vsv}m-+S#v3lizaha3o));jM(#T-b!-$3c2UE>GN!oG*Bn&D?7{7{5g*?OfkNOg zaAPnlda3{s5^nc>b|-!j^=v!xD8Zxy>w@O)+ylBUz|lZi<9kQ*-`Zy>ky)ixdNujq zhYtdYy149rQ6C%KpHkF=NX2?gNm zC|?H!z!R+@h?qk4V?|fceA9PtsHRnPFty%Qyymw()Q87JgN#wqTJXnYoh%rpvT6#Z z{kz0ZUw!fA_lFV3EecHS#m6^k&1ePc&6Jx=&TLy+%6R8s@OQU)B0}VtIM$`+efgF? zt5%i11JAbuAf7d`_u|1-x9%gi&K5*Wc#{KJ-X3pJ(z}I{SmQ(a(J2iZ@>UY;rxCJG zr>@Oz)4NL=jn=fadIbb#_U&p}0oM%bG7qA^p_ouObANhu*kS>#p+tsjGHba|+`AnY zxBvc!L#vOfbjyqUVmF~D^Tv6GGyS2Fs(X5MAh`fpmc+oh>IW2MeFOY)X)yuch6MS1 zWbw7_vJN_F&b;Y}%_E0iweVA_3Y6`6K(Y%qf2mC!zCr?fF>N{588#SwSV^D5kMi zShD z&$KSI+O~&mX~yPAje3xD_GVN>We!_j7`&%S()_pk7~F!ySCBpF#rTcP~o@EMxGh zVOYcq%5kqL?xY~?$^!gszW9Ma9m-&9hBo@r_pR0hG6c0>l7(^EOBi!dS$~27 zft|!n1}201c{25NWguGXRC8M4CyEO_lt?A5&Ii23;LNP=3E5-qI?7$x4;%$SjU^$B zAR8iR7%I-JrqaA#(IuOAJ4hFdMVYU1!)veF^3$e;J1Ux(03s16Z)6b?T1)8Nl39!bOC zV7jTTTWQYK_MX#{9}+^hkK{s--tLbG@+2GQCPnyiI#y#k9`UEG{tj&YP;v4ZitZ+= z7$*6~J`jj5n=U|C{en!dW8P~-=)#o4j<1SN{5-q=BhB=%;K(LB;OjuzwA;}=n7VbS zq{XAsI*ElylV8<)=^X}howHM{+g`)4&y;%C`;EZ2hsOg*)F`ec=`t1KSX_01PAh;4 zrdRRF=fd1aMcVNEqbEptoQe{FHRX4>dk3JVNjPe%(6jXHU7ZNzw(O(}wXJN>@Rga2ZhLZF27D<*?CXx8Nxp5m)Aw0tMw;mJ8bHLc~-BhqOb83@Aj9)O$N zeX~HB$h}8^45`;IyWI;ZlEf*xl2nFm^nVTF@Q=3O=TaQKeB zkpBc;8@@y;8+Z?i*w`}8(kSH+m#_g==~yPqNw&jsq$G)gk((=D)o6!y>6hv$+4$HD zUVPG?{KFJ~+{fFD_Sx4wvD9f8){?-g7+sCcoSf$lD5N42Bs}laP$Bo2rOhgg54Q#$ zEl3Yp#j4>fjD+wQR{>3tD>Eut$-cAH-=~c2N*UkVhB=LtuijV1fqPfR)-7yW@m=9> zX5N@-$bRS|6+&#{Is6kCWY!Jnz?;ybLJCTVx_T`@HoJs@f#!(+)zl07Nb}jev!uJ*pWzsAWOgbs7V|t+0JkU6V;pJY_n`q1m6uMP|Q5&_=r^; zIDp70qbaZ$VpFgcq>7k`NFJ?wCjth6r0;Mm5^tU#3Zb5a@fx}zs|;q1({z!mt}6eg zI0)3Yai(GjJAM*9*W_8t#FLa)4F>=}y-BU|urcIEcE9f^??#ioq}<6R7xdra zHZ|{1Mli2^k4t2Yz#DYfqUVG3d3xQ2{S!-3@^Zoa(qwgq4ORfmDXy05>y>r9W zV2N>jY&zp+SXk6#Bq@37H4x!?{EIdoJ=yRPuC(}G(_*~Xt@{MZ#)L$?$+yMHppW{9_W8pJy@$XkunV5%Y zZ3fj|Om2>t<8Jh=z%%C4-sZM$V{(W|V-yAO_=O*DJD*;mXEfeO#N@-6s+py*ehq>F zq8Dl4ZUbL*@5Sm%OA35ja+MPH_fP$sfOF0{bZEL8BrT3FmpZ!Nw;4Kt^>PAe*i5V> zPlcs1J;LhkhAXjIb~q{MK+Wr-SQeRrQA%Ka?rliP*z>Y7NBbi5q$xsHpDlk}O&G`# zPfNzU@641(;BA*#u~&VO_fe0(>K|~c#Kum+svBYD}2UUNKl??XW^&0DTmUwWSa z#|VjAVE>O{t-PLzIrIBTlf6Udg%uwV=!7A7(3L*ZS}U>7d%&-iyRGWA(-s!d+IH5g zDTAEGE{hy+>TTw?0_oly;ooGrLr3u&M!z`A|JuIMeJkqbBN^I}&@5_TU|Zf&Dsi_{ zG~;cW!D!yGsT>x^Q>YID)g;Yy4KO8^F*97E_SA2k8hDgAb>!N? z-j^7O-33zGNsWE{4$brWz2yXsHCC#V%IO5y2q&@0lq|iK-)WN879j?B1X{b8IxMa7};NLHi6>;Jfi?8rSF8sBR~KuPt#fBl%crd_ahKhAgOQ zDo^^5G*J8lUZQ7kli~+l!Syu>K9%oW$9gHLpRQgPCDjtAGgF!SF-Ii1fwNtJ-gR+{ z3`RBi)H~yqpANw)Az56uuWEGx4pjCv7@77;cYoY$pR_w0t{oq?GdInh^ zg*RJsKZ$O56(04DbKVr@pjfG)AT7pk4?3<@-Z_ORSf7CGkmYvTpOEC5%D`I;gc*C) z#1gt%dptPqf6ZKjF^agMVz15)!` zdx-+_LXo9yX7V)S9FTGEsz9XJc|_-E^3nqB0wrX!a+jg|KL^*lk8=8EgHwT}*M}y< zX$}ts1MX*GyxZ9Kxno;rS5Du;wuui7Vg~}W;(0F|mm=_$CjbQ)7PowKZ zpVP5dgNyuVSo4_nyy`@C{gOnbQB0Zo8W64IGd^%+Mn)LjI6ga!{dfnql4Oq`KuDan z$taaL-)S5~Lo>P>x!>Tf=48ToDG*jM7T%#u*5M5cIj5yx8Zl#bi>xx$;|CTHo}H+B z6L0@uKXV(oMhZa8J1A71Y$nlJbbyL$kI>0X2C|cr7hEx)mIiZ z9!)B$4jI7P-?$Bg;^;d$yYqGb+;VlLT7r@e{a9z$Z!Dwdr^k?e;~dmx36HAAjWuwp$X>m}2a41|vpO^xCDuLt09__i1czAO+1|zmkFiT9OrD z9JQu#b+mU9l7LehZisH2OMX&CKGGPvtoW=TGDVF{F|X2}97U2x?ps4!%5G8z)Z-RL z_@7zZ)2BY=EcrkDpfxb`E(X ziU_D4wazP(HtZLTpu@btTF=v&S;g;I+cEesJ7vE)fcY)T;d|*%dG)jgX9aNy)aiG+ z9<>@Bnut@L*Lq*(7de{S#T3Ryqss>^g|p`WH0xP+RUsk)j927M%Iv9M6M!OiGshS2 zy9ZQL`E)9U90pc&OP=yh4fwzx6$9Z0oQ-dg>k($fs7sSU`o%=^<*>^s@T<}1D~DwZ z((U0i1q=>-n|U@#1VoUlLOjKyiT?B;-Te5kWuoECao<7b>xKU?g4E2Lavmt%bpb_$ zG%N_~65^oo!!zAqQ5jMW7yw-T7$K}RPWxrmz%kquJ<_2@V*p*{n6xv?kp|?h_c<6% zl!5YS0csVU8VR)BK>CI{q9ZZPzc`3&3%E~n!y5#)vk+TAS3i&db5M47Ow>~(tJF^# zGlc+D)>WP}gk0fc25)dB25Ah&axPfsjp^n)|BKO-^jA)qHDQp{*Z z0^^Ab|Ha@$unRhMMFn!c=CotY`3KTW%9RotqlJ}F5U6*8|A}!mGq9wI4+$ASao2zM zR!&xP;YTYUcN+~F`lSvx;4CP>XQKWY&3(^X;Ns`qR%Hk3*u3oh$4_>NIv8veJnMLA z&HXm0y#_=O6F;q!$?%}MCgV!Ffd_!XkFWTv)W0I_?9jfqN8{odqf`)RTX%5{PC3Qu4WRJA+Be48kOOT2He;+U9y;tvFA30z?aLD= zIviS)sP8ukWRXFdsEo$nU4~1DRJs;GM1rDjud+~}w1~$FA}Pt5bc?)0-I1leE(U9) zx2^;*Akc+BeDb!Q+e>w|*`Vq$wov?hUO}+2&tnD20hN4k%TC-v=VRgwgo>c~CE z8Sdfx%Gijk)ie+UvDnbmSLPCKisa{P^}v>I9nq=}713H}`*-ei-ZA?tN`Pk9-2BK& zl~uYH)?pCar!va8L9iDge*|oNf4=4ecXEiiB_SfG-uIg9^Ds^Uv9Pf4dOx~;;KV#o zlO+Mw7~*NGD2hXybiR6udo$XEglZS)lxeFkD~b&RCQPY9((7ruF z;Krg5yaBVLZUXq8D6BAUrB9TZC6yMsRBs$pc9O~8Dxbg8PO-mCP7qL>Jht4X zPy<3`^=^=|%Tq4*NyQKPb{h|BDNMok3xC~O_OO)fvIzXRPuEt;!gk;JmPYQar1Q0~ z$77Dx%kmgI1m~)CJV62-JB6RH0qMT@#^U@bK0dkYh8>{JRRhqJSD~E@)i!1V`qx3Z za4}m63tKtZ_LjZBQ;>ta@X%&?F74{OQxwLw3Dd=9)HEeh%2i z!D6q>`KZR=7cI_% zM@BA`=qsw1Z!YuS&hibOKgU~+Zou0O4%81DT0t=~k9!

GnzGb9-N#u|uPdFU2iJ6Pzf6iB4XfC@;)F|Wopz@S90j?lzQuuftuqZhhe zD5>z+Hxg&~;fGRJw;f2FibFg}kl@|^bXFq6^d_h;eFERg&~FP(sDnN#v^JqZW^{(R z_9RfjTjK|>VqRqAznpW=`z;3-yLKr*3OYJhBS%v(_@xYs=4As_^aSQ(Df%uYAaZDH z_ro`)ktatn96(@p15gV{UKF#qn?}5GpB}IU)S$8rYp!!W82Asti~Q0{cKs6E`UK5| zCtQ&L!x}{Y`q7@Fzn%OBv0YmVQ`yAoxe`Q!r2~0dM?7~{E|vd^Ev#odhFiWnYLFij zqk*^ANbpIIFAA8CTlOoF?<7w0!{wNR6<(Nn*G{lt52kAKNJxfuU>wk?@Bzt#(S#}1 zodRv7c?0tTJ7thndj2n}OrOKV5zOVbKb)9{iqpZ5>sTeIf>>Yv>Zmmm%Ef%3nZrHo z8d+@|+Q`QutM6j->ri&U+=}E`>W$Q+{S`o(o21(dl^9nFy4?8f-s@(9*S=E!?JxuR z{^0&%xn=)wkVGvb^t(Q2O-!mY^)f1_v)0u!_FYN&gpbxOm1I^FdV}|J5 zGE<-Z5moI4{pz32j95F<9&?iIbLz4u8Na!kD6ti;h5R0xm>$wM0*Iw%TPw?0@JqbJ zQ3aq_ng$ne8tBn<;t5m1dzb2Ck@HTn-_p-*rZaS*cN(QT;PdG3mi}4;PHl{Nf?LYb zz-Iy9bcb;;Q=aAfY4+qiEG8hJU<(dlF4`?_@c@q71oa}GO6s&*Gj>P)t@$51k6|N0JJQ8>%`VZ ze@Qj@{?x=K+{#v~1xM4R@L{(b6R=JEQ6O^#KmKeOKPp!bMETmq&1(K7-nZ#5{8;h0fT?-8JT|HiwYfVkTs2s~n#5bE!cAuJhkofK`uK`C6|wkna5Wz zq$e+7c;Coexi+%TZKDD~w#qR?aFVAhnCp11Y+Q^5XXIBV(tj&R4g|XhSj2}+F6ZQ&ulHlPFY#gG1sv4pJ1MRCC1`rLDT$XW%)Q2g z2T9Mj>Xn7Is5_;(>yJtanu$;}C+Na!%b50k?Y0m@Tvn(|U_%JuN}*tHn8gS`4RU(^ z;$Nz{+}%4c^UFc`jq~*1pRWgnyG|0czjTkNB(=QH{0j(JYC|6xoMpDtQ^v6(N)U-6 z$I%kVQ?v5WQrQqDug9fOx#LfG_2npJc0$I zs)0**TBL%M`v`dG2M~iH&V>wC|L*CzO(dr=t+yDG(>r{d^UUtCXog>BAZ5o=otO6K zVn?sO<4gPUt)rRpVYQ*J$x8uCP0pZsxCeYkF_B7f{XjDf7^^nc>veDLan4CX0_1Y! zbbp$`e2jq&il}TP8@bv6N6*XI{gOH0VJ-;~Bd!V3#~_wFQ9E|`Zq!mH_UulZbYr=l z)|m3y(iS=6U0q6g;zQ&lGtUlBu!vvzV}Sa0+y0`2L9d8!T$(~z2l65hbuYKOY8+CY zO6Eo1^n@R{g!8xRU+DZm(;lObqcYV4W0P%%J5vY`*+I_%OZ&#j^5bi~A+aOS1~~EC zjjoKY?plcY`*S@|bs$I`oY)#-2yWH(8^mLTdRIeBkO~-J(anF~S91|E-9?U$D>t`X zt``>eBGj`O8NvBUNNf(%)%fchY@PAJd6z}}G4zqgyx{o7lH&jg+qN*q|2$MIhpGlP z>mtwA929QJ@Ee;y!rNCt-R(OjFSMxfU4wTj-w#!Zg~m$1<&TCmUae(?OpRkl^9Q`m zTXb>FU-7y0ZXnf{&KIQ}=-nu2Ko0m}wAt7{VOz9hxFzVWsoeiq%eBlw+wgfrv+rGH zUKC2Mccfczd2VJ3!=Zi&SSpV8)eOGxvJdz}83}i!Eo@6VX$*}%#7L*PO?O+ty$SBn z7)k`}b?mf-Y3DR%{%i4czAq6bB5XX!3?cgCM>mGCFIz3um_agzB+OM^iqYcG=BNRx zaylY__$g@)FrTH(>ANtvUI+H2aT+IvOvn_J{Mia!>K+{q$|^I8pK5`r1&_Vd)TEcF z8#CW<>nyR8nAm_JmZ_i>$=jA3sH>&Gg)@1Fs5SPfb{#@Js?15Y4awHz9cT2kO9I3_ z`mdb_EYqz|&nQt%$eH-ioWR9&4JXl#yvfX%M%y4Mu7NN}2~SUua_L7w)1_c`324>c zFMgdu0}{rVhqT$<8p54K4Cvb-N@esU_>IqdZ5?xC?@VqERp^wBi9kaaxpPkzGJzh^ zkk5dL6n?&qR`okxbK_F)Z;}hiQ;A&)n>{wGXVQ1R2%eh@mYIr(wO%qjT?OS2#H;Q$ z!wFaz;Ig31voX5V;a&eIZpI_xMaXmZXuH>d>NCRPrC8=A(RLT#hf@cv(9)iu7#+EYt9r@-~Te*591G`6`_bGKByE7$=(}%2c ztX)9R%e!4$D)X=I69EwF`XUDfK*S2{2&+rWW%C5U3eugYr_Wq}5C<@)1sI?gsqyQ# zXZoXg52x~Bw4IE{w=P~p&E(CD2iDUvCsT{qel(=Y(9l4mPr_#DZL)>D4QlMgZ@&VY zBw-|V$xac@`&!0(kF0oPDeP<%k`e4!vILS|H+3fIp%*kQ5Q!B9GON*<@=lZmpk5z4lrmL#)gc6R{F_69pB=@FZ;GcsL;ewA zxs*fIB+e)>{UihMYf`<7P+6RW(E&oy<>cgjA|UX-Ov5gONh+MSmr(*_WZ~@7u8IBu zMFHD8E!foof@7I1DD%N%|Fo=)e(?%%vvt@I5F)c^cg;JHU@7(@El= z0XjLLGtyrWcNfga$V_Kcs4ty!aPf>)01Lkn1Okg>&b#j4{`fxwL)$`VOo6%lVm8V? zqKlbW$9z&~O^oqO2p?uFB?$+{qc766>am(u$vey*1ypN)qPoa{`gZweOd#uN9|DvR zU>ZbbT{RByXuJ>ZAvTd9JDNg23VV4w*88YE&rv;t<+kR(R=57Ky=Mq$d=mSu>9MulP|re}D1E6gH10cN zbPj7y{A1GGD(6+;T2Rn>u;>upq}~NzhyAcbT7k60!HC@S)979y)3=Fwc&W|depB!1 z&mTEP)O5dQpnlXRv*e!AK1N?q!0J4u6Ip+)_2_em}Md`=WYX` zWWbZI0Uxlb;ySq_U6&?fQHLK@ZvQy9ML3HZQk=x?WPhu{!QcT^P`G|P z;{;HX+A|d5O23g&TJ5q3s&VfF`tM@qGGGZlU>eZ3f!nDRvObHr!(-M@*P-_kJ6wTq zR2bg%4U9)y(l_Fd!ISJafDAlkkM)%e^8XG5GxazA-9$lFntqb8Ap+j&UkmY5Zh2WpDjUr9SE2^HW9Tu zXH{L(jmLLqz~KaxzTC<8NBuGX;1f*!ygEcDBNw~vZ=M*+4a`R=Qr9lf48Sd;C5K|) z0@%=}!p%ASbBR@#^mXL^rzRFKHq|5MW5}*9!xYbqfDkqE4IEedV8Gb>*xD5DD>hh!g@!(Io%o{zo)9}r@}9*GbG&I*YC=dY5<|UiKqW;VB4viuRIiW4 zon$PP2MRwfkzVm>f!?XD2+Jz`L`FV7QAS#Hjzjkfhze<<2LYt|&n5X~&>H3f%oX&c z@mJU#?mf5RzK2sRuM!6urHO--YAL+Da4d)82|pf0<8it&LZ9VwbB&6Qj+Qu9FU*bS z`r^Hsg&|+K{v)a1>{^e~HZ%2Zk?N4RLFS%khau0FD2)H(ULXqxoh&3l8Kkey-Ok7M z_x|rmMV|>dRpOanSBwXWv1(PtxYG-dl^^cpc*~(^Qzdh~U&4n|+4+W(?B3~?PUu4L zAPTiKA?rA)?2LfaW3uLXyx)K@tQ)1DRqFUp6FREjVSs?Hr9aG%naJi$Z3cprpBe|W zjVvvnyLkgOwsIrHZF<(%MCb<7E2T6A8n!91T8>k;D{NP!h2R|VvduuRb{HGxP-6*1 z-Y*$hvY|^|g?8~$8A$}E>;Q<10S0#Vo3OqG9TCQw+fu&lTq0WjGYY`9Ng`5!&S|X9 z2TTkbsH*(j7So~<9DGn6A=sw(K|Mu|WAwD@X`G9ia+++`^unk4oIsm}1qTCT#7H{o zPwy(Av@YQa%@D?MQ3}c$Ie{W^tYGvR8kxm?z+h0@QlUi3ABBwnkCT`-iwRNw_Oi3v zVC^A#W|i{#>wEeQg2cI2WXuRDWhq~ZjhB*A3H-G|b%+-F7fUYKnYEMrxez+Ssf!7Q z{j=U?JZZnpJ4pRyG&PPi(>9R~{bIA^{l9lJA)+!e&NX+3u8Z}J9zLfJlunpy=nrK{ zn!;eGJd*IVRCAjR-~xk?-;r3B~ykLQUPu%!e>H^wYaz~2lU-`^|j z-P~2s`oD~Z-;vxNfewcQ?fxr|P9ofE>cl$4yEZ6}A^hib=4?X>fp)em2=AW|#XDPZ z_+)=oo%%X~+n@^3AH_%s0?5Cgn;@jKauqMC;edLaeHJn{!|iVwa9%pcf>vZXOc5bS z8N|Sau<&T`&R_EIU2QF#KWx6-$mt0col7AY1Q(Kp?Rang_0ea))xP$aPX_zT^o~Vl z4~)y`QQFFZa@I3+^uNzSJ2$uUMQLD;A3h|1WKGS~jPJ715wxDrx7uMV%gDe%JSMA)ZeNDdZE3taxuoS&rWJ)G`ePH|2uxVRk=Ow z9*RYJ*2c+-biWdfy@(Uueqy*ZRcw=@+P-}pof zzB3j-?2#WgNI=k{GD5yJNAtXz^QYgX0bHvX&8fG;x)v#DLQ)?#RqiK$G6Y%tT_^W_&S$P?&*#RTzN7>Da|T_dL^f zkvl1V<)}|O$H#uuI9odt=sLdLTlhb$C9&bdB}lwqFWXPqwaVr*Hg{s9Td4SwsBYTF z_|TI#fqeXvlq!_qEPL5Rd2jbF*vx%i91ji;0}9rk!07+Ef#0)2ym_(42B1B=l7n7O za(w<-mElG`pYuCZ1v&tfs;7Um>$b{GfeW_!&xhI*l2 zs16WleNzK}0-Zz-<$%}<|3z$X!<J%~9=;s>`wsP@ z-W1D80m#^kto(m1YZiMo+Gd{cD8N7-Bd-MTz2~}^k-gc6QRoTv_d-L;E2vrk)kJ== zy7|gN5}S3(n_Uz*33UDI48fBYbShzXrcynuwfJp&=xLkt%A(^-Kc zN6KxAi{yk6<>(FvGsZ;G3TA&(ZSyvyhav%^#@QgI`Fd$f}sc=E-*fn>=d0h0OT)I@FrP z=D}i_Bh>Zkw8~=%jZs+hq_-j0dTEOzymv$1x<`;^pdiaGL{yzKeMpI!p5UU!4hGGD z{9ha$nQkqCHO!htK1RiOt6N-!!Bq%E>}ZRy>Q`MUU*KIV?~Wv zzwqd|My=Faz2@Qff4HPV(*JozollxLnVm+I^k21>6i84bhZQ zQ^y5I%Z;N(Qz@4COrxeAfU%_mRLByB3VA=&sOEmn;t@jumXp^IHRb(QM{5JOJuUW* zFl*-g1A3*YbKI-4|Motb<)*XsH*GjkLS-9k+FL6c|F?~o`Sp;$D@9`i8*#~&NXxz4 zJ9Bc?U)97)V?r^{1vQyrr<~ewIm4EYn=cv7anGI{-y7tv0IE5FdXv!n@ad}rra9KL zUX@2C0!>wxHa&WsxpMI&RvbqzfdsT5OhZv8kzj=>P*GG2hEUKvBrFnj%7Ey*_kYom zFEy$An{HCx;`1Q<+E?(nUr%y@VfM6t&!oBuB}f<6jPd=3T^uAh;Kna4J=AFM>_;R< z44!&JS3s*JnuO^;ypdk&RTc`Fu*DtXwcn!-sU&gROVpQQDj_esi~sStGEMzasAjU% zt2=0CSuD}Kjr?CA??%^g`>aeV_jVj{@CpzFdJbHRhuD~UzSUK`w(kAe&&I`)?YbwU z(a8&x8>aJOciJr-QVE7ru0nj+eOoykoR6j5XWpi(P!{U*>QyGcY$iE->g&~JP)Jt_ zeGkzsS>Q%IE`ZmkqUQz&xTd8jK*)~oA2Ap@JKG-GqR}GIQOxrj0uHJ~&bQC1`wAH+ zNY+oDk)4T)ftAgBD?8V5V|z=6M`&4Lr4x^+7rP{zZmZN;+8VbsS}+@$__lSVoZ&`; z{L%{Wguqm&@+a<%7`auvtY^toRg__6q__{~Pclq9l#yxCt}zs!Agr84SAOqhX%sfWiRL~ zC4M7x(TY^z<#^6KfK`Uy6b+n_zbltnZ;d+qF;3V)apE5R?AYFJMdc@;ar?=c{l0oY zo7jM$GiAvM1Jwd<#GL2RYMrNlp_mMNQH7}@1KVo1r%lsyI%{J)3*<`fjHM0lvdtO+ zPI;qWwnII5FB@Iv_g2CD=9mR)-{??;UN6N2zk^jqgx0_7_SB4jW`{CY60Ea} z+c~t`>g7WFM6OGi4tt;jNwu`6)J!X3=_%*Tx3;c6`i!p~Cv|k4<7WRuOB{jTeeT_j z+z7OsE>HZq-FQ&dzH137OFd7Bqxws}N!u1Ye7NCXR@NbFkUL_jmE&H|+>`wK z(RF1d?{#jGcB7?(UuF9`DCwRKF<)KbuHlIVeb>5jA-RtQ>dCUzEg(#{vP5X>8hPXLD)}w;1Oq*(}cu1opn#<1^O4P;%)q2kGsOT1FYQ!BW4K+{s98 zH*bdMkBSP655wKs+(*doXfr$@F=z$)J)wUt_0BB|D)0Nu;oV^cgynhjUe61jz@4Pu zCw|5N;1sM`#W}EuJC?tHw~&qN*a?{ar$H2C%VeqgmmR|sJHt~1wQDhr*eQIZv@>u= zfP$Ch>^VLKj?X95>xG6&j56suCzLSh0O1Q=Hin5K4xo+oTZouZDW#mzmplBxX@ z8S^bos%N5p6$6T;ah87joANgWDFM_?-^k$m>i0vYQuj6Ls2kS6-v^s^Ef2SR$G~z7 zIcfm3eex)NaA_@>$t=`Y^^dDGe#)})1KpIs5iZdV1FE#MbcEngY}p86aoQ%F*Q@3@ zXLiD>v?7b1jNF6su5FA9%SAk6cZQHNCim${0bnw|LrH45@o;V+;v*K|0f%>YjzRQ7 zEgOM=3y|jEZUk`7?V4_z^+B{cLldVCb3}!DjT&TYI|>8YYU;@)r}5=-#lbROZC6@m z{S|?`W#P6l67$dcO#Iz(ewj!0bpw4i;gI!YOA~WEh`iP98>XwPFt$lLV|{3sC?EwV zwaJ5-8WV@>IGtCfLq(EcY5#fALoN1s^_khmA${43s=B$0vK_+|})qPEr)g%6ej;n6w0+m>Hf4jDw_ zdUCB5X_TI~@xo(v!V~eg8IM9GM>H|+Ho_A>C~Ty&Q#BXmz3g@o&U!SCuH>9)T1SpE&L;javL^Y;k&}%Ux1i|wqQwT3(X6!)jzmFbD<^SC+B@9 zq_mY>bWWe=UiN zLtnBC+7jEj4-QzK;jGE?O#887plc$uN`)Ia{DSWQdAlBi!?F@MCP|!cv2Wfp)~TJ% zGd(d?QqKXA`xy>fLBGFI{8CD+achtaOf9C@JMRHHr}p*T^VlE4dT2j|G}{fYRHBt4 zL064P5AqW_1QP?u2Wf(=`hhjwwm3A!*Zw6k9jWjYqrcNv}qQiWGF^yy4?tPKx9HP=Jq8oQtuX;)mTv195pvxoDZ^E-6zd*zZr!ukQz88{xS z1#UqdW2qoRkK1S-K@wza40Mv4a5HsewRN6Zm!wtLn?ONO{~2=6y_^6@DJ&Yuq4A@!8kvrXhvMAeZJ3U$Qs8381aHWw0yn%WJ(zX(|o44*)oEcV+1Y76n4g zboM#N3cW_*Im+P@{ZR=)5yKI<>f|TuT553IOwQJHk8_n9Cgv#GgHHn`E=jE7{By#& z>dws053WYYY`XHq2RVo6YL~N>uwq!FJzs#B*e6tD?>$Xs`BiPHxQ;)^5Vn7c={r|t zU=31d+2LfuU1lG-X$}3COoFRgZyV66<(Ga>4d0^Z0S8V@)&!zPr(^bE8Y}d0A;576 zVWUzjB;gDs42b#|Jy(9q94ht>lN~!sQyAfT32!rMygdn=oy>@g-Dwkcsv8o|7~q$= z^ke}7-ELFJmE&4}`}WwUMHJl2w>Rzr13W{JB<7WSC8sTSRBQ91zJ z)br7p^dMF_j&xZj@B^)&QKM?*`C%^U-!+u!Lo3}|Vy=W~K4hPJ$jd?5UO`o2d@pMB zle1goVFqwwBbfK?9?;T@q8>G22kn1+7t7x(3LAv#eCAJ3LL>bC@2dsn7~_IF@eF-&tM0{ zLi(!e6X&KciKmtvk4(W8GH4zW&-Z-|sMg$M7o-h9toUuX_|%3X_xUR`C{qHf>{ze; z+M24ti6j1LDX2*Qc-EcjGv{8U0Zp~C!uDTeXgjB#ssumEWtJfisr4)x4Adc7<%~aW*~L9A z5piBg4rsL0tlb6bbMPoMA;xT?;+yzhwBcOr`6EAfN~wa%AL$Qq$$B{^qeo}&(Qp4|0p&tm3k3^Iv;4xG zv6nOQ4H=WJ!vT(*;p2W|iwh3m_%8qhTIkrWouf$!)Ia`IwORD!dmCOL`VB`N=Ufpz zH=ySwW_cc@`#dAaQX`@9Tm7{EtannD7tbvN8i*97geo_J zd-4Cdgo-_r+P*HFp)$Lh2VAGZTgr--`#JS6^t7`{(N6>^89w}t`V*VYgZ7IKX*YVqHn&M9X7AccgD|m>)9)WFgxs4kLa#kkoD&$t)l%x{ynyp zR8D$gXSkF-O)Q;m7`G2b?6T4La|{|>J0!Psf&`!TMGAd1Gh@yMomV^#XEN=@ur}g? zgY)sBrbPb5MHx=^hXYUe<`126N;kTlo`80?+TI2Eh=5OV#APu!iVHH)d@^C)qyw7{Q2J%|!b3@Gx0c6_Z;0T6d zM^Ky`m@slY^Gyw)UWW{A7x>ZaR@4lF$@PtYHN8EZF}( z!X?P_`Jv+%ejqRZB^?IZ+`@R)YF_i5fq?PZ)^aWD|8l&20-Zu-XdTo2y^6SB^8(xU z*BUyyEC)&~8)TOZ(^ydUeM5g|o55RmHJ>J< zEUYS#x3WX?RCX*wa{C9ToNpS%DPlk^JFKG~jc(tSCa`RIZ0Gx^ppCl3)IZ z7qFvt^@VnD^dHrSte-OoH~0N}2ZrP09m^uzZ*%;r$Bb)BbFA#8yr=G-0gtiOxe}{V za#$QlcuNwUeM8p&gIoTO&+}xJ=p$?Od#$;nPWmKg75(En_5X1()^fa-_VnxgopJ1K zGhv;~|G6U-0A6IY6!TknbKekAE};>Lb57yD->6}i?zj8DZ;1p9{*-A|>t|wXbUw0` zKdEMjE5bc_MX?*sFrn>FAb&F7!evT4@mVOxJ06B&4bUY3g-(O<-OX3n-%5XOymab^Xx-EBneUz}9v zfUF3rcbk9v47{|n2-O_)>Q)PUC{vese*u;3X1(NbgxUZ&ASIFm0wVpWQM=31Zh506 zGbshlj{C!boJtuAf^n~Q5n%xp@yE&Yk8+6MeFiL3gAvvE$kAjbuQzomK{56&a<8~Y zjMa4hUzZiXI9!a@49P}nVR(!2ZkCDHml<8y}JKdUvHh^JHyKoP^UdtCu7gtk*7{-;XT_ ze!h#Sv4(ye6$AR{E5R8q_>vLNTbWmGrh}fqE$aONUR~>K%?Kj96>~a_swxqO7{|-F zww3v9ca_0y>S3z*I8cwU5o?O|l8H8Bc7$LH(#Cyoz=nWu5o{}~@}L7m+(`Qlmo*h~ zQZF`uo-6{%iPza(ipJ?E#{ZzTgE<`$J3~0wOy_vuby|xw=*!09`)MoF-ZFJC{P)Un zx?bg$^jtkAlZL#M&dVS*>%_5m7eZWYGdV*rLU>omGD_Qr!A_730)p?YowLKo@fKlk z<3V!yw+N}!r;aH>X-LU6LUA*qnp)v6`$C5nB>h4GjGpi&ES#4Fh#&5OLFfC$E=ycADJ|hNmZx3yGpKfSmsQQ^wk!yul;KrL~$5 zahvd_6yJ~Ym$~)^M&1(^ppgxj<%(U-9ptJFxB&O6;3!aYU8@1Kz5$gsID%>ie(a@9p>y9&)$eyU%4alDJ#CjFtLl&>_#-4$V%1LhAkvh zZ2HQUNKFRMI_(wuz^?F%=IaX;6!SImhgICzq1oB|4a4i?a;S7|zl%R)0Dw7dfT6_A zt+>&g3`b>*%fVmC@ZwP3ptWzN#2dpkRr#?9qw30a5lx2zKIU0138tGsk^&%fI4_(hjnEr+Jo_qzSYX>^y1fj@Ts9d-$a6a5if}Bos1WqNTYbZ z_H{=-!jbkD4DRjfe5j6HyWta45-e)EY7dQ-(wl=+*MuU~ei}=@Kw)y%)z_C47i6l8 z9QI(%SKvE_*C!$RVnmBKIKNJ3ov~@Qj?`=YryNJ4-XV+9X3mbU{#1_)mx!Y>JmT2b z!GH*NQN!Rt$I>ftjfk6ePZ4RzM_`oK$~@{wy>B4)P<#(@hHGG+*c${G#pa`MH8`tX zxbykLT@~|_dBp^j~!b@HvMS(BTcoK^wFoI!Fn19QJIAn zLc(2^z8X4)0s7(PKwS8~WF+qUUDO$*03WM%zrQ|J7HK~nPkR$EIn^8xa-iL-2|9X$ z4|7=D)rqdot*6x^ytbuQ@W`9ezf@1S$#zbf4npk(1|0b)yx&d~+?O=J-_TF%eVFK` z!cOYX;)W+ zc498roG-$RiY@C#{y0&Ufv49bOm`fqBWthroJeba^T#R27r~c)T4+fdb8rk*q|Q!k z{u8E^^<6<0xN0B9H)6a@Sspo&skiIRgc@$ta+g7gH#o|7SU`#?M5Lx_ZIXxcQ8rnchj`K3dR`JSy28Z=yvz<*~~lbY}V4Ix@82AafxwuM2fJ zO|6AdE54>}Q?wFd#r_GYoBn(Mc?V`c0~YDur4zBv^ZCP34~ve4;)o%ANV!$M?);YL z_vvbCP=7hH6Q~_y8%~AWCvl|Z6$jE$#d7RF3utrkJX|w zMR#moxs+7f?zp!bm@qy}@4YkViS|A(j0rR>R<7b$-z{dpsqybU5j8Xm6hY#vmO~gT z1lEzArjJl#W;a}88Vn0uhn-%KJxWK|5mQ?b5;4W}VIAzWjV*uZ$#h+8C-81z4G9VA8z6*Kz)NZAl5C7$5vubuw zv~6{s(N%-7X60JR*ocjI@J%s%@o-VSfs{wXz;<3s4zt;>l}J!j?2_Yqr#u{~yZYRS zNj#nfH`b#9LO6*P8}|5j(Qj1iA!h1QWrEB}dtEU~ZOij5*KN06>63qFQ8AAu{D!rA zyPG_Mwhg&8ojGiU6$P~P!sN;4ECg0`+KWwRgC`vCo4MdGQ&|r#mDP%qYL+&2gq!z* zfhh;HQ1`n{l02N4skZ(rJt-m9-z7pIj3IuwnD;&)Kgpp ze>mElRnriuaWf!P%md?ckLno{$Jn^oKgBR48o__IG7dWMw^?+n5;lL@Qmo)LJAKq3 zoODf`r~NswCu64UL1&r0rB@4s>NENTKG8-#H5}0y?w9?3%;#RG0{7T@VQyu?Ts;8P znGRh&Fg!m}`q9YQ0eVTgPq#(A>@=dK7qg8#zc0MXG%3pF)ikWI$Ye!n`D~IMrto}u z(2gE!BO>J0Ws!?`>EqoiAY9WDI1#$qQ)aOAkw$e{#aB>!#(4_~3I?%2naaIJgpBJa zO$ZvpfYipPquo(v-$+Ev#WAF$Ap-PHa37anudn2FPjf9(1_EHSJ4WVnoDdU1gfXWK zNP7BnPD;5?WRa(6m-LXCAbR>hIph28^8(6dj;+V7Vo23w$1`2xf`s~z^EL||c>B>J zq=|0;skP>!R);z6Yv@m8)0wcdm5i-;W%-K@!HohEV+ey!_AeU zF8C;6Z2cp+IJcW)4LM{2zw8f5?@=!H*XkoF^JtbT{p~^;=W}_bSfT_Icf>)FHj@xQ zQc$5~Y2%Py`8Uyg>pX1OHpG=0$*vpL+PKOVW7mLLa!eaB4>odc{4j+b_>izGtq_B2 z=i?3!w2|fFP;a~tJ>*(HEgRh697PCX$1x4*!UOj&T=nlSlRiYRL!@zHrVXRqBTgLS z%yz@gj3k^a=)Y_yASs2bzdq8S^QPW@p&iSF0KvohTJ~)buB>dc6O0r7>?}n6e%Y>O z&!)EYsFDtYaIHj%w)O!8l~7TpzCNlO+*$_LwD!o0XQh_Vv%Zl|!_T|Y;9JNC3>So0 zO^f}|Ch=T>$+OeqF1x~qeaE#pYc-_ZY3C8rO|r73_6(jy_y7n2CjLUwxgcVYk`l$@WzYeH%Sxg449xDb^O-;5L32tO4UC`F_1e@%W?9_g#~YV>)9H7eN`?`Wi#78Wq? zAwRR(gx)H^`{P+%ZzEsUUW-olR~n!hadQ)^wFugWO10V0gVhJ_`&6IeW=+3RsWb0B zD2X}UFho6V(5x$xP@vP8Cifyu>HZ@g5!32yvUw{mW=va!Y3z;6QRaw(r?-L><66Z{QDU{ArzquJaWhPxS!c8Rj840UKyr4xR* z`KGzTQ~%K?c9WqPMahiti(qJxK-YFTuR0g>JE&*cFp--RvuMwLu4Ui&Qa+u-$%|tr z!miacpDjhpx9X6xk!D&D-P(R&OhkN971a!?elmR(M6*?NgF~M0-xJ<3zhFLZdVs|gWpllj4&o8#5qJvVMU-D zF;_d>rnG=-N{9@$A1rPJIJ|m5@N{#H%Ck^`Jx8wfPAPb4`!^>Z;B0v_?u-fARSyo( zf=R8KW_z5UQIJx+$X-_Xe!+e^Spubm{GIcDSLfK19v4da^8x@W=D11i-IEW|VIeDcqHG-LCqZgkgnOvw51?H=10#tb;fcGC zxL>pjQ)U^cpD1!)?A{sfSSGOSPHnAlw+D|gG)w!pUDu1}Zt#MhN7W7#g-$v&=)m>^5po@`994^v&S$LbBPw!q7w53B90>1fjk z&0piFMpOcceG5lKp}MB(a(q2Z6J#o2sXiq*Ct}t zc&ad|!W(sDj9sEaj)HH7K+zr}?{2TFoY-u^DhuA;za1xy+hotAhbMYmQO#_73EI~9 ze4@$_w|=NZu74ugBcjC3@e3-$cES4_iB7j}KajN=7&fbKHGf{;)hJ`dtt)$=DLg+M zK(m!lDlrMMBIEX-54Q$HWU{ntjT1?)zpSBPKyEKYk5t}!r-X||}YAm^lHqvdJ8+2#MCHvnO;!&kU`W-^R zCq!fUZZIDNa&^F62rRkn7u>1iVFSpNyF73lm0FX;qDEwFj^{k$87 z@%=uDFD!7euVY4W9k09kPwLYn+SkuiF%mziKic26Bx)%6i(V%Hc%*9ExD3&(F?!FB zyw2po%4slse;mF?Bhgz}j=I(S>Cx;_&dZ9JvTE0S6^{(nTynE#wPMFzzc-Rdy5#E< z?F5!Fds>@j>kM};51Qj_9x@SHO2*3y4Sop?h|Ch7@t|UV%|i@I9X1r!>yUCUZ%t0&9AZE4}Hc% zMT6-G=lk?(OA3aXD1mtkR{`ag4`J#Oj;KeN3%#^gFi+O?_lmgiR%mK#1ZbImiG=`O zBL9iYeM@TYG-IYHyK|$-pA2*01>Gs1)J1oD_^OF3t3_QOChVDm_ z8!2w1?l5%rW^z)Rf5!B!M7%{0LsgX?@&|6Ki&=>=u41Mo6H^+8Ra^;lX-s+dUjSh+ z)oWKcPZW^hxEv*YsMKfEu^>hHdcf8b8 zIIrV~fe` ztzFZ(yGlv^`-f@O&OmG~6Cg}Vf#`F7L%?TlgZx5=!HPNx@}W5Prl^zSH5c#~6z+Qt zx=4CF$=T4BUJWdZ?tTpavMGJip}k-is%j8cA@2{Pyx&HH(V!CR3=}h%4-t3>98DJA z_KNmprHbs1+LrlhTN8jHkJv}(HBIkj5yZW)@tQ6*7TkEi+`-TgK@p{2Q)(~9A-1_$ za*FL1A?G(yHmPMuTOAeXXqb7M=Yn+fOxPUFJS^GIOx$(0JiuVaVdnV!Tqcyb0O=|5 z_ZyxYyVHmns=`mMi{ud^XOD1B&6svNK>Zk=kssBFrgIVZVxHaR)$b2&(uW|tj%wEI zmh4>e1J)83lM*Xt>Q$of5ies*6$q!DVpi4!4-u0kzCM1=Jb#vvJR8zuPDNg{qUhgs z5rAy<6Y7~4Ik2UWT3WfeYrImWaV?Xhr#*DOM4dYoHv3Dai(`4XIzIB@-`7h@@9WX$ z_3e$MU4}czGk4#p$}$rVP~jH6l*S<4gMcp~{&{{*RD}>fa>0xx24?{U^s%k5YNUEI ztD6X0dvZGRYmblEf?_gcX>WAM0`VeFB6#GCx@K8K%}=1}*Ra;G{~%19qg4NH!Tyrj zniw;?&Z3s&^XA(fx+%FsQZlcd>&!7*rcdr<$(_vJdlJv$1_U||lv=$Lz7g)^Z}L%U zj0BoEM>kdl3tY?x4UJPW4um)h!`|*G@ToOF!s!{_I#L}4{_ySaSWfx#+zO%fFSVO{ ze4-_P1PdVjPBK@unsgsKw>U65>iPmsb&+t&GZw$`&ul=3QF9SI%Tp=n}Vr2k& zE&g>-%-fXuihBS09pAb~|Mn&AyoGvXw0R^W8&j%4GB6qur&Hg~FVo*_*u2$$(R zKj?M48QPB;s}f=LMSdpfUGG7oZ!`6S4*xEl^a;EiYB+r=lHeSnNsX3VxjpoR$l|bQ zwB6^It36Ae1gK!MvvpY;$+z^MH9JKXZ%>5NSr z=qHZ%;>UHU%!g>C@nSM2yUvr6qpzyM8q`x}23cRVPuWk1Q4*0TJ|Dgo)Ra`Y|Q zUMSTVSaO`0<#M^_V+GAivR2i2%g&LjA5QYDvn~T&*zbD&3Rpt^D)t&uzeKQ zQ)CeGpuiKipePx`{fF->I#i+fNi-YqfYVAYn!Hd0L9BlW@!`&p?NdWM-z;lLefP4d zb3D92kp!onC|UNTW@5_BB6$1#+{3&*Ta%&*Rab;PQY2#`gU&KZH`)@b` zTS@j=D&aUjkR#WujXMRpihr)uRmH$`$}6BG<=2*G+=w`@+%>bb zaSX0e;6#hE7iKiZb$C~}vM&~MVkLyzYHsnqOl~^YqT1i79clxQ|jzkn^rtA-I!+7xC3~IA`{qGv|#G z>f;Yv1cZm*gbvEblhB+Zy2|pyjJTPBOc+3xG_fTE{eM@*8T!5v-oWthqjnd?JZ8XZ zo8Qt3r)63JrxFo zWB!+wMa2894!+a-^u&wqz$EG_bQMaKIgsJ%>HRGfZ(KOPD@`|mvLCiV7?$}js1_b*rZ9{FCOl zYCskM2MzaM4w_rQL)otPM`6OfMY$8HDji1*vKIHym?sv@s-$goP?q2m3kRppZ>%HV zedY4u519gMJO`tdC05bmG_eaG! zard&8r{W88V$hrgK*^Nq2F;!&*>@DbO#j--ZlA$VM^-{Kn)Pan5GArwuj8k5Eo_-4 z$`}ryd`>_7P~Jd2oSaefJDQw&HvgCOs=>T5FzA+YwVTyr`t9_A7S4y@=P%6=!Q5)n z{aRqx%}k}?(MH}aR;hUsumh@=-# zfaD-aRPq?%0L1q1f;I0MAlw{0zP;p>&`C(AZe!Lu5>8)1BM%EYXXgE2*=HFYUV|bH zC>JrII8Qzus?O8JpwZtyfRhY0eU|)>F91elx`W%&*Ul@Eq6~RAW8r94T%%bVI}9WX zL1nOzX*4>U{A|zVC6D7|<_%0{XQ$RY2{}-XGUo+I1WffvE)9BXU~cZo=dMJURDH}Y zG4yzKnaM36+OF}}KW~bFr}i_Cdrpuc;0i8MADrhJMst;s2t&qW~Sf((suQ{&&O))D0 zQ+PR1iK<2PvqAxo2XHH6^o)k&V%eWivweEv{@gaBgiUy<7qM|WpCn>ykJZte_!^J> z6&B?gp;P6@Y^j^+CojQwnr%xLE}XGgl?rc^8(#Wqv_WRz7q6G2lH6!5!&7${G`L+lNq@h z`M1$%NeNo=R{o@tKJmUs%9@H0rA58}V}!N0y0o8q(f4Gw;Q@=m|6Sh1#t)fulvU@t zGD}X4YpXS9iA83zH*JV`RyD*%M(We+*&P?!;7Uo?6f0V4ikHUNRF~n*J!H745o=3* z-^lHwmNyM*n|C5b=I^Xa!XM^TZCNJu{*9OC(lII6Ps!6yy-N*zgm>WbT^*HDyQoW9 zOFv~zP8}%9WgTla*1lmAdNGwz&NlND4B7ce!K?RvaMiv8x=mCP}Hm8|Lr z3anudJ)a{Wb+VQ3>Oq}xU($zI$!F=DAhWMSd##SieNvlj1vu?bZVmFMU|J{x!55$X zG$R$EyY7zrGlDyVLKo@L0#2#c~R^gKl4-kByv z1zxRH1)9!bXI_z7eIDqx{QXpXgSL;(SJulppq-sxmICcXJ$PxWJJClt9zVBjbjfZO z^$D!iiu;CCR@+f~JPh^GM)zY^e^6H8L?<8^8`z<`23bM*PSmCrvleRU`#7E$*450^ zneAylZX)n;#3;K^%uNWb4jQa0a~t=s55$(nof0MW50#t1!{tni!Xy=U_{^MPG;ByJ zQ8W8=wGG&;P%qwl1enVFnSMw(ypKrdTyo)4kY2NFNH}XR%eXW*>|`MHVW_jB+ZE_T zid;nJ&)AYJPl&LYZQQw(V($tIi84jh%4rPJAL`PdrylP2O9l6*XOF#zy8P{yQK^wO zCszjF5rLAZ+_JuIzwD{AGpr{zDu-G`%mrU2*3v#ozkq6#19opY1a=yI7HxudbOVlP z6=foG+}IZLRS(7c9yu4(Mx8kxe>|9}^9N9dpy(rgtIi&gI;C+im z`HAfv#*?9nuPWqh5G5@DBDrWW_)Rf#C*#hHRhu0!C#E3UAyy zG+g4Ma&D}-U)1Da zqVMI%R_y*jbBXFz{+IEDWC%|uRz;Vrtj90YDB-36!& z#a^G^i;?`GTKj3NNK*onAjWapq3e{Y&FaV;{VVrTN7K}>``HhzL(XY&_-v?i3){h? zFIDt1M%l4#TS3fN|H3ruIYPt45HylUt+Y7Di-ZqcJ z!mNSbYx`rSxr{N?jm~aCuFGS0P=QRrk{0X2=*Bl!9#sr(=pq08K|!6fA9mRk?gjL! z9JW!1Ky~$(gJB#mh8c~Ma;a}X;3R=U0bZ8fos;h!^ltUI|3?FDV}`9R1IPlxD=cs@ z$KXAKW&&qhddD^`BKHyNbtiH{rF#>vhYjW2cz5JOs!{DGrA@l;dqaubnZ1g*t{sAH z#sh-T$dR00V^iAOxR$?o8x#ofW_16BXSk{G!B(}$xKwMQ2mrJv3`)9D>OMAXmU z{8n+Vk-hY;yOe_67uq9MjQe#KzbDd!jbSr9`__nbVUF4jUnaJ(uUb_c~PzNlW2fwt#!Kz9&ps>NCP-S_jG zDW=5KMU(fin9;Sc+KJQrD_Q1iPo1E8?dw^Km} z9Xg~W zuztJ^-~^oJ4wbPS<@buK=bvPR0xVlm;$;FZ9Je9Xq$DvLO6LyvQ(lv{e3p(o$aDntE`Zod9>CC( z5tgfXZ`;GAt}`b&y~3{t3l|UV!AOeewQD}Fv@_Wc%PD88v8!_JR$2{~4ZAn*d$#Za z`l@VUUtU#-2#2F7@nRNk2~#8077B8=g)Z=SS9;f`m>X`ZjS!vAznDMfgDqoy?I~kX zaNOjd$Tc_qa+@tr2ev`#uMb|(qm&w;M(3?zKw@|3djsS9@`T$Y4iRCWnFzL=^Nk_ATPuO$T`fO%q zu8r(}JLphZd^bT8RiuB>uG@->fCR;Uoa&yvwnr}=r(j6^us6`ZHK2J1``tDK?!kZG z)U#t#w_-x&$FIaR5}m6q=9HF%_FqPHzQbz*Xt3TCg(0yX`p zVJbH^$4M69w~}{T=Agoj4%Bc6a9!_d-qth9HC$Rp-hKgKBnjVK;wE%23=3v7wgIhJ z2Sgdrvb!SOcAMpq6@&Vsz0)Czhh!eAcolaW6)U9QQ*8wDoh?KR)^2CXY6Lv9>^1EXc@5TdC`&e|+3YR)Mk@zqhh5 z7_kUkLXfV3A{@q+-2O|x`C?!L&ESOqsSeEh>WM5g5C|wi>%4YpaC=ta$>~m?7V1)r z6bNP-=-wk=kU5CiYb2PXT=~MWI&wSq!NDQ!QS8*hSLx$=;ltGv3^A$6K;$)$-DJ!IAe_rj`|N77O;0Kw;LT%$BppB!4DNBzVtqab@na?!` z87g@yeICyZe(Fib zX8YFfd+XhvYKU1Yv@y3w#o;~>J}2EyJtW9u*RnoJP6!Sg<51h->gi)mv!aAXly-#j z0eP~?qll*5`+mF(8B#(K~GPm2nY0y+<^vALu`<*N4R2fjXSv+3@SmPM%FQ8pZbYUJ(^p zIijOsjJS(O_vyu0F@^mOS{e)+tye#%9)V&T$AuuwgQ@+Ak+bwFBAy%9c5`L-DsYhz zzodmN`@#G8PoL8Qpt%jC09nX(U!&)%=)0k71WmF*>V{BhAq|wEvP!Rber@cMzg{zq zx`)l_7;j;9R@!t&C`T5F?bn5kMz&6bg=*+B$V?|IW#vBo0W+9Hm^@}UM}MR<$`Zm& zBAG61(CywLC`y}gYpbALK{s_;hGB)q^71u`3Kbo?#S;7zOo4o$$C`B6@!SHReYjsN zLPtIPQmp|bPOcmOpVr@YV!?FYa?>iE)cNsXUiGA&>-rt5gnq3d8i@)+bT40DkLUb! zkm_{_+lzHp#r1n_gD>1@tN+00sDA5<&A3Z+L^O~m?+gxu9>_r%3i1j( zBE3_LLd-VLZ;KL-_*J>!^AlmNF`4tb_bYV`e7%KA^Ef@^*;JH;?=(gw$G8RR;)=01 z9K_MC`9^-Fmqq;Q_yh0qTHGVTvYt1ovD^!$fW%eraf$YcU%mYtq6xDv*bM!cl06*e z65X_eX#lWhf9Dr}lN&9ux(-0EkP0LnkmqExp+D%HzY3MoJAWg7zY^{Qhv>&w%=9@oIJxIbF2)+@EYB8~u z>+k^8r~O`BOY&wl{mv|pWXs6rcI z4(;I;*y%SUb7%zJ|Bs|BBTYN$2T)z;KAmhkm!HU)twP_TKb2S z6N7P&vmEu6Qp5Ul(jr9V=4e&lwW)EGTQ?f~gX54}j9A#5+?6`40LM{NN9XMoZ{t00J&tY8Nc zTI#^49bG1HX+VSLSbNsyBF!FijD&iOoW;7uzNKs2nm%Y2TCBns~ zay}{w!r|*!sLM|DwTp#hd7`+S%ILsHj#mfi>^& zad59tuQAXlQcFjrIgdeQusNg+J|>RBMz>&Y(pe&}s}aM0>=K?F6eUJef95qZw%?qc zbiW55)y=Ck{%r2CaNEj}5#~tgtf7?7jqauJbfSu|cuf@eP?tmeG5n#5;IXrb5|E9~ zwVj#OM?H-K>?uHiX5!cVs&KS>5JHu;$GwkIq|RFM3G$42KM?pNI~vMnmY6*y+M;<5 z+CyEfLHk7gtNPdB*4XRzQbul3V~e8`n6NW14Vtc0jj0YrTgX1_o~>el3&X|1&*hem@sf|{g#fLT1)mxqlflKO#M``8yr=i z9HKi;R6%bt`U%G7iwLSIpj@atP<22qEcUQ~exjWOc!b8`6=xlMnws_QB3IbUNMUZq z3fFm45N8^hL0DpJm_E+U#t7#YG+4DB{yQalzV8*xV?|@OwX=?@V_>4XT8hl;eD6MV z)k>?o%Cjmz8(T)r917zWZ4tHaF@$CzhCx4_`YMgI*~+V^8K&-?x3}=2e?-Oj9)RPx zO1#=5l<;1J~MJAMi z?ka4hH*zDGVMztYYD8C^nLDnQQK>P)jqf^jE(OTRGrFVRPPRWf-~Iuw(@;sMUMuT= zWs8iI(Vg+Kl<^GiV!4J=#Wx>fN?q7LX1WVFA|@i(MnR)&eWj2P`SaYWTp+3NGt zwO2m_z7yU{Phn&(XLn>3(C|EO+D1K`x;1sA%40@=)q^Let39?CKI;d%AAj&)Y7Su} z_Olmq4b|TIRT{i@RvbNqkvD-*W6IcjF2mnAyJy`>{aw<7?;BnjnCGD=<$5=q_7QBD zj&ov}0#k1Yg*`-yRYR-cz`DkhVzOMl8u~}K@C)ys!n&g_U){MhWk&N zknx#s#{m@0ir3ZEz%?Dc#M)DH*gZli9MFXJjQW@|^_*Yb!xlWPjBIi4Z~|yX8sW;m z7zMD9Yz0mq=2gQJRYtaO*x_hgh3w&s{jjZ4JJL7-E;4f?hx1r%BinLm;R@*`&OkM% zLetixwwXKGR_1K|(1T(m)N30@!(gzv`(plkY35l2OO5w`cz_nwzxcZUBfV5T{czd9 zOZXUKex|>>9>A_M6sr69(9$r?q@i83c_FdpcZZg3w~lu8-G472J_fbC1%5HA=R*hB zK2-;z-Y#5gw=z9cn@@OF`9Ges&OSadVMQFD#V>^y>s(s@hE=$qJJ|N6d$eP2XtlED z7{^JL0HA$bxX*>H!ne$11{Y$*wJ+pC2DY`5M8cq^qHBE^URAN(ZOVCPom04q*pnrB zBQ-dDLDMEv4h@gj6wHm_3Z@pwnf2zQ3qm`WqSh(95_)?MJ}APU#po?puMnq*NQZG= zIfSo9uj`Te;AvhE&Iv!%XrJEtc;1n)>bKKenjMVFE;=;VxZ9?m&XqqBHLQKRS-hD@ zI5Md>)=XJTs0hW+n`_TS>6H^sH3lJZt2jktnnOYH`&Z6wM3)glc4W{#uJ006=!za$qP1FvK zH6ye*da$_%s`}W+J{DaIfYoQ)qS@nP02BnD5Pl*XjHCocqlI+~j-_8pQB9j{Y!Ooz zd)5MG(m5j?J*6Z$*R6%csqF>xFjJ=R&2rH3ToRYlxxM56a+>G|0nUgB1j>af^>zXN zya`lkaUln zTXtTch43(!haXm#2UUsMr;0;-Q}cKX%)Vb3u!ZB5+?N#|7VEuzTUbukbI@y!{3Rf1 z*gkpG<=S`};TL1?l7EUt{G$l5D*i5kW5PYVGJb;4qlQ}TX;}$+IfJR$DS{^^T5>CY z!Psgx)WX8IWiD07G1|A5*CIHonx<>^XOZeUd}v$Fy5AOvc3K^0PWQQARAlD_%hO?{ z{kQv%^e8twUX!*hamgc6DlC6xybJfMqj!{BayyJ`lFtYD@=@z%TaA}Pj6c7lINo{V zQA(V1wEtiC`!{$=P!7;i5C}v#gHO=FqbWdbfV?Jk137cPz2gw{u!VH}RtGYAV5RDaq2?sTA><(i zT+o`IHDX7xtNf#k>sm@D{Jeiok<_p*p~O>rzlnQj8$y0GqxeUcJ1E z%gUj}nEOXMaO~r@ZNH=-@RTb#8FL42)UFq$I<$8_a-Gr9Y#;>kLv5|JpH5MK{-bj| zzExdfPJvPv-_PSNg@V(+%;f^&KA?u~-u(H$uQdORb2rqC^fNHiU1>uhm*1ArTUS=? z4uM8@T&OURYWWgy56+~VRHQFrcU%t3)RAQfwn^@*Jr_P~-$ZtDyb184t@R*W*qg@D zDC6bWsO6B3c{qdr2It7z`*nVrfy2$MXD%dQ9Fglepv$!cvn459bw_F=Z_!ryZ*Atd?0?oN zmn>{@HO4SALkU)La7}KQ^voe{yTks{%Oy^WliB1X!9N0AB2d4>8w6fZy2S}t0POsj zAf(I9kcXEI@zTp7s(~4<`SU_jo%v95Ziy@U^pt@s+`OOgj;aNKgxe=gP8Wu}2|$lw zRdW^nzL9{>U_UNu(*2|130Q2$*}WW$a$NiE@iXEXWU|q@{-e06is@JE*}taIjAb5I zz~6K_t%dljRj}${Zzd=Nq7UGMhTp_zAV13(H@<^D?k!?}|pt5iGQ97Eof> zVH~LYisw67g)S#vO0m~1uFrEKckob;qtzKh$_)8T-`~*i;Mg#se(y&now-6cC>uy#cGIE=)SiymY#Z zhTG?s&p4m`RG>%?@6oC0?>6gr>HJHYZajTCWQYMCXiGQmpWBx4-nEBcr!QWWP{jQY zlB+WEzg!g{yYqfGV^8D@#MM_o50#LGIxxoRo1=#W3Q8kvS|pxFhlaHO@ntz~(P-6z z*Asg+iVp~EhJaXkZB;_&%=wb?;PUj}8aoMDDud&3pUNPEZ#yX3mDpnb&j2dd3-p!6 zk*Bp1VV!lV0YJqW_!~@q%~ye6M&R9CdSSZhi#s#OYm0V=A%^*8^Btyg}VPQ&^qlmnZsmX{QH;f9f!bdMTY0Ds#6 zW4l8SN(?h*f4TOBe<|jkHY6S~!d@ zYn!Qjiu?SOdr;q)y{c z1UMG|-V+Y^d)EaYs78}$Jm~5)F^^_k+G=m{Do+PE1Fq)8qzHZ zjxzxj*#aNep*hqPXQc5Y^7rAq=0l2(wuKLR%FWd1dSPUVa--CZ5)XzoA+}4YNA`@Q z&@x&FZBQ$hMZO6#q1OYCc-eP0@#hoF{{}VfkTTkaX>$jrVE>P??+$A+`_{FLqM|Sg z3QDtrNC%~psEi`g1f(|+2pxpbOQNEp(v%*mC=ig|2`ws;P(qOap+{uV9~Q$Fm2Z^$i&!L$z`}t&iu%b8r#D@9=J)T*dfub0I<{8TmF?U8 zYg3}k;Z2#(W`ilr?WXZp9Jlsw3LNoKo{rSi(DS4!!YqCN7gdU8W~`7Mze0AsBzb7Z z&xgn2ieBrGwxe20IY-v5Ql#@0`>|5HeW|wyvNoZPHQ^{eUMS&mN_v_M`~GU7zCdZ+ zCV%DLRJ|ScO-m^sAdulhs$z>C*xnV`(hbl1P=cIKDWNx89L3biMZ?*waf!Y*PEEV8 z9PS7j-=kD(mmctK>F;@KMuEK0w8Ft6_?0XJ@0EX=N&f_jyjBa}*6;mCIkYPLVadm# zx02}+e4b#uL_}~Wt3Uf;rxujui};J{fiGq~bgw{`=214`51?jVhcUAT{YD7dt7~TT z^C2DbTLvAp`4!I*ad!Ky4}aIry76iwD{V8(o#tf$@?LCFDm63Sa9Culu3WdQ*5G28H580?+P=wENVM>HUX*JzlO zK1d_fdX;&`(VXYiAx3pDt}-Bj$}+1~92}yMElZ$_c4NK_Z|140)lFdP>xarP*5&^r zg|ecvaqh=b*n^EY$S5vnYS0=OY6@kJidu^m`I~b*v$;S_99-{K(m=a01oG~$_7oH3 z{AIwPzy)IC8d=9~{}HpPHoVona_?msV1u%&M)p6tO+XyBho_YCXWg}aHjt#ZRpuGC z-()T0G^Mtq7Kr!C^+y5$JhK7K@r|2u$i+&itnvN^=Q1hRJjf2xW9x6x=H9?m$Nl{Z z51+7YtsKn?^9W(}c%lubbZ&_<>1hX!J2f7@@?un6gelQ1A9M_K&B?&_VruZkx}%Uz zG%#&qnIF9b2BI(!At_u(7D`-TG}HtjldhO`Gwy?wHharAv+k6f%uZRt6n;&A5L*>A z`0IC&YxHEEyI8K&9#~7?IX&+cfK?U1OU3jn|J(Kv`}5uT6*jAOfxS5yE^SGKhyd(D zX4QorqqwMIgUVtvZkplNoHLM2+_g}2=a$dIeZ^64cbzaQ4BBV|Jr7CqkU{5UnuXD3WOP`ESiSXbO zpV%Ms)6MnjiP(GUSzmQ0>UYHt>7-2;Ggjd>*uxoL)kl=y_A^>p@j_E-aTV9~|7{)qb(z38wJZV_8hX@g zD{NW5Zr$?thNnXU0f#igF6h0P^z~62j;)L%JV&GuCk?o7Uy49b8t(6vA~MG|U8MBO zeDv{7u%Gx{-#0DC7=M&CDFqU`^yyk$8C@`HYNZtTy1zA1!r~W@g-r>+4SZ|%He0mU zmg+Cn6^QKrwU$QI>y{|UIkEZPP&gnW{GxkrH~@4Hw#-K7$30AK1RdFn#VR5Y!e*um zCz5>Y8t&cKCNfSVPJg*Lry1+ok@CcA=Nk3G7UYLQ{Xa`oI%_6}dBEa7?F z%D`%7DDq?n!Kv9mCfYCjR4p)md^d~yhpk{J-~Fk|YU0k-pHtG6=O(qsJWnC1sXYH5gZbI@g}4Q4{SBRNGDg zzR&E*=UMm6V^Jkzxi**W89s@8Su{&jz|{8aj%j?LXQt&i$uw-`1@nCN_6d%LrCr8q zk?JtEF)r95f%M#MlLw%zD3zEoO+nw`e}Y9IK%OI`viy($2u zL>ugz7UK^syIuuwTm>qb@IfxWro37h<^pVyiBQNi^XNGmvrw+-uOV@B(B2o zp2!xY(;td}k_##Z$yX#RtYus;VwyCfg z^ZT)W#6UMNT962*3E>7*Ge%vc^9(xltat#%U3I$#x5AW)he2b`kW;vE@aDO|hThKv z6x9HonjRaf((EC#ZNR!=Ng&A_vb4CQ^$fuLXgWWf$AEl)MwUy)bZq{-@n4Nipr-H_ zc$1+ErIT;&F4+%S7qCBx{etjYi@NkycDQPM-sYc}ZKffg3aThL4U)#(4R&ap(!aO7 z$4oPcEiozG{;=B)ncOgIbIO?hmR3SGDQP7&`+uN#Cw@Nn^Fd#Zhno;?PDbe%BzYb@8q$OW+Gf#fjfWS84nD`bXJiwq5cB%7__^jli2jT&T|Dq?<0v(I zG`max<=&=#!{OOgsxdL|tlhEeHt$8*c_MRWQ#Fs=ZdP4hiM(y&>T5hVI^XOZnZ2lHt^x}kaeHMV~gRx?M=WxY|qATq4! z-?)7bOEZ#HAo_#?@GF$Z+7FA@;P4$d)zgSJ^eEplulV|D+%A)0V5ZQ;q6OOBDso)` z;<|MtII!1bt7;OVve}YB;w?2Q|2zV|ViMD?6Z>dB^pk%M*$gKBz+z~Q{~8v*$nVBn z^tAZ2$(+%7#?^2bKyy7Y`*=Y`oxH~>adt{z&o4I$f4^r#N-$kF)TjVRRmrjZ2eS^s z4g?8-dz)d!D2~7Ga&?=vS3@$r8d|=Ls+2)C!>>#dn?caIb=^;TtcNtK$(%)B&iv| z@K9T_Uvcq2T=O~yDe@S$jR>LmMgL(aYYg`-rP^kH`U0S`oEMsa)_3a8Pi;nnfPAk%$mbyarYN{;W?|8XDpng)l$jg5}8&SahGORKnnn`uA%di+KXr8rWq1B5Cfx7Pfb zP$<3WSBKrP4f3j8__3?jnyP_4Q?^&H5!#H$TC`P1r-RJyZhr%u(u`u|{l~fg#-*S9 zwW9ZrRaOJl*gZt7u30hq!lZ){X%)~^fb}w@U~el{4!M3bQNw)8dL#uuNj$O1X##2C zEx5v@K|RCr?P$@=$6yLUD=yP)GRYe|9Qz!B%xRh1tS$GYUpq9HU1xB@E7%z#fXnch zm)UT;0YJuN-)hd!T4`SLui3?CXBw>b58S>w#tBO5jTzc`kLG9Ge#(>3 zQtyoS=;+%3pcRMGmjNfnb^cR({zS!El$o<<1F%?o@Yft=x3P%u0)gRGxPGt(b=7au z#*zm-bnq*#sD2?R8jBeN!@`}|nZBX3@^yGN=bu&MaA*wJ9zH9#Rs1ObK`>MDt8w~P zHT>LC25qa5F|c86SE>L!k&1WC%qJpaSVkW{0U$T`mp#;o*#MPoh{dKZJuc*98|hBmQOGyrKFgxo)XM3%U^LsPu}-+h z{U%K`FC1_;6QCGWATUJoTF~3~R&~_(;5yo4ZGcIWlM&bvi8|~nq<;JVCb%i{jo2Ch zAvFP#lW+Ws6O2AX*CpA~A74Xp$N9|AvmVWxSo^7C9A>^MN&@HrL0rThvn-lql@nvgz4swz2f6rO%1>7zGH|W5qLT_5A0T$r2n)f4nZ|lQ{ey-bid;JRe?ESWkcc6lp zyqiRJ0osSvHm2V@zPZ1*TiJa1r%tYHpOH=}*|RF2A3s_>y$*hnXm=0{coim}d9@3@ zSf;s>w^O%a#|d#ez0mNB2A`X(*&R?kwv=dP$>gfDJldDiRXKS@Xb@(GTfXUUOLqzt9 zT==Kr3oL_&#)vK_Y!HaI$op$=wfqPV-a!W9T&?PRbc369jFrfpGbD#kGybZpTSL$O zVwY}u8^yIZ-*tt$3jl)FWtEj-NlPKMWezS3!m4;VUX7;jdB4aA1dL@sS)GM0(FTAI zK;6gu;dXNQ*)->&H6&Poz}%@;JVm!FE2267=eo|2*!W1lHHm4I(oWOgB-c$S@?tA z`~EgzU?mmePR|%!x<|asvV>!Euwa{!x)78Z>zRjg0G14H04ogFq*Z|$%huD_TdiyL z3bW~pf2c4K^hFt%^elaQ8hbR!ZmB4{%bdnS(1Yu{-kIgdffh3n4f5;^@uv6=kp!*T z$0hG;Zd?cj=-fb0Gd)S|doT@gBd%da7@}7*{ zd{3deQPv3GR%|R`v8m{K;Bv!X*gtK+0`>e!fRhN|bxTw0X(3)pA}O8r)m=G|=|#?S zQnkX`RP^GB>my27y$HSCry`NW`f`^{vJ&QDz%TR|0MLadM}n|o*T8* zmPRI(a$jekecF^9)pKGMC&-W6s4wwKK8YJw0x-S=s}Oqi^~CP0s!vYwT?)xCh~C41JPldn&i&z?hAY2G$zu%jCQRhgRN z(2R<%V_tVw;-RxUBr}YIOkK3$22pvh4!p!uhU4h1-F2ooBvQ!3uLG zN}k}R;h!D7b8$_B6+B!IH8hDti*FlRbdWkD13tTrRv9;s?eB5Hb7T2r2gmgwGn|R43w}Ec2%kU z^V%%+pm0CM6xMo3p25+9H|$-LspUF}Yc*gW$YVMADb#*?O7ma|a|L%A5}) z8+emsR`Z+OYVHmYv`#Dw2$kV0O8&Mh5%sd5CIfB=q+HkEEz!+1#ghS2taAEnTG7A0 z>xjEg0_fbL#H6CX+00+gJTc@+*#MWNrLo?HX;ip`2YQ z$#ipL@%Bk3fp@-WY)kr&^zvCxTK)j&&Cb*@I%dawn*jR88C8Iuzz;Sl^kqVqgX%|p zAP*|9!i@!gQCnqMaO{hlx%8mccD)tSsoEwvVXHl`(|?mDxG5{u;lEESPuj@_+4*rO zq{n?|++V!R$qPJ(1U1MJG{IU&zQ}`W9m#UJ4{LjC1r2IHdI8W{W8=bE`p{Fg!~$$k zAzstdmHosLFOfkGW%3yX-*PVc`Kzeq<_&2#1g#)=}tLZi5Xj5PcwUz zKilj7gQK*Kp=-(@0I=^w(F^I6m*nWK{Xfryff6+y1IzyWl!tb|hXz~Bc-Ebyr~mZe z+((=Gbk9^P&2!#q>_Z*^f+hY2zixGXc5$ij!EXP1W1fgo`(UB;TBQ5P^~9Yg zFZNmMXnfn{>QNc+5V!0Wu#C^*9_hXB8@DCnI2CTe@_y#UfZHlq-I z>S~J=YEj5LAtLk^DDO((+LY~k9*gnJv$RGQ)(#lXAO_jLj%D&5kxftvR5 zEnVBjtqgVSe3M%Zf zXi=k=j9=x=Hh^E71EW2dX=9xLK#uBMm-!Eltyh4PA2v->3)n+-;?6QtpHyQZf)_19 z66Ka!GBJ3imMuSHU~_v%K7O)7G{niuzNC$5(s|!LbNv%RF=n&Ons6OcZ2NVN?X{}_ z4K=JSefb>z4BB0z7tl}(pdFkFXzR!ve9K_XT1O<#tXAjy*V*-I2n*`F*txudnWzJM&tTzicUcYh{4q-vJ%EguyMy!UT?2babp7Lo*N2`|unC;Ck2Wp=& z9}y+#V&QIR&{FSzeL`R?E*HjIzbRjaL$ zt@d)Pnv(s}|0pDD@7Qy6S*0d2~)gL=3f$4cu|E9;fB5UaRA zpt?%)TiH+t=419G5qwVV^x&XJUo-DrJ zi~I=EOp~BJdmF#FImqa6ukMlg>=iS2-77P+V`(%$)Pz`d&bw=foTfT~%I@4}qQ@xM z6G-w6xmnhILJjyzQg+sglN3-xgu`{7^#C)y$Xp@V12(?sLEXeJ@+uK+CCPJS>412Y zvud9V=Z8Sq&|4kfSc`jn(3IZ1Ey7PAnp3j{MyP>ln?LbJLM?qtOSFT=sug^*8(r_{ zwAeyRvltHCVE|H$sE4-3tGC=yJVi-jR`9J|3AET~*3k3F{&T7(-}K+bfrOZbo5H2hZLSV2Y;~ zun{0>zrhHsxM3dfHnP~ruCF6@y6Mx>&~=(TiCqM>199v!XlOQUkqIZ@njnHnjUX-P3hNJ=J0*HOfncm@LwLb0`=;B>paV5)^}!3u!2< zLqd@xfR8KJY{KSA{QPW8BM@``pMfz5 zyteNxcbUY{gpOyqo(a;a_d9!~9zE^N%knW8qWh0qY9*A!NsbA|eB$~UuvC%fZh;C& z(rvzA-1pHMm%sBk$ug{@i=62d;D7lu>iPcM=DaAGP!Ll$pZUPlw;Z!ajQKq$NZPvMI2E`DH)K`PY2<1@QTLMB;PK~VF8avA(y(XsGWdO+F9v+51 z#`8{ctJr$qeg2wg_1NMRs$Rh-4isuV+}zi&mUjq_Z`RT9Vh{6>H8csVuc=NDj8* z_I)|&-|f`0g7WAzNUlcu1uJEQA9_5>?cbeUDqHDf0APNp>|5r{?D2b(Hc8JX$H$r_ z>0zsX)m-ap(#YgS-byT6y=|;LG6}zlhZZStr3de^l6v~0o>H-Fc1 z0PiRq8)y2xMdTDHV*PzcLu^Nucd|Zx(qGTX!kdhKcpjiol-Zh4GfbWohmyseM!9#! zyDC$F?(5espjY1ENj_0~8+rYZ91=R#yubTRTHI5J`1TNqZf;ephbJ>#$1XdXtU6lD zRI0E4y4D|2ewre;_SVe%5$45VG{$k zN`WASb<3vPosXPYPLdWuQexotszu@zyHKh2Z!HzsAuL_+&~60jbes}ZK|!ag-?o942HHM1A;z=%U@+DqNYY4GSFF!kagMeA%LQ{?CY8 z>p3E?z8X>d1Qgk+c#hQjEm+suFG+^G4*3*YlZY7F+A*A*If=8rRmSWFDvwk4DeWo7 zrS<_ci%K_i@&K6O|2#EjeNrF1*aNJ~CLQYPA{4j+{o{81ES?5H z8Mxt9n1KU}^r8@0i6QU+(UwB}D*v!SGY>&(`^5~;#Q0I| zT3}ztJ#8B4RoYb>9(s2d7?Xku#kBzl&)m2Yjv(-|^M8HQQOMFC5A?A5;nHJ0j1m89 zGnoj2Z&sjo7BMb3snY14Ec6xr7qPxp#-oeZB^f*?Mz7vRB_i3O?h=FuH*(0*cCb~h zoB#U2QNaWBdyG3RDvV;E0k-q19&g5+y~kKu%L;?#9lBFC<)%G(UhrPK?x~VQoh;9H z91rfD3clE!g|m+97DONZ5O!99c2j7w=OhNl_K?}^eT!5QmjtDCJ4yBU{Y-frbP2K!~Pi6|#w`sMU-!cYLg_bG%;xLv0Mh-D41`yi!Hd%<>tyPGRtA?z0>tN(3jPm-hLlwsi z5>8NpNQ;gi7qA*ye~fo|Cw1cH1$Z{H9-Pu2gZa|3_MsZJ5uGd&bDqvP6*>B1A^=)~ z{m8j{BRxumT2q}KZ}4axd-oJmZJZ_#DgA2TS>#aI{qd?-30Jn(U3d+$&Shy2oT$%zXm;GZ3ys!FnQ;}8Zl9$uv|MwQEs z@?T$c%<1N2a)|u;{`Lr%>+jFG|0s<;6+Ss#@t#GCIh5C(pN=<5xH4O>y|Z^y6V~e$ z5B|BNu2c(kk$#2BVSZOi)mhkR!*g2%)>fEGep*q~^4*jP!_ATG)&XM- z&i^=55y_%#bWKZE0^+Y;n&>dln2%EZX63QZjAKVOZ&t26AnbIUHV)edJ*z-yo!pAY z=tc>c;5&md=DRs0!A{c zD&mN7i*;`$?djpoUh(Ba53-51rMT|Z3q84Z9&Bp$LmiJG6V9&Z{fYXis$Hq5*c{^g z06G(90r1kwL7$m6tI=oFM_gR|ODS+e-V|WR57!FZYh*LUKN?YZU}FPoyK=TeIG%dU zxga6{#O|)W;+r04kDI-qD&6jz--a`rVva zc*Pmvbw^0)^zWU>rWb|4Z_DL)8SWu!>6r7RbTqN(6}UisgMhq$6ziQgAs4gp-B4SL^){d@rW*IuJ;xO z+bM^0-`NGvQ~Bav`qdk-?+fgnF_3oLib9=yzn%n$CoDbX#53Glk6qHY#VX6}A2%fd;%WwZ+ZHgErz znw`Snb{+F|tS=>&+Ze*L=_0%gVySIIAvog>@Qv5IjkM{*v6L+7;^zZ!fK}&$9Ud`E%|eZNEUJsH6Xe{8A?F7@7NkZ zN~h}OUdvE<jSF2gn*ywjib+)FWq&nk#KRsa2$=8y&0 ze13QH(@pLdLoaQoJsVoP7Y%*xjhE5aX9$I#O@delJ#Q1efLq#Vjz+kfs~w(k=-A$N zp$79gxB1({;C>DT1T(G~zLh$#gy%=UFcW1$2GMrQb%cmdy2Jt6Sa7e?dLi7ETDUc> z%-9H(+ZfB(sl&@eRkh1Qr29SxilLVz9Om5(8zx0@uIX>`1sY!!$05pIHG8^abTQH)=#MeU7 zLmDS?I`>sZnZ(S_&hciMMN8Ke9Jt#@a5Ah2TBx@$RwA}1ZQ!wQ^>O%JBsezI2w8tR z?fL@8S=G~2T7$82R!hv&{}*j&akWsE4oWqp4CiU5(zac(eN) zG!Xw=>LK!fxkD3T4${oGv2E*p>HG%5e}N^Euw~gF?xSPP)1p`|8`M5@Fze^K7W#qE z$`O;CnGkur+MK&2Hn1lF@p+7_dsTmPJ`C#Q+wv(JciBcn!62CXwoo$rbQUhR#h@{( zNK7Hh;`*0=thWA?(Lp1qMsF}G1Cw94tNftBx&Ts>3xI2XpkUPUP7(;o?wXzUgT785~~j9V`*NcjivTDVwmg zUQ+Lh@W86Y&3YnsSG?OaEAaiq2aDfSk@o~iUizb(t?!V5*9>e`a{SuY0Pn(E5_gZL zWZ@MRJNKk%^)`f82DELf0{w>H^=|5w2$UcldjeMFpFDpB_8Bw%)}?1w<+9LR{iKVy z*smf%eV>CTP1N^0;ldtJFPoTO)$^fBfMH$-a(b;Yp6Ux3rQ6Dca!^T4BhRSMr?UhF zVikpbBrp&Vye?o*q$gdxs>I|-DA|~fKloE=%yB~6Qy!L_ETd}NzHhwFR$Was;46C+9ZI#;v<@YRZVFNsUEt(j1d{? z^yLsD=}^za$`mM2hAUM{(?=70Grrkkp1>7dPSvKQ&m6Zdg%U_f z#u-cBkGApk>Ht156?TfoV-C}v!ycuZMDD)K!9T^t;x8kZD%@O&$wF6!csW#hqrUxe zxGFEaUZ3&ua^|X4w$kDQii9+TSw>P1$297gzm=0@L+~%h{*pi0inH zfMw}WXRL-qD3Y4nB`*CbsGT)^`-wie=?wC*yG^rcvtR8OT7*PS!{#MFB>#1L?1w^m zUWq^vjuG(ZBIT2qYK(stN4q95@M!#fj<#DpRvziaGf-oOMlOH-jcORn0)b^xmfQ$(ThKPe14$;m?zZm9)vK+sh?P;I)Tveq8K7cZxsx+D! z7ddq8c;?~RG?C@~nV4{TkALVp;rA&4p95nvgjZ$`c#YOR7{&+Xg<1J7IT-RrzE)`+ z;xUFam7iv29SSbp&(dNVo)?no&lKt^w%+a!{nO^Ad1c_S=!%0Kgcoa;jN69l0<{7o zqvsf0#=C^9GDAze_fY zkr{8XH+MAWqsEON*zm(r=9jBA*6X5{p}#`5l^+(>c`IR=pC=G4C2dGsAnDM19TYZO z=)b)7`p(b*BqWMSrlr(yHGi^;^R2Y4%39;38T0v%x<@(O3SV{7nZ2nAfyYgo=;PWv z_r*T7y)Z#!`HZjfe=H$3m;M=Up<9ic$O{IC>@C^jRk2?S_;zdao5s>8&32J-jfvnT zM$pV1KjO-;t)O!@OlBaC`@h1m^a^HEb4&xPUm#6~bZZR`#+J}PvuPVSkIJ#;hl;io z9Ty^-q}KM8galHHKt1FZ7Ae3%&{8?3=&_Z{>}N&$^K9xD_}1@VrM`^Dc5Q&;@rjMx<;s#hb4t`n!uab{n}F z638v)anklVV~7od;d&dKgGqf2UGfU;Wt0Hz) zo^QtISCvA=D>@0ILf?)?ZCR-U>B#C#N9^j%xLzL2x9xghs41$71WF+Ys$52 znYT>+UdFWI{7tIqu&d8<;_($_eX@^BguSxouOTd8RFp?8RcE+GRA^$?u@C z7^7HBf!10glmRx46IfTY9|&&@d>&qcQvZy zlFi_Fs3cWgjrPjGKS@qu&t}9O=4V=m?MpQ4UTCrrsI{BQn*7MPtx17RGiJQq2G-?G z_qyPd>w*{hnOm#OOFgX&Ea{29e1y;FW%tesj4pK^&(D&Dtb~3tTSN2ngf(voYfT?r z7@j18DCXFmHo!tiI0@Gs|7n_o1Y4*&mDfbIlRDY^A%*q`hQpMSGNzfljuj;~MU?P3`# z0`V`TzUgpdbZ<*_wSa5|Mx`C*`2)=yAQ}h@!Hb7=7C&EI>Dc?U6glXL7QI^4SrkAo15oOH%|ngK|bD*?Hc~kdr=AN)O?V&WB37kfN4FJil~^jWi^Q@l*DIt9^H7)(#>zP z1o*OiGbFNcx!#HCioVbVtFsE&`o?n#!SV?Kg^|lq6pF8$1LVKm!kjq~DX=!h8JW|w>8c;lXJh-KQwhtJG}P%zt+v1Z%Q6o<92AI|-q zz!v#mNpCcw>>2roE$clL^X2Gay)UU2hr6-+CIr24-|yW6`9;s}h#rqT+g5Pb*UCo% z4rFSz5Vj@AyN5+lRMOn&4e=z4VYgMrMD3$~eI|G4x&tMHgZCYFPhfC7E5<-Eh}Qs9 zuk7;d)|s(K105*xT>VzE9M45zk>DOB$lb01okl^divQ`914&e&SHbGbjFu}g2OTRs zbCK)wo<4l3b_-?Eh^oD!P}xqYE3W#KTJRelce1#21i2N{op&P5)?(2Y`k`tj1|ent z$QBJfN4xOYf!uX%gdlpALR&@uDypT=LtaOp!`tJm*^cvP{?c|udt9z?rA%!d5MbG5 z_?(w>d#m-R+qwuXKn4Hu^Tov>=OZ0BA=zh8e`Y7Q~bt_GZ*6aW8(v0yzSv_ z$v5q?Iie9eejRls4)(a^Rn9)ix%_jJF*zE`ru+*SpK8DCoB%j1SROxGQ`3v^_Bt8k zEP^$)W4oUHc4o?bIXMOa4NvKL=Y;d{<+yV7M=X9R_`bvZuzg6K)cg*to7Gdpp|a9X zk*={&7w(^l2c2FOxMy|ZJ_RTr&7ZRWbNeEmnsN zAh%=fI*qNl!6Zf4yXddRFy14-SmAXdJ?8x2Hs+(upB*?AO~gA}8Q*5zP#b#Q&O8Q> zDrgzcCm0ORUKwk+yb)Nq`c}pPlAw0=)|(s>QXVp2AI|Y`Jn}DTpYN?fsU-Qo5y7&~ ziX=#B5P2TH47u$@DtXx-epVr3&kh0Qb_mX(JzsdNxhw!cSdagn9x3_dAO9EV?jY(@ zUK=~zP!HngQ4mpC?Qr;d<-Jxcdpclyw@9f?Bw3x^R30c0{2)nZqL zhEi_DHu^Q{crImLoVDH&e-MFrluYGA=B%gqSLc?g!@k9Nttpu4@L2sEr|178FuUH5 zVKy($w4Lb_{Ns#Ou8o=XBTCJ&&QwG@Mc5t3Yw9cMK*5H)eSdE{9(Ri)n$uQst8F~B zeden%A4YGD-!a@a;s&`hk00aYh9`@K<;^tm>V%sCb@TM`TSxC#&s2wGQ9E$k?c~}A z#Cc(MOZEFW)klRI?LH|Ufp+QlwQN6X^lbx?m(PCP$OzDnlsnq+ew(4fBjB}d%}XhL z{yyMbl04+_$+$RmQdzbkQ1AtuH^ZQZdX=oj2)39hlOG_*xk#A zXVDFE#!+&vj5G70`(enm)=HXFOeu ztouzl1@`IbWSUPE!F#9(IQ5HdEoGqo7wHEW()sDN_kiyxi{5xCDIB4>E=iWB4zg;r zb(LT?zCAS{f1r4HzAm&_t}4?9he?^Xe)OhObl1HXfcIF;BA z@^6q!2x-?(i!>6lIJWhzkzb+iTT6>w194!#&YpfcHoA}ED6Zy^qv7VWO&U6DZErpx z^EH)z)jO-VHfL4AUix)M@c78tT88|QJNEaz1MP@wr72eSg?1{e_+>SYIZPv+odn_HgCtrNUn7p~$*#|iB5l{?XhN$*ap%ohg5 zMfJk{wErz#)tL@ms87)n+bF9b@Yh%r2==7p0R~6^A4h)}dgj;EJ#Qas#BO+;@3?h{ zkIL@uM~MRq$1+iY>STtWg==~B9H(& zEVXjFw{_@;U&Wl`$81zZ5$aCHMpvN1W1QciD$(~yV4X6UqeyOz7NKZga zuKI^s8S)aY^sYX3_`oxyWfv+3IrpL~6#=NRiWycw0nTdqWJ659=$R(=?WcWcn=Pa? z8nGUZ_CpsQOdgF84D1LXR2OcAeLN}B(PPbh4_xNlR=6f7DES{t=t@|O~mb}+ha7gY2OlopvWl7Y7rGNO*WXJj#iSjkT=n!Y3;RiRdo zk=-K-xeCs{MD2(2o}dO6Keqy3%#a zVeH{xBgFJqS*FHEIR!%cg&rBa$2-eS)1LIo`hr!E0VG+j>T2!n?pDuu!X%L>(%9ot z)b!FqPwK~d$+u3xe%|&E6E+;@et|P4Mx<_%nECEd!m9DBouc&z?~Ijo8<2QCcs888j5T30cq_`d5tjtm6swv#saLh*{(&wdX z|1d>~d-s_Pt%1T1!lVm`L0aG49~CFgi|k(n8dkUV5}C~y1kg&t;O>=6XH2dbx_rKP zK|eWa(*W{0-uOdoU(^!L^Nn`8_3vCvMQ-~0i%BAtPGJAF$H&vs_b&d8m-+Pkj>$Nm zv7Rxzz!d=dCv1M4g-{H?kTPc=QHM&U^<5%#0V*}mZls+|D z&1C$P4`PMQ!6MliD19N*(IqPlE;z2Y?G*iq;jOL_7a#hs0iC5^4i3kq`S%0m11H?L zVt!UW3={7@+-m*XCk2h*F|vjI?7e7L2}jrHj2!Cpds!jSbOIvTP3ATSTo-pY2YVUlA+ z(klwUL!a)+;YbAcHplZP)dWL#4XCOD;$rY@It^{t!rIM0~$6iDqv83+IkDf|UWOm>l z#!;Q&5vH$ialw|R+xV|55$1n)29$3M`*2qF3>^ML;*;BFg_vwXE&kU6EuBv}eYS4K z^Iw`3p8%i9uhI&UPcZp?Ip9ZF!205+Ku4EPD&M57!hueVeJq7sC0`5`W$twLU<(~` zp4uylvaggkEXR>$(R@|>Zdn3o==$4W))s@(Ahgoe9GbFZ=W`v#Vu~D-cU7(Q_q&l+ z#_fiyzPzd``=rJoI6iR9-u_EG*0KkV`-pa>(v?#`Z+n-?a^_SPE73zUd4$hTdT&tj z(J#Z7--#uOD@HFaiDGoux0&Zomh3V}zUi8wqUi2B!x_j1dZxAX;Hw8gIJu#^K{17i zN02F0^42CTem3A&qmRqliI9Yip&g;3b`_@k4fDMEycv@wVpYYDFNNK;&nkvKtT?<= zf`@Sv3a$nGtiC>Y9Hy-n8F0Yr=kw!~W^}lrhN@U6}Z{Vqu8UmC?Gj?l_Ww_sJmJ z$I+_`=%ij*DMMgO|ouB&|Y#G(DYuJmS1LG7?=ej^b6ojv7vOSQYV zcKgRE!nt^in8GJ{oi)A|)UEvC49!i??$kmgy9EwQrYTNKQkHT97Rbn#U`oDqIPXct zH-;lSOd3srxH|YGUs)?av&Y|$ko91Y)))Z=v}d$YYUq)&7jn^rkDe;kO;ZII8DLPmF8WO)B>~YW0j)T}&l5kgKLit( zcrdTEq2hu1$<}fg2~L=2hOG3tnVW{nGQvJETG_0%vyAhuiBlh2g2b=uzOx)MFCG0| zz?=0No7t{R6&C5fl&z_=@?ZxQ%h&HWtyFw0-IyqUQj}nXPM)UK2YgZ=LhI-g1pW_M zZyna;-@XB>D5xl?Al)J%l9P^slqjXBGzcRl$EX1tDhSdkFhIJLl5P-i8!=kxkO8AR zN4__Hzt8jh-uL}e58${zan*U9=k>AoV?`YzLUq0@v!!lzoZ-9YMM`0kl=DLk(Kjk> z<6rWa_*c@16G%HN!5bD#<*Xhc@g+;?yAIeM@!Hj^8iNW`3l;O4BTs~3> zGozikVQ67>vY=ezJwZs^_mhxjIIJU~<`o?!u}e&i=?MXvS&g^cOgGODb_yW)T-_9S z2I(S|I)vjRT({!Jiui(cN;YS7$DSl@w;?p)k!uE`%20L;J4Vimh0(%@bNi=!R>aZo zMuhstqflj)L{n6RW$?Vx0~HY_ulCY;_*L;-=aSo54V%nu77nMU^q}HP-{Ns=SLrBSsDB?Ug`}J$t~tB^(YVH!kyCGoV>#PXrw62qjdb&$f+f{hRpP{mp*eElV!kTG!)VG zO_FgF`@-TjFHBb<=n%7ZS`S(cW$ugr643ZslSKJ#{LR|WIOZo-E(}E)2Js{Bk2^vX%XgR%wAS8X zyJ+y;H@-%h?P+QvHtW&;^?^Y`Hb``zfdTy^a@HFfhuTm2v5aN`y%M1mE#DaeUO$Kr z!2fKzvPAZd=1^|R$(H7tq(IE}$5g4v^TH_UIFa~OFJ>kJwBkgy7+%l6$|PZs-%By_ zR*}Yo1aX)%)CeAE(qn3fQSnh_p@J=zI6w@5{z#w=bGo9j0_1MsPY?u1>{_efR9_y+oEq(fJJF z_;BewEEmes$5Kq!I=O7<&=&8VSil@8pj>@710{xv74@FyzIrttBylEuiEh>38zHbL z-f?AZ-n;Xv9kZZU?)g^;Qhl5cja#i)Jo1!{h;d=1U#_TA}+ zm4|i&uzQ#1a)ZMg3AN1B#%&ULqt?BXa3T0g>aO?kMK+^v7NW^^(yFT(Gd0_ngRMXLtGlHt^*fin_vg(f*s!b@GHz>$sv<=jE2j<9<-RsOJ6YM@HCyQXVPrfezfEz{ zuR$nAQh$Q_Y0kT*>@xpZ2mVq1GG~|vr@P~}MtMPP>c+K(jA%!hmJ%Nd4N>2aOBt&G{>r_M4VL>K$HDy{%&v%2xKyVPTC4t@*i;o zcd<8)F9)VoVnZg)p4Z>JFP~f`TmwWVsCs}fe zA)%=8jhb)=**`a#13vOQRCep-d|n^OD-y8^U;QjR(EXeq)T4B=0Fc!ftTyn3W^X$WhA-g@+pSjh+a^fBtLD<(1UFx&nZ+2Zu?W}?K3Eo>8z z{XC3%&JVJ65$5U( zJZqtgXzGDW=(7Hv^=Xcy8}%$V)X2A`v7d#vU0qHhkD~4izIN!bHh#1Iqiwq+EmKW@ zPfXCmeClg!$BQXo2Wq%?lR{tr{N@~1zJX|%+yGR)fQ9&{4JsZk}{zuMzlGU>aKH}JBH#VFJKH&C#aG>BM@N|sjUS+B{w#{>28 z^RXk&9kZzIy@zNpX`-)L?`#7NV~@Lpeh;j+$IIhkyYG0#jl>AQ#d%Ih4yJxyv}s4( z_1WXv6EstQygv<=@;MZ|fzz^DGhwC%Ih&8QB}ky}mFY13@nt^Fqfg+X%kq0z#Xlc{ zwF~RY7?w(mX&e5dXa#n0F8F>rv{ey?7)A!i{Gq-s-K81M=SZGw(mJYAO?-YG#!h&e z!WhjFh;XdF0eNpcE$&;RQDY^~uzT0#TJ&eM=$BGf9s_Fhh)shsKEV}M>hX?KRvLY6 z?jzHg=XYOX(rsiRCJLQY2=D2ai({7ws#+=d3^0s(!uh0_YLy%Oc5bli(6DkG7&0|m z&u6FL$_a%hk3Z4Usf$JyK`RN>lYTMPiaLPb~mpGAjjAP+%%?}%dq)t)Mr<< ztXKvON~VH^}K4e6H;Zr%b6_sttA5htCZig z#)XDSTdccyxknDn$uHU~&@i6jITn6h5)boNZLsjIF_e^E?&?VvvW2ktW?dOcZHMtJ z@l?5yMJqo~*7V&EmO;NSOzRrT-J{@yQF@WVHhUH&s7`Y($8jH({qCM}wJhvBiaF+3 zH^ZNtl*y*sB0I9n%^{)RjIQ}zGCS+#`}W!2Xo~a~vN(O;Rm&qXwRW5nBdZ*nN-xn!5+)pHZ~+XZ zA+Bgy$$b=dVLQ#Q#jK(CrI3QeH*X6=%lDD0s%`X(I5)63 z%a)$=LpAXAEa#GokFI=QPG}UeDh*&hG?SiP2bvQmr{6_nlTIMS%?n8U!>!jCb<;~4 zFMviD<)04QJG1L^oUGi#n9wi9+Les8@kfngPQTq5ekl;o&EzuxMg_y5t+&OW8rh63 zXZi-NU-r>7{PGNNbPdtMIy|PDJ;=TxvW}sn2!*+hg!99(#)V21s!{S44%0ALV;AZ? z)z1O#BJA7myYUd2`l@r!-A4s9$>@j~Optc$$4+6(L^}%uJLt7Xf_+WAzulT$;&!JZ zuC&c4c+I}`rMrX95fUvl)lm-+j(OjEXaCRk=V?WgO9w$^Pxdf?VNotUakZ*yg{T&e zpmq?|cM@?tnxb<6hfKyaT*x;xY_4&A&rmd#)J+?Cj>Gpj;&7`pW7eqx?8{KoMm)vO zekw1bXwMqsd)4XPVNCTSE|+mWI?#k(+@#rk7P1F?aZA;l-+;P`#(E22EqB`jokwaQ z>el}~u+f`;rW*=FQSRX^qY2kCO~1yR(R|(fNu0ZT8r3Fi2>`G+R&nA8=MQ}(&k`B^ z4T>5dLT_zK(3#Qmp7fyj&CRvt)Ea)kzh{YG+uFbH(kNFv%nJ#cbmgOlK+a7h=Z)#I zSDxS2dD`Ud4zb$Qn}v$xYSF_YQv#pAeA^_wV3tv~9Vd)kE(?R&%FI^l3R!V%Lpi3k zYwXewJI~MLyoJ{jM1TWiONeMW;|~$5wLsX(0tWYRwLD>lUzg88Fne?A@oP#E5P`?> z8Y~I=W@$Gfc`SN%MySblGUl9p9!C(jFa{{k^o54AO?AQpT05csOjXpB2ub0f&W||s zu-+PwI?NmBQU2e3CY_CH8Ya!uEESk{eIR@1%r2zg@Th~PDA|WyU` zjxZna0GHDiu?zCwN&5`;(V51GIGQtbBBXN!b2BUdUM*l5$-$W0rNbZzEX!`Qx0#Do6MxS zHRjEx(X6Bi250G`yuI5qE*pwMx~PraOQ#G;uCnGuzChK`F?J%RR`<=j^8dB*wUIEC zSKu{3bTNE=p%fl=zv0fjUOA?i-%^-VR{(?lEa^lKGuk&YTBRoo9xD|d@WQmY(NC`l! z2t`G_!P);l0*Bt(T$w9}X8n0+aKdl0Z=O8#H)b)z!+|a`3MvQ!I%qjp01g}oLNJ5|RPSjKU@6(?_ zxVYOXarpL+IHd3pEisKKI6ILlNR0)v{*F0c#a+>$?>(>J=dmSx6S`9DNqP-p`uf9G>ur zxU2{xXtPEuIJpCF^>up*2~c+x%Dnzx?loF39CNQyhO5xIeAn#s3#<1_RnFGpLm(7o z43qw6wKI*Y0ll)04{n~%bT=>OH1hlmvp*jc*R=vLC zXHuF%z_z`Nry0~CKj1&Bs7Ugb;=XtW49ca*UiQk$--t=y^_IsbWbCEa7-|6(0+1IC zd5Y+eLHeb~0qqvC9mm7uP?6Tj9D57((o_~jG?<0Hv=1p@ED|4_6gMMjT9eG7L%Tc1~l-! zhqiLu+e9TTI;a4CzuU`~?t9`JLeZ1`4pzUwh_IljmUX}B^ zm#o1Vde=f8&>9%I3P(U*5I^dY_?mcbYT@gR9(L1(cckevwT_xSZq&oi{1&(t5Rd0r z*UQHT#Ls;92 zUg<2itn@d<$N5q=i;d&5F(g^6o-tdr=&rtkPLh%svE~zo%eLKM^c~Yvh9aJ#PwU1b zMA^vzWhToe@Vo=J zEv3O6YYG&lMhIN}FiU!7FKz0q0+uFbXKYz!Ss$<)pR5tnZc}^Kq4hS#e{SD4V$?fTdiPOnLcHj6Z2s-wo;w?qo44o6 zXRl@Tpqr?ru1V>uCf{1Dle3bm)MW)#!CY}z9MLn!619LydNuZyb$n(sQhe{(K;V&K zqA%|F$7Db<5|^w5^Zfm*+y;`Uw#$5&0C%h!mOFC2W>iK2cEnzZE{Swwv>E1@^L??E zo_Gh*U;?W*={}7zo^PKS7POazFPVY>wUitXIAj^M96o%E3@B`Mc)6mr9EKv2~&%P&?PstT`$4(Eg^O ze78IxhB4{kzyetce+S-uj!91aVQVy0^HvX?`IQ0elld)vGuhqJ*dIN26@au-9!OAty*en_P{qn8tK$PuNuUX zBYn)nCDan@04m!U(0hr(sM`%`u8q~5MORBcn=yNK=C+y6dUK%pmK_T@g&meA3{|JC zRU-S?1D=dqjPab_BgL%Y6KbfIC|&FjbsSO_;PF>5;SG_!hzg~7+>Blfut#qpgkzxg zJJ9%WTt~#S#nCpGWI}b!-hVMzd(Wz|{Ev$RdmJyP|1Y_Bk1FbAp6)dqgcTnZIQ=-6 z>LgSPI6zk19s)53nTq{DlM+vlhSwKT+NCgUKrMjK5+^(`qh5=wuW4Pq_P0!&af=h) zmh3fBH5JZN7n&Mi9OYQnI^1;$s$spd^{orUtuVc!o2XsORul3dPGZYKt?IwqfHPzM zUb%8ydmq+s|G;UpNOj=jtL8bC*s`;T4GS)ZfZ}1Abkmm!Zk1U&Y+)tKq+K+FJV9si zgXK%=(T#t8^{kLt`U;nu6id2;m6KJr?)=bVS`IDb);b}Px4-V0qX}(W>49@-&MAn* z49M{pJ1H?bkKWqfZQu!(OyD!RTtX`3VZPhXK{|8kZq$}t%1vb54M_uJkJsH0g5Rc4vQ%clFJuYM1V6vne2MmWvsde+b8$Tqt_Q zg*Cx#HK#TBleDXAj(yWP1AHNQfI5LPDeL3$2Zv;>ci^d=)$yxdl1n9?-k%k=gPbQs zNL!}kb&`{?y5oguHH_kb@F6Tp0p=<7VAX6ix0G5^W|l}tn{O0g@AA%mgiCX? zBj&l!bEC_cn22`Av<4CQ2P==2&lg7AZsupuiOW7_(w|p(qY>lddxkhdoK-3w@mBHf z+g(4b=o4cADR{rI8mm`zVc4f^}KL%S??=a70=@T2A7dt?fbj6=py+ zG;@z8XPepSo)_xEg|i(sC54v&Ts!*u%ON0N5f<`woxw2mca2pqw+Yh2a~boGR(qZv zX=ESiFr!KEQc6|Rhq?Uhxic=w$5sBDv?4~&se8g!-<)=kYWQZOxz}~!texJdXHB=W z!aWSv^B@lup^|;yTwHwiXwhi1aiX42^ZOjNKwLPC9W|k*dnwkz#Mw98lXSGh){be4 za;bD2@nz@Fp&4zALK(W+H#Tx#NZ6@2OC7d#uk0QL3FoQFp1^~fyktLbmP_x=L1XD@bVACvocm!---A#TUikMI^o z#FMnM^gxQ6eY0jBI}4cX?#`AMO6?Z&1Y1^L36%{*v=KB7ll%!flV$HVZmA+$WU}dR zUzU~as9FdJzKhl{V|r`k_2!C2T?I)yY*T6#=(mW}C39i1rhQI{+3vg#Lc)Ed! z!(#QrA?C0SaB#m<#ugv*0fnJy)WeYZe1wDa6RozaGRZ8Ro{mnLW1FY$^@kEQBaiYS z1s;tEJiM7~YX10iWR`brV99VF(R(V36LYV^A2_}R(|RA8P@}1DNXzLCXRHL^QtfTQ zpV)@u%L9YXdsLgElUE-!wJ_yBeW3*)C?VwD^3R}#jX64w#kT0vL{Nfr9a&ktCZ-1`bkzf%ZKNif&^J8U4th3?n|kp`pYit zK-eQlu+f1frZZ+S)sEwB2h*f>vrKueR!g)VTs@M$L#Is2&jUYa%Y`<5tF!LU=~_P& z-8K&yUf3!5czP`TXtf7x;0;k+HU<-@RVcK_NllPC#h4cND2mk6A)KLcy&2YXzSv0@ z9$*RrmlTHdY0{lc9N7_`;0vaFo4}1=C4~n+Jk_+P{qZjl{$~mMto0=|1+3_ZCadlP zTjo8|x%KZhRl96+PVlNzJHl~qXhbt>=e)`zkw^ODtgilYeS*Q$xyhuV6E27>vfofc@F=U=o0-B;;47$ZQv*n#Ml9wyV|S(5$2k`Xq62 zDXl)$Rd>9|LbIR!aCop+of~zoy~qiKz=1pGskYE+>4} z_J(PAwpjC6sST?lt-Z$-^npV@ZdZ1{4j?w^MWuTeG86+qL{CJRcKm4tmAf(C%a`0Q z;Kx*ibc_7>n;m;nied=nf{s1eB0&PeWwxU!C;2fKhklVFI=6>WcN78pg!Om5QCYo- zQBSFrDy$hum;F-Cg-Y@cL(NVn#=v&=A<8%{nx?LsikSn<#g-{yKpcMJ=pke!BJig2 z3*NE%Es8(%21eNI7_f(w0_*9$tA^xsQiYh2QYsp(DU|;>cC4w_Lm~oFH0rfgfKkVw zCUo)^IjF?h?Gq|dNhV-9pC?NAYd>wnyEv$;WD>@E@WL_kJO%ATLRQz8N(~AaETF!< zXhBnThiLNNY;Iz}<`2Bc3Ukgd|T(i9~I|)2Gx?;7mmNH zh}@ucGaRm*3Ik>J5g7o9%qI%Rc#A(HzY~PH zO4M(GNi|+`P+L7n>VpqfI43EIxWHMcO{Au7$X!`AU64w~3hO$^!o?t5L&L01C9eVb zuJ@){uV$ryvZkL@9{K%`cwkV{k-mi07Sl&jA_GQ!DNXkHSUR@|KZ*+@YlCC}i66nE z#CS^vH~^W~77Hf%nC1Gp7?gX?u|yQwOTt=KDjtiUTNyQPPg@iw|1Cmu`LrqZYN`}V z@Nz~?T~ESSaY&TelNKT8@#8F&r`7fj&I46DDuT1_f)Lzn-DfZ&3=f#lD&p+eUl?`| z64wZEJvuIL^qB9A=+sO&HT`9ridZ=&74W^J-^b>N-#M9% zK0vw=ZV?GPDa+1z*uC$}epU~3#%WVO02$X$l7pbXm*AI{)#-6LUxE2!p8I@10+l?q z-qrGGA=0aj=LppzRxEzT(I=%6>rUt7%HOCWfLxi}8hm5I?ziWcDx^pmCGB$i{95w% zg5~N5eNv4zYL$D}Z$Eb$EW=zB**;!n2z8gJanO#SxohE%X)hcGe)zamFsi!#j2xJ3er_cHbL~GAOlLRhMLB zT8hWr|E(6N58J#}1`<@=tL(p(%Hr_K-F%0o2lO)%x^?{klP}yqQRSifuNeTqYm!`- zecvFIGv({sWH^8pfQt0gyt&O2dZ=x{;|Le30d`O|((PvxZ0SJ}`Y!?9A>seE+95Hk z7XgenrJwoD>V?2vk&z>*H9v{lwXLIXAVG|h0{yE2k>76?owkeh>d8|Gg$qC(bd8vX zs2&hP*P73sAbnTF!4 z-hscMQhUpld{_k50*l#m;=q;sFF&M85FQ+jehx#?FG)`(5L3}VrOHVeCtBS`j@F%k zf|WKPNZmrWrK>1|9 zgRDA*z;jV#&=D zg%}WmBh=K$^oi?h46d)K^-;`H-9!wkZp9b!?JezI_fp)$&H^GRU2n!a zAH)DjJ&R|Vu5DAL3F{GwJU}6v{FHE9B5xzSa5oMpGT}FVm7I;!jB!N-njf8$JtOR2 z$4OtB1zUfkwQl{IxZxkgO#jju**$yQ4smJwn)D~w(x#2S^ai_+Jp?YA4FyL?*n3U$^#8gOLpck<7<_czz`R*Et9;!rGe4L)TfTzfuNcOCb>YPz@@e2WEr%_ zd$FoE3mosplk)J)q=MA@UoLHO9LM!!vC0vHl6ZAxt}gWN&_XiK&A<{E0%8pq_1*?+ zCFsjR3<_L%czSZ63oHK!8W)x-I|eH2_SFDLJtuT}&_s^b3ghia42X%lV> z8(LWi?iW>J-(~}(<+$#vGF1BSzV-!QQDA)BBr$s)wn*F_rjAW&TLrQ7_!>0ODjpR! zEkTgSN6{*BpLI_VhC=1mNre%qpfUe+ild|N8ZJe~bMyk;-S#k$jowjBXnLTJQLhG5 zH0FM7%dVFW9dC=%W~epadQH%?xnQyuR{%JPDwz=Eb4DD7kJq76sWwEIWb{2QpBSuHH*V#E7V|$^V=m7^ zpW8F(up1aB&O`u1I-Hc$cZMH6+B|BG{nsje9FHoIUB&kglOeJU4C=Qm&Iomvhjtqf z_5`Juw5<2qrg6P24M(UR*h58TpQ`ePy^4_O={pW449n5Gyqs<86P!gK1FKa`DO?US zr?EE0TGFK8P*{aPq3Z%j$G-G z<3I8~bTJojTvkej6kSC6=fo>*kC0OUdhK3k znRl@7!mkR)sp}r}zwcVqlu{1fFsxVe+3$x#Nf)|z0@i?WKJbi*F*;C)!#xB$J;>}k zPo+{)hg?%{*v@B56=cPM#?cD1}^;bfz7X-MRT=bKmQw zM8}osD$f`b!Xp-!qnPK3vxcgPR?RPzKsUBxfz@3ZfrFN0>EcCLtcqZLO7z=> z#xvoMTdhWq>2e9bD);k=_nMQB1u-Ru-~VwzfX}UQ>Jk9Ft<09pLkJ=4P2~4aAnkJY z9Y3!B`o=v6z)J!>u-DnYYxulfy!Jv6mL@@)<3HP*dwBC$uXqWoYXJ_8eykx(7-Gj#3};Xn{W&jEUiN5AyUg6nrDrK*;dxa#U!Ib zo3kOINOa9j2$!;eM@q=ETV>(v#|q*(-R;$p0AC_F;(fr;*#U)y-_pv|NNtY9-ER!U zqoP@#C8`sR6LJ?z!FS!wp=%W800}@c8jy2X0V8qX$oY*-02yJtO~NTgelr1?_CLqj zSO_GiO~M1;zDqs+aNH1UI{PSUK-qNdZu@-j<_iE|{g4n2{3(&jPMgL?VI8xqsbO<% zyG7UAtS^vln`v9v9oUBlcWCyODYkvqgfHJfoDnq_5thrJw%o(znrI>{ZF**>#331r zgr8Pl1J}L1&qN$5ypG&qNyCz-$Gq+gW1^Kb`xhO)vy_Arub|MwPsQkRjC%;{yGd@+ zElkJIsmL-$D(`fGb=7B`6FwFvXXZf2Oh=lNaoHI zOx?!B-OMqCy>4%=&|GX-86dP|2*&FN3+_SY0rmr6wRVi4Kp}^UYJL%q#w~a)C(I$p zuHxF!C_f8XK)}mtC#Gw@I&0i=wj0A6`-#zk zz>VtP2MHlk&ahoxioeWIYKabjqnD^0t;$B6j!Uac&Y~S<+G9#3oPa zk*^GjxVIN1oV!~LrUb^J$XOwMiZcXmTmYmn=%}u5$6k<}k0&bsXg6q~GqbH6 zW0-qQi;p<}{V&~%D4|>8#0P$0fPDF&P;)CwB#v$xQQ8yFE|BT7rI?y4K_MOSH}#kV z<`!fl0TRh!khfTbu2`)-l!LuF5Gt0v28T(WJfSUMnAWhO z$Iw3h$xF%po{(!zYZANdxEXK8xz-J#A(|VjsAPo5cAM3!QyEAO12|(E|IOc>j@7JJ zDLXKw_cGuDPX|0~Dn(Mvwc~b7tb9|8t$7=(Z@41?d2;kv0{~6ZnalgqNJOJPY)jN3j-@9w}5e0!OF?^m9W ze$CTdJ2)HhGQS?O?DSyHGEO9cVOP}@# zqbp+oS!6E^l`>HJr>m4Z*Scv~H>djH43YB6PpU*ZU%cAgosi|-;_n>_2mC4AMxM2N z9M7PJt*$TrW@7`Ps9556S}c|Ux16_*dpX=cSmnj__Qv8o+TYY87Emq$xineJ%MV4> z@`|S8WLCh~b4Fm6R1c|!5~t^|cQW! z4sJ-Ta72a;Z0GJ|c&gwBafBe#!RyD8J_(7u%1|jYi!EQV?P@dY^-@GZHVihk4(VNo z98COhL~7mh^}S8`IL`ZYRl0`QJT|+NaY}3H)S_ zT;7}97G3q;Uz?4}6PUc#b)M!j@7S$P$Y4c&nRU4k_A8|KEx0sKQ;fPAeb5eOa-9i_ zv=9MR%jtFO`b?$78ax0~0P*2%zsuyo~K6k)Bp-Xb8oYqRT?se*sGjNRzvN5&`@ zBkRy_S_8bbFTB^*T?>R>9I#*_F6mcJU+a2FNb!G_34pfuzROwVN(|yA=VbivcTNnU zlgN1j$ft%MaVKREkH}MNZi*hqI)%&3iOp935NrRE5anjXL@5rxRpr1zkO!(`KYDCw zPQ%Jj))>fYuY@VSbtVNPU6a~q;zH6kDjC^ffFbY(&qL^zaPRje?j4_;Zn za^@%|>onNg8%^OMXL?JoNsdsCb&nD-8$0;*RiX72Slr9JVeCtq9lj~|N#ec3R6s&9&3R1Zr4Mj%kE zDz`bW7#zmFw-_f2KZ@JSXUawJ<)T>v6bAa+pZRo}QullyTrBnQ@=Gcy9%5+wZ0!AH z>l+2<&~B-xMQOKp;OV>tm_lLE<&Uixff*xrN+>-uD4L2`*!Q)!AaG0`wt*GzxX=U9 z01XJL~oWib|#w966a;>M~v1qfoA% zR6nGXXYEQ00!KupB*$T&*EmQo7V!jcZ@QIN(^n2WVs%*(YWX>e=`!?jyW$u#p7uA z#`9OhVMGvXlUcar@?u;Lk#DPh@Ht=+4)gcs*DHs|i+9bhCq5}NXOiK5%)H7xxA=ys zon#1*PLA>(u$N24kNP)GR6miau>3bx{ntlL=8by*#c9(vq*#c>`}(%zy{Yo<-Z)BwF6)!%zGuNhH$hfl_M4f{*-)>?40teoaVX z^h0k87w~ZjJ1?6r-I6m(WIFzZ4iOXvZ_Mowf<)0t(&H)LIVNQ*uKj}NvtGDUkan7% zaawXZ0eMBI55DkA4pZk$5wNE&*Ft%L*_S35woxOt08!wkDYSdF1q;g(RoH=C*pi?t zVHl0L)CK6eLKi!lW_GsidM8XKM!B|+!592zrN##B8IM^{J0)nawN_+5lC|L$0YclH z{WhqYZ8JxYuGji_q&;#6_}Q`5>Cf7bLbLGQL+}Mo-~6*+@P({3cI@}x^N>gg({c}w z<1+9+pb-kEjeQ{5YKMbh(1;(-1<3EdV*3!*ZQ)=2<5P>W5uj$ed3=EVh_;tq!Njk8 ze9`Rt8OBWhKR&D@?Fm+v5{ZlnX%bn|Tb1QH8$rEGMsKMO0j#PfXT3_ys^6;rI$Sm* z=FQen3!Okvv$8A~e>geFkiU!7O|ZhdNSF#tk-yl;xQIWEH8BY^GZwB9g;+T%ZUkKI zk^ipGzn82^-7dz#J8^2vI9@8naxJ?&l9PK{+sH9G29E%eCxG9mGw% zM{7qOzaX~d?g|#CdFN?7b|$jdwU}5ie8=ZT;x1n!t=A&bK4GR(t$wr^b;O~ZSZo)? zbtv@`nb&GUC(@a~TN^MwwFHRepD(QJ-f=P7BcJQUefD*I?AsWVlw>?j=n#nOAmp?q*`r)cN8Rvdo?wY|rw7&CsttW#R zb#mD4baIJjWj`ZFrhd>`s@BWJnBmI9qB8aj-tNBu5YA9|MRie)Imv;Z@Z1h0-BT{W z4Ly4jipnal0Nxh(`pk`-4^OQ#~$Tky!ewkOjMtpqs)a(G^FHFlNqoD?e)K6P^aOn*RFas8VU^EZyHUb z1%hXeUE4_^P;{-OfqvD>Dr`2qoNQ#84(*VU?gzv#GU@G7KY+(Yhs;HbN*(W>dz;bW zRwvskF`LFSpY5+ib8;I+=d=5y?_U85n@-l5_JvzfU97Yq06a%DWeX1oysRdcBE2YN z~3J4v_Mz($Q#lL0cRXOOlfttumDLeCa@u^h-;+fY)eFDTOBq z<&deCdnFGD@X73{kHCUl$F-TEsG2UFFq9_`U1W44KR8kO z-WTx^FG){0AfX4jHTh2!S9P7Ck)uniWB#8aO2Kr1wi-h>QdQD)JWM*l2l;mgxItFm zy2{epKT5??H!z&A`I@>4tlf=lY)vCdhdNNtQi4!FcOh&Ml0dLvW!(O$v&Io@f<5Y? z)OF+OW2n+yvxk}zXd*L(faxCFTUbvKDJ6^Tqbusm=R=*L5Op|JtUH9D4#1tNj)rYJ zgnUJlXC5PpCp22uSFbw7NUc8p3XHJXOuVri+yVJHJfjC!3!CXV78xQ~LjLrf+dSg^hk%4|jCLa@W_nEq@=P>`W8cOPd> zq#vv7w$vM37IKhfFxFE9^!ClkHN7Ew1n6t6G6m(Tp)AlGRp9Q_x^w$KHzq^|)jnRb ziFJSb%3y*<-#)-h{b6Vzo=8Wi?&>N8^ygmp2DfwsIHd=sOba?^B>;&_9ycRsD8uVF zDdNAk1dvgXCGH@4kE=oX-ta6cPP@xPj!;V36w|Phf_a&}%QGqDDY2_ddZvbUuEV6? zJwD}?m?}S)xn!X3Ljg)p!XdM^RfJ_iB3lVJR)&9mLz=F{6&SMjr|TYpq% z@25$$C_@<^O_nRYP41S=_UmB(6g}%;Yf%GYI$OEC97Z?ELqGK}2qs%q+_maKH#H>( zE)30%LXymDSyk>$A~1O3%* zXao2isB&+a^Os^~dGv0O+Me4ZAG3~S05pik3Cbxr`&}XxFU^RkuD$>Hq;}R;rmE#ZLqG== zW%7v|KRnf@C@|(&V3Z#sCEG-+bKAq6mj!WLVdvPXOau<~qUa!l)y-mVU?g3Imetay zdKAsZcOrd6aOmDW7GUClY!|ilpWFmrWaErKtgDlf1ll)UyQ$|Y^y)E-Uo`(T*YzYi z5CWcV{JMo^Qd}Y=%uh-`Ry`0NX}R?S_BS%z$oVfg<9ZG)f5{DI;O%)gx9MrIN8;wJ z@Ph!D^1|4MblFRSZ*WZE@sH6tl3CAAf*|R<91yG7qy83`G@O`PKhmAALpD(}0FLpIXp%7Z`^_`sE>5P3b=& z6>z%8Ms)i?iXCSbK4#_C6M;(Fc%8@nHpuJ!1DOfS*!{QsnwZ}6FUAlWTsoGae;(W=@9i7fFuYBG_t>wQFtx1zU3`a`7Cwj)ljcCebOUIO0wMN%4E zSj6CdYgv`jXkVkKCxsQ_DbNql&kX+m4&l6Gv@MK-)=gH=$DkC;t+xtT)}G60fdI&o z@;}QSVg&u(M!ayiL)s$8A=7=zs|fYz1wEL)%~Rx?9iJ^6hsE=60$>ZX>s`eWggP>S0l$53Ia6X{_OG1oeUy$|O%oE~4+ zln%UUASrTUBSNdb9nnL(|Gwl>XkbCBB!U7Gf3epYJk!is@@yupnkDbufIvmtR40P? z&ZfS|`gq(2*c?S*Y+McT0ifyfi7l$?6vD37e&z<%&=L>mtbjIQZP`NgX)eWFsq!U~ zDS9m{FBTYxU#eps-eroxk>r&OI@5zl(88om4q!{RI`;nlwjdmG+N?B5RrF3JYI_eX zx98DgTf$uVjWNmkMkX7a45)5c=mvD?L4v-a*vPRIToOT5sP6Udgh1?MUPf+jA+=IE^N))s0^dh$kZ=h>50(Hzcau#aXH$!5tzQRpGk zBWYkrld@O3J?g$D2U$HfaTkoKYW zf*tjG zB@D&_9C$iFb8ZLxCCzgpfB)}fxiX50o&jG%)pOb?wDG3ssL2yL*M+C0z5>>+Xs z7gDk%d#t=MSa7KBHlzi6;as~1C;6pkcYq2*RsRT&LfrJT%C9QcfjZ(Ifz5!YMdtR0 z2TiNi?gfEz8D@LTI?l@Kp$JjmWaSe7u68+>ysWZG7Iv8{}VVqy|Z)uJOWdCPKf^)5Q($3wHzpX265k09bu|Ni4U@X2ce zkr@M#9V*8pp%u}3!b+At<_C$Qc}&vh=anVx#rpJW<6AHQ)^WiYK;Y>z#!r2bL> zf5m};rKVjR_{)f%uFmshjA~O*M{zTcd8Ejj|A(owj%zY(-@b~1N~s`S3KG&G4FeI7 zE|nC7k<#5DA|0coJH!H{H&THyVuaLaguzDF=)rhzp6Bh5dTuJgLj^Ekc- z{{XFh+!zygtW3x7;UY}PhwCJEW|@8vtC2eYWgtdM%DshSE^}&~C)SFlnQ#B}L15x3 zOn8@TzS}?C!qeiw@w(dfae2|V`T;p$Qfoz5`VjY;pcH}Nh7yQ zJf$*YoDA5TB4LUu7jnvJ^Yb7sds)>Mi;EE382#s`mxyX>qfuVOeUgikLgR+Wvzmu4DDv&N)(nUrK@ zcbmu}dws`S4^)5K)NV}Pr8>>IqG; zG*s9^me=|GL-$C1^`o_cBd{NhMN5v1$4Z%tS^<$3q3yCM4fpNu$i;Y{)|t2UjPhQe z5JapzG8lm|$T!%>N*0vROfcR2&(lSnf1Bk^qLh&V!L@8d2g41FSBTWg!k5_aarJH@ zqj&gYiR@dIwx!|h#*Bf++u{_rrdTiqVss$apBJ&zkLJi71VHC9TYU8qz2D@jXVtW^ z6jL&z<3Bf<+4Q1i;1P6g!4Kgpdqvz1iI$RF7p8+o;mD!(le?U41!;a0g$$+e!yY_+ zd-yIMOd*90(a)#HvWn8etctY6(EigmD$4)9M}kP&zT}~&PqG*_=;45ZBXMHf9AwUA z^d|Io93xqxj6*wWqx>-}*A_*g6q4JAJ&*0@ZiC*;MY3yiH$lsYdaVL8U5F2b z^g?5j9No9F%VxJ`7hId)bY=eL@5jIAc>`ZTN+rS*j)Xmq*_ut$p-9cylg$1y_q`x!kFU0WR{sBjXR0vU>}5 z3K|zKf6n@PUS1^bx9`xn2;c|Efz>dQr$M^rCKB(-PJqYp z|NDNY)g3(;k+SfctHyi z=e&5nQevLw-~jj86Si(PCVcvEQLyT-eO%I3!UQc429JPyb$=_ZYGwXN@kC>_ z^D%bIIJW(Xm!acb*4j;PvPy$Ec2>teNCIRp<_Q~U(2?Ehqt)l7Cl&cRKT<8a%LA;i z(}$882)g?~U}!}sKLd6za*nWf4j$|jMR%b#Vp?}-cCzn`Sx68S-88t< z-y#+gV#l!z-P~F0kAXoy7s|i-lvZ#T)FvMsnloCo(em)D`g$h;KuW%zjmxxHX`j^5 z5=h92hU^DnH>v}3)?YKeN#Iu%pI-1qIRVOgNCMWi{kXcO^jTxuil`pYjht|s_$Rn+ zH(h-YY%J8=Oh`?#Ao z=AC}3u{Kn}+`j>1cOXmPpWBuqvx52f)Mp~sFH&rpr=dRa?!oml`ML}>@XVYc)7dyZ zF0|0(_(r7w|8@=}K{S%56Y{-2yF0YDSWNLH2R#>SxtMtQn3KtIo^{ORp6OX3506VqS>ov5&^ZaIW> zC}cT|1_kf_^z9Dh;*?F;;@kw5B;d(p$)-)Lxy(vb0pDR{*MUTyUM0KTKIUe%zN9aF zJ{F!<(AS@-_B1$15B#MMidx5?+o3Jwafdx;)vv)A=)@lT z``OyRGp8-^V7H5UiIwvNsmAY!*`4IdFCHi1}NDbakifnPfPS6*krGL7(G`Q^QOiM=!E_4Ty%4{N#b@1`6l8$Vp!e424DCed94QC<`x|w= zA%GPU$(hDZcV^WKF#JVGR)f6uj*OZ^Sr2~XBazPA61KLF2UP}zi0MgAzG5e@;uAuG z+TL;C`ieV};E@WdUt>bW)BVeGBv9q8(L;sk`(BBPsZjTzO-5cy@~Cfnvn40y0-vv> z2!=Pui)ae+2Xs2C-XRa$9Gf^V`aKv}1_<1H|Xz>nc~AvKA(T7DZH); z2*&)Lr@nr?uR>2bxKF^LoAZ@af{!Oh5GimoG#oHhCc)83SYvuoZ1v+e;=nm(v5-k` zN|>I7*C(+IKk1@+iDroeG_rrb;<-t-u|s`R*J?5oRx?7%+H?x>9FN?GJ7Txvwtu*6 zK-<fshL-o_l_lD#@wm#<`^36 zwnEMdAP^woKj2;w-%sp#Cto1CPN128WtwPCa8%hk5#26=|0B_Ix%pH{PF^mjKpW^! zmyRF+rwRQOE-B^{f|B`RzikpJd$$#<+SYf}D@ zVdem%D1A8LTezHm+|1)v^@5^@^S|DmPq%mn-oV+8mFUv(Om>D4;`V;lJ<)2PfxGj5 z6VUvos84;&uCohJV8O~iog~liU+Jg1CWfTY_Hlt>6wsC9JxoSZwL>hdT4){Qg$-dn z&R=Jc^N}?pJ5y^n30*m?#3c4YZk~P?z$~%cqd=F;y=~09Z&y6Q>%DP*G)J1AogDLbpO>{Nc^M9rb7OMeLZi23(c8=E}in6Zl<2s@jTGF z=vOhK8yxSa69qciYP-R?faC*u{*sUi@z8^S2I}@BDFOL}>SLALXLrLn1u#ka!q*O) zhR#@os@eiI`4Td;N~*srrT!=0j?<%QwSVs3ScH1g{%8?^Jh=hR;%Yn-|ExXx4ymdB z7}&;sq2iU4%|r)~HF}MOqA5s}JJ|~+7-;uI+UrJ2*tv$U)<^V&fjMepzPo*T_KFWg;w zy9nK7uMPbOPj0Q>xKh>=sm}z9P?cxL^%vvTv)_kQyA2wMN#oukF@dX3AM71By^-v@ ziH6+ZuhLuVMe=CeiY6^IQzvG7v{?ONPiUyJtK{du$uACNG+`0<2)d zTpK6or(Q5(?Su4Vsk5ta%c^Vax55THPMl2&R!z?a+&_g$(hDU6PUC=UE2GUt8T(yD zWjDe2s2bX_h_j#oaS(|&Dfo*nqoIVY$J?Rc4=Br!z~Gk9fd)0Y=o#Rrs;O*RYse^y z=Mt^8D6Jvt!WIU#$%y&6cbhR9|9!zC;g7xBJ zR?T|1U!uUzpHbhSzrAFW#V89WR$$dMN-Ziex~8ot4Tyev{%5~HX4|X-n;kW1QSXYW zSZ^OS?v^OXp^c1K1mWN$Z-0jdF_lXH+zhL=AoAeQdth6Eg~ve_=s?ql3ynGbZU)ym-*5ucW>#=K;*`x`84ik0IMa_yJ3#RJyiGghrTNf zH|Ff@@xPo2VOu_UzHW3&rSNF_BLR2`|Bt7jEFR2yT$^95%M0m=%-+NL(4VsicEr1j zU9S4{0_4pzEMVs2|GSaXa+eE~<)wJnwV%9)=UIm9@0 zmjiJioH+g;z#kbR5WqdrhUAYOjD!s57eU!a;_w&5gW`IO;hwA-G-yBW6}cNxR~ETQ zSObuU`&hFHb^fONNp;2fUmaV0+QXEG<+eV$9hor!E?}f=W)bv$<(*O1b#%d&6;-Qa zK@KD7s>MGb9tlQk?ZhT)6FBTl!Q~y=HKgQMaEH0pqM1d=b|38%ALD9@fV#XjAvs!9 z{yE@;ob?T+-U~5(XOk#ltL`dqe(_G&He{e-4Pl=Mb#31Hi$FGhIPO2&-x1AE z`Ni6K+;|$gWZf*>z#}D+NRaaj1~h=W0O7mNqqhAY`R@yw|4q(9*lRsuF@P^*I1?(Fl=l%YIkrKV_yp6csRi^rZ z4jq&ORuc@+!+^F`z5}u=srQd|eztuLl=2G&iag-%Ts(s@!&LxBq~+FJny`WMv4=^U z@=03*p;z&Q8TWsAs?mu7@S;e8f72u6{dqqI%y^d81?-jgKO<2qm@4I44=a@*L3WyoOYKL z7yLDs-G$znUvS?;@fxZs-O0Lu^C6Amvpge3dZf1wgYSM<^3FG1c+!K&>^!y>@jA|} zy^4x%Xp(8k!h8@~0a|=y(r-AH(L?`{F9fD94O#xAlAC^=_I9Z2Fm+`2_{41AtACyZ!h0VK1?_*Pte)0S?cKp-!Zl2F}DIV}h0KcL? zT%vcbSZq<={3xSD33V(G+JzqZ#y z2PYI?8iW(A{3PB2Xi-Z6Jv z8kU#Z?+=xXGWiy3Jx(h47R#U6J|$YoULfc@xvN_B><@Lb2zI-J2QrQNfRy5&K>TM} zwR;7)Ma&b+cMRAI{=cXCn0S3E6;eGUVVLL!*`K3byRQ~Hc%fGaNSX_%`z@@^@zMAy z0PbZH`($1#Dn3@0t+btqB=!1|`M%Mqgz1Z|%f$TN7tB4IB&W^dw&>U#wmhI_T1(Df z4R8#E2e-20Os$89s^-!rvxl_Ee!PdG4<33mgOTwYC^d0X$biqvl%bQ3Wdc{u%q^bF zgKo{Bk_AY6UX&HlJHL~aCh%!K{}s6nh+!&|GIvUqMF256>)X4w*+d;_K(%<}6$HTf zL8GjfK0|7&BU z;mIVoX3iQ&{l9T#tgU;eRY7@2+yOm&B>F$P|A$D$#gLqZXIzap&lFi@pY%@06iC9W z3T+Y&kLbW(@{t^2jN+#F)*7eV>K8&)GdGgM7y8;i2&c-?pEp-*mIYTqB}Tf_%7pc( z;fKABKnjcL9P_-Ur$Xj_l@0QhMKazfXGeH(S}>8^cNubnhvl^YB{c@;`KXyJOPzR1BCi+M6Gf@H)yA^17f!xz5VZgVFcoQ8YFpVtSfg=>&IrMODxVb5cngx!Gt0q zdlT6Z+il&J?oK&+@0dzx;Z{O?I;ULUPKwYUZh&t7c|AJ?(RpIcdFu9R>}gJCiupvQ znlT#42%Z(w0RQ5Sok>Ok8}k1hRj$s+S=8X6o<*|qZ^`G=l9KzXVZfEtI#XQ}^yt=^ zrGE-&!>b@))I2|kfBrDBo!8Kbb`AEQQ+FPSC3DK5lOPKeo9TX6Emg|+_Ml@Vml5l` zOcZ*2j1oBE(b3Wma<|aE|Ndo@$FSB!@_7%&SB@1Js?&?U6%es4q=?RmyVwGRn2h^O zg5o#N-UW-Tb!&=~Q|;iOj8rH*Xozq<6yN#9&ig4clN2v8w_&nngM&=IR&FbE&= zPX*#{)cY%bfIP3VWsd8gZ2$d2?i;x}GX$9<%-o6PyU2RFt-9JVX6Fg?L#6LGz#3H> zV;MmS?`p@-(`US$E@$K??ou}@8j#-E_dWBBXf8JCmUn_CLZFL)0wXmpp8hKlz+a-C zVH?`X243|xFvnQ@R_B{{anVo4|F*B_zPxmx}oQ{bJ~rRR@uq2mxA5-G zfSrcTXIhKI;4*i!x2g8B^EX?|L9*w{kY6U_%Nwx2R--Qqu3SQi$HYJ+dOf*|=2Wdv zL3ja<6RVpYplT6@Da#J)r-2UJ4)Jy&{?eoG_btJvorP26 zxl1*xOvfXmNSFvxG)Bi?R9(Uh3xroFxBv#mDlHaLIM~e|@c(&eVUEENS+4ro6HA`m zukj>Q$2uamKnTH0xl>7QFy_OEfF*LQRUs%MR=rBl!mMC8GT}}jf5IK$&%)o8PY>c> zJ!eIg?>sm|N9Hjq3dF;62W#6ztHV@sv50~`Ahn|jsN=vDTs+_P)EaZF)BF!AQul#^ z4KF$`I6Al1|6m0sq(IN0vkVRF5HyI66(}&A@W8v5T zT{sq0v#*nZIsIiPMwfuM8#Y@O2@>(=PWdH`dLVrF!z515g(8PjtOm7RQB1wg(W!`( zt4^G6aA;6P+y8#?gU@U+@^c?O&(55fUint@?3)=gw4ahMG#0oT`~uX)jalZX@WaJ0 zET0@JCMPh(Tw79{mFVgUIlTfPj>Y{QXDP;Aufq!Y#FgWFE&>1(eq{BiBR0VJsZJuT zdI3?ZF$F6da^@Ma7Mshg0?%AL8Nc)D%WAb!)PKt;7>t4B&6LRlj7P^cAmIg{n#IXq zT*h+8+fSw+dxz7xM%lPIH0{yA7&TE`?ncvdIWrDRKO+~>^}Ars5Qb#*eFfLn-X(Kr zeo|ZJB-Dn*^9dDyC$VF9$klNi(exfMKGs zOMl97F}SE=tkK{s_%1&2aKagL)S^t7Q@I5f7Hcic{@MQ|k0J?+MJ$CZiE_}$Z!m0` z0cN^n`Ip<4HVvwslrbBxK?0OPkkPYC9N2K1IE1Zf?2J|mKpz@op3z;7P_aMDY zgpd4xoPqmF0_Bp)xUG+bmoEyU$g>s9I6Km-;0wW2{6~-Tu1wmJ=FL6aV9tw$t-$SL z;E3Vv%qpXxa?ei`lD#*zFC6(QPjc+Zy3}0eoxrDpE)*t~ZM}uPWY*{F3E~G|_eM9Q zA^d-!iLAFe#MI}GfJ4x0m8lH3%B_tR{O_RLEaX<@sE94avX8{6HRtvx={JAZ<;$yv zZc?%d2}1KbSKoE+t_=0k#8@)o7`cuTzy%r!mXz#5X?xc$1vI?GflT&R_mL+np~Cw- z@AlmVy>3<_fPapA%L|OjMC{mY%5xlvSG}*Evzh@cp%h)8rasF_$>BwVVP#DLk6EQT zL>ajktN*1C!uR*DA*x;MHX9(gi?00?9%q@}L|weN|EG!TKj2 zIqeG|b6Y5J{QC*-B1JhYqp15Qh&>d_Poe0l|;#&fY5uO(oVo7u?I20 z^0`)MSl-mG@D@?l8ZEs*=lLC8CQEM*lb@3eWd%!5?cbfg7h+#AZ0r0rKdCOpqsR|; zM6>r2VD3HLx0`7r?eU;ZJq>*3Qny&M8x{ekbLh(Hy!I}Pd-wb5NwPF6Fymqg+$)C0 zFU3VE;YiW5l&)lxagyzoUi1>pDMzSf@4V@wwr5#-x!B8#J49enCzhR8Auu_*rLASC zaO%;RtqVTN>wLM|qYs3osOv>Oe)5GCwYk!;I!yg^d0_iIQX&9eaQNfb{#%JGi_2>UCEUpHZ9Mt;{F5?z#~|I zbmQ93ptkZvw4)0v(bDowVy(E{zfyE!7UX$c90(9sVEH-pKVZ06UKW;tM{m~r)>%|r z&RhFW1s03tcN9%YYjD7W(~q1>Pp(&+7AGCmRIht%#WiFfNZU;l!3_e>_dHxBm)v9z zHwbUI5}7!8@OVa%{bU;d3?prx1_iz>VIPl5 zL|NMllf8xXjO>fmo+laN!<&$SG(bS=B)`trsDs?NHPY zLv*-*bV~$LFCF-9#q*2qe@o~LNg(nF7z96bpS#l7>3UtlGdpV(Yag!1(K6_!-5hlMTiC1G!V=45KH~b9?Djje5BoC-&p2=$H zM&_C~EV_@KTJo^6x>vocD)YGjTh^&*ZDfyI!a7+O&jyk8UoAG;L~DaDvq87e-!MIK zpXABbB)@ge#BjYkYv?M~y1dTT$6XDZvx?Kz3AV#{qO+?*flvU_ua|3d%<#2Ik2aV{ zUqY+O*_qd$46h5^YHc<&P(Y!x1o? z?|?tHWM6rVMdZ_tbG*`et^*~t>#_N~z>4fb*ip+vLj6xYfj*|QLCt+3;x=b8br9U= zuk@eK5DV!NbgAe;qiawMaA+5b?< z0c4WIO6>w`;akXZz-FKuO3Qqz!p;&8x{F-fS00(4#=YHkK?ZTIOcqU6e@eU5qr=CU z?{#rzd*k>5o~F}dB*FllI~-EdYL3Y4b#I{Bo`&}ptU)SPN+?``eF|T3-Q# zR{nS%e2EVVraKc6GDPLM&B@gZj}nU(1XTwZm9zfIRAZ)|6BaQ~Rtu#0?JEbiCD}42 z04bw?=Q_9i#G7o4*BI`H{Jes*=tOQzUHV`1e!Hm}mc;TtDMLDGigKSFuwKAlyIs{# z1&3z9u3^GTd=@a)v~D79`<Omlss_8%rt4}A<8h|!@pNQ83Zr)>MuzSyKM83r2;=B6aOjtuPQ0T9L$sk z*2iR{t#py(Ut~FBx6smJuTO7`uXzqXx!(SJVW9Q}qrBeL4vSF?gYPN;V2~EMgQ(O2 z^8G84ak-AIhcUBF=OH)0BJ&$mEii}z$2D8ty|Z=Ey0>Ln9g)B=GP#bp?k?9(uqI_6 z9^r4Nj8lChj`;egQiwp9Z1$|RG0R}}0SpQLA*!-9fLPZfS(wQC_a2ZQ$?CKzZ8THY z0tB6-4>ldScAe&lyN zg)G^7yBm8;eG{r+)z?bz#GjDe8(KSU{BC(TP)ZB{S|}+?MJQu8_Hcl!@zW|Ussf;T znT6GB_0L`dUY{Fo{;G3$LFtNd_lywRJO|#8p&UihY0TiUG$*iBe0EpItdRj-3@P}- zmgV+OmUbG~XSx)jPj`^;hY|?yQ-CU$?KEZo5R92_)#}!)urrD2oE<+C4jg{})|)v* zBo&R{u?xEE^)u`eyvhI-4{|LEZLm16x#qVyb7}QXOl}}g5PktD0a(GDcHL+1_h_Ou zd1IR77v|du0}Z!;0J+dMEvi$N41>Dzw|R=zGg@2sD&!eS=|o@em^D8>2vJ>SJ4x_L zU1>o7I;*08sjTOeYGgSRX=z|2(%e8+^;=|T4tiWBCny~(9gtV%;p^3;?m~<8^KQMa z5y-F?JbhB4klfw8G~>0NbL^Eyu*#i|LuX3Hu`ZWL%LvH4NeU8>(?1Ew3oCnMM24k*6NfsYRUlzOr9$Aj#<2Y+Atmx@TcvRs*m zW+)*T#Qyy|QJ{TJ!Yl=#=mPi>qLyHE7>VnlCYG&(&q5Km%HVp~sIrshKV4fB-+TbY z`sglh7PyYSJ%im@%d{S_>pVRxy=(>u?)d=DSltagAFdlUe&_^<&zTojnBa15Td?PJ z&0j)C)7tgy9Fwa=zi=nihG;GebFY2={IOAWv{%ouFNqT6)m&;crhU=#$8}`}=uxO~ zHu@7%v*Im}>d!JypZ;_pK+gXZHAr+P}0smew zF?e=>JP0^uQGJ{2_DPn?0+Ilc(I16m1n>M9I6TSpZ?<#vW)4TeQ74l? z`0JIdvp8q3!*T7g+M03G{docC+w_@4N9pAGSQPxr z`yNcB@+n)zr+t*<)9p_xEFNxTPDgAwg#5&jKnIJ&_G@}L>1Em<(&|z zY2wgOB5p5FZey1jz+H|~m{!?3$r?Gynv!n@$5#E;P`$Tcl`;~ntDt`og|3c{riQr@yj;$O=8D% zUGZSf?+YjoHu?%Vp)a1Gn*a;tosiTl$JA?S%UN}C958*%C~&Ouli#O%Do%!*Nsp@c zeBk`v`2kB*+l8kvtMkBgg#ox2z;nZgEK=F7LO-)|eYr~1EO1+Jgv=Fc{4J|!fvZuq zRMgH-%--zxps!U>+RE!=mY3a-+?~s^uBE*xV}nR<1>6H{tv9X4KBM6Bzs7xMExp!@ zrj(hVkSq&|@kx!sW-*wOtfhN7qT-{^e{5-Ps%wbxztHTkg35dS5Tx!4!~xh9IxTdDR)NG3~g*}ZET^p zHXK9d3}?qOVd=Bs_W)^(6FiRB6Y0-cMfm}Po$e-ZqSigZ!-(gRvLKM~5m=%AlNB$N z0z{Z%x-<(KeI1}O-m_wz+G1~oQ=osHvzH6f>@+V6pu4zegCf}%}Qi~x)!eA6?~OyN;k)*YWchbmAv2+aUM zqzC@HV`_auTx8Oh8x)rRK~4dsdv&X4LRKF=zcxVbAPH?Y^kB}qgh-_Dt)Fm-qEZ6y zFVQDtO(+Y@eJwt92ns$$fltrHUPA$9&ad|hgNi1M+m#kWt`Q*q#Uw=oKUt9*`wvaK zsxm06czS@l8|>!=V_$3N)Mwsfr@)DaOOq%ubg#9Ay^(!Cd6jzsZ+k3eDZ~mR;8M>8kw|XP zlKbi;&6CP#5x-Jf=?6}wj@DX`4b+h}@c>4NWvTJZ zsaTz8Nql2TgrPFl^3s1C_M)RS?FKJht#U*qIJ~KSlNH58C-co?fsScffF)b8fRmCz zl%BV=QCRd3&Rv2k5Q#8si7Pr2jRjkP-|qc-eQ$=$-yODi-&^tZ16x<1KX_x^L(D0} zBs7Uj)L{tk9OA+#8p3y**HO?q*O20`6J*IP7XNa2_su(ftU zmmRcFDbL;c1;HV}-LaHtw8$SdSi>zmo{tcwa0a$AEq40m=P=jTtdJ370nfMR}Kwkiy&18rcYs8MkzZH|1E^Y0r=Cr86bGLPOgeQ1-}+6-$D^ZzCUtJb{sW zh2`&h+8jCDH`|F0Mh_!YtNlxVC^h9u*k(sT%>(oqNW>e_?iLyi&u)P+`pvO`|7#|j zF#&yBr~kT^Ufy>O4iV=k5MaiC6y_l!2|0?`Jk!p@Fp>xSUDKWW3IJNhE ziWCE5I)sE$gF*IB|G2FFVbCuYLZ@!G>OcnS;SxanBl^!%R+nE5MY7?|6k1<`%u(NT zY*nm&$b6J@7t2NY{Q;0==}!JigNoDBT%w2Y#-1M4P5pkjT&CHwnAjT+K+fngyunKA z)9}@V;ah$|&^NPcXERr=yAY*I@pi4hZQ8|)vMdVV<>Z7cCMTzOyld{sO8YZb(WuS# z+u!fq`JZ2n9>5m|YT2_={@=nn!Se4X-eU&esWlDSnMW;PJWUPi-W=j&s=!t6k;|o1 z#tiR~56*-%9T${sIG1CQKxQyoqHG4BkwOW^FNPL$xtqh%7Xu0>A5{9H>E6;pVlZ+e z30W_SeYNKKY71&GcFqb9(3ibdj_Pt*-x~7&W@hn5P?yWTgw!_yNpzl8NGF%ZOe)n* z{{-6EflP;aW^VN$!-%(a9-tD9BU@n^FOQx47I(QDX|ES_zWGt6fJm(oV_#x5IK z%~P5x<%zoi&`EK7a;=D?8xW=A25z|@!c+h{^gJTW<=a3IaCqDW=`6MiyuW=Xx2ho> zuzG#3TfK6Cr64Mzw&1f*8~zls#=A5SgJ+rSDr~pO{(G1Dos+lNS&(at=VHfM-}O`*ZVBpVWV>#?VpY|vyy@K>P`fKN`e)YC}^EfvN&E(R0$y9(m;NaZc z=Afb3aip2Y?BYX!T{t#T!YF!Kd$E|>Lr3|>woxCA>NrylXf8YSA`Ki&0A)#;>_hAs^2CtUQ3=-48tCu?^L*2q^bN z@w5BJE*pcdR|ryH0_k(IDoE+ndq89N590|QjUKa(kBq+@zonxsx57>xE0AR#EsZ!& za!rYOLT{kW?{OYZl^PrnqjWzr}*q9h4t%CTc zDkH8aXSpmjCVx7jD?jnmky=Q(m4Wr#Il*p&?nmVpj`inuq@HQk`m&}t;5*T={nC&R zWKlkKyZ9>dI~!chl2qOwE1<6jb*xD<=+Bq--K!As1en zOw!V`*jrftS4#GVjl1DpoJPvA! zs~MxhQw<(}O@xWjH~$_Dsu)%e=kukMnDu zElklrgI*T-^#Ge^@5wkd3!t?bwsv9`w}0xAWDZ&3O3(0PHS9hRB06aG^RUs1&O$)Z^p=hn z-T8Y2n>!doyZyu>E)D|Hvs??+C}b8Bd0z=HlF3+V~Zic^UJ< zNM*Z$Nifza=ade(+RIkFVHG7g#FoU3B^ARq2*(dGcjiHaZ>RTg=b zyBhv+4}}CJLtmZ>ez3^+C9w7;XRWb3Bt>n{XsO7 z+^tfpkpqE1Qf@k*Wx|-t4ad&p;!@JcB?Y4sfFPs`Y>ozm=C@te#SQ18-O^5=s2gvF zhh>pxo5cv9-tcOYxnEl;%5oGj%?4VG*wde7sf!S=nUJLjo<0|c*9w@-zFJ_*tNoJu z9!Y&ak@0ClNt>K-17ptPhZRmf9|eD#=O(ycVmgF@rc->@^NSd+Ydc~B;(y#QvSM;M zegg}G=zl|dN>YDE7)!Om6G~KVeo`(YPR_&(KU%k=H~vIh8fIYnar`5(rkybs!XkWe zZ=1TV7Sz>QYpOi7Y;GWP&2`LpvioP%A-{YEf>IrQ&A8Eix)UhmQ>lz(z!AzK&EQZ{ zHF?)qrU-k1e)CS(J=~W1eKlOst1Zb;+V{(!H-aec)vxu9!|7!wbP9dILfRlTo!?Gm z(r*FuS?74eh3FESBW$}Za`ti;`GZb$2#AW(W9lIJszuD2N%qpz3}$Kgo%k!HwR`0E zp^yXS_?*8Ws()@SY`MN?i>y)^vsfI2sA+k%9i`V}gsso+Rh;bsJXf=MvfNoRDN_(2 z+PqyS2!LIZ^vQJRJ|CkCq@(qf-4fq6cHbJ?0W0L@Ml*i$Q*z}~8*)gVbRn3E%S zK8M%q$GD$v2#jXkpJX{YeWGMo z3fqdORoO20_4!E^>f!U07`Dufn*RW;!;4}QpcGm(ISK|(G5sx@dHXYDhp?5AEuPZC znUSiK;Tum3v0tEK@^_q%$Qf5|g;GaLhCcrow6eXfu&;0bg3WzQPzpL>&mgY^GhGC? zw7wCQie{8b;)`uAlq$}W<+97wIpFmEvt0?FvN&-+agPO!p0lNB| zmFqfo2*{>P?|ayYQS<(X9=eI^2saa)>hCu5`A6_!dH;e2`&+X1QvT>9TEt?dlS`)0 z8F6tQlH)?Hy%AnPbeFV4YT)>n;6&n^?jvOj@bj&(bDhP_0*)UgQ7d-!P96oFeNwcc zipPU?Nqfx#n$icg&?oX@*{-tEK$BiqH{Kq`XYmLewos5%!D^^cXDG~9O3 zphZ9*^ni9j3E-m2+dlS}GappfD;TQ!jjrrEd@sO4s`9bIyYs{u?3d)s%;(F6cwK+Q zPnKOhaiVS+axk`|8tdB*J03cYQA~}!kfBuzx@~t!?0{I&CoG>k#BkR3uXw_hCsE8Z!| z)rEZ&ycRT;l%x2#PK4T5i6IU~LyU+Fjor3^lmi%zhlC zK2DKvXESz+mc?Mw-ps}s+3il{g9VR-LtZIM=gdI%Suna$b5VQD*(`OzNzdZWPG-K; zhKARnchMU9g!#KqNR%e`&z`pmV}qSWj#8F_B;&SgrUwLJuF&Nck3uh9Gj~}*oHgg_ za{+5upcLrR?CZ??f2qeeKzEm`OEYHTQ{|JkhsVE;+$pK-wG&MrK)GU6rka@wa7_#A z26_HWhxW3M1Xo^JK+YDis;9!;{h^Lnod}+m?VyKMiQU90!U9U56nAN?u9FIEiFB!xD58@`~_ zh~6u1bYt@`NIlTc^@-*A{JERoo+6{U3>~$)gb3xczMQ=$wFzDpPRI(KgfQI2%54lB z{Q_EkuZV+H4UWBGtlNlDwZtM{w)TBCu0hd=*%Tr*i=?>Po~I3=?htyV=M>9a5Dp5C z&$QHrxd6NAc*xCsZugzt8wsd?^@GmGHYo)^P|u-}Z(3zeLuW?G977XX*C3tXUv#$X zAt76bmV*2J7PE{Cn5F0WjEbW_HlhVzy1WE*&G(3x{EAa|oc4A?s@-3xsVG;I58s^j zUubt1STrsn5xEVAL-tZOr7T86F6)9H+nPez6T_uj@-jDquaKpb zL#_rYF$2uwd<#3)-jlbEJ#va39F?*j|9Hd(a%r=KW0=N{Exm)>m|nF^x^&^CZCwP0 zg6R|OA;84<({YgqBql){bd%Az4H9u#yC#(AtcF#{KK}=nD~DAejo7q@q!y=So{dk(>uSB=|aJ5)+&`-03Gz9?j0Rp##(=2L{> znA9i>Hz5P&vK1gBES_ zwU5yF{X+stR0-x~(mwtfA)^9_%M?F)Hu3qk0g)d+<`tScPaf!Rx*rc6HPkn-<+FA3 zw9J|eW%BmbG+v1I3J;f86ORw%9~C4xM)XD%_;&*0=U2#Hz}Shfd`PBBx23;u84_}K z_~Gm`{n;7Vac3tKW8pp|?#%hGg>4cge+dl6(6DMb%*>Ja%tB<)ch_p;tA<#eN-Yf- zyoe4>uaXfFv_!_IiVn0^RV;}Y($;ktz3V9C?6@G7COP9}p&VGOK(@A2n#EQyqhZUQ zuey<^kq>h`br;Y8rOG_eK6WW^Dx-HT3kJn@9E&v5co6jog2x3!wvuA7lh4uv=blpV z_<<7{pYx9IgDy`4Zn@eha(R4}afNzE z7vL&%a2$4}L&$2DU@rVD#7B5sfDYxyO^8x9rsc6%8bdtHuv>Gfr*$q8q@O5vVUo#Pmp?U?*L$%DV=>%YqQkR6;jq78_W&AT(z%vZ2$nryOl-%@pFDaSg0?~;3sZH;7dv)mh# zDH)V)7mQh-?VxL#5H?SN;XdQv{=cT?5}oSL=TEf2dUTi@qFaM20Ut~#ZmZhN8gkJ_ zAcR?N>;vXhty(*fwn*y7rRDrh}HKnWQ#sC|hS)oNY^#da!BiD|54^pQQ z+U1@R!9TADG{$|6QN-z=C2DIwDJ4isy$ylKm5B)6vATbf0_>|cBR;)^%+_ge z$1Y3if%zEt497Gs@^-0>bH;ouY96XL^3i< zR_1Yt!?81pq9~g<9E8Jh>~%u+9^u%^NcP^8J&rB&*c^Lr4!-X`_kI6<-|v6^Il^XMiuglD#iGuVa2V)~KZ1rS@ zzOX2INq?yJl!2x*2ezeD(p|^RFu&J*;cMrnU9+Nmdp@@i!|B4KCK<>y}+ZDf~7P=o_yf&AFMY{RCDFzLXp8;qsW&4?*S=?J@4S}Q`mpvz3qt&H1rLcyCXugNUCM)z7P z<|A+i+G&|dN|vaZ2gr!Yd+3mQ^|ZRS{I!kA_c#$J=f&;8?duY1jgsV3JM|HuXmLqq zso1P(Gqj(8xP%3+cEJgj^%X#trN-r{H!6y>qU%5f4pU|ci39abO2@F(Vq_T7XNh0Z zMLOlf$J_Tp&4b#0xNCNipMW7YeeVdQP1*}8EK6t=7`yO`M40)r`Z|dCGu=L(wvmj& zWAt;rM)xGJB={##NpTVnL3w$Or^-V}r|JZRsN4OxVR$}%OY9>5L=*504<}{L3?4lI zP%5eaTF+JgXTS0Y!N`$|0c$L7kE*>1W3N9MyiWB5e>XuQgox#}r>$If(-_y5zs4dB z&QT6@yl7Z#EmUZ*+o^Ktw%u6>O%a@TdD3}7*gxkA7QG<(d@X!*E8W=bqzb9hekACS z817-Ew}3y8iY2{=x+n#x7qtl-@4p-Ga7NP#R={| zmzJRoGsE$8n)2jWk?fNcM;{H_*IyxmER;a;`}K6#@1b*DdiIxhr6_xHNtqz%KXp*Y;! z{Vh9>3a0|7j=k2y06X4^V=6A6yiAp2ny8lfMLy~VK=q5n1HkAEY{K)#S3OUi z_ljis@F@&Vo2$!&I1y%ksh znOCGT-ol3Zs-zJ8P5P0omW@$2GfV=*o1;oO7xb{?zbN{ zO-2hoEPpmr5f<8peNYa+2OByy+swa0*4h98u)H4+kKo@o zI(Jq1cNcv%-@;1V>*DiT!~r8%aV_w0@&F*IQ5>3m!ZLiaptQp!F>h+QH9{{m-6kFB z4&PI?Ui6<;J%nYkRny$w^DnbIn!og2&mc!NQunEAFdJ4(qj{y$?7mm8+r!%zS>?9t}sO!nfIZ;wRv@OR|hY?=i-i!{%R9^BP z0YgsmCZf|!7*1Jnt8er2p5UmB8ZPs^ewYcWo){hyKDvYO#--+ULz4ZNddf)|Q?4Ck zj+UIZUaC!&=^=>*bB@c0F9w?<#Xx_RGeKt$083DJYvF-Q(d!}UaPpgXSa-Gc4cdAO z>!G+oplSsvAwvCE+MVEkECheoJNl`6t(*eUx~S*}>Msa#Pi1Km)OzAj4a5pL!1eF; z<`=hj*b}0GYJtMwaJKdX1V8-^z^LihAJ-xwYGQ0~=-l%1^5(Xi=LVG%v4=-VtkK6j z=1R90Wqd$u{tf)49CfNV6pcOA(L>{Q%Atr9`mpgf3!)jvURf-6QI5nw-(Zrur!D$S zY5!oX0u{sW&n-J4J<$`Nn5=2+3Y=b4hwY)5ij?9j1zx$=c9w3CdgJ)8f^1G;{f*kr+)9T>UFe~WgaZ#Ck%eYD!y4%-#r=|Q&Y>!bqvqGeg_FkX0~Mu_CR!3YM& z6>8CKmCyGreC9;IJ4PRGX9Ff>`Mo$kqu?DJGNk*WMtH6Jw_2h?_F0F#8Z}pR>6}~Sb7m6yL`lKTszfPSUAYUBya`czi?aivtWk~1JyzfI zO=6-BIAkN!HTXQz!8SuuB^#i{e!Emj#g;Y6nbw->$T~--3a0}&-eTTQOo#`oz9NyH z=u7dvRo494j{Cqi3y9vWNjrpfB=`Iev;@af<{f@WD7yem!V9gS*DO=t6fYak3uU*_ zK{gh7RJsc%)!J61J>`HeylG|dBa3H*FIFU$o=g$x+QG#VfY49H*0m#-@a0suW)22o z4>`v(>Ne54v?MeXz2)&(&7F@xH#)+s03DF%Xp*qF>iP4W^d3hfbu|8N)wfd8QV;7_ zX6}aV4aof;=GZ4o+Y4S=?z$4L>Y*2c;q*p|zzT@Yc&V(Bj<4Wdz<$$8u!vIs`})ktIWyIIuH=_fq|P zjJ!@SPai)KtG$`Wk7HmaKs=+-BgdsRJr*UqR|pz%)bh)_)|VCh_K0Pddo`Nj$~C_} zmAou1=urg2C%6tvOI5ww^1|OcA>IGI?$isE#~bvM*UtkA>cA=sev~th9_J74+B7^_mWA<&H^K_PAs}kc~R#Zlrc(jqv9wJk1}g z-J}`2DRtS1ma9i?1_2sFF;wjruc~|x4pt8&4DQyHza97YT*pH$vdFm6D{ao^(WpNM z)zrO0)e9k$&I0YCgd);XVQU0{`(sWe)Z^l80_9e9e`&yKZr^raBs3f3fn3)rMrQ<4 zG;aN^G&*iz(5wDZowu($fQeCe_*aDc zx}P8>)aR#KcyhQHes$wez|zta;r+)la|xAP{nV=9W$y2z_y@p&eB*u2nPb}Zy~p*% zW6HdlDOjG0U;i4sZuUd#fyZPw~(WIUPX8d;` zYvJB`;K9+d%?UK59jH7A^gN!SCAa=7wEBD$a|5JHkzs6VEt8B;ACp+hJGa^!c1_!>*kD;r9r;n` zPMZz64Y;r>1vlfIDI8w!tP~u!xH+d3qt*m+Bk07R2QDnIB{8tb2xomH3sgYnwayRWcN#i0h_!oJaOrRNuOWt7%; zWGrFiNqW4AK^5o@_VkrUU6cy0R9T$Ny=jS#Br%PZfOzaYuvtF_-uNI>?3VyVAY}wh z=~(m7#ZK&Q`=*xsabE4Kch6~o#JcrWY1I)KV2T8kf9i}4NNzMdmFwBvMcJ??9JbwR z7aqZfVsJcmS`)N@qX5|%a5XLN(FJO&3`@T-R8o-x^(!>TR`Cfcsw>@L!wyGBM~8u7 ztR8P>n#bO;iz`D9;oPRA!ico1`5W;}m6q5LqeWHt#C^BpJ_*~>mjE?v&g(S z>hGZmpjYFYbl`^yCHrpiB{_^Pk+})XTDpS0AL`oN4_X^pvp1~;CXbK4KA7IlWGB1t zFy1=eBzXs@dLADQo0@dhn5oTo`B_=WUuh8se~#D?y?9k<>a4ccaZMa5{sv0nsZk|$ zQdS*{8RDH|3Q2V5k68-am%E&6p%RfC5p z%FZ&4{$LlV)pbZNF`GJkdOo@};N$4AciJ~~c_?}0GjnzBxv&hsg&y;udVi`_Y+MXu z(?OA20+8Pq;+2466xkmKJY%d4CgU;Zl~2>jgOe)FxGpiE_n3ly?Uj+?jRkG&s-Dr) z-c&u~>%Y@1jDl%L3XB)hHPKr7-g^Q7NN+NiZvYbpT* zmO4F_7@zzg;&^>H?4@vUQG>fS02G(1M@t*F_B&mT-Bn;wdYIQ*a(?JDMTK_vymxrC zh!UQf94XJy8&J(HOtx%G19<#jB_o=r+niY@BmG^--GAD8?j{Zun>EUP|ocL~vd}UP1;^UxdyKMEmtZf6Neb9?gzp-y>HyzS?QM?71hrelI z1(@;X&=zN|ioS+w-Zsmpi8Ig(Go^MI3nVbb15pvh8O743 zWZdU080|{a{?77K72=@nmQ(;J+Ti^8^cwKc6Dl z33{YgidxptQK4L!+h~2Squpe=pR3VlzeQ%yOt#qnCB2B~GCMY#Ed)`ctxa6St@YlT zWb4Z-Jp+wo@=9TyyFE}=U)3>iIFpJkh&W^_NczcO?6&xoN4C>`C^8*HUy)W z7P|bgt3RdF1%^*~&f7Ws5fSvH15waF+VC04rJjOSlxK>an7o zwU0U-`;lMudNigi_YAl&IrPT?>Rl_;W;Dh_eD65Zu0gU;>zO)(e@@SV-=#|5(NBQy zbX`SrA)#cOtMhH&J`ls24ctlFHSHH{~CNE_Nf8c!YxsDT(o}}^q z4n|vl1=x_TuVh$-Udlrc+mgJ090mzxR*0d#_o-$csIawtRi?2(d0mghGbO=M&5&l8 z6-n#k41vYSuEdX~ule=3_uYu^-m}jr9$Xg+X9Y>7TSTOm73d+^GF)@yE<0B%Z-rad z>~cmIux3)c6r(h9g&T^`!SDlj_dObtL@Wjx@+qt~OARI3+OfJ?e|^^(4>AE$<-~Kq zpJa>YaXW9ToZ%ZliPH}I37$%q6HhE?KYN>&-DdAt11jwiJ1CgyODDv)1(&DL7WzAP zcP9W$w_B{)%;4}#eBCJPgq%+FNS31OIiO&lOcI9A9|^hLI+KkCenylv#1#-Ls7WZVu3=9h0=+(&CNA?JDX6 z;y)VgkrK8s=&TyXI)n3e@;i3wmxY_wYuReFr^n|PM~FeP!FP7sBgZlIcfL1IW+!ut zFOLv1Bs#2(o#Szp4$I})+jPzzA-@3xr{l%%a+R4Z`=g8f=n%|$c-4ePct;aWUQ}qT4tNZqlV!CxfJHaXc9mOS}wULJ~3a3FdS!K54&zO9_fE z#jSVG#c+H-(QN7q4TT-C8jL;h6Zy@XtR8dBJqP%S?jo-J`nBaCU!8PmXa4!I10Q}- zGH$;sr}wYe*rblhq>@~sw#MyGUq^Ybb;#>^PJTL<_+{s6;!xpVyOI$`F;Cjh=?zXg zw|kqmbS55U*ZdeR%+KEZUDiV#TPk)0k;-CU`q2}-u>UCl(>`f$wq)NxjIPenbwk)o zIw1N`J2R?K8E)3d_3=TytJ|$P4433r9j9@9a&0EKaF;E+I9sterQ}J2no@MstPv_D zyK^Ik1Ufd)1c>;lRlRuQF86|O#Zl1MjdC$*Z}s+G0@8cG0N!Y)t5zI)f=K^>O*aP8 zNKsZ~lh)e2pi@~)QP6s#)j_6GvC9Gp3Fp+Z3LESOYC;1|#IT*yON4r&mrFNW>%}ey zUP-wy0fq-NaT~2%&D$=NDPhVSf+K|$;o4)}_Dd;`7`dZRkN>8F?JlRiGWNXZgR-CG zO5z6(bUv%TTHFEk0zsH_iK)qot4C24>{==r6ph4trXnG$m@I)wYC6|le z=2%{T7v1<;=bwl29u`5Hil&?_|LGxVyYd_GkKrW=DybVf?yicecIvs?nkz{vw_9DR zfA?`10uH>&l||vv1$xDl$s$kRESJR9tJ4jZ61`M2=-4F(k=47f2!Pf@c;`?-UNoWxn zJ38bpx|fL|qbtX=&`;I+nJi1}JT%E(*!-UKv`-#vBvE3_+235>cp-zWfQZJDR4v`Y z?bqK{>0tWjS_pu$1-9(8R?ZDkq})FLq?~LT+cy$F(xi*}7Gac`E75XhhIx_e#wb z%O2m*aN@mcnP}PrWfw@tA!h++3Tdca7LmGii4#PkR`0oZD{1RPMdM}blL@M5DR$5P zgk-%Vwwc_H5rVPO`krmz)=aZG@Dgu1ojCpc=0agj)LvyAY4EhvCy9^b6-nzu{?}5_ zH%`xwiRt#ii^JMs5hfL<%)3nMg@nHjBoi(Spxw;>(lUWzRV)4PtxZeJD zoQ!sa2f(|-7<_l%?xd2eWXxqJB_S_Y?nLP$G(vOS$?x}^YtZ~#qpEXg z5xNG^V>c76`1xRUC`nCh@nqg!mIKM!!DV{&2n`<^w51+tV54%(5!K}e!R^=lBrp)$a2!LV&pNG$G~NMx?{D!k&1Ut%mc0?X_!qH~jy=2e@jj_Y#7jxV zQ%eBMu~cXr=5Da4C>iAg8E-F!lhV^Zc*#U~mM!?IQNop|$IaNYK`xrv^^q$aIZ-MY zwC^%FYrvDz|FmbT;^lf*{arCcMlX@zd1SWUFxP9&%bS4LAkt9ic%ts$^d*i0B~VhT z^3J@@mPKJBmk;0gwM1pNH}d8Bi|R=+Dyc660p|k?hG6q8MA8$Rw8!5!)C{YwMd6uT z3N&I-=PV?^i(7<@hC9gLe<|#(jXDSX^98KS+1)OpxyvUe5ysUZN-kA+)Yn(f0 z>tJm303Tj10L}~L^1M{^dSbo*BXxTBDTMf`(jCUyUO6$E2eI?P^Gdk;<0dE7@5aBL z;o=Nfq)LY}L%VHH0Lg^?mo2$(i;!{g2&v`Pf48WuYp}7ARcBf7*>A<(3j?g&$WVp< zX-bS*Qr9l&`96@;;XN)}5sehvGB|p3iiFrWcCk_&d)HmLhi}t?e~HpBPg{9;n|XGBjTRN z9BE$lujF+gj)QKLT0Tq^%OecBP|77H<-+ZCno4wBmHhKg9xfYs-V4pHBCG7Y=Ph-K zSdeL5Xw)2D3^2C)DYdvmvHUerq0y-9hcW#D?Bmr*P+f=dq>?J?4C_j`I6ZW+pom-n zYnE2Z?bBcgp0M8udyqzi_q_IgwZ)vGL>(QAc-Ri&t=#QbWrrPW=VfPFn)Y)Qg;Rz{ zJbj=C2Qkwi~J06CveF z$=`CD9w(n96;=tS=l9ETdY69|e!Nb(C%Oar+&-^CM!T<v&!{D|k9q)W+ z(ZXKgKPP9)XTy41Z=vUp$OzLfvPmm-u|;1xzsUk27Y}#dZEH!t4zsB3h9PoSXU4_W z&YAxtAoOe+8!skNskbP?O>EAekB?Y!j8@&q4aPB77@&6?gu&L&!rZ*CJgbh2CpJ^% zYu8J3Jz{4J08j4{L(UnVvi8gQV8`Lsx~o)GNv;=Y9$p6pqs5s%G^kO+BYlBn=S=d- zKYGbwU>(P__#A!JXWvZ0MQ%M$J#l!J5R*!fBt{;+yP#`DdbEl%B&zZLbkIT2|1ebQ z@aVBKY+xhHoS{>X8KEoiu@acXRjvyKtM>`V#@dHb={440Oo+Ct)-OmqGuf+%Ax_=K zmmjoj$}J(TPnC_HFUJ*fqg?&+)`3bDE1O^e?LggU%ZIvUHkSXKE*ot~J6;_$jv#WK zD%`*S8(%N*-_-)74FlVRzf*42ukV|R>%#|B*`Mqrxx2(x7uKTb8zf+|yW{Z|!jXd} zN8#Aa!RO30r>>UPc6aSFID={h^0#46uTAN~!S-tnzx(;fqK6z|;znQUKa&s-j zKYcLH3Yh7s3m5!advd(nhBcS!mFXUv#h!YOzg%gSu2MW@Un$agyB7nB=Ao#xhGk7C z!p|C(+)<`6{L$S~Oa)SLM}7E9DRrhccE+!5>V-}+I?@f>l_G65zJ8W4a*0P`u8g|h z8P(}$zcXV1CZu3BK_b2T2++@cdoQ)fkp~c4fgn_g11#$%fq*GY-lgb%Rib?SU|cYI zrua)ZdVQh}_}`comt_9;R$d+p>CSw9!mWT5OQOsl6us?Wip7PS)>nguzU8s=Z;QC+ zPd7~A*w2a^tC$ikf?QF^y@?!DKs(;FIjsu3VnKUdvVFmIG_@b_?UP>I1cdUO5vWZzXQ-5w#_wqaP2v0b)NxGGW%?kn#U#(rAy zkN?NQe0uQuyUHqB$@@JZ9Bo8Yg-!KFG7N+3o3-Y<6XmR1XR-c^rQ5ozIxK-F=-U{B z^^Bd-m0$gv?h%UaI78`@qs%=6o9~8qP+Hb)@+M!pr`oFxHa;<~o|Vl4q7f|EILmTz2292)$thjmK`JhR`QXzwXLU7k973HGp20m{v z{-=}?w?DfdARPAjbV1Q8USxBlOycKEH&xtdOEUA#vvMI3YOVRKqzn3tLuABwc-iiJ z3F-!#=hYk)hn+i82v7s@5f9yOKR9r~J$3W;?*VDD3EQwq6q+Od5>AV?%WNKxSB}kK zk)gRBh_T71n)fU3YET;~P1ko^JF`pfbSecU_INc==jstuUsD=H#BN zHyJ0lQWU{ApOOzq8<5%VSa(&YFa?Ll?MD%NG?u&j9TJVNc|EBD>O&remj2i+7b1)B zwiLU1%OY?6^4=rBM=vbQ;ma>-akrZr0v;ZVFudWFc&>VfYyLLY>Jno2mr~*f8hR7J zEL8Jc1v4R27n0j6x?&=s|duiP|8KopZGxnr-j_a zd0fY6|7KminmT}px&VA47el)-cOBTHY<{_^J41>vM-c{5vRhS_PNPGIV>b7TG{ z;BkfH0RmV-Q(l^ zqqfBRo;f9tJyb}r%JX82p&5PX%l=2BD-wfXKndF;rHF_N1a9ttDBAG`fisc?-PPx} z05iIT-flfsg_FH^{KMo8>|xqeg~521y>`Tj-_RZegg#1Vc>P>&4*@d#EZ?gfZk6H_*86?$kB_nC!W<<%D0F-{;ns%FwlEJEW!Po z;hQxaV0awa&Z5m}V3qjRuvV<+3{dLs_eD+u$>^Lm6>)Q^5(C*VOV2fdY9O}_Y^QxH z4wmT+`H#R~{dg*R9_a@OXz?t2n2Wv%3vNCv-YTY7WHh~3lE^Z%d4QNrAu3)mf~f$W zw#0XUXs`=_L!TC&c#&b(xvu|&+ge!4loM?U%PRi>P+nRU`WbkD0w`}nJr#9DjdQ-6 zAdsKw`-E+oW8O`vh5DY31eMz!`J-%_JSrqFO4s}PRNK6=H$rYkw$HswnFn>ul;LD;^aZ-n}Bhhs8aZO+x^~U%7t4#H;r^@+(SEj7T=~d zibE%4ROptUD{+ywoBY3n5`y_~HRGTB=W1|T;pV4W{*jtF{ZH>aDY<}JjBn2RLL`O* z@#Bx48!hQow2w+$hb)IHHg4SMIr0M}kI>Jf$2)CU9xi$pR;lBJXHq?yIOf$LOGtq@ zzD<@ry!C%q!~eha!0BTAwViANc(;?BejQCCBOL{7317**YetZ^O3)pG{wzhkkqeKV z9K^+2ECjyNBJv15Ef;iUv9(VQu*?)3=KA2{UGS58)A~rzGVzkAULC6j`!9%b$|inE<@%mU{7yz?299sjoWz+PcNsibIB;>NNr} zwpm)papR`ngkVLCvGR#kFrmyeF`HKtjm529p1*OMyi=zf`;e>gv<~nu47Pl*{&}@p zqaGqea>{2uEnPm2=*4HNPT=8(ZN}bjB1OIP)WVIi8-U|L2YO&MQm3-U`73B&z+gs> z7JR$1skxc-({F8?-J%4;yrPk8^#xt@3F^jGJCY=z_CN zMYmFd*)qy;ry)tlYq;i5E0BTk-#vS7g*7oeXJVqAZ7f)_%TL?U`Y^ixMSE0oGs(C= z>F-Am>RBv00H+xMuz;XMPHxz9&{WG0^P1FnLhQWEzdCb4)SwKSu-|kGt=ib-;wq69 zIl#5?(LCIUb{D+wfrxDRe43t!Mi9GL>?JR4%&_Fw%fO`u`L^_qJW(2-O=Kd}abx|o zR~lqb6+IsE2apFs`Hmvn!yq#%5BY+Y<<1{QiQql2&VkZ&mheUi3au^4-a@Vj+{SoH z<2JFidYS2vKXuCY;)U`nz#TzRBVKgi>;K#SKaaLVyP?jF!J6i1)K3A!pMu`eP*m z(NC4I?c%dJdL12=2{tD)<#desD+)O?Gu@7vVbHf5hX_&>`cWMZlRcHwYz>~@{|x%Y z@I-dOm~7DfiSK?-jPsQytqytQQpI*gF2tSLvN<_B=^~Iz(nva{hkg@?DdKvPrCtM% z=;cFaRljsoN+}uM!~;er=(Azw?U!F4k_UyeUEW)0V5Yg#7aHf8*W%z=Z7nvc7A=o_ z-4$<LhqfWr$n#FXaSi1b zua?kOy=|2GHq0VT0&DDd2GDlWsiGZ^eIG}M8;RHctmAt0O6e@Xo+vB)A?k~6&0dOv z`1CyTrBCZ93o~sG!HC7QIGiL(=NyWD9;upgL)|1jJ@)-Ax~{kWPHqi z^*-QJw3su4;kq@6F5IRD{;1<^9b{J2ilZ8XxrRth)c`6O-!LahnYB2O6?` zWw!mAR=3@Ov#zDH9$a|QXN|T$pT_o#>|cjc$}3OL%R4$V(Becs2j8D4SP$KQXdU`a zY~)6F#)YJw=#Qm|w(AEXlAj7j6-{R>?_IvN7)vu7fD6p7vtz za>!?KB#tIVv7Ox4oLJhHJzxJ?_MNGsV~1yG219rK#x_-ba;~5Hi^qGrjGr#V!N-rg z#7BXTfHys1zYo*i)45VY6P)0PY;Es-F^}Q=Cu5@q$75t-Or-iF>tB{`NUey2bIaLA zVoDGz{7r#6o8;Fl?!i152h|x#cy1hd1ls8HC(dU_F=}lJsJW`VLURSn&FLjm_{q&J z3&6L$gR&B49mR100)&jA;Lu`vFu0B$EbjOi-(Y`2>yve1OXOtTukvL+1NFH%sq)b0 zIe9#H?t-~FEgK@M)Z}>$It7ICM3*vqlEUC+8a9t<2zIrvj>wpR8#vsvfm_P|_LCP> zHKJ-^KH1`H^2{|L@UQ8fs^*~`TW3S@0{@8YUKp*tLPl7bAb_$|5Va`t->nZ-@wp`@ zrA;pf6Z>$z)5L(`F;DC7$8}uQa-kR-on}$6zgWyp+L)VG+^Ye$J7l7Qb0go=54hG( z^bzO1e{KshOow8eEU+05GU*QcedFwuJ!M5p@3vtn8#Ii8Y>ssw{V6MSWskxG z&4`z2lzgfCgxq&1ci`D$>N5`!@OrbOyU9VkuUZV(dlHpXm;ME{6+6op;xDX-wYEXOHbdX9ODZ;H12&9IADFY!G~tB{?pDH}Mu9u479n@Z(fvJEmOYh^O? z^WP%i@yT1zAN6vfKH_T%f4f|5bTSlkp61m{K{i7bR{M|L)r~}shFG3m~t)ko|i z@yCu7`8zj5rOKWiHUL6p&sSto!C7V<=60TbkJFkWKPZLT%eP@Zn2laBoLJ(EZKHmu zX%rC^aNhCLiU`Xz7hM|OD&BxpJ=hU=(bha+B$U-dqFk$Q5Nxja@JfGhvcj!aeuYP@&@b_ zrlr_U2l_FlkxKr%cr|X;csAh)QQ_1MZpY?)N_v-K$T9TRor7&+w+w9%4k_ znr+EX7v3dgeU94iyKw{xA*0jSo7=Pp%2M0;zmWKRs~<5AY4V*`BFZ4D`g7NJba;2R z=$+Q=iA(TKkaX1{_3A9xvb}2-^?Jo6`>VRrGaPD1Qh|U!T(a0-_x%+WXI5Jhc5~Yv zb*EY>HlWmibtmz2N+D5XMMT;YG6i=ml;NA&Er|IS8=2l|9S!$qs@fe5*W=~{8+E54 zYLyFm7f||PYGF9Cj)8h}O9V{H4Ej6O4iYipWEQ0@Jg48d&!WrN8j&7}(e)R$f{`hc z7{ft_2xN}p{;j1~X6^51DHQpNQy(+eU&JJ0+)29kOUYc{StAC9-Ky5TQ}^LnCC|3+ zYBI1j$(#r~R8ded4gOxrzBG*Ln-c*)6j9ig9@cTL`R=hI*NCC}vA!t+9wiNAGhx_g zaB>%l-`8#ldIvAxh+r#n53RyvFG$syBrdLN(Ldz?Hc(Jq@f{|2@P4?-#bXR=Bl39+ zmBX2R91k!g7jQgN)%ecGPn8qJ(}@_HGFvgR;clmDm(+qMC?2q=vSyhH6o=(m;`=jh z19#*hs(!Nk7B9>|tZHsOpw~yA@WVY>vU|1aUc~+NzU(je_4ZSOedRKYwAWi*jmKRZ zmRb|&{W+8c;=1Bami|8s-Dx0h1cuKwF>;Oh>d=pS$n@Mr_Tq zQ}NaMyLx#g-2&$>>_N>H3NXMt#Z_*6W`Xa|Aa(DD`%JW3jC?pN+{34yY{v(bS}^l9@pz1)9{ zDGm3%G@0PLqL+mg{+_|#>Y#t*NB5%bQC9rP#I<~GlpSjbAs+-Cau4` zEJb@##$@ZagJHE-ae@Cl(rPNTk18CErxR%sQk9gPQ71pFN#Mir%39v3JhxNASP504 zUxslSjRdMVty1DXGM_uUkvnBIy4Q-|fez1qud@rwD(y(8R%A=jNr~n1Tq#S$JS6MH z6-%nbe53#0o&ap*eb<_L^TB=`JZmz^7lgqVQ>F zS!sDE$Ot(EU~fgf_9psPVM%V%!7Tgq%g|@th!{c<0*n277CLUoZWvRR9P{)fiRS(( zQnA#Yx1lf-xqFxG6Q5!GO)nMNb$y1HafjD1iZQa016(3tE;fqHfdBURu^l+ty{zAs3Q>_*{yv!9pUXuXFS=oz z_I$1NPtnY}F|EjnSp`{+wh~v~f}`|5_=l@D{LU*kj95PRQ<^YMyz_;4#=g6!fF@S6 z%U2d=U}}4_L}%dG9M1ApWBBco@Yzbu?10EV+dCJ0YSrtX%}|GiD()a5|NBeL7Rpl% z^IIz`V}9^zd>EW;U$v#D+~$f??RH}KC{n@M+D9(rkRkOx8eff25OubFJD_}UF^hO6 zce#Jxzb@nP_Y{a-Q(`HaNA-=3muEsCxe-=*)YJu4PeVvl-5s65stNzQZ$7QKyEYaz8h zA?qizc!}#un_Y6vSH-oQr(Bv`E;(4`agX-EB1~!eZc3lJKWmu5VyisCr3?4(mdI5O zc#SoSmdfXGE@^c~Lw^a1^zUvm-+VQ_DtIv z=#3Mqhe5?p=;)-m3VnxwRn8V2qKO8poB8!Ov#!-MYiV(X4@~Xpuf`VfU!E7e@p4WX zwIp=7+@S0295>qeV$#El+ha^nKJ^s(B&;=`c1T31orNl<#ilO>FxQMZ!EeyG%8rC7 z6Jc0vcTYfp_a(pNrNPQV1T)m8;vpYb)2Z^adFr&-3S`11gLn5=0%{gA7K+)YT~GJlTMxC<&=rA8iatFn z@!$0$oVt=GPd+`WDlXY({)de$Z8>#2>B27AUSrhn;^Pn6Y^0E)zy{Ehjf^`+pMz%t zzC5H-wCVr~m3-%B2*$kPt?_i30b0y$lWGc`VqWXN;^`v64&EvxR|TNbm`s{B?8=o& zGFd4|eY!*a)&0$aO{=s=KYfIfls0W)_|%B#8v&hy8!1#gm5ZVQp+ao&XJG&r9f7TT zpv3~gtBc|;eh&36aj&w!J;IR{qjT;RAFmt|uu}XdYcXnj5et&qBvkrWoc#^%GaQ}L%nzqD_Bm)$U0`Pplo4KymdH=L7SEK>w8Q|FX) z=N^jg3W;qd+VC5VC*@{Y24a$3u5ku{4K41i?Bnk}iQ39Xvq-Rd;Y?v&+`9xZnTng2 z`Y^aQ_tLyL7!t>O7+oX)Z^-4F=zf2tn=X{<;6P8Q{h_s zR5oZx*4!mnjOoS^y>&xo3F5AaZbDenb2Gx*G=0~-`$bB+)8E1hr`igjG}64{-Q-gC zyNQ4tndJMzbLr=|^y+4?xB_Rs593Q!zyhcdW~>D%@w&6Vp{w028G~k*?6QBlq8jnq zUXfK)Z1=p20#a&bpb`z%{319R#blr2rfdB?i$}7yK(!7TrlUkd>Bw(=x+AZ;%dj1zxvHkOvPPy5j{nB zY?9dfX&eXR-h=x)p(8OOOZ)pBy8&W{LE)I(ejYcS?8#R0NdQbmH$Ai_&S4JBxkiI! z=B`cuz8UO6sCM@cmbwfsBQ~*-&%jk|w(48}?%I#iQ*`RyB(~O3%Ps`bRPenZJ*2*h zk?Z)hjbA;kL{lj>8S1faQ$rX!y{338>B}tcwbMJKkbaMywhxR-$==E>zE3zq| zJ;&}7WIfxLjr+`JtjXcq{UJq^W39sSbg{EO*^WI%QL9g@#CTz?@sKNz{-kd0^+jh_ z&APEw)SJU}&BV|Vst~0+-!iKAN_cI1yR!?qSoYS+$9H+=m*0hy+i-*7gJFiBCX*hI z?CunXqg^<&=UM_jA*j%d_xwJ79Sy}0F;p7BvPf!{(#UeBcqiP2W1B{U`$1#^XQYh5 zW~S&x=y|xx^5Ry}FvZBTp6Zj1Qy*M^nW!$=TG7PRw;nUBum1IX>^0AokFYH2k^F+K z?v*a-s>U*HKxCa;m3v+8!&^ca#iZbi=k0eXgV=o6+OXH<4Et=sL&3u2^mE}O_IbC@ z57NJXUl7}YZnR-tLJs@oP7f6zKR0Vcz+aDN6=)dL4T0&n_hN=ZkyZ%O4x9?@HB6|z zYwKQb>4j>)9DPRCeq-97veWzUE57=`qu+U!S?O6PUyn(4a6~U~Tz8+hx{C&L_5@$D#eDb_D@u?)ANw-=(QM zNdk)dx$*R`3;r}QlzGDVtTKzR5flgciI`punu(@Fb_-)U2hgipy{WI#>WJxpaxa

U^}xzs^H)V%{qz45cO?er5t(y@Hl!wYc4Big}GGT@#Dn+5;7 zUe@Ws5}zRo`?hs1iP>SmYB`EmVw7tWGqX(q(lR&lKQTb*1vU0@nu~!SD+#K=FSCAO>)VbL9@xV98^`+YLVDtL>R*E^n}*+EajwMw0)2 zjSAsR7XvC~5~y7-g4{RE7RK*waIbrL)pg&0Tw6-uyl*Ohb{K9s75-9cbmri@k@kQh zFmv&fB)NBPF24bSx+ITKBDU-SABjzJ^oi&{2c@Q&KEt^wWrcGL~H^O{h6{YgO)J54Kf z7Ro=b{G$C&{-TB5ErpH2^x&z{Z7oY`a)?&1e zUH%VQZygoY_r?no3P_4{4BaB((A^-7sDP9*Fn~xibaxIRHPVer2-4jk42|T_-6dW3 z`1{_w*1Og_|H7;_XP+I<{?vope=LK*M8Vv9McW`!mTi>d;9HK7&8&;d-XBcZzvuBK z+`HtlGe`w}E?-fab9hQlq+Y=VtZ8>lhui}4wvaJAA#K*q!4j*XtC_ybol~=ohF~iHl z&U>_MJ?iGsw;u3Lk>L2ccj51ecO0HaJZFC;fqznQ>eLK=9cxd(;mp&tTJxcE#0j{9 zV}`bvOs7VeqSrg5@U67!Zi?#ELdy2-c10_GJW%`qFKq0V?nZlB&i<*uAk9b}PZLE@ zFB1kq=`u$`k7ZXWwb?wn*snkfjuMn=G4ryWdNF>EVU)l`mN7ou76vQ3P28aDp=DIY zK>O@ua1+Erh7Bou%m;l&?mSi*IE>W67XEEU@V{+x&K~I!_Df4f+#!G6`TOW$DY(}) z6F$JGEZQsKLNs$SW)O6W^^BR&<8UgXj}H3X-B4xDkvTsVrnJbbHG)E_FTcj+>iElQ zZ`fwkei;=t+sPCeZyn^sNwrRJ&Nh~x2l?}%GY<9NBBNPE-f98~T)QxFyV20Uk!h1Zz2B?s(r#8_)-P4Hm%7#w#4hiEuEOo z#l1nE1vrMY%iIK@-`hAiRiEGT#kDR1TaiA|wS*BnH^n8;KCp-&b`8Z6DM-Ox(oATV z(EUphs3jdxHT=I0vgcv?)ZiKEdD9gS0ws+=v9idB2|29vVd3?xqLv)d9aX$t%xe

M=XJ|l4Xk6&R%gCIbj@_7Nyl*~yBNqQ%RFEh5Dn&jb9=a`k_ekd`@F=9 z%hnq71G#6k(QUxj$ANIP0!3huu~sd!69qiDEc6W9NWY$X0>uXHYQXCmX;A>^x`IwW zXlDL_!{)OYP#RM{Rf9DO1`AIS22HwUj~c;_<2UsE(MA2UN=ipA{L`Zab^G1U<5H4S z_S9K>3|}$v*gR?7)Q*BUtPBM_lu3QAzW>Ftm!|60JW<2Z@(9c75`;1-@78k_xBmwS z_nz|E_Mp@4`lP_zZ8#UMP`JR(H^(WClV>)6oSX_t`|qjxFY%G7J)Zr;(uUgem#CT^ z)+ph()f>VcjWZ&v_0+g&s*mvDmBj$b_oED;txWK13p}$&YyYkuGCTONGvMx(b8RC} zO;LY5{6h-IgpZ^+Hdo}T^^UQ^_}W)mAuvEJ2yRT{NJi~?-B_~MyIcrlbbFOFI6erW zHVgsoIVad`)^93WpAB% z@L^gVH!Qoj#Dqnu$l;(JWI<-UMZALbm$G`8jP@t)%36d62(Ap*YS9mDz+hNq)2G7< zzT3I`Iwu<+(P;cktN{K2r1c*|RnhE=28=Og6uKp;gYZ{+y^SVqAFt6fko6*0u4su9m)3oH2ul*?Aed z-3VEQhVRF_naDS_MYM=|VUPnAOYS{&A*2#qN)I-b3Zl*pDZGG~jk<8nI+2;6 z%()C}^C{P}?dIH3OaJTxrUuo1E0MMTbED2*ZP^OF!egnK=MA(8Un0YteM3A2 zY;1OfxK?i$NYv(?_I(q$X*Io9A>hBc%tPKW`*UY$w^6WK$|xPb_dx{RbW!HFJp+OR z&YfE^ZOgV#y2~i>wTpq0T2ZaG1LM#iw7@gix*x639;1W9}l1_9a;k>iA96KxE_eV&~F0gz&Y0{If>Yf zQEw%Txq;d03bS6S1y!+uk6(;mFs;aXRIgB~aQpJ;e<6v@I?~`wTQxy)pq^voFOCUB z`2n%itH;)B_R2RJ;NnmDz8S_)mv6r^U|8!RvhwtB#4?MQTCSmfUl4nd%7W$M{`uSrbDEen zZTofN`yZNObULhihD=`LYcCD0KbnohwWU@R?nT-3rIOr+?|ilr;Tk4y+X-;c)a{E| z4D({j=f0GVjTikEarAciGXe#$K*#Ov0~v1SQ?*bA5GdW=%2&Uzhw@n}S-AbE33BKD zL4;|*b%gIz0J^^IN2D;u12i`+p^|qGwO(CI!6YuaHs~!V`wWhV)Oa>I=;`B1z2j#6 z42u!BgbKzknL`nsC2;o7q%eWsKj+G!SU*^*d`x5FEE>HzDv77*(W}MOKRu!w>G+ z0&YAuOfNlO^x|H-So3J&1hK>!BzNKViHbhgy*!_hVQy*k%b7V*a$4dNtKJi^M}=T> zLSq9WLzk8++D)0>+7vmLqtEL+p#Bdv&&$a6sZ%$z>?Q?Z>3ur3e$D^h5Vcu;9=A!b zKP{WO!KYX7V&ClAp)qYGOf1-;KF;wg+Ox=zjrpeJ) zw*e*i@ORgZ{G~cvqx>iP2RWOvTNAn@{q|~Poy(-fPme|Hy0Z=%)5hY*`I+Gs0Jhib zPG!!JZ_)|UO)tpeW=m%8cZ5=Y$wxA+Ih3DFQ#CU7uEQr@X{SVDTG{6PlzaFuP&IpW zShZAT_V;@QGV#Cvoa=&(yQqjbMlhAKq(m!3E}viT#|d9pNpR(|&a^mw0R ziQaueu>zW(8E%Ri&Vz-+YqP!Qc*j&El8f~STS`d5ytDPy8;p8MMHW7^GIRA6h2gft z-yT)8mJo#Rt*D1r{pM=!TaUXiu){FkyB zMJh9CIK;)VT$6kixh6bjKbNM zI`YiDwA*k^3xRO#>&C(*H9TtlyJeGO&yUkiW9x(K$$q9v)3wV)XGF?tA@bC;s8}t( zDhKc~O_O!R28Y2$cYiYzgEYONt-&CC3#)Q;K32pnDGWt9Uhd4MEm%#6^PAcQ1Na0! ziFpH>(d%B7ZFKK1lZyRw_$U1X!}B46(FlutO^hLwiTg(Iaa>QiLa9C*f0Yaoh&5?% zR%nAw!>QB{xxjrD9^a;N$bXp|f@@TB!tBJQ>SZ2;h9_+TXAnTJYcT5sgm!@UPI58@{Pf8>yl+g$(DXYcVrNcc51aOmFW zla2IQ($-=SL;QGkAIj%5S`vLA;;LHv*nQ`(eI+h_J7d!2vF^T9^{o0LZlF-d)ASr| zH{Zf@P8?fK{Y0pj*Npjty|b5vuC@Z_251g2NlcNw~ZqNbRuEDL{r!$p@xlFgN6v3#21Wm zXkJO@(;AR|4vVx_EtU&^`Z+`6N26AwN-eC~Y)v1@Oxr__HD z2`Y>fDQl6vgU?|3N8N{Jq+%vtlw|^3a;v0uyO`T+7n~n93^lJ1U<7r@ zti<-M#~MCaE!@_K_c3OTI(?7MUuekn-rSJ+lq6jXr;s^x#@k8V!#+?O6uxG8 z@HvIsVOzgbuCF7M6sjQmp4l*|<+GFMP{6qXN2rzHPEBbRP;KGvo-i0=e+2*=KJh=2;M!C$jLfc{1DK&(&cHZ`CZ+FXbQ2PLO zu~oBP*@-7AMYOIXTy2NkPinkVSK@~CSNPk#xqNB`)@s`;#;HFCjvkUY196Y@A+9t~ z2Bf@5L3C257&U~`1Azmz$XJ(WNt|ZfzY*UG6#adWgY+T^)^r0biM9+_`sz{BkCr!jQM+# zuKU-nm;?;H{S~7=7vh2ALrr3JyEiN~uJI|-XL9R9&GJFZEUfiU3qCv0SGJr{zl8bw z9bHRJiyXyUde}@Vx&Eu3eATDdf6aBrvoV=Zt`J4HkUzEC+`Rt#5)WJzPvkTG&64iT z(2+--PnC?)x-DAZ)q7C%Ohx;YpSQ+0E?c?7ay}9t{wEq@O~)mT2}9kEe;k0eK5K8P zLF3swuX+dhsl*we%wxcsSoiO!-}G4fj}vCA(CohOX?)TWwaul4hIb_Ut6$4H=4H3@ zfDL!9|BBb&R>hmlCFAq*<7=v6zz&z}<>4B9=YPAPvkU;KX#Q1B=S}9i{<~gKFGYO5 za=P6i))fIv)~7Gbpzq$nCQOEPQEKBTg_&52?)M4l4czSBPwLR9!yzjHc1y3@Q(PeI zLOL$YfJ;sK`F)+``mb5z&OR zbh+jOYR3uAnbRwIbKM@@JVcs-uwN~Wzt-HWLk%LD1JJv3pGRBRCC@Knz7p_^bd?^t-=9`1n6ZcWu=3}O+86)sF1_(9;QNO-I9h@~<;A4i&}X)`XTV zWn>>ZjR@u^8FpvVnu<#MV~JBQqLirsL;Wms$8qBs2;Re#Kpgg)ij-W{5EM4PA7pS( zy>F^MS^Zo{W+RRt5{#m3)Zn5j+%1>-<>gJL2xF=nlPi-=q|v}Po19sR2(7vZZ+h;+ znGc~b8J?6n$>SB}KfD-A&6r48gI%U*$<1bs-UDrJ@*UPZrEnMb@37prH|#)-=&pZ0 zJ@j^%`Z4|vL(ca};$AjtU>L+5!XruNNwkp}cyO_3nL)}-o=|ISdqBMEt+f!HSxcF> zbe>CL^pA)gtETfNr?ixudEYRElFZ!tF_9+GnWnlK{)6f_A~H0jMw)!1E+z_9nZ#J= zP}-0pv#Ywj>YCF>w&-+%UkVMJy9+H~|4eXedws zr+$59u~>Y*@!3rV^h3**t*49K0g8J%ERW_O=Zur)g6@eW7x&qW(i~TMg$)RM&CW!N zvaTH%f%8t#`lH{k5-C@C5zJk&?>cjVq4DCWIEc?0Gb{DIniChC zk;*0)d6#)hDjnKWy7$xy(0a8Mz+Z{1?e`8X8B5U2ZtEz6$Pv=`98x1XS%$4&$QOSb zN^PsStNZ3ETn!d4*i4GCza4A~gdhHKJdO_a55YodD>|#a- zq3rD@sjTjn26v6XHxe$05a{HJ&oHP5=u(jW1T@OtcL3ov|B?TMAHoD*`K7}Edds?S zAdsX9-(7g5oBKx?)z%Kcoiuvz7VaBM6;dlvoZA>cYWnsLq@Y0iPlX$4^8AD)LKFoZ zk5{|o9(Z{Xm<SIxppeNANpdm_%t(M07&01@Tau=Zts8Oq@ z?jt9fXhK8kUkHxb`f<1-_zhF$@x+7E7dmZOhBT~+==I)jVMj>Tgs_3|85D(^S?DI04k*IW&@4GNQJ}%#tb%Kb@lHz(i30awY^zZz`!P)f7;jEjKwD#6vU4$91 zj6)h!3Ie-(g+{Zk!B1D(@-!*Tht(3r^zQ>8j+UZ?qVLQfeB^|g7g}hWXH>Uy3K$hf zHIJI%Tz`EW@!O~W=uT;Wi?3uZEkt`MxwB+cQLnnZ zt)|t6sOn>z^88=^Xo+s{pQZIU5uI|bN6pR)e;hjVREu(Bh7*BDd?eVByF@Na{}xaK z=d9iQaqW#e=AXEl3~r>gE^sA#67}q=BdoJ~BltAqcr6DP!PY?cFkhC4DK7AFJ@Z+cK#0jMogi{URqTqZ-2|s@@%_k%Ly? z5aNe>ZcA-@1Teuc&vu%UYRwe*ImgvG6&gGnaP7I^8>b%FhL^_5W!^gyesU{R*@ib8 z%jF{8G(rHN`UbLldsc`V5v1I3#zcd&#K~lN%R>DhWJtmwJJLlMa`*Uw9K`UJ&zTYR zFpOR>X~`kcuUG6 GS{J@C5fWA;-veQeKBnYLEZYK6{6vrIC`)W&xb0}QzF7Bkh zS*k>!q?%fHri#1UEK2dxQC3V{zKr{y@*g{6z&m5om6f&eY|Lct#UwSH{ zf>+;OtT2EMn{mEAVZBvFs~=Eo%Dgbj{}X%3yxNopsTpUOt3z|Rh8e-yeHxeJARn)f z65}BH^+J$4`F*x&3R#AOkVDN)>JolVtO8L3tWQbYNn$6~;QA7qu$CEtiq#xle{W42 z(H#)?!f<6iY8M5HwXSZNRHB!C{BwUpw+_-TQ3>bzZom|wo$+6Nwvi4ohRjM*v; zWpMoB&_hbSyj;M8|F{0dr*QDn1*#;!Ej_iEsx&n%E91*@_JNbpg94Va3L5i~uPY3X z+mmra+&A7@u-fSwqKFAMCR}KWM_hvLn;Ex7cnVE z&b^^83nc#zb6~8-w{2qm1=G}yk!Q)o+29niCM5TQGK@SN?iT|&z)fKT~iCU zlBkWP3S}xDFwnn4Q&J6mC8L*e<}cBOjh|g6U+YOA4|oQ<{H^e5cOxZCM*lQM|5VtX z8jG|tVoI;TJP^df&a;#Aw|VNBla6b@_9b|-&^(c!`Q>4=rLYH^r3D!gs(H+KN=h6%paoo^U(6+{l6;{uf*>_ z;Bb{oUQe4N{HjfT0ANpP(1`k^brQ@9_d$=%^aa8sD<;=fWjl8IitGb%sa zbdYPYAklPib+n$3hP$b;|C{H41e*ANaf2(Vm z(joU3@Xd{cFlcHvScTG>R_fik?DMJ#_;o-iKag3%rs;#)%2Q5(K%@h$sS-Jng#?qc z8tsQ5P}1FFL$I%7u~R3;KDoj1^E>Bny7YpXr zC98DUbDwIvP?4c{4u!T;P;3$Mh;rdfz8Pd~P(pRl7&G9{06vyh4Y_mv0%$4yuP%yW zFVHbGGM>KO&^z_+$;aDYU{1q6$7?_&oAr5}mByntozU4040Fj7>eoNlZXeOf_+0m= zN*Pw$=^yh-t+1#nOBQ|yKcUYMBI*uFTXsIE`{}XAc{y?)XJYzHCnAP(`0|sgRB<+g zu`G=I>P6aXSn+a%oy5bY?H@B(-*RGK?ZnRpv`cjQNsDu`Cpo14Nfe|~=KqZ?CcWlk zlD?jI+POgi_L@2LF{!V@X^u+$Wm)WvOpkv~F~S01m_ty&WcyBkd-D96N?!2X9~Mm8 z@*@~8pqyqBP+S>wxU$7_?Ydm?41Gm`Fu(*KU?dh~5$EWN+3n6f@6P?UzHn5(bj$|= z&{;fLv#Ai-9&WNXd;!OvZ-DM>V*Ijco$j~vswAlp8ygltC>z22UG{6@N|21A58z6c zjuOpF8_rF?{y#U_?0zVuJcfXjq(yhBea1b29$TmSAgm2-~9Ne{jM@?8y8I3Gx- zd;ra*X5`yF+Ob{Npm@7cZ>PJ7v4jdr?egA=mC!3|%+5-~*_8PAuZ;`QWyDpzN#^`w zK6%Bd)M$q@6|6#!E~tkd2Ua7Wlxa%)@$sTGEWsZ~d|od4!1SDqk+wZK$AH5Lg`d?m zxw^#?yo$r3(}j~{d1XZZ^Ot059cdYL8B37IHF05)%A`k$GPkL~0eKMv0JA)b|40P4Mkkz5mvHMj20u39#mY6|VzCj&QX9AVoWL z?#4kXee+I%{R(9}qGsLGc-b4|0PuWS9A;%GU94H&fj-}f&5c0W^b?3c_80xn9^qzH z1Y_*xaNwWZ6<-tmiU{HOs38XIVRM~t4@YUncHa*D`Fm2(pjmEUysg*{+_hE?Tq=*W zsgUGzho(44^}@;~ZiF3Bf|L6vqc*oYqOvkja&(l!H)DWL2VGJCw*pecf$_HT;Xb71 z7VZT2$jp6ieAE~~b}Ii#d3JTS^D0*0U*NUh`!~h+3VTkv4d^ncT0ct~V-#%iGF3-% zQ{{plZi;~SK3e>3Cqiz*$dbJj`3vB>ngBsBo@UKQu4FI+f!H({oL)8}u`G~8cMvK^ z19a9oDy#M*bm1^qwn9QOlZhn!_T4b?)&Q`qAAx7(R{1|q_d6z^Di?G~Xuy*2#$NP^ zDSXbMHnaHf*PKg)UQ7U4t9eBpHax8l&5y;8K>SvWv;p0Ev%^^_Rh{)S>6vSAd|s@m z+Y{EM)lYKmay=^Ar8^@q1G_i6U#ovhq?cwIpCaitxAIJh(No=$63r=SNXq(kjHlH4 za!PMurIT?PJm|am>stNcQOx*Hw5s-Rsjmgs-(XF;y>sZwSa-u79oEXoOgu+jk=)AG z(I3~>^!s9$r+7n7ELZ7wHtiQysgcQj0heIXC*EK8+%$p>C0qH}P#-!JYK>O?8y6$y zD<84N_tFi_<W_5sS#f zEG$PDBG9bGIKubLMDX%_o6PWXBqa`7F_4_L_pi52<3UZfXv9C6$LtUI?%lWmkP6Yp z+CAyYSn=H&&wx&tPO(|c83OjN6(#ZnR4y%wielNU7g3wL64SpnYTYE2oNt5frM)~w zwZEu8PAwl!!s0AvWy848*+Cg>$GmX$1C0sVYZ}m*JN$43 z@bT>YZ6IRqvg2U+M8SYMB=*~mL~#u;$yi8IteZ*UEo6?pKjnvLrt8V-2fS}CnNVHl zrHy~#%!F?1Z@!p|8h?zK(vZYAGf9hK=lYJ|_DC&Jv(ffs1@lUi&n1vXKQ#Z6WQQsn z!+x3x2H2L>d|0>Xwy($g$C0;!+%LoKEyFircdcN?!WNfr?*ru`1^T?DIzymK)y*S1 zCjsS)u`0Z6{<{)ngxA*R1$_<2HlThvuRmvJRIEE1Zge9o!)(CdjKSQXZ~5I#fAO-8 zA>R9qb^P+=qYP5}kFn`X(Aw43?Knu4r1lTXYBBD5VD{IK>BzMYbLeoV5QGr>EOVCm zTfHqAG~tAD%Iph%Kmje#>6u0@05AVTn7@A=CHM?>w;OTAcdw#*|~T3hgX)PIb=lsS$k_3 z4s5w0wEP4TBY>7hNiM4i+iM`{C>7)X4y}=7q_3f2_H~g)Vl50OSPdDMn$XB@U&xuh&bC~2@X1% z@Or{-jYjXV^Ds(fPY7n;ly_evq-e+kQ@K2#zvtsu+yWX!>`#jI=VO zqCT3;3R1zR!B20y^m~d%sEiuki=B!iRcCPM3E!!tJ`u-~-ypi$a)f4y*?o_|9!b({ zYiv1jI0@pFdGY&@!QQa**d%n^!SJ{+R>U-o^ZPH=eF$>HN12aV(7P2Z+@;1;_PW74DtwgP7f5q-;e2*X?0%?2O z$-;xwKgYjwibhGVUxQ%4-PJ4g&gAz&hZl)8$SHvMgx6qoCiQILpG8-}pWPbw=Ty@) z!mT$tTk(prb>0nONbJ=~7rT0e_5O6>qOmk&$a+9%J>RduOTDGtRBeD2#p_|T7S+h9en zU@92?C!Q(I;^DyzK3=-uMWbinJ|^MC=d{p!ya zy82!5F6@X#Tp;IZBCwv>@OBngc*!detGcjH^dBo6b(dQxYIeg;lp&XM+d#GFxD%IT zH@O>WpDe-cvDlYfpnidbuYGkCKqPFWP%9X_t68@bv}R_jchAVkGY+)S-nkj$cBOEM zPKKI#y4sAQbrVqvv)&m}{5BzXy!w3(joEPqFfCW#AG@}N>AEGbbN*Jay<7f(YOdG4s+DCI}NiCcMf*y2KY5WIhH@5 zZ^M3F-&?-Q{bTV1&yE#HxQF%r7wYc>>U|qNB|=3(`LFLVSvyGQ*UT}xt7;j~RkV0D z0H*mR6zT{Efx_ghe+)%X5sN)rDnv4DtB<{b>VxIb%V$Kr8&_Zu2obocVjTh*PT;j` z4F1ae=-DCm@I&F?#M~M5^6xsq3$^~o*sKUyHY?Yx@RMswtFWjP8F8P}g+h&*mW(F+ z|M6vFa>{&uIt*K(Tx0GiDvpdJ$$y#i%05bvee!{j7b?XHCU$oztfH!}uS+~aQdKehwWjD1= zXzku?m=quk1NAp=^eu;S71$y`(mI{T;xg5kr-;7FMSjSw*K?e5DiK!hsMcty@ev z*Yq=-p0ga$Anya`!;fCoOfsK5gAJuiC(hOJ+qOp^f3Mzhltny2AaZKs-4~}s+C;y% zzJ5DADXHhRjOXHSybN-aw{&)S3i=239D_Pq%N8(;%Mv_X14!rgtf_@fEn@aDC=#NZ zdIerL^_vJGBz6GM{4b?2sd(QCmWeeBN^>ISZv|iu)7OG4rmc1_nVDIX*S3Wj{FYrU zv@VBZPdxcT3v|H(Lxv(k?kyva!|gukKK~JE3`Icj8O+~;N(03}XsTsuU4(GHVhJ8b zZ%FYWy%C+yTlOcvQN*RVG2ood-oPXtUSEY;s-Q`6-o{1IQaf<8zGA#cpo@^jf7%u< z!GWjM%U8-jU&Mw%&h&mm)Ncq(tepX($jlT#y6rl12UQ3ADH7pUm40DQ*W1+!_BqS@ zw86?FI<4?yT{>oA&j8{#_Z-+YuOE?hX7VRNugI ze|RKq$a^l`#w|{&P`m_HO(tRwTXS+-W=O+nsZ;SWsfG+bjy3(o3Bs32p5;+b@d@ru zm33{MBy+fVnB$wW)PMCM$PZvYusAF}P3aT!JoP*S7G#c1zC_a7jaxrf_IS&rR2E@UVysgPRl9L1p{ zZ!w_bIzm%Z=_g3CZ>y2<+iI^B`Td!Zbpp#U@WXwuxvv!2@<<0~{>YsBo6QkCqyV{{ zDEvz4v5|>yZD<>u@>BCPD6qhLqm^>Xe+&^Nhp1#4Z+$ucW+Ul!fQT{9ROb(VNe@tY zk+TJQhs8_aia2Ze2(AAi`biVde}5d@SmH<|HBn{t@IMG<#)$AJBTz~W8W%woWTF19 zOOcq?w;&FQbe3K%sz_w%?Fkae@v8KuZ*A4z0av^VzCrkqi~-1^tPWZi|k?(C3}g^m{>wAE+A z;A5F@4J}$z7e*JiRi3t^9-dwBh#d_kEW7OTe9f=MFW|dWLO-d=aq|8l%1+;wJzO*& z_qem=+0pu9lu|R@eAuLGzvC7xI*}YAn&bV!Z};Cj=jN2Lt#p*1ZZALsj>c#PCGHo} zEgy<#UA9VJ%V)=OX0!7hM5o^ZjW2=Q#Rz1b%gGR2LxX5oZw7Jm6nqlvFJsen3;b9o%-bMtNmU7np+du54i<1&x= z+=jbA>%t#gH^Ua5!&e?7ds+B2ON22uG>YW(R64B^P`HFq3vlN*w1|TbVztA4Z<)ZJ zde4L3SU(sw>3XWAq*7*G0IC>VN7hW9_Xg!(Aosf2n6R=>4gi-K^SboPgkm{Bh3LpW zy&YqLZwmZdF#28lof{J#xn8fHKphgfY^ z%pL9XX(JxgNnU8>BYJPs09AeiPy`uXsevvwgPwC~tIWKx_ov-^tcskDx_x{`^(dzG z8uK8$mLjT^xKX_?aBbUEj765>jJR1V$%V{WPH^3UOj$K!T@O^@$W!9!nQMR zf&l+{0E_SqK)(9CCe4n>h6_Xl>{CIK`c}oJd52yoO@h0_k2%-eFKUA7J_ReBNLb-~ zwd6oOalier02{NrsEgy(cGWu*jrN#VuU;-?CB;=8hP8bpI$8s}$%wbd;l%Et*K`{X zK>4|b(ZwUtIYIr1Z9rBD=7Os*LA{dLN3tlC=3D>@Q+EQk*3{pgW$jhL_pky`3ap+XH~zQOf|Ub(*tW zv4W-UvCb=!p3rXJ&KmMB6YY_0Sax@R^XvZPhyMA;@-J>J+yENPQ>bm_+gXd+U)55s(JZ8QMo;S$srKo%9z+Y{@~9l+b} zzNuO@23m`Kit_i$^3qhQ4yw_5I^QG(TohYzHi#I9ojHrVud*(cagl4?(EMY5edjay z2B&74WPP;!>0CeF^e_sM4jNxHZLj{+8V(xIvF6pVtn1&_EOjK z#E;bx)hH&#Vc_rT?VWPo7NIC{zRUmE_K+hCJxl76`81pqv~Y2^d$h4%&e2TiCi-uq z5`zL(rR?>vJGZdu%sG{(^EgN*qAJ{XoDyiXH15$I@w)-c6D8J-;)>_<3(HQ__OY%; zSsJPQ8JN$<6Eb2$IQHGzu29pOi@9q7>luIYYUQuz2f`hemb`f-Zgt({ zc44#Q*Zq_&x0rfy#%GDVgHq7e`MgDif`0$+C%1S`j3b=e%s9o#%@bC@aKrraP8LqY z1m}yq=gP(&e?w%tKFaQFTpRqSx~=Do%+EG31kEVo7j-*FZrk*r+U#wI)O6Gc0eR3X zvUJa*yiaN4ETk#f4KujjMXCp^VhIZ;SFpSlsj_y7IByzV{#I6x<)ytYbr^rqcWWPv zD(K1EM$c6!wp%UJPf`Cx+@51~PVXN^^@*ExbsQ?Enm25=$)p;I27fKbw%h5=%M!># zZ%taq6f@ghy2Us2wp~hnFBS*J5^a%w@8i9}rgc0!x> zjiKRyRp%D(GXM_Wv?Cph*Lzk)Fc=CQC|1%4MgSd2#+py(Y8`CUl%(?0p@Z8kDD5gAFu4RTwr#g+Z~o0K_Cx;nKS zkl@<3Ug}<7-HWYw8_iF7V^`VJjyE_}f*}iPnO5m%Zot8f_#$Q2DMbFRjR{vbwGi4I z>&@l)I0|mbW!?UBhvzO9=6b#I5NzU*54lb~Z&j!sRs8RD$b7XfH#Xr_@#K#@fCweroE9u;PCj|$R3qWVPg2JfGFrPA$;q40H=<{gofN;tZ zHnG2cE$NJG4dtfad$P8j6P$aMx~q}Dda5MflofS_PI*0lFcnj;9KR3!%BVWLmc97m zf1XvSdS7%q7|d&;kjj*{D>_?c+D}uv&(ZBi$SazBh-=?W&~8ji_mO&Np!WUP{F6nU zr?`=oGxTh zXzSIo6AHdYYYBf_kt!%iU~? zpe@S3;hZEtMgHWC#{-Gr4)yG+RJLFiD2_KV2%6IlMV8^S9nCgPCu z^(!L4e#?|UpRlt~4)pHqZHPU}NyNr{>!H(1I++(=Q!hnE<*jewEk``zA%n$NoD4WW z6RQJ&<*02+H>UAH@zrck!ir>zI|c-j(Auh@@V4w@*#@Bbh9aqoAoVCT+@_?~kjx4u z6(sew2Fak+v!xz_I8-d4y>+`X(*C)rD9sx|Y2Yi1rnXl&s^1WytmM^4k^A%#fJuCB zTi~90*F9D5D&02hf8#Vr{w^LONqPe9Kul}PNZFcLrs(jDG5gU#JySI*5?R5M z`*SsM;uyMNXDf)dt*DO9~C;D*j>aR%FrMu=;@bj&{EMbNlm#CNE?w{;^ z^%ke%5gx5}9)P4Bcr};0tCjrnPaqt7q@EoK!RNwXQ=gYRiDoO;_y3>sjrkIvR40(>)p)1gVEu7-P3+Xnft-xQukP+a77kV}jp0#);kJO7m%-l?i)YVLn@4bMMND{XgZE3|@dbi~d ze=7sTLe5;+00vuT=)II`kGy&D-ev^%p6eUw+qO1(GKw+_*J7S&f+mRWSlO=2#Jjol z?P^ilKvU86QIR#Mui=cYAcZL!}p>O`Z#%<@8ID~en3g-47nF{$1m z>xeoaIXt&M3_@-3nb;ajwcGhEk3S0ou;iBAbJVf4YgTUq$Ro*R*6u858MeCvKiUuzGhsKkSyg=H)S&Wr)BNt^k-6~(pYk$N{oZ>%%_c8tfi_(@h$cozT?0_FrHD(o48^sBF7 zl5bLcJ(3aTY_V+zhTw@HYh|J@bv(9NZSV|)#egzoX^xl8tVCraibH!NA8pN6_%%J{oIhjR`z@2i%alJq)s^SwAKpg zs*n#^J}_eO#Xdh>)kS!qIUB|wd*8`lKeP4N81mZW4-`Bmr-^ro{m%;Ck}`nn6%Q&_ z5iy89+F6H!iP8$z4|;4)J6OP7diVcXb*{Fl;Q}0GGAb9I~VptZaTyz?j@asVAsbp-1_u#oxUT) z9`d+Pftij7&V2*0w6z^ctz>OF`wn8_h?CNr(61o&>$)Xr{~@BRo13n~J79{T z)RZJD#^z*Dd=TrBWViB8uLbke8V;#826Bzh`j-PSK8c0H7;HvRC?O z(R=o$xVF&&jL86m{vvSSsSk+Mi!uRlX&xJZ^1-KgzHj!Aai{KDIL8nQ6GK_>hkTTu z9wms28gzjf!3k8R1l4I@mthGK;)~%fc{Ko-DHLV=b)0n=Ao^oiCSw*RPYIX*8H9n; zwL3^NxN)KB+&uvMk31#85N{12Ohp%Q^fF+j{9wI~Jnohh!$o58u6XDb*w1+u*I)zAE; z?_Y^X;-y8kW$wrn6{C1I_PPq7~%1eF0GV>` z+OPh;VIi(B!zTXqi#`Ek_j!xXD%jsMJfZwrf)dWnT>nwX;?>?4*9W((PaRlBkR z9sa5V6N62@3kC%UcW_%pOxNcTw-*}oGX-MX;HkTdLmBTynL5A`u))#CwWfgvS3dek zYA}g|p_&Jtel{8|X~p!GNrS$hxnE5>K3$g9u;Xs++7R>NJh@#*uJemMQ%>&xzoMw?>%)XA-;>sPjYfd3Flw25Q70w%OXJpJ2+nW8xT zp|k0J|6J4xQUL*gKmn;HW1<}4xqB@WUkiE{adC%EU@eJ9#t2e83q9+7oU@< zYmlL}@MM;g*ZfDNfXm>`U}aa+{N%{!<|Ia6SXukhi>QY; zP`Z?t<3$^S@rAcn(|afFJu>Y)ca0!u4rTh*=Z^$&yb_*+aJh$mjJ1!JDIeRar@O4k z1^&XUf|nAW1L6JdJVhgo^8;+m(RE8=hIXBS=zRfwBW3_2*~q37nQr9(0*MRKVsb$p zpuw?4i#r0UM||w)N%H$0(o~Qu@O*rVpTs{0mlt4JV)%c2ZNQiS;m0xgeeJ|#>-Ggt zeYL8~!hv{@u=*`h$;Y`(yAHDRD7f6g)60JtBzU1>oe_2gK;h2+%FteCo{&P6Y#uyxbSG1`KS{xUB-x`%I-N$RDJGqU# z0`$D+MTf+&1;o?NMFGU1M7!B&wjyE|wL$X1O>|CMW%*&Om;I3?$2j>`8`4gZ2P?x(E-!Ti2t2-q4RhS^LsZtfHe1|WX(*;>)xpok49RM zYy0DofDO3(=*Kcyzt$YpsLX>5x6^a*`LoapC}5*>0#RWn)@)w8%Wcjj75_S>iK*V5 z=R*vxka55v5QJcUM_~9lhCQiMoVF;SNd|*e3^)B}^g@+n;&AYqGN~@?{UgvHM;>T` z%k{hA?pSreI0SZPSMB`w9Px;~Y<{}|@SJY0_NL4wHgDQWSieLnkR;>oPk1-&ZVc?O zkdXg>hYbPnuK~GoRBoK|Y)--C3vE&PV(tsjd&6zpFFOcdw02gmkm?sw$w*0E^RdWa zK;qb$N;a%xN+0V{gvJX)N?bd}wG$5%tc}5fwL2*Zh=#F+cK`bq3_*ODg2;<+y=;ukl53{D@P8 zxhq1jinZ+kvYmH-%gg?o@)MO60$2^kg%d`yR^57arZ+eMOVngD*x9E|@#2m*0n^k! z020M<_>SKdW)>%RHvav)G^qG2EWzzR{_3X39PDyH&Zr@bMlG(^%w#qtsItdos_(9= zCs?&tg_btt0$uT92@b06nbN6LEtuIVS{Nwc1FyCCvfrT8hB^JE0nU4+F|E!C6AKBa z_7VeVN!~R-LGQCUX3z?$6`fhkwH*L-{Ue%d=1$aHwLRtxCC?93F*GAvr&@H zTY;4xDK=^NXl$?hV;uB5Z_P0F%wb`_<|wTyXhch=b8FXSg}BVjROZO)2A>b_)g^BQ ztlL_iNNt))kxQe*Uf7z^q`t8YwF6yQ`!6A~QK zUDmugII6uTi#S~jw7xR;3a0o;q3RKipK573>`F^zD9xVFL8j~yRIb?@5=A-qUony= zu>K$f{d|w|yk>4_S@Bku^2H6f3>L&_=gB!S&X}IQtphNg7uYvc1>OP*pV-DD zZZGVwACG|kJ^<5Fmz+gD?up{1xV;#HTLXa7QvIGFt&~pHENf$DjcqguhKvVI zhTmmblK6{TV|WyZsQ)M3qH7bQG&Kg$rukU*RO=n(WN;lWq+$|`LQ@AM64P|Q;^S*nOr zBUQG`S&biW)<9Di_sDZ;@4SOrn;yU$rTaanohWxISC_XpU0-zCP!skvtxh!~ehWR5 zP0uOTb^sf#K3UKm?p$I+q@}%LNjjW_dgOv+sXK z@OJ}b5hsm>6`$ltSjv*VMn%VnPtIpf!X{_gE4|!2O$CdLc{Sb0he>`N5jr8JOq5lw zZ2)L6*Kn2stj@Q8HvTO=zYDXaE<5wGJu{;SJxuxWtf5SCj z>XJzP#(}FQ$|X`_z~W+0Sx}~ehxkREzx}WddY656fqTQx;C46xM zZWFS5w&h5F5clER(tie4v6~wPEA54#Zp#&ItN6V*?nE2@1a);;XCb9a0KyWgV<-BZ zuN;kdv%<!a2>m-tWBNl~1qdMC8T=L3 zX5qU;cy>9*g|@ zA=C{i5E!9*vIl-BRts>szy^mQcCJ4Z0s4OaC*LxXzM8@vV#%a5yd657$U% zJ2hb~g`D#c*{RUzzUdC8w_}EB5R_P2>Tw0tn|6^JGHnd^e}G&&cn@U$t;%jEhg

    @oz9x>zZl!;J>R4ty| z+K3%k_1xOp@Cehz6$(XA2Y_gr>&DmR<@K^FuokFK1|L`!)6w7BGLzFlufcuWh@Lna z^OvGHPv}{&1{N+)gM+!{u+1K0hM<5mUJGA+1%)mEv*wu$GgR;(Z~(5OTdn+HUWT;- z^cXfyd1P0$8vD>thIt@8DcsyP<0w+T?<+|zcp zRwnP6OMcqtmP9Q}{TIqtl5_A^pW2oJkFhw&~A1@)Vsz0Lr;nDLN-IbWBsgAj6fJ>jagn-vuyw;_QU&<_H|G_6`FK$5Un>6@{? zQ8*dakP1y(ZEM%yJ*QiP^~~*Up4yQ;nHO}9Ede0jc|m`Gi+4uS_{ZT7De+L@6$lma z7U|8qFHQe@Wv&6#1YR&>*9TwKSH``Q(mt|A)j! zWQAZc86@vAIh_HE6leLs+1zv|??`O#2;gcR7GQz>$i~Lted6DD-=r7yRht^2cc7@C ze7WM!;qomw>I;KjbKec~G!p=E5fd&f6~njJ*>`H5jCzGKlR;I;FOd>1GvgCB z^%1U~Z@OMzapkKYQhw>7Hjr|7zBRml8-U_PJsYT+J1x2Urpw|t0WS*9)u1PK8q}v6 z$`pg%{#rqb&zn%YpXX0qf6&pf`}P(?(}j!WVTdZm}|eK39(bx`X!pE2_dT1aOyWvMaG1ELn{2tC%;;%lgt?^X(0YoxAN>>4**shh}!KxbuI^{#by^2L6iP(R}fbvYxh==sIz^! zA_rH52l79F9K0TMit`FCmJT`-X&&|um1Ob32efKJd zHy#7HI?^_xoC)-HZpDXN)od?s^2;FaBrCDrhl) z{9?W)x}Ip7T9Y7G&(0^*)+gnfhQo~0VJ$Hjb*DtiOqe2`S4CY0*uviEjProX4_L@R z9AF_IO0ywFVJcD?jb)V0q<{7D{*Liw*5}~f7a#QX=r7x6TBW%z(w91<{rK01j6@vW zLJ(?V+RL_MZ4+**?j?L-tM5P=wG=sBK1RRP>+s!nTg!S9ncuwq9xKUN4D&XJ>PdU) z(R~~EH-AUdLUe~LRK~qd2IOoYkVCIGUAD8pb^M%FOF{bir&;MD@bdnlH0sAsA_q(9=}SeU>AfP849*pD%}`*s26ZbGA%>Qr5FY<0zbm z8Lc_qlrI70OIb7$jU_xn*l^>&D5c4$e~<}OWxm@HI*u3;~z|mFvmN1Aq5#I8zs$C(*8D0cW1-CBzegCS@M*cr-hQr5%uSb{)AY`44#^*Oq)n94Rd4OAzAsi{tFv#;p>Xg;bI5^AAgueF1@>^r6hLwj`3@F=trk9PwiE1)p;D( zLWT4v3=qD3pbUqbU(+Zulk`i~osOdpw02s1ttUeqxsi>y`JsVhdEo2P$qbFih)KAT z_J(iQKUBu;+|?T0J(=ku#Kk3vl~;FfXjWz-&O>yjjds4rb-kKLYDJkmUXXgGmFwci zCCB~i7TUL=!wl9c>P&8P{kl-kOFD_C*ugcw@rvL0i)UR^GPokWk^iV#P**-|DC4C*@OWH5H+6I}e&X<$ z!w}Ys_cwn1(<_VjnOIMfD)cnO<=h{;e$qM&w8NQ%(EG9Xx~wu|-N!#Xndd}Y<<@Jw z=B-EvFf$X$4B)RH&EwwV{5e3FwCdd6GlFcX-zsMSdrLD5HffWOR=$>UsN3bOb*Gt7 zmToC?<_rpWl~kAOMBHjUQQdcN$RS0KMQIp*xR?acrZusq9mX zkx|P<&DH=@{EzjQTlc>u`hQw7d3y-l1ZvefQ`9);T`&9ult>y(7Fz%2?RpG@sOLDV zKwy-A-6NYu^byse33gwspIU-BRWKAZHZO>YtRvknW(CNB&??#cEYMAL$d8 zcO>(Pwt=qeWXICUoG#i}K5F{*Mtz6~l+;0sNuoyT_tNi$E{C)k3~S-^e&ElkhuSc2 z>;u!xe#acf19JgfV^aZBb)f*iZdG3w>5-bf2e zuJo5^4dX1~FnD4fN82(^{toKXRfOE9SWnHS;G8{-#Y2}ugM1!8@Xf?VRz~o>L6~Pv zQGh7S5{*IfIn3;@W9CIISm)yxB?Ir%jVd_MlMgy(}4F&}}Qa90^wGgc(?M?ea%R8EdW%(8~Xh zOTo^~%>hl7D_5~Hmh!HX`OMPrk9*xT4SEi0dOSDj{jpxAyt5VthqZh64kR|R@0v7a z-+Vsc^Q0W!o_~r>gE|TAVAnsWoaffgv;a9tt-Y~_w%JyUqI)##D7@I+!3EsD(Jf>!- z)h|+WX15Uu(n$TojVU&Pa=ai47)yl@KKoohTU6Q^&CP#gQZAEo898p8=Id+QZk#24 zP>z|~)_bX0`lj>k+{6=4(D&VI6}pd~^8*orXu#tp`BK~nuWfWxov)S{EFm;8F?GSs zA~J}lXhe{ClE3~}Dv>j{jl!uqkN4C3U?*|fhrIz=xD^gRxDv@|663~-`m-J9Ovc2~ zqPp=@87MNOM(A<_l3kK3Lf0<2hqE*BzNRog?`kJgxYikeVBXA?ITux<`0rM@NMx z5YH!|Gc=m`u^S8Itr#ON(gd9Y;A|f>xE4h#$p@#yC$oGR>wgAg_SjZ!kMdJ1Fb*`h4?!A~&aCb!WHJD^q(*W1l*ho3-B%qkK*;to ze_alWQ&nwZdyB7?vq>=|`2^_-(CbZKKN@sNN^6HkE*s*Yx|Qti=S+SU3U$^xolKl( z8QWi3%YYHYYl)Y$1-oe2K-Sq-plUdq)vS~=Sb#ujxHY*;mK2v{(w}{U7S~GSqr_hQCQzs+_1j1 zit2Ewfi_6~ETxtR4gjl+U7XY`8+cR0D$D9UxZ~Y(*wwROj+wg_o;*kGZT2S<%_e^_ zRpi!C`cMA^gzV0w-IqUh^dq@#QQg!lf)Z{*K;G4qnT6GV3a1QvnWdLJZ;hQjug@ek zW#li;K`W5@rWnnFE+>i9iwOK$spCK3?S!ZHT1g^!R9~M6S-Ztzcd40+DlET8dr3Fq)z%sT=mhj| z5v*5$zc`7*@HH)7l|z%nEKWf9q4dhfBcveTRZ(Y%swK{!j)TXUE&k-`_c>Hm;o@7( zD#O9efZDjCPF%SfUaE?e9R;R;I~P8rVLJsW2y5Ag?kr;^(S z1Z|41A+`-@p`>d)Bb8%RF}F-;7K)4XEu!5h8Z~Kc8QB-MXu4?s%;?zUYBKn-k`<9h z+Lb4pLP3RUKC^Sa2Kd*TyROdmBE%i!8J1rzTu(0k2qau@j{aHSq1Eq}ZyJ;=9=x;g zaxJQ6U%A~2#s5R98%%TZ$G@_GoOaXbCPzHaVTVSHZz9L-+*V5LgENw)dt9-$%o0dn z5*A61Z~%ua6IRL#L4p$+dE#YzO%6w-Mc@-qL!G4sS`h8_Ol~PLSMR&Ca&`Xd6^;u- zgWc-3`P^aSx*PjiB(YN0XVqCLB0CeZ29}OZ`URFgo1CNi8wNQ6iSF!W0i;qlU4Nk< zekNeG{|lK!Z(X*D_UF0bHP?*D@c^2$+A+ikZ4_T4yrFd% zpD@wSlgiJ$R_G(GW95xTSa0^4{_zu#nZFLMY?1KGMEBY|_qpC~+mu4Ioe4&trPOd{ zBuTQ0ET?(ZS3YEI4V1oo`jMv;J?Y&8dE$<={qeF>Y`wYu`vtyC8)V)DXf9hxqxh|2 z2p5I#_)323#XkqJ+U&2f1@B%OquIa zRkr!eoy}|3g81i0HI8`nX<6kz`B%X0^DcwkRr^asL?Qn9rTOf%?B{?e7)e0)_a1}# z&0%@sDH;8exPO&v{hysL-gk$6yD$&N5uf}nzAV$oDSJnDhF5QEvn}7hW}&ThlFRaYZfT0bl24GnxDwcM8>$dhv?+MhaF{(q1|gdp*ivH-15ZK( zU|zrenaR1P<4c_wv`R99p}4Lzzl=&E!N?&Zo1d8`)!8Pj@{I?4 z^^*!C3gV3w9%XX&=p=Ndan;C1fh;l@twWJ(CH*kVm_Z~^)R${Tc>38rE&r}=?T$!6 zk3Z(?6d{4wG;&+t2TP(Mv4CGjEayIHzkI(Q%vUTO2XBSE+F9D7J2CY9^lx!1D9v{X zYsdv*MAcU?YG%du!^8<+_uqRiq55Ii-_~sM4uKq|dbBRjFc2w&yAI-Zloj&&rziVf z`RiMbz+7@t#m}Z8u9|#kMW)G9OLp5z(f4HfJ3OU4xKML9EiX-k0(cCsEnf^&{ zP!cUjm@2toP~`IAYmcPtqQ79&{H~*D5ObTgpJ&BU_jKV<|-;RsvT_T_X1zn?97p~W6&ErG2^anu6_3+Qu%oGI2$aU&&ExE^! z7jgh8dpDfVlH>GC_V;jO|9KC!gFyZ_{KYqy!*a{5oy{E;JEu`8o{S?+iv~n6yb}=x zCayK5;izRG7L{93)6mV6h>`7mlD7Up^_VdDtcxC{9k-Y&wJ=CPxOxL!5R&+<%1Qi{ z+6t632B+F=P0|t<+tJO+PR(cJ2_bvZB=wu*Ik6AN8x`H8f@*9WA6IR{RknAIaiPe$ zw~g~}LCOd@^|xE)vR0rm`dEYS58~^hsmgXI2-Xx{l*jMWMHR-%&U7m)T_C-(Z&MaD z1xVo88(#vGBq&;ZB3(&PcXkTNeO@urOzJ6UzRy9RNQx(o^fHR!^He&4sTK5{*JD@p zR&V#|*AFYQ5bWh{d{Vz0nm>VEqWaqQgGAB9gV`y}45mr!(N18SMk|RcY}4xv$(e=< zHfuC12AVt|#B@E^Amc9kjy}N9+oN%tj3~sz$rW;jEx*%o)CtK8jz{i86MtmH6@NVz zL*GK9gvlJ6dH#+6Qp<=;3&?AjUaY$vmebB(xJP)mPWjqJWBD`54Hx%C!0CdI$@V?y zRnu7d^-7y}MB%TB<}#xn(B+Ao*~SwCu?Y(NLT++b^=%u_Z`!lU7Q>K<8Izfn$r)Z< zeU6*PD&!O2W|Ci_NTg?>ls>mZhec1gDihp5c?Z6T_F!}j%R66z56~7F2qu#@s*;P` z#h$=ww6J0*-`(%Gfjdc;_zP5430b|DYMdx6Cs9eC&n)gwNa4PBtAW9;1m9Xj3pKYv|!T5Is zY*C3A$5ejgLGplbv||JmDyK2#u9o=1tG_f6R4;0q4|9Kss2=Tyw%z-(0=|&3R&*}! z7Nod20tkTilz{eczjUh}YrgNvJoa539gZA$hHTsVzwY1PoV6mW_~G11OsTkn-dK7n zO7DpHS$ulMP-1HgL#Z|NU1DsSlpV&{<2ZXRe08no^p{yH)o7Stb;;fAw$0m(0 zV!tPQT?`@68B;OBjM7Mb|6%IlE%R3g97w}syRO*;NIY~Iw6&il;O7=KU^Ycij}m7@ zJuP$9WL;4j^GJLG9|_E3wF~PLYCHR~IbyAR-Fc*IJY-6u9#yU4R8D8G^L@Zxz-X=m z*EGGwqwK@=x0|1y3Ai)+km@cq{s0^myASw{OBD2@9&8oD>0RcEf%uN}^z(}QgfG`Q zZ&B6j(XBnU8t#M~)!@Np0jaB8v*HM=n4I*@>In$DqVF_6$raszbx9p^eYQs=A2lt9 znb_NBxHo$q#XetodoJE8Kkkpr!0-Ih$U9N-^(FcJ!hd!kWSN$urjZf3Qqf z{P7!pgAsq$RI73xdJnI0@x9lzr-K9vJ)hqeU2(sz8hsx~YOpYB#EmI@_ExkvOgHnA zqcP#1fz>5l9uM>0Lhr&WY3GIoWcmoGmUr zYqx>>rGei^hIrWiOqQRA*qk(6ja=Q;t*ouyAHUA6^Z8#>ZjfS0`drcEuC^;R2K~X$_(;EVA@JedMqgqtfjCOg^@%la!6z|G zjJn{odwx5|80c3qabdTdJ{Z*Syyh%N9C9p3fNe>2Zmx^``0COgHguC{UHElO%M&It zjrl8XK^_EdFN@j016hzj)qg{Y#-upPF-_jInJx?+9>1|Oih1r~@sBnU2hx-eR9qhk z+lncr<#SHHtKNvWbsHAZ?q{9O$7bgGct4i(hMjR?Y7850tG_&F!fAuKN#_l>hX@WU z$}dvf!mUZ-jaH7iE)r($3`r@jnPQ+9nbzC9`(L72R2C?PyJClM&9)4;e|*{BtB(P# z+g(()2tPjIz+Yxo@}4-$dqUVER*-8P{iS?eyX)Lx+J-prZO!lWxHc8Fn}Aj%GVv9R@!8V@yKlbQ;)_A7T}eN}9$nFKdp}CHapu zDD58vxu2a#hlX9BwBk@{6&N&M7`!%mIO-0hPYowe{G3t_>glHLmpw{xZnE z!Qw*epwJqf2OS?xTovs0RwSeoDg`eg)#Z5LKWtC6>dS(Mgtes~yjpqw*XPiA5YiB) ze#M^Y?&I|{PrTuiPX_68Qr4GMDQ}0tvgS$Q50!y6;XQcypm2rihfOp?*tZ(B+h&tjm600ytgQ!dp%MDN-U2}9V=8=68i@;Cy zT*RJqwsGmYX1+m}Uw2L+Q5ASKb@t`;FLAddE00r*Sg^f|7k(j4FzK>|l6w_-t^Uvg zf)pJ;%41chyPyI@MZvLVee=~WnTnZOvp6*DD~2k+uI@c_as2>v&l_gcz`*R+g|4s&Z{+rjS4rNexKcQtSneJhI0~m zmI5$}dWf8y$xpj^bpU+Zv-cmTPk>CgmmqEd!K;BUjJ@>Mk=voNG%kh+z~l`tXrI(l zC7a(O#GE1t{}T&*BE>mm(>o0ifZko%J6{|LiGTRm^sA&Qxj<_ok~e^TzV~Z7EdRTj zH1=%wKz?#?HEQ_}onJ@%F{V2ANTuNX@i|ll)4CX@SM`KxSVKgT!mBTVt$~gZukSi! zN$uAIa-R2@Y~!@7XT1FX;&pDw-Fv@`w|e|1?0 zXjWT#7g?053(bAf0Bj(p0HYNJ>e?&n#tcj!B#rdSn{8?kkTmgacBO-M|J!@Bt7T}2 z=kAEa_p!$x<&I-`!2+{zdG^7^pOsjpHwt~+ClD|g4z&hl+QocM(<_cS z-c-Ch1c9>(XV9iYxM-HPy@7_}wfLr#+Kst&^Z?xhZW`2t*=5jNTc-gCKRpVt^{sd^ z+^z{J9oXXnK$X`>#{mFXvhVja#SlL@WVbV1F%24F9OYT_>E-H47SO$*48=gfWGaTI z=4Jh4M+QCzop=5qKve+(tIt|@fe zLwvccD@z)bmpv`yEFhz7a}#m+_ecW@#RN`J~s_BA{A-Vnk0{>;&tqHy=J&~M$9-GvXOyX#SIvteyY z`$=NaF;K8U2r6WnvNq^*&i_e{d0e&d#m-3#gJk@iyFYLMir0gZ{MeD&=zx&|;#*8! zt@Y{fJ4)0@R}=Q_%awYT#~{&Q08%g7>c`Ii^E?>vicFiygq47hK)SE2+uK>gan z^ROw+cuP(4QWu0>r-YYXW3zp=!+Co{@P5URfXXPms{hb$>z}fd+DV^h%s1m9w0~z7 zZ+<-bJY=W49Cpj<9M(-nv;B;w8%1>=Yww+tYOwG$4W6~(jIo7_T{PjIZN`Fbo$m8}u)g_u6nAkJgZPa#nD!)`g-Y;+>1%+fC|@z8kqtOtTvIAT zNOz6a&%TaU!s>6T4^C#PJu;Ku;k^`hzvxHU9U>M}*{3Cr(m}BacN{B&IH0}f6>`r> z+1yPj>95KY!4gx=@LiXucqo5msHk%ke$3;_z#WMX9#OLNF0QNsF~v#{wC6-i0BSZD zi?dYh7HZJ&%AlK7^7j%zxZ{5M_M-C$3{Ps3Z5w{lmR^O4Ix>r8z&!OTGM9Sk4{-q4 z(PIN3dSM{AjZ>L%jNWR}Ac zjZfF5?~|U-9ar;R0rCT>_vVAH8OzGh_+PW_$6p8e$wJV9dEW`{(vj0a3(wy1w9_UD zhMj$%XEfpz$IH4k@7s9>@EPgQC7}Z#n?O9+@-*&25Qi);Qabk|Y%}YjJn)-SRIO6G zCD^|xLhMg^y|g5*YKQNcz4PPR4dK6M6~)t!05pkh=PD=~H2=mPom;MHVdS+R96{~& z1EC@11WJRqnD~?^52?h5g$pv9V>RxfeSz-Se~c+~CdT9gJou;r{FpE|+KNax({1U_1^(g)ak z6cnS8Z+fp&_7&TX~!l%VMdQX zlQv{OG_qL)^tW=MVV_%U7jrB>4a|mtLPBO5C}NbKuq)-*Q4#55RF2Oe1wiZ)$Y&eq z1T!%4D*XHVGz`y&U*Ny(JFs zi48wS@W-O;!Wx5Iq*ABP0ft`O{IR~2BG?c;|D(|@Jg0)~NJ&9@QCeQ^P^uFhyZCM? zcj{Zndo1)xnPBL_ttC}jYLck*U>WJ9(3TNgmV)&fN=M6@V0~vI{+5@Ro|3-jlsU4H ziRWzTskW1e?kvA(qa=2V7H&CoLA$J;KxvXvaI`r4!GKtKd0u>xgSq}8rTt5ipE=4D z>sPRmSLK~Y!DqW4UO^c(Hcl6bh)+W;lMU1UkDv@~M>EU`?$`;vlNyPL86l(2_j6lo z%$8YM!%kf@IOc|Hady>7>jvRHozHBkKf9MOvS`<)cI&4xRoFjZM~ZpT$j@ zR-|W2$j8}+&BI)vq+Oh@VAeTz_i&l(8S#0b!buDj&~jBVHgxdzoc?|F4i4EG8cc91 zyQ3T3=h-iHmY$_XzQ6=tkQW`r zJ4=|snXDFe-afAlGyNgMhaGuwL#v;i3mK-Dtxy@sxIr^SSKvGcw=Z$8p8KS`T!iH+CjRvaWZTdE>J5 zaZ%;qmfNT)GVzD2cafnrlA)Q5=HSZA*X@v+iND$fH5S1ZURDD15O>ivY*e5tafg6n z4XXqx3_RR6tjyW)yjXY--T6gw6x_X%s)vXRO^Gf%^1#1#YI#3A(erttlY2<1ebz`W zjL^DBx+;$FsJlbHnPkJEUBmO55OJ4kG-41zYtM}h)1ortiMd6m^|!4kzX{Ofpe#!G zGJ^h=9_x%9hkNv+*@w~}w`14oIPdFVk+n!S%|UgYnumw+yBh*e4bS7h&EADF5>U@P z?#f~G_u!`*+L{E*Qk)YZaf6V<$t6*IL!Eg;+b%X1LxuGtx|dgZ5T{Kj z@U0=sQcceTu!Fj|gliI~&3199AX-U;9$pw&@tE@80Ib9Ut8L~C1BoA9ZqvCO7Ybg(Lirf z1k)>U(4L%&Et>Rl6}|r!>UG()o3U>6T(9B$4yQ6hIzcXba~q+KVRjy{hu4(bUhKnN zz)~N%0>v2+lq9MtDt?_&e5Aktn6+kc z8bD(1+^Vc7EWms~uAnORM4`wwYkqYS0VHfLQF1^i{>k0P4}&WbV&dpF4!69PGN2VNpG)(jnK zmZa;=(^80Wp)_kv&CTPvJ5`POX@7G0#=i&8Hl+BhCT|nq`Ulavoiu)8r)0o(RQZ5f1$z@0(H`u^@^HRq?}5v59yBp2Yuf4#a^ zA7@OMq&Q1iq`c4TNL~GBY2Ep?r3}_WQRh93C@xMdL-DdH-zO)n!4&7OBK8Ay1%rV^H>xjx#_9Pm--n|euEv+xv7=v`0=4<<}KTq8|&4$HzJnJQk>^oyEnR{ z`ytL_wNdmQ5`=JZk==^5ajdTg=3&Kq`GDb70BzKmG!sTWYBZMDY;DznV(V#xtM+jj zW3xZ`n%?3-6rZFFi%ndlX8hNSQ^Y7UgR=$!J>T1`##^@J&-qMJiE%AVoc)TAoC5}= zf~QD1{DNyXzqVVUGkI(cqDYPG8>pC}?lSb@muVh0V%B#;nHgcRXS&Nn!1(xU*Yh`n zo7JlF+`J(`&-pHp_gAy9@wTHg_lWG5xzZokEglT`F&S=zfqDr|F^EhQOtw;CSwx}f zH`mlCX0ItAo!8k-e>$m&Z-ctpwSN@y%*T(UdA(xv`ZU}h=!25V86t&RkR&Ar{p{YN z)qOn5$x0G$h1K)1sRNmB7vQ6{uDEl9z24jgrGhqjc??9Aka{^EOC7i;HrAJx;2+2r zQ5({AL|eWVU7EY}$sQ>y)QU43L&e6NcF9{yZ1j9uQF=SEQYY$+4c>jqgvt3x*^UPmby`G7 z)wa%|`d*(J6+Cm);Dl^J{4W{bGk|ycZmL(r(qjtv*NzZGk?PygACPaP6d<}UWtDO| z+}KEC5rWWxhEC53C(FfOJE}JOGjjgv1ruaJXRD7pG1c*k#`Z9a(rq8 ziCTaRef}gwlPRwVSx%}WP*&EXUGwddY3=>KQ@m{k0lm8g+;CpP@DyC;qwKQ;3*JB+ZLzp*SgE;%<^LqJ4SU5VjQ{d#yjh| z9nmJqyOIXd|M8h>wxH65XYZf>A!{1b7+62N=OZ@rkmPT@D;`|IUpiHeFCQP_uMN{i zlXZGl!;xBAsvO~so0mT4()2lZUDM%p))E3>u{hfb$FKyudGKtcmGG+f> zU-@vJzQbl%*)Fif@1bDqq}*`Or{)+}d{hekQI(YFgeQq6^!B*2D6_;B-#I{N`RGmF z39R%TlcKwA>cE+D<|vPQJr6lA#qgT5i*WOuGk#16mxl0J5Y6wMkZtsXfbie*+8u;R zIBr~EhVzK_8UnbsVD8`CEeL7LcY-R|AhT;zjWDSx6IU) z?7Ituw*fDiCAqA7+h)tXZ~^E*$lKsMl%y?ScN=YoIMC!7XmF6)beiSkFG8lSB>}bS zIza*~-vMN$RQXAfg6iD}E>~bR+#H{Jhaw1e9XXxciRn{ZugD@1YrQ-oESlZjBQsd(f|ks zfId$azo5(N{R~(u%7ZvZP|iOH#TBw{$uNM++xDpT)v$L{aEiG{5(VH^!=H>GRCH8{ z9>fgbv=wA&lIfnmx`tf6RhGc@(+89Z3j}8kR5t6eRe-W!bnIg99BD3qc2+yrG*Mm8 zcpogp*59`5uNWXl%U}6pxaisbhHA|g|Kc6*T3G0^4v;M8g~%2< zH@XSo)a9afy9`1*6Z&5)opoH3@B8*ux{c2 zqr2JYPN~riqXs z-XrfhH{T?;^H<_No-EIa{mDRh0Xw%M)R z%C5$3`$XD-%7(6BhV#7?o|V!#Pxs6s?@&v@n>PQ36P_?qSkwKFArla(X&cqMbxMrQ zM>QeP{?w;EUSq*cY{iipd@4bymdG2e^NpL+{`vV`RicR=!gxBszzC$I=zGCvRbz?v z)*T`me1zue(;?`rEe;Or0XI*bD3}#y@aB#RrW#p**4N^>BbW(74+;#Vw2s**CWyB! z1$uOxYcO!%j~A-=b#4lnRShK8Cah&xv+m`0FX2Yco#769n|K~v!U3O}SblwGLcZT1 zPI$%mSXaJ@BaD3a)-x@5fnCn`(7bf~_ir!LF_yNJmuhgVQ1|_rjj;ASPqmlF{7|}y zkZWm><>E*BlpEiM9n7sE8!ChHGaX86sxkqpO0;VYz6H&C?g$@O{aTTItpeT)ov0BJ zsl6%^a#zagNrn8}HcF9JV1!!YY+hfv9c7?iEA;GLWtkTqH)eh*6m0%&L6nz5$+t{AM zw^Q3LaR&03r|ATO0@riF*;e)?mrc@3OUnY1EXINxtH^heniL`9!?DtJ887ek?c~#6 zn&qM!l$8H_vwdLN#I1&ZdmXx=ABCe*8+z~TbREJ?TYDB!R}4+bdEb(HMW+s*BGqg& z%9@q~MW7~EhzJtQk{FfnxXth4i7eDLKSoH}J%A%@2gF?2*)vWZt3|b*KcEjqp0i(*dFxZ5RDe6e?e@(vVDuNJNrOvV#JO-MeZA@!w`Avw!7kq!hF98f z9&r$6=I4XsBF9G!;iP$3;S+K5p}lYNy(Y{M%Q;bMg)l{Vyq6>2q7=JN<>xk->EAq1 z;zb(JBCTg!?s(556!?GswNyYDLvZ`dz~QHy?MO4W@Hb3cQ8DeB;(sb<|bL>q$D9_(>qKJd+b2|uc zQEwMJ8E#Ve8GGE-4m>oWv^-y&xz9vH$$9m#2_TE;mcQ6QNt(|FS>#U zo&4f^+RXQP9-{+l7xrI#4`;<)0?rK&bvASz@?Is!a4XO&sEZzU1=hLzCbc>}XBga@ zTY0G`U`Mc*AiCKRdeLi=$E#Brex2%#%2`5Ld>nGGU7RGQ(lP_X?8DDTl(#vN;#E;2 z{414LsW2pIzHb6GM{rdhC1Q#(csa z&qOe$wJ661?t?`lz41{dC{SxL`Vw{9_oaNc|{T=U)Z@kw=5j?YXZ1Hn5*C6FgMC{VuFd0KZ!Mb zRHFjbetYX>z-I6Tf$TTEy{Q5F12Fnv7*)|m+)o3*;jbVKlTCu6pt9iZWj zd1^14Sp7`sMe`cgV{G$pG^mKf*+#x}RMapq<^9=V`_blUGEw6_VYf-86Q!9|pkwjv zq6g^QxM?kJ7mq4hcqmVo;|bf_O}<`&?1wWDlzm(R2{Re;V6+sio?j#U0NN-`jC=4 z_VRHD@9@F}4BPc+vnS~OPTxln$xIK4d$I)|^U_wy40x_9a1W|DPO3R}eP=d4+JnQ0 z1{=BEGGK8lF!9B&pz||iDU7#NK^;`&LPS%zg3oubW)FS~^7mKxBj{&|AWw&Ep-Ho! zm(6V`P^u_dY2DtQEH0!&Rv%A`5MO?GO9;E}a(Y|4@;Qt8fyC@!wwvnKN9SO$w$^%9 z)hwm07-qh-U>Cs~YD#e?i<6ckdJ!xS8dg0}hz9>l0xwsAiw*D9oPWp34SkzTn1<

    peq@d!%R==~D9%-F@yObElir!7*JH2*l&XQB)l=HdT9}yWimrd`I^K!`k;G&L(tb=9nrg%(W!5=!e#T2QuFbFW zFI{ouh8Mk+b41hHBlRsCQHyM%;>fnWnGGcv-{Tw9>KoCYChcd_%jgG$9H1~HPI~@~ zkS1Nr?(gSSBB-Jra+&lc4hlmt$KoxQ#(X=pk|WuYwNJ@(;;&P1pKm-V=+Zp9eiC=e zSR6w>7G|Y+^=@aF#5;D1Z2_xk`(==ui)-NT^qb1+M&?hw1_(h4AKR*BvO`tjyEhCX zmKz*`oO;(7P4=O>S1jWzYci3l22|Kop;R?~Rsp0ve+HEXzHn#y3OFj=;?b8JxnEP~ zP$H@o!*u29zwrnypxX$*r}BsTmKZu9i)O;%^C?;E!*WZ}xh(2MzXbNGUxw82M3eG) z@J`k10Hu&9tIC`izrb{3$@*M7!a;VtiriW`tf_&drBQ!rj9*h2M4~eO50+ol5}HOD zxT#xl?Uzk9{hbPbzhc{4iPL*ZXU`X}h zZD4Y-$-zMUKTg`^}ilM zMi*Wn)Dsx(Y2UD~c08tIPQQ0v6FjCWVA?eo6ubGAJ~DF{dLPo%k~Y?@FhzhKCkZ}M z5Z=szY)K&oquR|gIFBMJNzpf>;vmq@i1q}hoD^3kDzVdo17dp6c6er$BHtc&{~os| z?rIZ^2Xlfl?(#{Fi-MsRVOUM>9i>yHQ|h)tiqHe)qKaivf3|7#hMc&{@B)=MOnky6 zUxZ^N7jjHqBlglOMR{$y1$X}%QbkQqvzAMt`PT5K#$U^J@rNDqxbgdQ{l`>q553-j z4KGf~Zmn>5|0#cAu>@~L3(5>3q?him*8D)}(oADL>IW1aer~04ctUs8^OOrv`Ro_o z4smrq2-kUC2Mbn&y~FM(<9!Wj$*8AVYJ1HP+@~YT&ACy->45%+?NJ%b(uh+TT!@{j zKviz$wTYUv3n=^h++I&~Lz6<*P+JVK^VU>55S6+dkW#Ugd~2L%IU)AtUhKG3m~tV! z!yY@_n^7mO*$XD#wK1^72-T5QTx1kCF%XZjXn=lOsXM*prYNd)CDf{G=>G}`4na&W zuCtxF6~pMn!2xG)j7a&FNyVf+=8j>szA##2RH*=~YxL+k3tGSK(UoEvND}2<>Iqh0 z(VOWbn13()ujxb{F=9^63#-W#OJA-B2N*>w+T8^cv}_P_)T zgFh2pW0QZ~UJ@6*t1PUc#9E0BYke6Z#_$z-lwp>;N-Ai{<>rK&RyT< zZC*6z$Zws@-`c%^BI}{v1vL46&l@Gmy=*yMC~l)TqDavW2KET<{<9n3MOaHLT-ibJ zM=3xQG>k_-jqP`P;&jisfz;R{*91Q*#B5-U?FN=Wv4lO*L|se^Sa%@NO2$(DVl& zTZst%14{`W(?>Q8yCQJzxB(uZ3kW2cadv3qL7NWQDY0j*!)7*yI}%_KeU7wp0l+3z z0(l8t1?>3GgaX+5E%%PI*THH(PkuESOnLsj3nQt@rDDMNDZw)EfgKjZ@LW%V^H=T= zEd1eZ$tq*=pz)KLH4UI{X&HjUG8WC52pcVQgx7FnrN^Bezz9%MBjg7_eEhTmxtW41 z55dGhqpN_VwgvL1jaC$iNVjDlrV?-a__Tjv>BlyKBN&10&Tzi)=KyBA?*I;HzP&p@ zXk8VlXO9xN5a@cUy8HsiN@@tj9^<}NZbDBXc)5#a)j01wsh(WKU)t9&EnUctp4%sk)Vh zVjtp(22JwlaW&_O&1xv5g@~%HE52h^sx(G>S|Q+u7o~m6(2^xEf?M)e-v`bEBOb+u zzDw@I)bW67)r)ABWe;)eS9#y2wngL9TulsdZYG4&d~KOkt(SYupACOT|3w;K_<$u3 zSrouc3FeE82*C(+`TjOzYHjqBAvlYmB8nsN`Jue+%a(1aty%^=<%ZvcY3)MKl-Ac9 zu1Q<@#}#`T&DG97Lfqb^4=awG=ciuej~Lsg5Epx-Kb1PkxK41rV?=Hr#5PNVrMzFA z*&D&9iO>%OS%!n}sgoIA=IIPc{n{&%fK7Q!5YEFNE>gZ6R6f)@I;iI zaoeMcQ$|e`@<*(MV~c8DVq|Pix)Q{!aJry;KtX?tu{37U-YQJIn$RS+tw{b zQ<%{g#c++wzziK0W*j$Xk#9y&V;pMlpzuDCp)4W-et`p|;kU!$hxmpDa%G`RPo4K( zJy)G||0f=9!t%92;LCX~v(jSZ#=7bStN^)i$}^cr_LK&ZWT{;3qfVTjH@M|UfkP0;N zwBJ(5Ic6IRf&N9wAmo8(V+Een)>b|0b3x!BRE8`rFtif=Uqd4>f$tdK{1BJSC}+lyl}xt@Zhw=5>-a-#}1HGc#Sc+j1=-n_b?{nnS#;e+{S z{Y4w|@WF~ki-vMWhMYJfG`iu=gI|uV=vbaog?KFM?9GoXZnh_Qz8`E;!E-mHDWmZ> zJzc}kZz?=W$}TxgQjh?gIzE^N^f4(ql8T^8K(IZ_T*N&>P$|-5G5>b`8=$yefTwI>Ii1du z4KjpPNn-k~G2|_WuHSTX3^n+Krbs+-)kMY59qi|1yWZ75JO|cF-$H?K2JUq|EPgfh zYtouooK8HC4*EEytN2Ch6+Jn6Cbrbv4OFDKm*sC%tgHcIz`n94PJa66bp&vIu4!G%wrws)-v)gAYs&ts3eluU!kFGSBT&FoanOYaq0604byX52!zK37{=W5 ztU$bPG`pYXhlVvS(wtKAZraYN>JnR9nJ6bvy!PwuQawYvc|t6?roOTv*&gw3DNmaI z*tqjkA}QOS*rQm>Z0>s06JiSI1kY9BxFFhfq2MO|fh-x#xarFy`=QwS+MK)%`N{jldXr;1lR5n@S;1WcK)4-Z zN-@Igc@)OkE?|?@ZviFFVRv5>lW-AHJiPqQNHi%1Vsmr)U9moGEU*Yb7{;5bmaOf& z#rOl$;BixZ4VzWFios2uR$;!`GsE4xQ9?5omR5mSRU-}};l0=S)jx9`mp#D`D=Ux> z!|^bnFSUh<716ax!lx$ZzHBy)diA3-s*KY){a+ zinhvN0X4a7XWD*+ObeO8(ryRvcnN~1umb%UwW4Ygd*hxFEXuCdyHxjvksoGrcZ1!z zZ?mh=%zIg(-k(Ba>vW{<-72bCjj^THs>UuGvC<(~i&au~%p_c0LL`-y>-|xas)u?}(*?ewZkrhIPbf91)y68%0QK|hu4Y|EDC(MjRYLhq^w@Vn>z?)&5B-51AL z4)%jZU*0D)RZWV0yWH}m4)>W-<$iGC6&p{ZqAC`}B1{wdnQC2oMD!>3% z_W=-qj6OUZvI>IY$OXr0jP^N-A#~dJR_qMcOJ1P!y=>>viTr|OWN#Mg!U zb0+?l;pa9e;eJl(BN=xP26d7C^^i#1UEW4DoEwVag(YuAr#i>*#Zcc-HhRw$tJt~C zyh;75yzXRl-9PK)j}2U5?$gtgmsj)m7K^X~{v|Tr_|LER;+=kTZTvy=mM0tGQ)L5D zm_UJtYuJRt?9@weGgh8Pa93KqrWiz@{zojA$~eS9REe&L0s381IgN8W6pRw4aJk3x zKE9eKwial6BF5jM=7B^DQ6l-68M#Ua=L%>ZOA}G$_+}ynHEM>#RJPZD+J4V(pj4z< z_30V&DdTOXVVLrxdp)rA+K?L!#-mzw|#n+?R+ zWxnErzfmpqwSB`{LMnOd#z|%|7w%zj2=TR!j5r!mIb+}c58|BJ9U_Z*8v@ZPdL%_Y zar4AF>M0e>hJicg#57X=iTgkLk-rg4qse%FZ*9)i~U^ zSAPNaM7MLrj!5{sK79lWgxn5*dxkF8&%>1KM58~Orp4z>)PS3mLS;KV^0i!&9D}CJ z>YGUg`Q4cZa6Z-3n_gDGOCY2O_$7Y$fV|VJQ{)`ai#m?`LdcA5>;8g_Hv@9qGuutGD#UggAht`2zET6goPaJHMi9dJmQ z1;%}@nv41vDVL@X=LegcYm?-2Pisok(~+qnX6nOtpiX}b2iF046$%kHzQ@~LGjRt= z*xfr?-!=$jP_B!bs3)o2ch>?Kk1E!-2i_;Jfx30iQZ308_yw~?E0(ihzc?N=epWl} z@|pOK5&l_ZWXNmsL=@KA30>9JZj9E&RJBsS0123^niz7@P(BH9zTRk>=+pg-Xw|O>47m4N}<`#&_ENi1I?UCcd0(%DmrLyu!FL zWIRt;Li9_oG*n&>hewUy*3h*%rbFaDo;>$oDm_hmiYOKzV`;1aBqAlOPUG33!qOzV z41~fJO%U&8K~UhLInbreu1&u?j+EMV@=FZCPr9kK@AAkwRIinF_{xxXE5M|zp)%`X z?nQa4nV@UTP%ig7hZNI^T;l0`YUs?VHUZ(w0K=bmbRqLw*|lb$zKpZrn7K>vsvbYX zgEwpGVTW?Et9QO|qwEf{`k~_7_utB7S%657DN9j1Du+0a5LWyD^kD-|w&{>k2YzE; z5UFbxZ1eX&ip<4O37Mk44{W5Y2Wa9*ms-!qe0%UafZCdBZ={ylrOY$K3Bbs(n(f;m zI0tJnBj)4psf}@cebA9Ld=-a5lG0#Jiv4KhfOh~{1VIEUwXf>a7cnriAV2rKPUpIGIpQVqqg;M`(o3iMGc;43NdUdgysA5 zL8}{T0N!yeX$R)Z>=XMvt%9vI70ZvuhQ z%&KClbKIdu+I8XoVeIjjhyW!6prU53A{B?>3fhCYx*Pz6J|g_^MAY$jfnY+5g_^=! zbR&3aRcyB5%gG;G*;7F(^PB7W(w66=6C3M_!C}RR1&$PYY|F%~?=S+N8Q}g z3*^}AN@*^R870UD%5PmO6h?wUi48wKE}^+!zxp5u+V)#>y2&#GNZ8zHw_kHEXK{Qn z0hlHbDlnm!Uk(DuaG~98h(Q>~D+{Be$FI43@-k~>p85AC^Qt;nC+JtEHv=~(`O>mu z^wRY|qIb&woJ-^$uQuCP#=4df1aH6h64vpC{9^{Xm1EHF9`q|1eP~4Ams(&ELM+HOO@IBkkb3o-IwEFQ+znu~`lN zwS(8D7VQ~hC0Ks6CKkffG8W{K`@P;|xqPA&)U60w4`n^BdS`j8XI~N}oOu#S{_mD( znsd)FqOj|qNwQrj9Jb0W@aC=Zx$5odKHb_0E(wN8tm^J2;LDK3YK44Q!&Yti?#r?9 z4EPps*ls2SI1mVy9N7-Y#T8um&H-N1WwmsCMeaCaMkM0F78c9Uu*nCCVALm)Qs zD)@@Bb>>WuL$)rJpPqOO#83}7<;vWrB*WrZv@Z_7ovF-Oev#nZ-zG&8{f%n{1i*e< z+J0ua(T)PRK$90{LAYQCI#*1eZ2+EQVS+htKS?18UzanH$Tp5_qfu1r)S&WS?Kvft zkFnGJ)LWjb7D{*i4!)auuPVrH;?LRDN-$K9gVXlOen(7b3_t>oZDzXfu&kA;bTk8j z{01B)f0nHe!2=9Ljxim`b6$w;<#~G0VN_8z7ni&+EWYMikkb z;K0GvuGGGsy9$levZk|x_C-sSJaywA%QayueQqo!1%Vimt}XTV&zXq1H2@eXIi2+~ z=YgYYPSnp$H@@>6lgv)G1F4dVzFWN_MbxqplxXpjzl&o~z*zrblEZbtKyeZazdaa} z7AYVEx?zAe;5tb@>Ym$;tPM{{km-bkhgwa>gsdp*4k?@m?}NKSWfi25B|>e0g)VQr zy_qIpQwKksMqPx%l}s)&`qg3^C{b~SdHn^U$^ia&QGW{{%$gm#5=@88dOkcMRs_H< z2!ATA-aDgsp8=n|HUrBUBCj9RK2;FwttC`L*7Dgq%M0p5+4)ZPi}(3Ki!?M8t^(^f z)IbFTq0;{hH7ll=$s( z#X?~fn`uRoh$Q)=^?50)&>9;+h6*@XFR$X5oKqDJ6gajHXI?a1>7U@sDy`7^EwWa1 zl1lF!-bA!`e{JUB=SyeyL+{(ePA${H366wOj?vh&>i&ibXVDi**gE{)Fgh8yUMfyx z0Dxm9^jMq+e#EW9_rvM)Fuy3LQUHV9wV%u2JI$O8xMV{3`!?d*M`B0%j@hMC3j1~$ z0?k0@z>VdYUxeQIG2r7Ds#%_fZb=JJtr+A3?KSAH)3t|HfA1_T8<-;#!NXH2uxbpW7Jf+WQyD;Xjx!sj( zPSm_{Hz&nigZ-07TixB5Nj1@eLZHPi(sf}_x}jZKv25(CsL|7<10kC>`=bW@3exna zM*?37Ks|gn8vlgHsSs=uE){}&&71#KLT{D@Zvt}JPjLyuJo0bpOd)bSq%Q)ja$#j)TyQg60=>e=Lcxp_fdk{Vv~1>uw@M zo!8p0v}(jkN=Pr``v?)iOyae^CROeHpBXm0&v_uTvi9#{p~hKU|71a)vys8>N~N!D zb~&}C3au{5S~Ncr%}#@YHq~SbVhnvu4~O(T(DCMb%IhgmMppPQ1U2quJ~6VYTD_Pd&B1zi~ty!jog_GqvQ`d zTS<~E`dg3j(r-SqWBR&I5lnFG?&lV)M(f#*i~8tPd-I*MI#e_}Ikm*`M^Y0g2tA8s z%05ZG8GMkEoC#PqG47c)afejEi8%IM%gc>|S=_28!{L6ql;-3}tOL&- zOI6<2d3P_xr?7H8cK1H8fo^DUuu4#efUcPVE*#NqlKcKF0j@m!Z`U|uU_7|x=XRp_EJbf*7rK3(B`eZd=gKyePoi_8YP<=? zz#B=NP-yL{Kz5&5rLKT4-n7aNF+IfMsd4~sSvrhk&qb zaUqO}7%?}7Vx|{qw^aW~&o`;>GD1>65X z%E+hwkA)2T#@LCUybO6}wkKawe`tU76>Pq#5ZPnFG&~|Ph4Z54&G}BW`^Gevd2bYQ zy0?rE!hn##n=PX<2k?XnPd##dJ{m4@V>jp!$X7dJYj*S3&IF`!BQ}2DZ|wb6$B!e! z1W5g@JZgKxSHw?#MH@F8Pm70Sx-}s&=S)T8A?s8XZ{w250 z?-=sFFlWuRX%U8|3$0`Sb^)>96#^t;eAQ5+1Awy`CY9hW32!sM@E! z{<)icTP(GMgD_zApx+s7{KEbCKodWAb)0)l&M(qldpqg8{^@59s&z>AZ*BRETaXM~ z%v=4j4aCcmzp93;NB(?U$-xoOB&;oQruPF@MB;HX{Wvcn1ztkNdD!9qCcpH(b@uS{ zd3ed$?Q(soJx$Kd&oH&kniJh$bUr_?Iy_l7;;>1d4y4wrH~Ke?23z69Oook_qp4aSlpiJASae`76p zCD3tUfvt`3;H6=@zzK=P`J&%ujzTN80XmHkh&qziZ1K({Ru8bDueo`g&RznZ9H61X zWscn*wy~bYeC!Qe8HL0q)BGm;VU;35c^FS5XGI_%=DeQi_F(B(pX*iKkeu&M9`PEX zadC^wJk+Y#`-qq~?H88R=PhtonQA+Le+Eqkg_A(R$=Pn7i`1|CRl!|Eo}k2*W_(1> zi)p^@0DD0jO11k#(z1`j|D0V_tQQ=h&i+uRc+3p(Y8qdy=vXn+K;8^JC*cz|g7sESrb51L1F+r40O zqlsw`gY$1OpxbN0*iz=pcfN-JBk$sd$70?IX$Og%x9JP3c>Q2tR^AY>oC>&c%0)@F zydi2vom~&yU#(gy3Z?K8;^)(ZWa@wB8<5MiHmRR61L=ht1^~X;NrOqwXAGa9g}A%z zi2TNd?i=p7qIpN~TMk#Nl=uyUw3A7m=l+NQ66EJ)1=ovcU4P9wK{=^y#l~!biZ61_ zZ$#_o@!Sz*y##PUkLVdBqqKLNXaa9!M|N4hbnC#>{-lLwVp?apS>W)Q-N}&IxDZ>~Q6(wzX%$qvV1yr@d48 ztIqLLgBKT_t#E0E3hK54_#fpMXyd=+b}KAZaUh)&2oNcg(Qgu20V$qtoiB|6J(Gtu zbL5&-ol2ZIMXbqW1s#8?k+qVr_E2LN&1Un*VpB96Dw`}E%l2Cj!5?CbkRR+m9~#e zDx9=TbdV%1E~8tGvR}Nn*L?rvEH)HxW|n=Uu^5Tw`D(-la~Ou5b-M@ zcc>thM|dY-_n5wVrw9!?Xrnq&eaCZe2AcN!Xev9`k`@AOSVPHC0?`3!aKn|?DGzG- zwY0x{Nw8!_#9GqAGZH8KLSxS+Ew3XHDZ{n|j`j~fXGKSY<3B36#zg2;O$Lkxem2NR z9Y}9;S`^aLqcTM#czV@jnW^QjjVpw)Y^&d}6GM2}7Nf}lN0rxeaYB!cT(8tCi1>>Z z(!GlWG#60ZYMf>d&){QioJjWR-Y@+Xp|YF9SVb!{a>lr&skWES1HCQG2aegXZ;J?} z7wydGkLs*Lyo+gKjnM5RmY=sGT=YMOP*o`jA@IxbFNx@Cqk2EBlVN}%Mi7b=!qZ0Dka0u zd)aC3(DcT8t@&KFHJ zM3WXyRn%9Gg+0fyonsRw9Xs@rB0NeGnZ6MHT%4kQ5J0EAxxaGnY5o&XY#-R#@*~E3 zRFf4=#3V%VyDi~)7y`v%O7Qp!R@$*E#%=B!U77dVc;h;*2I>?ZG~h6N9vTvKr+4Uk zCpWT4JZ+z{DcrBN?D-+KHgAaPu8F|``D?&9`a-ZB4R=}km)OkFfD8S(pP<}MO=B<4 z9uZI%t8kIk({YKUZKGzc&!1Zh(>WjEz_*KH+KJN0xk4V~a&>PS z4MXMYDAaqF*Gtju`cy5GU%f{Z1zp^by8G6CZ?@k~awqk`=Z@AP`Zmxb$Nho&{Dmfc z2!zb#9N=&6E1q^mdAVhP1x1(Fl96^glp=>tI&qLhqV1x*Av-~1^1`l%FobOQCAE)s zBOnMF5V=*ka`;J0))0m_YSQMrnJ+CDDKcqe^ek%k;^756r%C(EeCnN~nNDBi=M_Ec zOcC+R4qptTSF+KwWoGjbIdkD(fbd4N;loHix_Dpw7Vd0?-}NwXL;d2qd8*Nc%JcB= z%74Lm#5-3GT)84n4zK%VktU2(^7|6tEQZv`BSQ<_Y&qN7V&TR%gJC@9}>E? z?bmz9fNo`d3czKU|g353YD< zfc1mVAY@DgH(vhgDO^G{P~B@`3}0Ysc#rZ*BU*+0ka_$kcg17HHZt`h!P|Qvch7-X zH3t7hO<1mf_F7Bwx_g!1z@aB4p|AY5D*1p{cd3SC<@M_^G*Bock$G7$c#1o%Jz}SE zY=Y3p1TtCi(D#3sH=)qi&zHcVx*?kvEgCz(_>!EEx{)OLVG7AVwyEL zMRj~QSf#x$m8oyTNB{NZ%${(=sny?N6?gf^WX??fh*H%)mfG2Lh>)|XPQL1j&U&Gs ze4BvAFcB9ZWnpZ1ux|L7j{i0vaTx#D0uTd@13;v1#uBur?S$`BzMj}%3eH-A=!Cr; z%%JG$_F$te?$Hb1%7&C2$8c}^R>&XGd^!aK7yWC|jc1#M{8o6^z+IK~fpOi|#Gdwy zvBXy(#A2<_Jp5Ut!c6%8>Pzx&Co|_<=w=Jvtrha-psrMGzj1E~fzM{D{O5S=mxSMX z8~ZEaiuW2--jsotLKn6ic;_k|Rm|iVae1TiHOlD_i38;4bVxEUlsCYX?M1@_r>b(i zZ2?6Uh7pH<3=vAGeW~Bg^&@TI!2 znp_BjQqDsk7Wps}ZBG}c3bZcn*i%8hy49&%+#RxVE<@XFu1bl#UL*29sF8|vHM^as098l{Re5<~zWQ9u zgYNT$Fd@KcyxMM_Zha*w_ZP^P4`1#bR4!=YzId>rKNLZTBJ*&Gs}X>l&n^AG9YH@5 ztx%WuPWB);*2-ox1fdY3()Q+0qesR&ii%-z2XNGU0fZUVQHt{aS;DlZsC;pFtAMwf z?r`9|J#u?!qU+{IAWbBR+heDk`ZAp=hj&|=PG&p=JD?1O9>`tbv*V>Wr^zjoY7h1H zHx1_B%v3>AU+AR!e9^V7pu3TJA6Qygdyj6Ds~YX>$#z!?c15Lelveq5ft>`JRs@vY zFAZ;eClhK3!v}6DN5>_fR{r-6=}RmQydoBcE&;;q=!X;8Hf_WN}((uMUftSQW_?Q?FNn z+dn(erIi&-qQ-}g8h(oL344?J;1EKQVm>yIl6m(M|HZii_Lt^5Etn#FL|!bbm*}?L zcm?J#{bKF}r@ch^g67ttO5&m-D0RLJQhnp@1I#jR;ba8qYgxa;&F9MaMZa93eXBL} z=2S`|qTo)_AWvOm{R-sEXoY`&&}An7PHGUQBrxGlY?5;rzcC25_OQp7-E1E13sXNN zcpX(skC1q^U70roltHfe)BbdkyAEWF&}E8{$POtBP3=0*YmFZ&iC~o^OlWH=o1ThQ z*Cnte96Sc!6whQ?xect5C(B#G()c%ij{+>HO*aqjbEaK|Q%Vu>LGX2YQNDtp1_h$Y zoA9Abj+*nna5z^bn?T9(zQFXC6|07=rStFonjO7b!@V}{9Lcxit8Xj6+;14&rycZH z*#Sm>(La6v%CpRvF}O@#eRbW2rZV2~a)^-$?>p5v7{O1JIuNM#qb ziepRT3J3H3ZSKV2j9=em?bNLNXamSzcby0+HKa#n%*0pb?adZse8+dFL1k*7a)O#T zQmg3lp3#I)wf&SGaJJ*S^GCmURjlv3Z|aJpa!YOaM159y7nM95S}M7VH}7vpLx!+p;yESLl%1 ztZ6#aB0eS+jO*Wli|kHa%Y7(`#|WV4nOkXavk#C`rT4KTz&nrIUz}%Qpg0*E@`4x+gXywx>3{yhJ#2;ul1)LkgXG zGJ$oOg4cuM*xT1^KA3V#1e_8&b=(W;u0HtJu8FkupLm!=vDIE&DdLhKB?@3GrmwVb zxCWhLbDJvVsq0=Wq+&t6V5kytFo3GWV?aEmoHDxQbq(+r1qXLhazkI~`l6!`EUC;9 zjLAOW_m1ypT(2jbi(vI9SZ?UA(5KNL6;59dBZmC-oj@_S%UE^zAGk{|aN;X3Qybyy zhWgmf3m;;QBLS}-2W(R^nXBe@1Qx%hkbzIVhPCRiGhx~=?zCmsQ-u{EngfhPI6{A6 zzcc828R=A7lY7r=PX7=6GeeAdQ9mqrOZ?}RBfQAw^P7-FiY|UB&V>%1w@W20=(ieGDtm1-hSq`t}a#K`9|Eq)gGF<-3Be zp}mH88K-!|Eit=rYS3^uJ=KoZ^ubq7O?hZHhL?Av* zkGD`5+kNH(Lwx2-IeZeM4D)x&bIF4CypkN=9(QI21=x?o!WNAY6(>;d)|V1-r>baE`DN z98^fZk5|p15mcsnlYG-X=nVLNB)6Ib``iei{Z{Fx10oC0D_Zl!W8+?gL@sL$Af2!@Ny830?Kx=i)DZBPfvI z2)Uw6LFRCQjP95#vn>1197J68kI&HMS~+Lo@6v3-{qLh??PVqLXgk{+z@pw>*No&i zziP}2!u`gx;iN`{x!Mg6TYX9nR$0{_zg!4nLK82N9@zl;?JMc*I3Pp9i;i2zPWE&s z<$x`F#F9-fe)^i7)?*qBUgFr4`i9OSS_cdP0s%Dxwd1ZMF?gK{ohHdX3Wk<}t;_%8 z1CKozX?>dsVbr+win;yCNMX~%FhZBydy`E3>G!Ek#auSE^y8_NWbr?OPhTZ8Gw1Q+ zKL2UGrc0|8TX|aiH0*lQzdHI_aiZ(HCNiREO{Uo?6-Pf;)A$Q-_o&z$Y*QhT*KW}h zyi!cy8l}`q!tyge*)CW*R9&Y+Cj)vGsnrUa@G)NpXvgDh5&hF;^Ny5Gko;hyK1m&tmGzM(%g{H)q><^W1$X>dd3 zvdvX6xcQGaK(n8bhHn^Y|DTuN(b&vi91vkBQfD0r9B+CVNmGY*#zlEEDjDe`KH5w1 zd?-%6&;80i&*zoMtZVfQJ?YkJ7zE^f~r+&k*yd(CUl zMT7+37-*>k(U7LI2^DP-56gmeBItWuz6SVFn?o7-I5~wY&b2$SKi&`6_K~lvV8T4V zN5=)07qWcqLKKchMVYLCA|60*T=FRrAzic4Tr!geFJWhaJ!UO-5ls5eB{w6ph!*Ab zE#A2sBpi4(y#IamqGJfWGuZ30{A6=yyI{e@dYv zJ*oX_c&gM-QkdNon!Aj7!;QAs1zEl1!x!#OmkEC2(}+6kzzoZnU;s)RKUH-Ox4ZFcbAt$dCEk zy;SZ~_tN*QuiPRU|2{xn_9@d#Ow|kD15Z?a$3u+C0jV2eEn~w3zQ2Naz}$6ZUIq3E z2@L$;tY10F`7ye%H?_iEg6u!>{S~11Cp6L%3)medMz_P)&7I?L8LhvpoQF@*%KrU5 zZ=>IMSyZWF9U_Au{@wRs?!kHbc%wpZ&T6A>5BcqrCE9;)uZSj1hA#zh791W;wjO@d zvz-22Gb>l@Bwwcs3Q}QQ+lIVHQ{uS3QBAQmcB>c;Ji#cnGf!PT)?QARh<{i{614S~ zR&Y%Tcb4MzY~_MlKk{j2De|0&v()Lb{DGa(w+!8G9Qz0L#OC^*Ji#&D{HiYyR8E_IIL;4zxmLD{A_TT!`f4_zcbL@I;S9fPFS7k?Bs~ ze#EhZ#APgT5814XfA2mkq4>~AsA2g<-0^tZ&ro|>7u_%kZ{e{VfC`!H#MVcc3Vr<~U*z_t$cRkrfRwRgywwYH$RIAC zXY&=y!f&(f|3LIJrJR=W(0{w?+oiIr_@3ww?tON_m-$E4y+q8X(6 zseLCQfr-+KW*vX$C)v_`Ju<0fGO=7v1idvdI0OB*Y2O;Op}+M~oH7aVZ#|QNxZTK3 zBP=eXUE10W#KS!FQ`IdNl2s{c2T{2;vmuugwdl zWw3IVlQl_mmvI6E%SY@#ymVR5Kr_%}*Z-^2kwOdrsDT(h?c(Dwtjxc!yZ8{kcH(`;ia~4`|ZiAVyeY zC?_uB=eFRK3tum>E~~mo2>7mb=7m>s=JdO`+a26yWS~a(k5-+}eoqS%_)dCeW@iJu z{MFnKs^5j_#P z*g@GLs6-df;wc&A5Jg8NY5DGd;d|oRMgNYOe=6aQOYi&t@hk5`Iy=onP@G4H&l%t` z!l10=a0R`l{I7fb3N^c#^RqvnpXrCj>8E7Hta}48r%~c7_HWC8fzzb#D{A`4Czzl8 z#&%1qLlTn}4<~!naO`TuzyM++{%V`}#fOs@A*PEDne7_}>b1p=KW~TDxDvNJm7>Kc zc%NS4teG)@(j-nujGXq{keB&R!3JvLt}b^&jZU97f~;93rNfx-TKMV1Hc0VzxSXi_ zzYL13I(FmVU!>XXufufPFJYT;eyj+adr~|gOE45`@HD(+l{<| zAQD{?!s=(n;Z`RyQWI;;v;_O|XJUXbf^UL9^>{-2+)&jjP&9iqs7ZK#Olk4$4&AAr zHfO@{^1K*-BpK|AJB^^$83^-=j%XU>C_&!EQum4KDfWa_DN=}&#|%u}^Si&L>;TLg zeLo54L?m6ktMPjo~`!xMUUa?UVN7GejyY2yi+OQi&J6wenyowZdwl;cdt!IonvE;AcR7Eu zjBof`Hou~_i)L?UWv}IOtuNR%fA$4S5)%m=*8Ubu_$|)7CMXwOzkvE_GyYB9ayF-1 zB$W7P%9|(>nyA(1!vbm8sZPBYd){>p52Bu3*p^EcXU_;ZRu^|jr-m+*BPs(-SN6KY zWv2j&dx<~G&^;915XatQ$sg3F8~8s4&shc0GYz{fvkYm|E04r=eV6!lZpiU!Fl(l( zRaU6Fh)mD2+dUf3-6qn!`hP>+Qs-m>hL*btYul@ui(Xl=RE?30UKJq$?1s{vty>zY zh-qBjUSjw3NQJOJ6>GE~da8B1p)C9c?1N0JOPp%tC5yX*4KT^pJd@8S1{9RcUiS76_J)@t!SDVc>ETj+JK|GA}Qohq%ApH~$zDW;f z+NWV+j;ngoRx3JWbIqqnufI)_vwl>~272mV>%*5Ue1snxf*Ti)GYkA?v<91nJT2_h zn*o%j;^3|PPm%yO9(&ey9m?{kXC?h3@?iNWMvl)o+>MVcs?n-XNY<&UtCT9_mJ0?D zD_6rR)>Ht8g2pZ<@&^YtGaGqB+Ht-ypuDP8-Rk~(WnJjx9z~+s+yhtjhEKkZ00fPc zt+QiX@0sAHK!hgf<|GqCg$A!|{AuXoA9wH-8fU9}46&jiP@PeV_mABw(Y7A)Yz6{3 zW1;bt)bS#4Dw#9h!@;=&d(<(`H&hz-hai15@ijnZ&h7&$X?I=G_e#1;4ydr6fO8G^ zN$1>YVK|j3h+<~|$pU0WgCy>7QCVpca5$Soy5^c?;lX^E?c7o}@>S44T#Ei!+veA# zJ=F?I3gqMP;xc|Bb2i{;3+d94y?EvDHLZ}u1J6}Dxgu+PwM)+s*9q69@7)_0=>=-24aBJRypSwe{0m<^lr?SNr`={bGiEP!<%MF6*;a@kym9prSx zV{OncC<@2Gwj>ip%5#uE98)Trnth1W``$yP>Y!nsSQ*}urH zqB9JW{G&PW&LhgHgrbf*){X12=A)7cU1ey}1-4N+AGBuWa#Mn@iCveTFgIb#QRc%(8rzCKDE!0oePcIz20Zzep5U;5pLU;=%Uz2>kPt>p(sW$cBDatFedZAngl{afyua`LWLpV4*&=h0+JUp(h~ z&yi=Q@uzN(^83*eCXlk&yJunSp`hq?;48DGLEh8qKPIyG;=IW!Gc`&!Gzfa8JnXK9 zPVU=DiYB>xk%SYSbg%hXE64+?Z=eHMyfYP!!GS%(qvC#^M|_dEwqy?2U^Df zFLSv%pNs^Y-pu;xxyx4##3jX)iiV6MMb8jKn@lf`z;lAU*;OD10!v-G`5BQez#3*p z%~y9kbO6VF{NCvzHc>A2D1Z0_C!@%Ww9?sNWX#~$;rjry9}|gXBeT@!|AyQKp9MPsGL|(U+^O+p zI12=?ShP-umu_l6`JD+oKyOt<3rxjg)Sd6IYIQ<04q)yGCdfP=6T7!$&Yc6a!E~RO zw9x$DWF6x5ZXRr)jdM3PP!-zdi7A5w+&Ih9q*Je1Ew~2PG^y?>bLB5Jk$sN#GL?HR z`r%~fG^MAu82cP#3_s&4nH=RFuB9GI5GsSwz60DER=J~hqHcH<-A>m*eB&5OH+8F_ z^>6q^9$%AwDT98z>3JO6)e$IK1^^J554d3PH1_<EoZXTb|0lgCGkB%2 z#MhkuQAx`d0j_25r!jNnRFY?($Za3zs;NOcT%e8kp0 zAlLf)3aG9RJF{hp0z;?0?Hb-tdy?A+AsPfzlQOqB9)>Ie{-?#B-)(YeRZ;z`-Y*^s zC)IeQb*&AY&v8Oo+P(PDYiugIYgb)CFz<5TeTHZ@(0nUzREA4B=&fZR7^@Zq!8G@r zh!Nr49Kw2Y-f=R$+KjyCp$UFfUjGhHg0>3+S zb{|vo8CO)nBLTS3I3XZqbLy}{{*b%6GL<1@F$YFkHLGczo{vVal1wqnfNuJF@4&#z zRkAID&1N!rEgx38(Wy!UUf>)vcCo`95?yh^~Xu817BUV zJ(zX)sDO`l5DM)bP|0OKk=;vd$PrUp=m661aQ^4&Ek0)ooo0`$2yVdW!c8yZIV9o}zCrV74lg@uZ{obqRp`Ei;UiTrvM0 zG9q~+w>urblic)FLbgcvY*uCt86#|EZ6ZE>6;uP{-AJ~yw|vd^;o~mt##v}sM6TmX z6;UtG^0&3LY1BQ_&1Cl6P@IJ**W*Yn9~}hB9!%R9cA8HLz6>RbV-x~8=jDlU zKR|F^uu7_6jwe+q@E;3~!7~gkh>@c#{oiEuN zq?!r$C(?Rmm+gU`T9ItmWdlis#f1U;$;cWLK(Gi{xUSgN1&Fc#sUbeMj2#p5W1i}! zm;-o8ZfuHa3aTAHH{e*{gqw;YsKuxE=a3#~D~We~)SFLpm!}CWbG%2?5$)RHZAqi( z1S&=u<7!*s*`jt)Gd!@VE7WEpp-LuUL*&01SIArMq3P^gj!o%TQ$7HtZT9$0q$H6w z$K(`aG=dC~YK|2Y%`Sl*jzbH@B^8C_n&2YNPRMA$5e)d17KV=4W_=p_wOtk{1VJ0m zGvRE+%L-9+jDQ*&dvhXp;pM*J-0s2$Xbm0+sPD_jl87`EQ+ohTHH*BVqauI>r03FEih}Wm3c* z5+6X0SZ*B+C;WyLysRK{(K1w;VZ{(!6PZGLAz($=OoNrAsk6QtulZTVv%h#%!;S&u zr9dDKz&?a2TVl@P=P|02{hOf)pJCr%I8d>NLI&n<4~F1_cD z>;w@fRxpn59&XtQqEYH^dYE#M$myWOiWnM8Nst2oWk#bNq0pHd!o=D>wNMG6JQL~$ z-{qqujI?ptVxwshYy%-^zj8gRR>W45`-mn3Qt8CJ{NWV5;__!(^Y*$<2(&@DhPU=1 zVDDE5?rT4wH1)5;E&%cc5#N4S*w}#b@I_4U60+rz(=nV zdS%z0utO;Ea%dQder!vXTG0Y;vS4L;myUOj^j&^H$9w0;f(q-Tu-tx0i}XW)mswV7 z6%ohkEy%7H@^>pg`|9JLm=EH6$EJ=guEtR-geK*!T`K!-bd4t6T&l)gmoRGHXPxgB z{_x0qB=_#!R-5eN#j`d+ms#U zQf&MPLsU=W^|QoXd_uX2+0@X#B4Y{NmkM;PXoIRc(!QCS{DWA6x!+AUt2OH=G(YRm zplOO0AQu(Q2yAMG-v;?6J1TC?jo(|mr8oe>gM-L;mW2{HHbICOc_vuQDRDQ}NvceB zv5IRTmTZ}c)>xN|#gWLtRPJ8f^3n1oZp?uEN`%UTkP;+t41a9y^@)5DFdQ^huQez5 zK=D1kr1=yC?$gR7=nnEDv9i}nPWD4{6izqYq--62GxXLu2oTbBu7H zIO{U(W0R=KuuB@nFHwTH%*$3xcrO1PL9f~|>cZs_@9E`dh}^4$b;Xz zCGW9zlQVmEUoxf6>}OZLr&_3x$Ugr-tDV8H8P*Mt3h+#LSFy>Q52FA2@A)KG#JC*f z=7;O}pSzE;%|)??0!pvbgc@8wj_7$3hpFZh*Pjdiz57^HBY|69TK`>8`av*n&FdZ( z$LJV)O8bqopekv;D+F1e?qhGQufJO}R=fxCTCW;r7goNhrXt?HTaWt_QpQ4E4E?h} z(d`hJu|CV`}Rx^Jn1QHB8h�I^Ik1S&CvdINgr&Qcn+zt1R60F z+b6hCc2kYOkyr7QhDxrZJ6mkK?|S{W03_x8(&5f6{O=7_4Ef5%VgUCnTi>2l;}Y9_wc zsMB=JOFlYbTV8O4Qs?KueLxtUa*;e?RU3NrLG~A~Pwy{Z#kIQCI0b@;a4%-;d>aU4 z@G!38E?wl~LZ*F)Ht+mGsx3(9#NrMJr@FvxVA}QX4(hsE;YAx>HBL1hRM6+=S+}@1 z9L#NNXDN8@d#v^$1?p$iLakzCf{@|?{aoR%G9SC>A)p_7+7AIF9mlwvp18d)ozqEgj zolNg(pMao{){C_qh}!7L)>}8;cw!6npoWyE75KJwWyu;G`|edL%0B*;aa3X^YrO6z zgo4g%j9kFSL1d5kW;QfT~hI=-T=w*zk{d5Ag@~TOHNvddacp7Tt%0{U=FF<7L}ul{d7Z7h_b< zOXP9)1~Idk{5>AU)*N&R`dAktUD@BC*yti9LWXQ?Y2JoDQXn}*-Xvzi32bmSW|wqX zh&C-g&rJ^_Z=%xPyx%rn4$_qQsIPF-Mqe#H;P`0rrk-?P6~@-bP}>i7{+Q9-GxEsJ zaA%=lxwIm!=9*@fY9jBwmE@^tj2nUP)U?H4`X?p~0?VHQ;!oQi1{xIFX97ow`!smY zwYUfZLK|;to1x}e$2bZlGOJdx;!r^O!tioDIGLO*B>e%6BNUkIDVK3R>E3X3T!+dh_4_B%Ksj4O^p$OpE5G~)Z^9-;- z(^;gJ@#giL<1g4B1n56Tc|-(OkRXChKtY9iISb7lon8cx|4vZA3kJ|avvU0t^sQ_4 zd3z#sYyUz~*mH%85H`1iX&-0k|2_tlK#^&MXc-*r1wCr%s`2ws61fJl>`yAG5;EaG z602ID8L3`M!%YQrD{xDs=l`n((y^r8$I9#$S3p<&Mg ztZ(7{9{+y)hW@y-Tt}g&fgL;L!UxVT@OAB|Cu5L)_cwv-mMMZmG-O!WrB{V{qZ2F} zu-f~c;7IYETeHWABm6w&@q{DTPozrbKOwW>Jb6KI*mlx04Z?~@6&2JaBpoe!? zUMrT+g)CV>JT_3hM&7onCM}kGX^(QY0gVgUid2y5I%SmuUWaHkC?2;+!|U(q_7)?g za<8?+RD?i>@t!p_La4D9PD!t)j+{fv3i=Rv#%o_U`Z}Ci;RAuXjdXvYs0xEol}z|G z;VIwt=6;Xpk|hY#S4R+S=wRvgp) zKwTo$CqbZKqA5S)*a21w%X4Bh~&fYXGmf2~V>-d{#c;9aDHBu`x95R`Gm*8il zsZV()K}%qiic>-_P_D%Iz10!$-*VvJ(8NMw9{#|M(0mSgbn^*4c;Eixk|dYh`KDnS`I{O)vs+$x%&j#qa2a`%hSDVWVCo^nk{m~p+4nzvlD2ZG zh%eftksFe!3T>B=&2@GRD5GssJfQcQs`lc^_}d)T z=d+l#vDc7&!DCPitV`1`90ViV;Uu3J%jKr)Xmv&Bd2iEm4xr zPAoi#!TWdKr;6-vyd?rz#G;!d02T5 z8NG?lpM?d86JvPV@LFzt&xl_{w|x`oaZ%5u#rRX^R1yn;VAnEu zp5L^VkX_vM>oi=d2g842VCDc>s4&Z1I3xm=M29_r>BB%kcZScK4J5ZXfIQ+1EU=Z< zsoAl&|M)xZ#6h|(CUh{uluGYY2-Om)o8?i%2QAt3p9wk)1gxEe=U3+n9q(Rw(8VB( z&8WoVife=?UPg`wWM%c^2=;W~WpM#+3L}h3WjyA)lX5B@wZW2oRS6u%S(#7wTu418 zzdzk@@p)r2t3%kH$beW4IS~K;e3(a`r==`X9g!}*6qi(OB4sMH&~kr%!c~1`?^M(rmEc0aZ?^S=i%?_aYQ6A^+yF_*3CqZL}FeWJ`cQGb;@lIKWq=4E;DY4d# zFEE}BZ@shJ+bqBzc}9H9w+L`Sjik_Ooz8n-hejx? zDEYgA&?SE#P6oG53ptV0S7@^K4SsOWXwdvAue(R93!giw2JCCB%a08oxoa37`q99i z-bOw`aj1izxJMrE%DYTH)7`MJ?EvtsGkDz1`FoaL#h#yjWVBv?z57#$+bwg6!$u)s z=D^`j1kvbs-(9(A3p_^_)IydqhR)K&;Wa4MuF|o`0q*;|ngUhr#aL_buE!tbi%Z;v z7ECWJBpxRFx#$$vPMp`|Lm1jn93E+(^>1AGIhc!sXw{#a4K%5gavXp(irdyOBa%ZO zNi{ZLo|Q&uW-B}fGJHEuqWzhX9@TyEC+Y z){mo?!0Ta8$A$KY>2V zamM?ahSkThzgMw8_lRgycxU6OOaH9YQ;@AaFMvPpc+uuDsWzJzaKve^HzhlTFTPv& ztXM<8{w?Kr(q`D@;vUqC<1-j+eQ4kT(>7k0 zFWf8toAxRV`@j7Rp&x(YsNA*ii*@ePX~kMz8M^%rNMMWgONFrT zlNd0Pc&)EAo$Xb&3aHoXw8w!TX#evQH7X{#N%10SmG)x0p_9x`x3oRtxq9k>aWK&>_zDNhcY~OpJJA>|LcY=RiDQb77@+OMmB)I&jvn^$Td4+^W!8YmNHRv?*H#E z2vS37{#)auX)lO@C|y-Eb@11Jal?GZr|%JYD&Tw1d%iFuoVSe5(+e~mNW2(Sp-c72 zaBE-((ZciYeNOYL6jtgMNc2DQt4s(aso^;F#O?lOc^1-0oGGhi&$ZjKCmBAG0lp_o z8{NUregC)~m^d9Q(m7%;l;iIaw;eo?-QBXk-kJ-M=>8 z{<13@pZnzyreHRgkEkmJbFCFJ&lUA*?jJllZh?nAE)nC%(zzvxpAsSEr_<32q(2x? zc2iNNUYm?tSyRWn{D5?%dVIXUJAec_^4zP#j0T66tYGzpz}t%S_-nvu|MX`CFaO0q zJ-O=uJ~YGfuW_R9kb!UjfI<+vmWELVNsJ@`GdU62tSsbuK3xw#TdRtP8gubeqr2lk zAhekkRrQHxb6KO=r3JMu8cHV1HB;Z{eZ>&~cX*c8kf6%WkR z7)I^yD0L5dWyn{Kh|gSYf5aSzvTTm4K~Z{j;zqgWt3dO{-j&b2r2@`{6F6< zN7zbM1F*Okrh}}3;T_k=0CGHi+R|3^X}oRNJb@zHo<#}wI$->^4uA9JxigVNg)DQi z*S)@qr!&Kq0a%R>8%h5~&r4XB%UZu7#DQyyv^zGu zPYAl-hTe7!ME`%#-oa*i{O)GgZ|=L?aD@vP}Y+vMk*|>Xv9Pj z5Dl1G2ZcY6`YsyhDT9T0`Ch+>l)By#BG2PW6m)lalSAnBHbf0JWpS&8Z|g+8esGm* zLum2N;a8~Zk$lOWiaC$5ufI8PEw`tlT|-o9!kgQt zkO`a``YYD4216MGqCW-P8|zL<>TF95n$NYKcGgH5V8nW^D0gh~WEeeiQM`@0e-lPl zmA<|tp%#k>wJNMC8H(B2a6 z`n@i!jSQ)4VfN2-DPHSJwobq)5h< z=cp#4ZqbV2qp*-W@_VdTFnQqbS~%4=s6j!#4?4l$pNOF8wi8Gy>#XjPdb?8Tp?z*p zH};l)`?+14*e$y{8qGetoKW-H4lMJLUNjCiA6}~*bg#EUAChI7wP&sP#<5R=*Td

    S=uJCkMjk0k@>EgS1L>4#vZ#{Bvndc z5%qI3tScs@#Sz?VVL>*ksQe$&0`x`x@;+y19%Y79P4ZWvBFSIHg?j~ah7aRc)m=`( zv)Z-|4mL{x!>-(Rulw4!ObOEykDZiTU3&V+xP#WkRTG3@vIMY;UaOJci1nlHY(ax= zKoA94luRfuL^1GZw~}Xxw&s(Ra2_v9E>TqHvM3axCXJ@Q{3^WAH(dK>5GG|gc%E{q zCEH;ikSD`*#*8q8=MxitS~&a@>TY*&`vJ+ z)Y@a%0E`{|*Ypg!HScDF*ar^3Xgk_ts0#-h!dD~sE{?ri7@Ti~`cZ7F@9da0N+MPJ zGi+1T>i*j2Um1l83VB}>r_Xa&?(wL9(Ep%^N%%B8$^GCz_58V(k6Vlr2Z+s3_`9t~ zw1)Suus8T1nvCYil@Qd;4_Mi*Mm4xGQdmU>D`U_%iu18OLZs>E#2_w~*k-HG%UCQl z^Wk4E!9=16TjF*TqPJ}}kX2st@?iF8=|>x{vQQhf4#^_P4Bj+Jx7}Z;qg+ST-KUTo z85DAwWCRr&NS%X(@+S=yE~(dhn=>yS5`gO0-`MtrQv@OHDNUa?%|9s``>ghWa=w~~ zck}7+?mTz-FmKRcU1D(75ii%OLSQ;g-2q+3Ft)h|(bc{2MHig_7z1MHIcf6xGn?yi zul(LktWLb_7K`FMYrAOcyk)<79B3Uvtb`R+)eaT6JJ=8YsDWg6SJVNhQ)Y;{I^K|O z(c`i&f8HIn1iUPzv-s4ZyUM6=5>W7W_hT;cX%DfZEAh9;CyPxm?U^{5JFE0;?76uh z*5z5e;5Dfp4?zpwBpcLON#E&CN1@$dGD!fR|{;7J7am?8@|swRc@hX@%}FeYK6? z3$Cxsztnx?{%|@o{0e)hDiQVNSH|8<`eN>9C*{P?fv?sgt49%>3WXw@+*< zD=i2H1f|FSfHAY@*>Fyx%gN$``sX)SUI9YW=|B0QtotO1g%Os@J4MAd?4km-od$ z*8v|_<@6-idw8gqG&dk54Vnr_~r*TwVkkWej)RT@;fp`73qMqdV@6b+#4! z###eK)Neb#7Aq5G`cOz<-L@F$seeV~SvFkeUmC_CF8PTwa6?helK@R$b8GA&gBpOu z<;JYgJRUxd{bErPmDErYYiEBJLWFyM`i4=)LdCg=H~jXQpC?UpE0M>1%DdJKZY%~U z7j8u*y%gYKD>~nGWJ=+kJg22P(_|~H(}3dbOhLUGmRH{f>7ex(P;(unI|<25q?(AN%Jf7K^YzUTuJ_^Y|}OATM+4rie#4A|@l-eSU1 zVPg;6umM5scVZw+1}4iJT7pbGL`_Fh2^{l8AFEaW$KXGMjR)pE9|JC1SQq=uX|nCC zE12(*T0PDarl==*^~sOz9NIXayD_?`u0ST<)3rXUqygS?M4Y&jHwzIXlhpj%sDaco zH5+;1meTxQG5%SPX(_sBsOy5xM|`YFzYv+rBhyB!$;FO-u6{ulF0`BDXD%*Qe)7Qt z&q5tC-Z?eqIoYpj{K#uaWiEBt)5a64ui!kF{JvP?Oq1SZ3A_udh@-ECj;~Ob1Z2} z51M{oD~>(y#8D#rSJe=X$U%ND_(l3ljt8j}VPik`o&Ipy_6*HcZ5$AzfYVoso!*lN zea-wm7>oC$W_9=cL9 z`;3zsh2>;MNgVikget=_KikAu1VoSrl59_XvhP`;t%o)ab_pI|^v_hcu_b2gywG23 zmzppS-uRY5xC$y#L=`^v`b~N}hLa|pqZ{1+$R*}Tky#~T3W2-KJS*Hkj5MhHWp_Gy zcB$wY|A{0o;!}k53=g@XqXqm+U>p4qvmxtQ$=$ZjQ1{#9j?>VW;y4!DV7#xDhF*E} zsa;}daUuS-+c)~M#~z2mfJR*32Uqv4?rUo;mm9UENyyihV`_xfuDxN2rz!jC-IJ`* z$F9GWt|(S&@M;4He51k~f4=N~1kRzecWof7V(MQ_Fx_i*m{I4^K_H!H>cA(ZJG%pn2NAGE{*n%;m;5rLTZ}A4%;v0js&Qw~zxGdy!B%8m(MBPf9W9sa zBt>26i~cZweCxM-h5)k8s`N=G-H7=>fGhmpHu_!NAA}#Lp2?G1 z-IJ=Ixl2Np)4t(gQoDf$c3(V?(I^2PvQKNH*4u02_6BY4( zB54b0n-?@kiNkXb%j4&zytG0;wB7lSsw`R`$_>kkUl)<3J+F(4qjHd@_LzKJFr z9?As2G%X7^esrPM<8{&Fl8i-n1R)hhW|cL+x>nRl;Xzcz&C|ZQW-__0bHIK|!}daw>Sv%7uvJ}Ct~!G^eMQTn3p|eq5ocE< z+KQjjaIYjV0f2Mbg<2HX;YM4pLR`Ktze_*t?`LtmzLfaQ*aqevr@AGh>;eOY<3HKF zu|7Hti^6i$j%QWRP4EW8AN?U4ri1tri_tdJ0kUJa*Ob_vFe=|(4j?Gh{cIo11t`sj z8MdYKS4ehq2W2D}0MDAGsavbGv9Tp*aFF0`@O64XH~M=$iy+S?aN4bDn)8Z~j?Qi& zHTU>l!DBxxcin!s*0*iRWSlQs%dgX$ti0{S09_A_BYSByFz7Sm zoiP8@I?V?$Ev5bSsct1boK|a=&o^{2mhXOTwL0sT$DO%X&`FJ@yU5s=jfy5+30?n% z=&C}B%|!I>;WVjtw;gtoAw+?*cB^C(M>nkHyu0e+fmsBVd7s+ z4XNZM!o04I1H6tIGJz4J9tsb^GN$#z)b9ii5*{gyfOGJ1deaFg)q9UOJ`lq_%<+L96z_v`uDnn|KX4L##36dOfh`fP4?wnN zzxuUu?gs*iD!b!z@jB6^84>;cO zsw&hPrVjyWMq^;6#(gS=t;7brAp^pBwf(SXbzVif~S3RM2Ya3+NKu z>ckABc6$o{PZQiGNFP!|N(UYrK$;9rWx`eHX)IPc>T;3-6uwv|c#YIoy0KK(rxG8|2EWMJG3~o4pqIih$eP37G(cf=c_T3p) z_Bh4t?LEze4@0aOSIRC(BE$8cZ@>AqW_suB4CEi|nt{mZg#uhOE^DZ`z|T;G3@cx! zhH{X-k9~_sUz*adio6Tt{CqRHVCJ{A>lj?0XrLhzJ0=Zbct|bdm^mrF!edT{psbP+ z9_gF=%QbGCigN!^XCJd6vFEY?WGH0{ibS-+sU*pTN3L?y`p!v8rcEp1B0*oCHaCym zxF}}ALpEP>Io$xGv@NLL?J&|=2>X#b!=I&(Lkm403nyHuxXnF^O2GR=hzG%G0-`NG z_I&}c9kHGZCZ*@u{B09zJ5e;z?Dd0fiv!9*)ZC<4;AJ98~3w7OZPE$9nPfP)ha(=*+`pXVkXpk&eO zOWk2@AbDP^9}x4+Cjk%3;XZ(wzY)uXuljy|@3h5tni=$Q4p$^I708eZ1bTg*pm9kh zXWofj#=)f%Ltg=IDZUel1gCpx0i2KiFAdU~V1F$l-G0_n;x=EZ>AOhQH4)B`9Sv}# zI2R)bZ|gRX`5uTfLE|~KXRHt4S)hUbBJL=$h>C1s2Sj(9Mj7bcyCx{BJ7ZKXVMU^^IdMFIE}V)?=|A&6{ja zg~R%vX4(}?sCLTozqUDAOs0y96;n6wot2K=>ws*{!HYB4=1lKT8m+t|YX9JtHKcyK z7e%`a(5y@cFor}PYO;a=*EoBX@%U$(@qW zs&vA0;~(jz^Xh`AJ9ZrR=}GtCYIt~)>zJ|7EIDUSdiRFD)WqLZ*{W66p_Q>}UTFz( zN40n4p!xQ`_RVj~yG#tv_9uaZ%lv(P)d2hC+ny$5xUOe~R?k!^f>6I6DXH4&nP6p! zyTI^p&|}3boCbd-3MjJUYm(!wtBy4n&tLSkn@RrIF?p&52oVT_jGW1nC$fGKpN~w;Mpyurh z5tJ|Sie79J7dI3C3=`7VF~@i@@{o3CKl$p{tBwDCR6uP2%UYcM%gX! z@bGU#;`rt7;7Afl^X`!8cc)5?R~skEaN=wCn9}A1GsIhYX$*M15BX)ybX`vobt&AV z0N-#1rdmJ@v3tY1Pv|;r00BHa!WhfE@sG>|Uj_do_4L5s-+MRfHS1d;_3XN@YwEjH zv1K2A_)nQN2ktK7RD09Sb#?(0iQ6jLA)WACk37Vp293sYal>icDG z(y|D(OkWkRjFr`YPdqtc*iUpnOJSd7T(JK>WmbNc0os$%>Okn(0v8L}kxe;CpqU8= zP)1dLbO?b@XQbeXcg-i3sM)<$uw>}Gx;2nx5ej_JWd>W$?2V`Lv*cqVW>gexJjXqf z+F8g2K%O<1pY&I5iOR6Df%6gV3v=7P<1gs_l(0k0-r9h3O>%Ph;bDapG8t~le~}Y% ztBSEAKq);;lKpG!H%u=NXIL*d=20}sO3jz+y;Qk+vr4806^w6VN?74*;`xxe?dZaX zZq7zd^i}~XkITu9&}y;Iy35GtbU*XfAhP5G3A!mmtR&|*hn0&!K$T&2g4aSL zfb?UOydf4TuKs_2MCVs9Bfac>yV&Ykaf02Iy28xNo7Xz3&t{K<<=8dQ*iSx<-gVYEKu;tY z@W^^%o|yu;*WYj;uYvUiKUPEFLwDX+-9_ZYKjbjt=Aj@cvThO?5@o{}tLxzxKp&`_ z&SMVhy?ioF>5E-kZi4%Ie3pedK)Et0&rESv)KB+W#R1)v(iOv2KfX~=9{u`z0+)MW zog53`nYi<~KHp;lyoc#p8sD=C9sdahUWS_2cD(MQ*RUvwMHNY)EOgb%%y{M866Lll2gV-&d9tD!1 zb%cV?58dF_off0~>2`5(YG_<3HUP6xX4@&?)H{tl^kn|k+nw9(0H_8~JhUvXEOI=SA}357oJ+0$wQK%b?z^}xO(+JWFvhCKY81{-)#P~ zsAoJ!RN*=ie_tD05o*wq9)3Saq3V#i!O?KdNnYo=oX8kk|3OFA|KArE` zcNiOmt<0)IA6r zXeCVLM>Mt>j!BA#Gt>ytf?s(04hlG5<8vDV@_j=xD*lVh!io>0MhCuZnyS!edv`uw$Meuk z_zElLKW2>he*~ca2PzJfk;Lx;61OYg0@a%-`6K<%TPm6B-IqH_&7_+aMDt!UWFrc} zPPXAQp23@M-&Vy>|EwmH!*{RlM5BtjB72z3{C}rAP`I?NP7#9<8+K{g&jdkg))d$Q zGM2Tghl+Q*qeBbGm?}A^XG;UlWzMgnjfd`Ix2A#D?+Z4NK&lHL8Qel&v7*~|TNNtk z-1JCiK_orybL}kp|1kB|QBk$;AFhZ9f|MZLD4-%Wz|bMxqDV+HjS#?D!AZ`N;+3la?enHtk9&EG zEQuv6_EyYe^(-85$#rH4vU~T0DHdYjAuC4{*|72M>4fVn4!|PH=iu_(9ClY=ue`Gs zNc(LP*TM=$9UpMN`~B61qxxnZSkJC$gpZ-Ed{twI-g;npV|yQjf#8#Anqm}GDY*jt z6|6HF#MnZl@9u9F-g0+xw||WcQpHIjAq@vYwSqcG3y-Jb_iUb`6(O-WVW0t}#~{4~ zO&Y4|PFznTPxz4hqHSQh3p-VA%;F7+oL$!-kbx65yzU>yRbMRVA9c>XDl)ngtJos8 z|8v>1%=Qp-aQE*>y%J<#SWr|DsxerD*XA(nXcr9b0>*WK!OZsFmN!Q_-3nk2#7`SB zYJBb`1gYw}Kx#&^!%@u;9AQo0hOsRqw1p3e=UgfO>-?v|%SR8~awHVR6EF*(`D z4NT{jeY~3-Jofa(&Vb;y5ZA?@=(Uj+QPz$GPoq@4BQx*3hMP=&lo~eMk}QES?5dLd z&fbu^xkP_73RGL17(#%kKu^@FX$bLxlXU=D&q#&ZCXEE^QR3;o`vkfZ0q%j>7o*+h zA6rOow>G_^;-INQm2VCdyhumj`{RItpHaI-GCpRE=~1{1D0!%X`J_d8c+!SNk~PQi zFtf`*Lw)~{d|QQ3LFT`C0HFg$zYRS9J&WL4^HyPGm$CqIG@P){Lt`=H+#8^;2l zDNq3Mra2@hd`hm{%+Bjs+ShoNw#1#(n%ubhO6Uh= z6oW%Xue*3<0`juYD#>2IVOJ+SYku*z0+L?p-zB9&cI9$4a8UYkWEGAG+Me*P$0%=S za0g(a_d>$Lv)hIR?>_$Rvb&Pd5g%@Ulo}$N(X|7eIVYMPcj6M6Y@KBiLfmmOk5i;0 zE?g<66}GXdp1yGEMXd@6U(|N{I$W**cM^y4k!;24b$vW2_@plt`biPON9io)Kl$(t zAgT`0o1uROPoAgx86=S&-c3j+KV8O6QMD!+i*J81=FB`*&N7=@ z?|5Q4W>bJYRW;3lnah)?wiDa>TzP@D8UcQ5?#Fk*dVl$$yl<8{&RdxjN+yB*r&2yV zkZ#>(QN6@k2S84{ANm6UJu2Uc3GTA2)o&TOGXkzzJe#zvrhsU>IcqQh&FW0IaK(YB} zwR1nAFx=KEK|YpxnXnkm9>hUy))_Tj*BR%4VecV}v)u97|1N~a5%v7>|3xne2mzzv z)aH=g(9|7U4v=7^{S1Xi9GI0HNNI-47krmlhgCQ1n0cbUk7Ox9zE8!q0fBNx1r(Mj zr}S2wr3Fo}XEw^wHw(wBhsyn?WhoP~eE%uPLKtE5o`lknS{pAy=`y8H-!mJR?lrSq zrI#kpLyI&jT`Y>IlmI1$JLCHGpWg7ZZ+k`;meBfgr^9o_e6Uc(x)$r+nWd7)&xO~d zf4lZL5^H~Y@84cJIyzK8NS)Vp+m^@afqCKaj#O!R==hn8urAdqbdoG`4fG_vH}nk|CZt9U3yFJ4M`S$1h#K&BkguFI$BQIAISKyeb>RYSnKO!)yO zDvY!(% z)_oD)-mwHqDj&ALpLM(%Fi97B;Hb5X(DUX-A`c7TI&{uO?|Rj z*dyx5xsxwEiAA1ruPk_WHttjj<^A8_wbzOeMrMWXwnHw|cSt@0YC~te1A#;~bdE9} zDwMARmrkntGZO%ohVf%82mJThFIho!9zYH6V&v;pOg&fL&hVo3sm=fSZBI~%JLddR zI)Q}v`!aeDon$=kcWk4@fCGnUa`FKg!!LFHWKTS_NNj~E8kbB#bKI=DxZfGp&eoX{ ze$7Y1q~P9Quw+9lOv4T^U!(`fO`*ANd;?<3q29$^=jhm03NeEe;RBM}*Qg&}BQS z>LzOGKS|w2U=LAyF%=6aJa{G$y-itgc&6)ZI5b$DGsHS&#c+$ql^QdN5!%t)@0?DF~Fjq1u1G!6_`4_I;~o_LQ|tO@8@7pC&ti>1%# zV%5FJNax)iy7Nw9HPAh+Bir6H^jxws;aZpnb)gg}NS zirw#eYjujm>mXvGx;X>|KNK#g^{UWCiUlpwI}Qp?Lm1lrPW4<3yo&KB1uX-gyDi@2 za+l!ih|Kf1LI$eZZBWvqiw>4s8;4Rj&-fgdO8jVxuaV{U?wX;{oqbs#sS#Y49oy>k zgf{qYu)K-Xs`;4w*>WCrEkinm$G>-PZ6e#_>*danj*b`Ty2SI$t+X?Qf}>sLo}E&X z=U^uKis8qW34NIzTQXh&T(i$uW1^iod@BSQ_}Q2r$vrvmtobrM1cusP{#&eAMj0HV zhSdI@|2w;XN31cKIEm9j;zgcyudIP8ByO|UqF+RUbw$DC;!r2)ozhPypu$iMd$<6D zNWYgQW+1f8SzqbkQK|LryP(Jzo4_uWPJEb#bzin)+m zTvM>j6KsjICOJE%eX1M{m-n1mNu$nm^rZ4Tx?7nP(o@UQiCRw?88K!A)ppK!eVr#= zs8&d3TQ&L@kq=(_A7XaW{dJZgwtbj+;)G+!7U?PO3DmzI=rVYqycQ4!4s*$Q;At@D zgz1G)FeVk)EFDRT4u$Vk07B#Z6T!sZs2`4=v2@VzSwS940$xZk z=ytalj6@Z=Yq){zm>W$3$Ka!d?M$JM#Pzhy?X7K4?T009(7{2>Zqd$M$(Lb8q0A9Q z;j})<4=32;4k^oJwm>#nO!Z>(;@Y3yMiTojIoglHZd9_so)vXnwkhzjZ!X@*`XS8I z!z(wy8Sv+-u1}q!U3=1f%(3}(7CmpS0?us$zxHcoN@TQrs}bQ`y;LUz{m|pytDq}N z9Mp57*UbGCpzFi>2AK3`luxdZYw#-FH9j#YU(gqmGOIFZi(kC?(XicVii4_Xow_Xe zJAa>u>gQ?+)a8o$OuiioPy0SzukmXp(c2v;E0VlM z>XbBX{pb>7tUL4!6vMbY65sL(KTz1stEUj?P}kshBy<0FLg@p80co?JF8xm}1!1?G zgP*SGIeO5&rvPN^X;(;6XGSTUI)~G0qwXj5;n4j=XSA^xy{9o zI?5bcPO6@v3MR`?t`AY;AM1zucRHZ|j_fxX%nfCci0N-DFF!;=iPZH}b9XmTb7)hl zuP+0w{-xAv?1iG~;UTB`rT#R=uwa$$<0%wiwc*&FwZ-QuGrvhC)iIUl9))c1QJk{X zH%$xg06+1?wari$H7VbogRY*&HkCd~na}n1m#`W7Mdtp`W2FA`tUOlM17`n;hO_2^ zR%w21b`49z|>iG3^5U=%wBQt1< ziSDw@xp&0C`r);&^O6qnYAe#BYf1DkyF=K}IUle%f<8fN&fyO^73MRA25G7!*mGLE z&a7XqPQr3sSYj{t3>nC=D_7ZyykDob@Aj6JTpt`PnhSZY86a=#YtpcxsV!5y&{xqO z?M;V@khS;e*YyIWi`iUx1#-pccfIhP{iLw70CzGLEUb-3L&%*2=~J(j1aYK&SK3KV zTy7LFe(pH{J9S1Z0I7Nh!%GPZ@8$2FX{(>Gc-H+G(Ont9It_c?fb$~CCD0* zbzKmnd|R-5mB=oY4X6~XF}8JP=^lUBk*7j}@_=qTyxH-SWF z?mX^t%~JzI(BIPtB4Y6qD@~|U>weca&Ge(UOzlkLZvEFG2ma53^Ktcl_9>{JcBH)w z?)C%_&7t9~OsVm-<6DvLlJ>9Dd71SQ+l2&|Z>Xp}IP4s!fu5D;*Zo(GRxG>G>_WHJ zTIa?w$RvJJBp_&OX;sJ*=AaLlFX>7pfe_B z1Y`)TCMr8#$yY^;KozF(ib>J?{mo%lNFnd~;%}hk{qu_1QV!zAqY;JiN;l41oGxcEH$*ypPd_Qf~h3W-&1u*1=4cg zTkAftpWV%F9xW$XLWG`~*1BMO0s0yJl)7#g;`3VMt4*GL@eaZ?o4})CPX9B)&Xjta z%=P|b(pRf&`q$QdxnU(}cqsg;ajrQzM2&F4K{Pk>XSARS!)fWkY_REW%Z@NXUQN|v}wx}p>@ zGGu;sGC*DWz3S~agXXN6AZIl-II403Y3um(;KbFfRozUqY!dOdA$(ScuSIgyOjZAL z=lzWU~6evV)_JcdUd+|`7PJtGZ=^0Jiqy!YrCm&%`RT2 zL#x)YP8;xV)K@%a*4-jvV1EF1>{lC4s#i*S=A%Fg(jV9x%Kv&DLEAEqXlcG-=NIA~ zUjXbG3Vbh#U|*yD9?vim=%-CCpRhhfIaNSqoLvSlykGmr$g_M_q3izE$3VP(LeJ16 zHj6O)MtQqTvB3~Z-LZe4FGpwDpBhQ06#wIN0iktf2>B?1V}W1&Zdse>gwwdCc>xg* zo_Ws5OpaY6iV%^=NPo1iynsORvXg<+9|A#yJq{!qVg)q za?n0~mF+H9#H+v9k&=AnGyTZ(vG<3x;0j#j2Qq^j@;(O<>vUWfG0mN6)0boV*BVcT z$QtN}trY_duiN%R2t@Gas{BY8B5dibq*YMQ#X*p&hxd}+g}S^Z10O1}aMnMN9nCY;rX;R%mbcv}YkReZU;OwL#sP~%{oTFg)fim2 z-SDZYj^^<$Y7gMZd3%DGe#@QnS=V+qUj}RnW~q9V{Dkb9oz1cm7p6OQRAhcv8j99( zEhkT@lr&gf$H2iUOV&J8%_tkzYG5G2IxQ&*fm5i?%FQ2CO>CM)?zkjdM0XofP&3Ykd;-zjL`=zRJvJntAPVz*wcS0LO^0rB=p4i`eK9r+oSZ@0}N((Tj6$~M^ zg8srLRsWXQrbg^SRGbWe=7`nQr&K}W!kW?wN6W!;%GIm}(iT;6ugIw9F{Epz&|QR> zWwr8R_^##aZh)71m=owr)p*Kf1qJr+QS`T5osK$U{CM~jEr{|`*9e|T9*H!t~Jk2fT7A8gT4dlRQYiA6_EPBa) zXljRG@ev4*eLBcAO-O5F!Ife6^dJA^?O)C8!H}3_%4lsXrZa?sCBk)t7n5;b1+_pumt^rbkt*E4C?D+mKQ)P1xib<4jcb)F!)l!+jpp_{};+6?col^2Wr ztq+aBo0a3}e1+jWU{Y*)@UgMD`N3{>B%A*HGe`Y^nOjj$`@V<_K?Zu6rt>8H!}gIVglF-X8&9U146}|F0~&v?2@i+eZfg zO1yp-VkD(=e6T-ut?;|I3GuSx@&xt;z32*0BI+}m(j5W6mzc02mAr}Gr!Mxi=_s`c z3F1kM*mUTWjt77sZVrXABw3WRLT{cdd8Zifp&cnfMVC0J@TQ;V2?YsU6F`6kL`Asb9(Rhig%>-xsmbWV|c0Bk{!FO zCs^~FsdNjXHntqIYxa*P-|X~6nRX^Djh>j6S^fLIZ703G(DE%xVt(D4gAET(AQLC{ z8@yU7#>sHA0Q4r-b7yz9K$ADSaj3_Kh7f*I8<-4UfH2Y``-Bnc7- zGp^AKcBT4dQ!*nz>3LgZ|R7R-0GRZfxeQO@V4uA;+)Tki~o=u8)8^d%9z?a8C4JyQ5i+CoU zhH}#6%~HNL@hPqDiT5c@R(g4 zWqdX}vQ?;^-hj=_C3fJC+`nt*dU?F-BjGiIGe-7_21qRn(kph80OA;gp8+RYz0Ln6 zDn!dfQB_VX3@PMET2n>Ht-pwDRdMK%lAB`{Fo#{Q^2w{;61()j zaLr443{;ApdA+#x-=Vu29XIH#Tf!5OmLs8cP}TSxXzZ0@OE>|ik$?ziUX-VA=pz(& zlm^ScHzII5)ih-oI1wk+n)rXS3fLB^8Zt2V{_#DQkavbPz;VsC>g2ERaoTI@PnBur zsMaE?Xp!;RM-pfeeS zAeG$Op-}1-1Iwny%>o;lFZ|+(T+75Vo^?wILmkxZ;4xOXTc97f+E8y90*ZqnP7)K+ zW6Chl3(HpdXA%D9EHwPmD;-D)UEBxkgI^>s!+RYttbbqw)TsvoM>U`ttrghx>#pUB zyxMEnZ5{_bh|qB-oW|JQ3O`g(?*&>IGJb6dz5d@HSY7!MG56mP!~c-gh#z_xD1NuW z@s15pja)Dzv)%0F5h7ljqwH9UKThxs3C&n6&}=dV=2Ew!78oyqc9X_%16@;2f=}tD zaomu61(V!UKgS}T5eMxE9erq1h1l0VJpzGa5jOF#pz~kveEr#O>pzafD9v_znBGTu zXY~Zx$hc+|Ks!bV-dN}*l0DIw}w}$a0b#%TxMll zrcrich!&86DI+VfjWMi${_=4$k)!gRyiE3mDB*!Wpm)=6dlzZDFs zMMU^>JQ`oL_VtH^rfs%&B&4eP;pxHmTDw8NR^UJ7RxE2p}1pDRRYPv z-7+aZd%x<3S-Gv+R%IbDp|)(9qr$=JNf^wY{b_?{pXnGFczjDvhSaj1U7o04QV<{FXI{EDe&6z^L* z{*|-KJCTflx;8Bx2tEkwfk0h<+hLm0M%EKtq2{3Z48%SdL|=dXo!l*28dc8#@oh;x zjv$nJ`xySU8JIe?RnqFICh4PLzL^Cwr?02$sjID~HPJs>-pM36_#B z+{0kwmo}=639h7dL&fv`tPqNp?2zU)EH8Zh?}mqOxTP=!(-_CRFex0w3%!&x82;Xv zY*Hwd-;g3tWVSg*zn+dkrN->2_^GAUH435a4Gs?=HQR*6C_lZ@UbQoqY#3fpvfUCR5% zA|z}@k4oHczZUO6M}V*7hMX>w3K_^F?YR8)Zw)1wcVX}Al-IU6!4@&mHCS`MCZ^1; z+rY=jdX_M8sH_?oMN67(C9-{?1lF3Sxj6u$+5Q8O`^5!WD$Tyg+Lb0%@{z>Iyh1X) z+vjLQ|EIYur=g2$@!GAX%BH5UdkQn3tvtV&LSGCUr?0`R>%~3}GyecokQ$>063MyGpW+kT!b{C-QPdy|cuq1vD^x=_J3$<0{!b zTs95g%66>9l0yFgJEt7?m&U^J@?y~-V?Gp@`=UysihRKy#Q*KauG&>V@E31tvJ-e< zxfH{)iE1XuwgIU2kVqQ~jg*(e*Z+c`^=R0Q)yDVfnD3}MT z+^x$HJvpQUE$_TAW0HXcCVt5?ng_MJ{DXgxr^|!im+1<|3JNiw;G-7l?cPS&SB~RE zCp$v>+v`@&+udu7OwWm`D9f(>qM%0G&a?(hx{~5NeIHU92WQnsy1(1r3uW0;InDc1 zpr_SPSiRrUlhNsTZUsrQ2rfgcQPwt4jHFoG;z%I0Uk^o>8hz#galC0bwf=^>{z7_? zQ-JU7;my%OHc^;uxlc(#5fsB$rj}t~(DU^m&dXY=F7r1zOsNU5gA9^wgT6qIRSkR# z-87WCb#%p#5+l_rH-DRg%a!L^%Eb*r$|0D*)SGE>jZ>VS#a~~eRot<63xL0Z@81T6 z@*71YPv_hF*4V)j8Sc-?ez-D+_xe=s_4W(S?yvKAY>US0ed{%fJy2_zeK)^WK96#p zF%y>|-Ai%l4+6MtPldn--;c{q&NJSi^Qe>mWfXtupqLRZI{mSYWU@h4Sxtkhg*lTd zp~`?-1gTMoWjC`eKnSWKaj1b!~>aoT$Hg`VPBgd@9+T)1D`Rr6KOwW})) zZ=KD;PXun@C;Km`kbO?ldF+|SWNEU7V*R=ijKZV!)ToaQYkriBl_%W~jordDEIgj^ zDn(3d@P;YTJleGcThWiGj@0&K-<+PwrZEy))q2{ei|ut{GjfoUzTqDo7)OFodu2xM{ z!xHK9z8an^p2OG*ork2{^1#+KCx8<< z{Xs}-Ns&zd6Scb~DsgmTVc$uvhLAYR#+H4`4bdMUFK|scM%Z z`1l4`l%q9-Y%qrOH9a<=85n|J6hz$M{xLg^^kEv%XJi84^A}udke4bGG+Bfs`e(|< zzDyJpS5zHd?O8RnVSsKM8X|JPUY`C_VX(q|6;;H-Ahdz5Eyg-)u>5pOLRevo7vOo6 zF(Su|n+DJ7jYz%2;J~K5 z>n3x)u*8dY#lqjjN#pz=zbM-Kou_O8$YE8q&W6@Pl#idTu+TI=C|xz>Pqi2jXcy`j zDc=J}ukSR8Iz1{O!L^G$OjJ8-^P~GNcudPoeX5uIe>Auf3LocxCrp9!z289oWl0`{ zOpmN6Xr0T^YG?m+(eFbvRE7qB2_K_ZbVuW&{&4EHME6#WQuh5!4LUmiN(BP{Ce&81 zeU(azHtm5(bJB4Y2&wdUoVw@v!SgPNqWYb{RGO=klR$HfoPW}NeZ&%!7l4rxt?~VP zPp*T9-20TMK)CC<)X#2@bf3~ZT3h1V7x2OrBoZoJ#)J#oune^(&{IY8z6j~JwEu8P zV7Y+({hpa*<|q?DfzP>j{{6tE61y>%bG| zffWMISTF0BS+vglAKw3q#d@S+#lDMA3f&Eawnh?^Rz9w;L#GT|&Qxr9)st4scmKkl zD}10OZ4(1cx#~7&^`wf^*w&<>neZoU*Dd*0dq+L{9{tYs+gApOxIg~)=1if3@J=2M!rGvgb_+4l|nA z`;;hW^@SnN?Q@==8o;z51Bje04k6jtA^TYxvRiXYcJ%>w1Y~v=7Lqu6Q)qKz7dM{Z zSrMZH)kaJ*P@ICNKhhr=K6E*g+)qu`rTwm(r}6k$7HWNj zn+!I7l~SV2r55U7zkbc`C8CI{6SCsySCKkTc}Mj z&nHDbk{l9Kdm_H)+^~im4oS}x^Y4aQF1&%9tbPwrX%}rn>X4If_OL$v`TKlojYs=| zhI@m_gGGyE5LR(HXK7S0<0q(RMpcFX{BvbSFJI0vE=zBbvNMuV^6 z68H=~KeO_u`**rco&JYSpIdbbQW;s)uXXN)Q9@+vE#6fG*app$iqS=<>t@+K^1?66_G;N;y>cN}ENV|H+7ODbOk z^z7Nwxs14|O4y}XK|=~v&IMPi`)CABVcf1b-%Eyn$%ZH62!aDJ%GoO`bkz@9+Lh~g z6{Id-_wN4rOMHEgdmA2H%;{qdlr)fg^u2B>jvK*$Vj%I5A%)4s8u`bxjnrmgbn=v? zXCdV6ftEN}EI!Cb!0{nqu&gKcllU)c9MNwE$Po+;2ZkVd>eh zu*1_CN{AU2$}>6@%w?(`Kyeb}ta}w4%EsyEx=gb6hPbLQCoHMKFgPcV9izjhEFQZ1 z;BRhGRJ!Zcmq1()UmE(VK83unjfyV*^kArNj?qa`mVPQ-w)S#sNHn5`<5L^@izpH>50fTm9%LZR{i$URMcpO1};%^uGthLC!_RxlD$Wk=h+r z_2Zm|HR3;zd9s2lZS(l!Pl@hpM9gek=xRlm7`3O|r5?|C#N*RSgcT%7KD1=p=5smjl8GljXhl2Kyd;1@& zYSautca1L7F?O6<-Dl*bPjcen+BrW$Lo634M2e-$h;-Q<1o{QI`?~P8&x~c`2U-fa z-7`Z}eF6JNxm9z03ub7V9FbY%7fCDF26{P|6M*ctd&#hqUP%Ww@N_Rdk{ML}SlL*q z{PiJ&Noq(B$rS<5pameVhfoJO0zEO#TGQa9h`%G<`YMaeU%_H<$;_Zprm$0!8LcAW zJ+Blby4nC$D7+D+*3HE~;p5o!q+-8m2iSKn7fDAZdvdjrr65Xy&!|;Od)UZ;N111% z1Rt{}z!bo551@ZKAP7&%JWqJ=nv^5_K;Y;xJP65+fvYi5B6TUe5uA%nn$-?zh3R(?K4Yv zq0q)i=BH4v!+9w{4m2 zU>*{-fX*Iw%UbTf^sMyYI5&jZ1~h@tcKn_iTS3)|h1C8iHZ!{W6(d){>=eh33DX~s zT#pbGgX>e-=H}G?&Q?HJ7{cYS`a6)PwUn+=!@^~}b%1t{g2mo9eNHGK-y!M?Sd`i~8 zoCbdi`kkA^@fb~?#JUVAcg-CkN~TagyYkyK|EW%I0aY8)?@LPvOuwE*p9b{A;xxQR zda2XsXN#dF-!O)2U;{PfK#pMs#rg|J;mmLHxku=gef^BMI_Z>Vt*PYz2&FsLSgPqn zl4IvK>G4=};zMm^;PED5gKUl#65H|J-_bK7xR>1_+M&~U%?Xkra1VH5pe{Ga+_kT` zANCZGwMJ8eP6B+|3kcpp;A7NX+M`l-*)U|a`*DvU%au{15c1i^PEID?=_BL%o1VYk ziEhTo(y47L!$E$~`|s+J=bFZQ-P%8}%$37=MTgyuA(6&|fciw!Ok$B=dN_Gz_YhMN zo$6>eoHI&a@#k(j^ypE;auWTZYcGLGWQQ1K2a>irnz=Cg^fm8+aQed$LgmSG zZF6%<5LT2*b(00p+BxFE;u7-P4=j#&Q*OB@2XEdH~sjn^t9 z0+}rJC)S~rc_CvWjC>H^2c71c7? z)~I(rMqCuHtzKQQd+Ij4;%Q+BT77wmI{16Srgr06v#q*?5Y1VxY|GR$?@wWgHX*%k z+2bHA)p=vVHKR~Kh@=*A*l^0)Hb{{2g}N>{xVxo5UwC`KipthTDEp^SVlDMv$EV%1 z&l!f`7KVYnio`0GI>lk)7KYs=z0dgE41j~|!+2luapu!}=lPMvivyLCvhDf7 z`NKm1R_;+`sxFyW+wi`J)_<75ew&B;2;+xBJ(qC%8OG`d0sNXLRdKrhsA+x#5F}2o zaZvp8#y`PGvm&CtbL1GGWr1H>e!F(>fxkXYd#*CY2Ze(J8n!n0=X5joU+p}8RD@uj ze9l$T&7{04j7M%>c^8UZ#)-|lV_WkBuE{`+V|M?HM=PLBV(RO%^Yf*ZLj*f{v?~;s z$3WNxZDh-^fcZK=^7WpCG+c5fCbU5b^2XV=gck`*T7&}=f4te#&EzwQns8^{Ac^_N zV&RWz=+`Qq8O>?K&A;2^NtF!2Hmx!eLa?88x*K^rjwndi07! zNgol{BDiD0NHM?QZ5%v)Z=K|kbo2HGmvwl}w18XT7gPzt!P?vE-(@=yiLd@tc<`() z_-e-xVko0r(-JuDQ|`cV_R!v6I@dY!p`cRydF&pm^1{Zex&b(%UTv{8ACu!Ba}E!wUEDxE z)DlgiE_yb+db|nLLou%xNu~Qs@8foygu<*P*A=Q4BuMq+7e+vF&Lw4j=DEke7Dt#p zKDcf(_t`vUg^~DTl8{SQYo19#7cS3=_krI{en!}{g;RD8>-ph22j|aTiA4iBvGLE9 zU!AhNdl(m>GDtF+{t@jU-_`hm?>?B~-X<8hwyi#b(}uM77AFr`p-hD-{tE9|ZlLis6b%QXG31DU~yWZGHjoi4$HyAh*HfLU4+n}<=xwg=7_h8Q)PX?BF!}* zsQFoy%L9UbhCrnziONh(Wr^^P4qo(ug8fk3;R8wZYAuN(j|-_JMQBwdxU@lFMov-# zb@J;DbtS!T4IxT1@wn?_4Ad}*Id&;AcRj-aOxeZ|_sK_vKO4CW5jVM()3X9keenko zKUq9h{yrn;Qn88Bdjq9<&nM@(Rm)1FOW5twBd8+#r^edC_at-aU4X%AG4`XNr5OQXS@ESL|HFPZ7)Xbnwz)qCw`{PL&VgYzRkRJG!XH`7S+!g-7qpj$i*CMSuzv?L+w-xJp>g+69aum5N>#2toW4@H@qoR%F@U}HF?PHu0p zbvZY^Al;xw!_=Ma{=)bi3*`)`Sp!Vy|I*W31umK|#ZE8u^a?5%R4GV*5Y02uAt>CY zFR7hpXq1;N%0t_onpWkpTw|*00J}7V)d%vcE{k4twnxAag8zy&Ih0Jv zX7yr*26I>CF$FkB3@n#FpC!BWTs1bgxh*fA6k(q*F_#9~_pP{(^X&WjX#+|m&Z62D z?7xfOdA@00$vS)+n+SShRm6>g&Rd#ALBr0Zw}Ehxa&)ofPY+1%R?%f{GJa=7nt=j) zLHs4303-t_>vXr+&z6NfCww_|&wSGe40{q?I}6xYS*OyIVC+29)_tC=DVMkGXHII1 zF>@TTdMrjKU7tMqCF9)FA!Vf7#F}>$)K132E!&Yh1QLaTMl~Z%fI6svcKxtyPx0OL zNw4V~qEc|>&!~MCYMc5s-vKp~^Q6Y$M=0`omcBnS|3` zK>|+?fEvowab#qLQH$2TUJ`;VmH({}<%SVS$Gwqs4FBlXNk``RwN6OfwfyUZ zYWT-_ZGC^E=q{j=W{Q&(bI$YG?j;34Ctdf@Z?(&aPTvmy{&bes;y9hG=$0|nM`A&; zpg*qRY{-Lp+%mUDC40mFxJu2{h8SiK+`LJ?IpQrdG0$?(bjTbPg0xwKK-nvvS>M5p zYKBy}pLq0~@ko=rW{2c4uNC9iqlU!KPrtunXG<6e_W79i3MrcNeHk|rE_(z-a(Y~v zf(U-3^%`O()-N=bQa+mg`mRxk2qL6mzb^ zo%ynVt+jO?PS|yF$I{uJC+%HSK>w@wbsa!wihxrM`X>M;1Km4PvD8O3*qOX3THNcn z@fLoBFzni%c~<`51}*D2NNE!FR#gfDW_#Xpu;unppYC`_21^ ziG*dcDB*S=q@XG=Q!mj4RS*a_adqLl3L^bHUpOS6V;j){=i>iY(`x8CA5a^{0_sYOM{!liaWM%<*DKlJv+V032pb{7(|KgK8HBb4F zw~~w9DAB<_fvgIBC})-^(scK9Rsx}Zo#{dYGU5x%FIe%)vZ$q9tIgz>dF`nfocb0pL)yx>)u z=mNqSDpKpAqy%~QW3f6fc`?m3@?1c1_LTxaJZjUwE5VBqa-!Qa?*5P0a~)HMsE$~k zGdMjjWZjgn&gMe(L{R(HYN4c;yt;M-_5ymKv!8GXtV-zf$+EDHqZ$~zScxRqaN4w? z70c;psR8?(#kdrFwzH|J1&D{ri0d%QOlwfwVCyJcUZV#{pR0z5rK~9de0L7FpgDxf zy2G<$`WK+ixs3^-KV+qoHyF6T;8<6Sq@M@MMPFx>hs-=q9|LW;|3;w?e*6 za+y7&tI?(ucD(Jd$`$0w^bi^zLSQRFBwex07tv4d+7z;LOdquU%#%t0H^QU3HGI{P zywr<0t0hkys^NK}W8UYht1kw+i=DSEQ6j;A2|G)E>)f#$%$>fRkq85#a87~#wTS@1 zcd0)Ikxy4o2Tu=ApAT)=45EKqkN)EK;}*NlUawyFw6$<}#=%E@B>T%(4Ao0f-pIO3 z!kt#;d4Geh>{|x@x3a!=*uhg|as-Cv3u4FEKU9cfV4Pf~Cxr{A2HCOJj2w z7MJ-&cFQfjO4V1aj4D%g)u8O3^C(?EXT53Ddz8%^(#@*4=URd?rEe1HU9$#Apha)U zP&PqTHK%8=SBd)51x7T+_>M3J?}b*K%>4$+ezt-&`*nUH;T?ui#y19+{nx6&A+qa7cJN3ZinIJT0{0Pe63&w zSHt7iPBS%2K91tQyBGRP$_6D4$PS=-ZL*{3CJO>UH28yo$S}#1j2$^y+bAetQs5^B zCH~Iuz)&Yb4juBaF(bw1*7hDXLm9^_>x>l)nbCgrsML#-1nB3nd}``;o`^P#zA^DYw7pMrh0`L_xAczB=3PA` z*c)%wDI*lkn1}u=f==+J8<5;n6zu-jDH~nHL+z4w6d{#lg5g|;=_c}eLlk5YpFNQ^ zxSGvuA9|_OlQ*>j>MVlmxTP}IWg=z#QTqtn^3E3Y?#N8LalJj>L?IxWq?(T-b7=oQ zUqNR0JP&6TBS*Ry3qmse81I>0MF|-|yhP#EulQRc9^>$98Bc5^?L%6BsJLX+NwEa3+> zdsofW$hY;6q8m`R@RWa7%9QR4L$3oZ^qU3l} z*UN6oiWH4Qi%-YF*>kOCW5rr&HWF7-HPA=Pqr)}9l$K9-;v9d_kQbuMshd3S1WB`8 zvL5mqh_-4NgD+L2S{}b&v6B(6$-RAEHO_=Hn;4mmCx9jGC3pn}4?fp^qm8dew8PM7 z;5%tBFT8<1vs{_Pi2Q1G%bspO5|%F_^}hF4k>O5; z!PEiTO0-1yM&K8}H;*{}TS;znj`2aTSkD(By#^ma2IKA;+M?-7lXQxrMVj;co)E(+ zW*}kd3lI1LbD3`ON7}T0w}NcbRso-TlD%AGSo4S!Z8K$?#enO|#dG-VgppWW`Mrl% zFLCXEchc43W?InmC(5O+D+rLt_i7RKfXm0_fHz=C`sud^e{U4avcPe&3pVG@2l`+| zapP}=-IP&Ccst;TwBL40s<&CVZ?HFcd3as$UYqy%k7(K8Kv-6TNG8zV+=KClYT`=y zw1l#-F}RV`V7m-+%feUL?S3`m0?tP};wZ_UT*`Q#>tII1^_%n}g43e#hj-Noeh?)Q zx3bcPm6j9h38Jd`V_+RYr;1L!+I+!xiw|q$$mYGf!`*}YTXUC<#5ia)V9Ds@hczHDIXB zj((pO@zh3x8y-x#^Vhfw-RZ6e@C<6VOM0N(P6o?uYUJ{6=Xaagx-m^g#8w=(&9~XF zWs)%pZrpg8s8qR=~H2jFlmmtf1J)HosV z24AbE@ln{H$r(}HKF9)ms|&SZ9vW&kpy|2!`#K4jv5kP-1y4Y$2_Gz)hi>j)jtEXr zCdxa!Hxr)wU{ewZK#Zqb3-DUNP*w2z^&4L`>{DJReHe$piPU<@V@!3>F4ddPeV;i7 z4Sjgy7N53kXUz3C-5Njoptz|o>umBWR&u`ohC8uKIK~vv`oqro zkLF(pxW*~ta2msxUm_tPqPzoH7ef#hssjIeZ+7`hxazjbH~)e`X3k@lKu_*DkZiE7 zej!3Z<7<#Ufm^OOfz`&hj#0^h$F@OON(_-8jKJwhNc{V(h2$_dJ_D3S%4E)uNqfSJuR--JDWefon#D zRDRQhvWkGgovbx~A^L`7A#O7Dc|GnK!LYj^u^r}9^W@j70j1T%d&^;U4My1V&E$D{;c@qDNF{bTW!>|3+!o+)=MHHvoi}frWsa7x4A`wnQRV^V zMaA*_QEJ6eI|hP5+%tOn{93ync@yYX8)b>>n^hl$+08!*ZTFXMzyCa|nXEg#VEIHT`+G6}TyIx!V=+Cu7f?$Vl zv@f5=4z~U-A-j`4K&>wJ^xq`AisnAtaif7zN#tQPFlU+}x%yRDO7R(;FGlNqwQKY6 z%k&`W+S^Cq$b#5_5L#7uRP@UcZ?FJgpZ6CIv2RJ2yZgs1_T7cKYc8e%bfLGD#Qm24 zb}Sa)Jxef~aiYYRQbygkW3=Dw{1j-#PuEt9FYQQbu?@5(+G%rBdF!uecgX+SBLb5T zy>GghQ~sphH^|7?#Fyps;e`>@y8ih#=V-QSYI*O`xDPYexuu`FYAW}dIb=0=lTxa^ zk8x0$Nl?r$yC-JUp9&I9Avpm!4^P^38h7!sWK%%>aZo8%kcIr?N9htm^w&UM>T1jn z)ye9wG+WtU%-%Ma(u6u}?o_SIu-CnXhi zy`m`uS4dflx}A)Y4m9+{WwZ2sxQW?GM!8=5w&U+UEF;Oa@uTTHm8rSCa9iG4km$(C znKTcm`?(=sNj+l^qG-CVr1k}Wx2ezl4yv*dq+3uN;zC*hsi&SN4mCAvbVUnTH*J&~ z0IhJ{_=>@W+J57G+(|)&8-t?y+mc3|cadk);8ErISjk z+eeBHHHzYqDqMA$lS!x~-{qkaQF;*2mzGIFM#3#0UNc%WnCiK=-hD6CO%+nr1fdt` zUY`Q)IhTXqX47|RJ~G%1okVs2<4}?$W`>TmB;eClBK~u*lk_0H zE|S*tlQsQpA8U+>t!rB063;DnU`f`@$pH_W#{S$OEf+5BKP>xz)ssh+%zZR0GNV^y zfi~4@eQ_0|c9ZVicb3xMPl`Pfguh90lk_HuNjM|%Q}QnPN@F_K1B&l<(C4LFwvKc> zX;qUj3!bU%D4O>w_~n-!rkwUq6<=ISMyVG0Tu}1R5B%uO;bn<>A5yX5HXXJp)LdIs zY$-mS1&#kv@HY@?|0MNa!kQUcyT;Q^AtN;VqS4s#$OkcF_4va3yGz@P`9E6372MDE z6dfLc_u|H0spw_ql=SqxrkCi9L=evN(;B}kZ=ug+4D+Xv@k6~#Eqm6~#F^yi0$}_V z?lv*K!wPY$B-I5pO4&rga&u+|bpn|;( z_FAtxERA5JF7DM4!ZRQKWyy|6$@(<|3>?EnVg%3Hr~|_b-C*|m^}qakU}`EZ1zzVH z%;RzZe0VjsvOJ zlMbIWv*F12-Ksg1neyto4@chYzqnQR$z%DTFyd+&rP^_>)tyjnJy~Ez!22g!UkGen zYW&E3hD-CDF)zB&udE=4%mzk3PuOMctP3yp81B5V;gj}>Z)?6|C+5#6SO~70tBxrt zHm|Ig%hzXe&7`)-Z5T?4kr*Cf1ufi^&%oR_Jm~EEe3*aYcBnBlE5~lF!DcAn_xM2ak86818vr_U%NdLe9L)oMK{z@kszz-#s^D;V(^# zRYyH29m_btKt+;O%3P$qm5~qyAB{F>IGi!WoxY!?OH3Ryga-ts2ESU3aXWdA-$e1G zIL4Y+i$r%_y#e&x`?Md02z{X3*MIqKW>BV^8<{Z(VX30*TKL;gDo;uv9$0bj@({vu zd7O3O$;hC~TIBJub`k;Cd)FnSGn0apoq5UBG}ZR9b>)YSJO41u z|KU+O0-$lqn$mvpKL`@_U#4#zYV7IW0(24gAEtEt{d;g4PKp~ZXqsbT55KuhII)~Dl8i|72s9bs8=%+ZwJ<(I6YS93jDlro1 z`#P&IanY+MDEj9ENmiLDuVO#wJMD}*=Q=b6GzHs*Q~CGcLJNVR{*L3PY1Zt&YTMil z3A`5<%abqORJGf?pU@6qU`%!N6pbY}$hcXO7 z@^y~3GP-=VuSH0e?I3Rl@757v;`0DJj5MH~@o8!yCvmuA3gI1-<0;w{ww!+&wnIy| zo*vbN-1tRolIC7aAiIRf1^TVc()*ipNN_cs`d8UIxgzvAsvf`E0rGh?9SSn#>PUA0 zw!rt_QZ?f6(P$6@%~!Gu^YtJ07vaLnBlo)-;P9w_N;`Y>((oS5-LLugQ_(%Bi{Il~ zs1rq`Q&(28`+oz(1m~b7NYk&Ue18$M_|#?`!1G@$+e)WU&S(&>F&H>*$MSCAPdQ}C z66r^^?L9ZB%Y{v{rw+X)!umHzm(L7A-|XS0-1{1vYzradnqRo!KMQhLGiO1-rxYVu z%z@S8mRE2JSzp~Os29AE8-5qBoV!)AXbUkagX?yRc5ankN3?i-1yEh6BPd~;C6Qt0 zRbVL>azM2{Zx@3eR$PZKP8JDn_6;F zLC~2S&lfY148;vY{Nj!2kGIe0X5#ANB8zxbtjf}RutPgb1?#5dcc6*dY}b3xqLF>| zgkr99802GKKK|6)y4A<{h-kAXF2r`A`w5uKBviw&*x12xbzn-U6QuPzi)2zKBKp*Y z+NltD@fe+FPxewuc;;-6U3f7#{q{T!n6&?LZe>J0EhKkC{2 z-1j|Xvjbh<(7~*7_WYA2NI~JA9hlb!hKS&XR$2PIZDBs935R)yksQPZ}E?{N!l1s|R(!1^BuDL0xlXv)FxEfZ!vKM6Fzg8^1?9 zhw&t=%zxe(C;2i^;)3h=KM*{<3(3zv{&Q*TMNbJApX5Nm7aF^JNXJeW&!+2P@Fn&a zJqH+IZ<1vryZ_#?Qg!R;6cf`Zj(QIg>`QYxw0*5Oo)~xmwz`s%TdZxEaF{n$X;uyD7XiD-`AH(;_4GA(Vjx ziF0QU2IqF;%9w&#mJ*umtS@X~^g|8kKUnm*4M zs$f*?%Ux+6XT+bbN7^u>+oRI@+fO!9wfKl#rl^3;yS2J<^vkHIt= zN!{0Z*e~{9L}5t`jJ6D*1Vl^GEAc|xPtLS4aQ*z>H0iQxZSsbjE*7s0fQ|@F0ial3D2+3Kn^WRCv;OFp|;_|K&nfA z8pf>2aPg3FhVj>5e}lX@lJ~9K{cAy!_AWaK-tZCJ_ydU-L;bbLEo8W(uTCo^O09 zoA?7pQq#RNG9xzhXV)oI^gbZ)^BGJab@-&ehNrrDWe{*>Vym(UAr_JNIocxMWt&(c z$7Z3e)F_7dY}PRHc!Xbc%{YP9p--_+tax@z&M`{yknwl62en1S>CSGiI4JD_9Wc~SVxqeDI7$e zaWM3K1w^5d!imZ|FDc@_YuV`|&^Wt9lLVRt~q zsIMzD&WksRA_)dh6^vlJ{7{u6c{a?}@uzk9I>IcJyO?c)uD$FWkZ%b>BvVkYi!>si zC5V3Zdv#Yp+!Lku#s5eN$gf!Oep=cbQ>F?>1f&4MW)rD5Fl zjS%Cp0aBJ^!Su_nT%Bs&gwogd*vE~9z=2HGLU|UI=#qKbIQG(u_;1^iKT_80boK<^ z7jB-x=U#0$@Hy7+Z=2^Rl2gZ)%dI1y&8MQY7%^MG1n(xHVLtRHg4FJ>UpG!9s;lsr zE#Y<`s>usTuC3qaWCcZC;-o>3xm6WZqJRPwO4;HI%S+ckw7gS z*E68C^NMoM>qYg_h%&7z1mHfdrrN-{!v9Q-?4+#xJDfT+w(xtsB){n|1BfCezLuL> zq^)Zad5;15(CrJ|Sl;-H5Tvy?;W<(n=3MPa1=Y zXy>4H`zuqA<0eY&kuNytx7EyL2S<7HT4{s;xfB#nkiq*rR|G&^4x4*0d+;25>>3g(@D ztu|?-p0Js#mt4)NFs?w9Oh?_HbDKP3->C0D$LVXcE9m@Hb)3O!-#g&her~Z4&&gp~ zdVQ6MjEmhLtj@^Lnx*A6{(&4zd!bu*wuK{U&EO#P!AmcX+LGf2)E{oZtWQCi>7 z-_P4;6Kx^mSZ{O50#FL}5%mVrKK1ZR6|i4MPwmXanJpy#p$l88B*La?ZF%IQW`%0}cF7fqt**WUW$zIF|$MO2rm2Jjt0&+VJOQ=?Toq6Y-D)$SUsZOgKk?+N$c6N|?@XF)6 z$3$GUz&#J7qCCmE>eE2LJ?6R)#%4y&yxsT+aembOrIDtjQ5_?m7=^T^PXM-!^?s%7 zE1D6}av4}%(y%t6ERo{uYt03bWBT&j1Ck-p2$1Kw-_+d57G{LW<5XQ_0WvA$%*zwx za?OK*fIyi8?|kzlc2~yPE+kZ)L70TK1^DF|wrccO=(jiAF4VrHccN%_5P7{nW^Wnb z5KZNst!?OiC+Fs!hjI$2=!vqApOig_dYqg3m)Nc)@h_zW4zFEoE&Rb4=d z`_<`JkVn|%-@u8gq7BAQyqT?OJBVC=8Y#4015ioWq4Ws7@e9Jz8_T$Ko065dAOd_+ zbL*P!STpiKAj*W{{xEHP$cy*o)m~5S2jZ*q+HAmoEWs@L4|r9P`v0GlbT?+{Oy2_p zGK$dbRO}>MFY^{n$8&5cr9-34^NeoI*E9N+_>yP7s2W3H1>*3Y2`Xw!y?nzYUob4^ zW*#MK0n#kPB25XO{DM|A$kG|rw=fP~JrP{73Xgwc;0w}x4&>m*3)w$;{W)n#PSr`x zp%i{e3AY1sj``kki>_uv)r+wOF1(n%@%~N7`cwl%AK;1VpW8w-27%^;XTF~q?p$vW z>y;AO2{fzqvVTh!-C1*d>qGLN(eFJULFr=|_`w-UX!~1O?MjdJ`SC7gp`mfRUg8<8 z%_wz+!`#_Ta8AQ8_v_5Q)!=nLgR_DkV+7gVYEm{8>|@sGn+J}Dt!>6d9>+nO0qZ*9 zp=MU>Y5cANi$#zBOgcgq(LfdsN##IQ_fe%)+j-1(gBan=u(_`%^SK9y{?h?r967C%PIN5w2^UaI+;-2^ctfXlBb#LM=7WeC&CbXOS z24NE-P+NPK)^Tg$&v|O%8vZ0cJ7u;`Ww~OZT2Hc!G0xin4DSs{`6fwdalikW-KT4k zbcX}0w(yWi3(rzIJDd6FD?9=odp=)s3mpf-__pKTB^&1Y_={+F+tOhKo9(UkFOW5{ zHRw~{4+Vt&MKwvio){>9>`8Mii+(U8{$x8 zBWThmGllzJT`@^`=9ZRgNz$bPmuM4mzv#fzGN)CY?etWOv8i}q0O0G7x{j|JioJQu zxyvcOVpl(x&gOC_NWgp8;sJH(k&v)bT$xF_cB?+2bl{uXS4lD-H_(J(yValt+%VyXqdY>j-KMkbr8?bHeXa8N!$4e0Os+<~|x z@|Zwx^qDzJSqR|97BVnN06Ul(T@_s4A4~2WdBOYX!DHuSAs>!6%nP=WId(riO)?)E zHr|)<4HDxnq-gljHuC%PEy)WNQ>AD`?N{e^8@S)__33-8L47!Xt)D%*CVq*y+vnyg zcmEiCy7RK7*;SmW$0yUZFFrJwP#G#YJtd>NqOyma!I(s|Z!CiBfI?9MQHqZXMU`+i zvD>uRA5MzL%@J$_(O%S7_a`Z?`-0K1TUG1HJ9S2Sp{6~1aRW9-DOSNR)p_+rbAsb? zwv5TvIJ@$#B%Vf_#kI@=phm~Wb z)YGft&B5J--F8kZaAU%Li4P5`68<= z`+7*OBx2G1+&59zeRh!TM4&365?@#o0k4W#un%boLyQzv!M&&?rg|R?OQ`hra9}^Q z8xlUjHvGcaw|#IJ_kai>;7@)E^`G0UN-JSWXVED`gPBcn{Yt*KxAo&-P`&+4KT4dA zP@8}Le%Xm5HlZ(^dkt4({-gFFCfYP3(qnP@*VmAXELX`weI|>eChoATQWB?;M&X-m z5wRZa_kbwKpzqpKSm7vB5{M&vdOS1X^`EEg5hZK6K#l(V_W1uCV(V$#qaWzTp&yHT z6pIxzlo7ZXf>Y>feo2QI_`Z!kEguh5URnC$-5-IE~I)IcRV0khjdoHL9LLJ%U`p538Js$>g&ZeVDNPAvPwHD)kg!_(327!k-O_-t(%?nepD$8 ze!_oI5uxe9aF*~X{2(T0bNPg|aM%)zw`U2$?5(*K99X)(igz@BsgNUB{hf@;BFsOl zu!+G8nAZ*G;(d`fS^}V`HjaHbZI=?)8cB@#<}5`0ypH0iwyCyIiyyLyR-;j)o-*2kCqaa32>a-Mraki(@ogXP6Om*dw4Zy--E>Lty>X;$ z<-X#%_ba0xva+++o*C8?AyIJ#)L-22H{C;J#%3|mg)<+p%Fm8;37dV?M{WU8fn-(l zX6sp03UVVIB2P4W-XZDQbERhB-Ve;NLd`3anu`9E0=0L^OJ5^%Qu4-TmU zpq{31>49}-zxC>VRY>cH)C!-TXGv!|4Z5XUqKhVkd+$y-JtOK;Kvs3JF6AHG^^6@s zHCs{lJ90-HVtr@@l|7Tiy^6M16y@hWFMZbU=uwJb%U$3qhyOhaIu$$%PwncetI|!~ z=rkefypOzqi^G2wcJgHR^`JCWB>zcm^977HHq~#5&)-hWmA(86g&4#@4|#yV!#+&i zv*xXV7lG!7z+#KA#Pk7(X&fG$@Tw%V8ixnPlg|8()`W{Q9B%yB987DQv3aVe)4hOG4%OT*Yk=M#~)%VS;L{LsXN|F~$ zv&)P?KvlPnCZ__B{+~+bH5`$2*>ik&fNKq-g zw0Vm$)uq9nHe1kdr&Qfb8d}vpoB3Js13dt6(%iEu^~ee0DRJyhfe?JU<1d4uPqwlP z-^Q=V>3eOD%%CdOo%+ZR%bf>sdr0SXuwUX28k+TrJpgeAzOme(^+7vzA8eF{ppX3q zj>{tUzLxOw@3lab27vGO9PD3fVtlWLU5Zj}mk7)cPdz9O8c`(rU4rZvYr%~x7 zwcfUWZr*itCL+~g+~!RR!NkCvz`_|ZnajJ%)^3y`YV&QDjTrf_Ui-9ehxhw6>As$3O} z(BG5KPTiYFzelFwxi;ZeoM(tT0ji8$dL*7NFN~%sZiC1$sN*4uImuqoghw*Wk~X|) z&;z9Tk*fN{jxIai0H@T8D*B2?0Q9@OTe6cN1~EoEA}!F}^r6P{(C$lrO@^3lLDSVf zmr8XKL-A#%q=UHoxvka5-!&_VGY|jSa<}se8$ZpN$^PeGZwA8TCd_T^0G^{__UU`r z(-pUHd_=QyJCHibty*7h)>%4TnLoP5gHZ)L@TEBAnVzPMZV2@9Z*i$K0TpF?-qW{& za4MknZNoCbQKUKdx);<9gL~B#6y_rB08>pxeY+3^g;SvmujaWZV8>aW+|Y5E=@=}o z8`bV}fY6VU#IVnKgEW7InrK$h00Y$BNsrR9s)*2gN>t~!y&5QeQi5)Zf^6bnwpWmG zk8GPXbdGJ~8V?YkRsDjXZK2g0EpIp=dI$pIm53d7GOPA>G>w2LM56w~x1z0TE<9g} z_3lJDGRq$%tF~`#U&jQVyEZ0}?LTTa!oD~D z$yuhMKE{|u6SluCJvH<|R+=yN3itE3ou^2s?~Lit#445DA28H+MZi(NEz@_clVK(b zC{_DoA3ukJ=KeeyjbH(1gWzg%H+0sov~?teJ~mZ#o^1i1;5Q34vB=EdFxyE^puA2 z8rTKEe3JmB2u`iL%Abv%5!~5-cKEk$%C}LJ@?8HV zaY*m~V&Z4`aCk4EE<2?&aqRfhj#DVe;7IlM&xwq(2=(d1XLelR+abU3ex)r(+^%~a zS?*Zud)SIMD~M7#@*diE8YL<&EMW`T=dmK6>D&ht5bgYrR1a``@SM%^jybs^q|44)CsvUXW=H98q_jo`|>EdFt$+6FM8G^7nU&B!6xw}&I&Yxzlp*~n!2C@9j+nNn^(Lt6g9L=$MWcJCznoN%kludR z9HXQPAx^G94L+>0z>o=H(SXTTh?Cx1ZP=2NIm*8_Cb5>&EAksRjdY{(`48kz`sXUo z#Zz#PU$FA2HYISkQJ#m`w(}(8o{_jQJg^h7XUO7DW|^|6i#&JgtEK8ZCd5KjlTljt z&XwXGk~FyENB1y*FT0=N?=|tz+uNe(+ged#xg2aL@td}ewujLS(0wZ)?Y7Pp`ewoUX0ybZ8M?Wpr1v%`= z2i%^$yehelQVV*p#z^A$GBq;oAjsn$)mIDs5Je-hZA|=pSMxA}!~!(x^;Af4V6gX1 zFlqMN^XCf{NykXo*1)iP+@^WuUVrX!ckOisZPNSGZ}ekhOrJldCebd@tD-6ExuGYA zA!m9BII|iUs^R(0FctNnA!qkx=w=3H~T6I4lvMVgj{{wb6VR}V@wzmYi^aJm#u80d? z55MEa^{JySc9JRnS$2pN%_vvWqP}Zv@d5eP<7u3$ur~g)>mg&aFcrweq|riWY{vy5 zYeV=TyFJ7Rc{xSL&k8bwSp?8sf5wm{UF8A8S=O7aTn@RJ{WJ3%6N%Z-!-9FqASshv z?6%#jimZ@2gAVC>TYP46<{zu>fqL^mz>2IOHS6VvP^?y6Qupk&d_dhkHcE9ax5-yc z0!h$xKh}Z9m2jEmrYuze&5+@Wwo2~EJ0AHja6!{tA^&OJsRkQ%`B2rW6p9olKTer^_z`N%Y2bHcA{u^g*!vVn zPY%y2PzX(ouv|uH4}PK_=_kZ^0(a6_fVeHB>}Tz64+<#NT3wHQ5vq!rcsCf176;tK zOHaZK$cpqMuj==+?FA!QF&l@tDHIs&`-pU7a~k@RCPxvvqVkQvTkKab=l~GqohzH| zQB5+LDB;luJfF-=Ma|lRKU~Q@3CBfqmqEcdNb;MEm{_Z}sXe1V9JiU4I}fJXtY*++6`v zeLQuw$-et@akV2=koEmE}(50UaTF-7{3!Ybc(pte+hj7Z4b2RPQRPv zPadd31Kp)rUh3Yx=R68dVkOq7*?C5nS64uh`J6M8pVRRQU?Ns^vI@f`_VoVWx$l1q zHvD4&!hirT(4kxJ3t_kZ-UBbjPHo`muWSKybR&B#O+Y#fI}eH!0jSwL9E$B%1VbLg z5TDyz>RYHJ9KW_j04;mxwkzf=d3)QQiv!YCvYoGtuf>QzdbjN1RbD-Q$E`1dZ^K#W zJGNlWu%FDjy;7`lS9Tk9pADn!zbSqj)pu#r#k^Pp0`i{B+SJXX?(<4c(}VhJ9r39K zQNs=lKxmcTxYf;$WPfZ=!sj0H#5Sf4d%mH%m6+$|PbD6?o(6pD)+%ZQ_s~5N2EpodVpEFbU30_78=Q!{|M`+*H8SB*J{`(i_h!?M#K&`-;JU&ISUG>WipT?@9 z|HZ8Mp<})w1JIXhPo@xM><9b^xqEhi`FQ$M)gFYU$^Lc<*t{DZTdH;YfC&G9o#HeE z7fC2{)oN{4OESfMva(;;iM~ySCz@?{q2ya;+ZyEuq~g~g>&DOeoe}WVdFU>Sj}xz^ ze|M{UN%bC(<3N*YKku55IGJJpP(aQ`WS#wL$>d+%8eIg;XPlWkf*6%k?jr*kxwLXj z{6~QOEiP>*PO9UP;Qa*zW2L$LjhVFc@A0rI>s$tnP)g1*e1#%Ep~H$b+NAe(ao$i` zq-Y{@18uAtAW?odjvZt!xuFC4Twh1L-Etn*;1zgFm&-1w8@=H}4;6JsYs5Qud@Z%(kp$qS$7lX$G4m~wcJ0SK}G z1%F|p2j#P>5v7@MOtRHm=sY6;27zpW&xz^Gs;3o$D~N7MPj(ABsUgjHkZ&z8wnGcV zW#K)0^CV+J`GE7^{l`lS@h>`Sn@u`=0fJ;RLHwQhqsDdQDpp)mnO|e}*GjDXs9myy)!gg*8+M;HD!`G;`O=15wQVHOpOO6@SiF9Qe1z+pp5f2M_y-cYw;{ z2;%|9k)$%_yQ;af9@Lw;SNbvUWyjc;{_jYM-_B2<>fleb&hOK#8R(R9^>l(Vb>a5> zMftQOVjkscGj4zx6hlNWTR>&2w*OaK4j*lm7)}z{GP*wY?&(M6@9(W8ufNHDDY5qB zg9C>lx~Lv*T>+@K-e=Dn5ZY z>Wg0MIrIl!{Xidm%WcWDgWNYRv3I)!STWRSaWq^SWY^^*28?1JyQyq0H3 z(Y6)mo5JSH>bceHH6^{^HCt1oyUV}znW_b!j34(3nlxPPzgnSFn6&EzD(XR7_vFtl zR=#5q#y_HPdk?VWj%#0s1oq0kU&6(J;LY+}ISHCO{^9U-pHV}Pl^Xau4 zX}kOQ{P?xaQDkTP)?V1%`4HhWud_>Y7Bl%>g6#!BeXLDAxNK)STAL`EV~SH zw4z#!h4b3E9PY&ebTVVUS*QcM7JnB!`+1L_Vh^9k|0vVFI`#E$mAowmldAN;PW!U3 zNq8yR>L%(3omP05vj>gMS|sdS0WiEO#Tk%1*Vd_PzY@^8a_|C;*2T!-*srq+o~t2% zHrU8tmCpo@MGV{iJM1s64n6~gm(t#~XJ#s}Ph)xNUF11>nyWoZb1SZ*UTzBj)g!b& z+3>hg?CE6mLYL&T(nH?>42*vVOXobbE|e&_6W2g}h+hBZ+m&e#{N{@-Ya6Zvtb8k` zlrt?^ZXvJ0B(_!tHjA&nIqquO^*Oe4;#U^9Pg?yK9GHSTQ#K=ZXbZkv?RPi(K1{?w z<51kR+mEUT*n~NNKhp-p8&bC@8Yd@*9aHj^6D^@`VDPL6@40d~Sm=W2wNtGHQFh>k zhMbIowQB?R7MF-ecNr?wMVIsNj)9u+557NAIsWmA8zc831(ORqe&5%!^%LTqWdjF;fRZ?_if7T+kB27}jwTsBx>Lmy>I3>dyWG2z+ru84pOPou1hdeb z9CHKjP9i7Ho$}CXZ~m`y6qr>X-0B##Q^bEzo~ZD6KheZgD9cfwxNPnFIS*%$CV!Sp zl@~9$2NBwt48*rOKM8|N18oluj`K6e`)?O8Be<$D>o|k>)11NLBUP3Q4z9|6w--5A z&>IzczBkN~&Z}vgTT;-gx4dn2B6yPK zL)}sLOO1@Ec!r*dS+;iE<4dJhUkvmLf8nbT@n*^dG=I}%VeKizM_gYfl%n1@mXR?wxz4O8SBr@;R2#o^K* zwUbn{Q6ukv8zQ~zwE0D>l=*g$f3ag5H8I*(B{QZ=tYYVF$t_21`4u0)GwjgOP-wPG z?+xwZb?ZjU(t0C8nDp)}yh~%V{`e6|C68#FwdQ>KbJZ>*8#?T_NT*8%wrp9gC;Ae z@Bw!k-O9gb9%8+X13gM^;Yo_mh$Mnzw?49z*=MPL6ER9A^X^I<9mBsn?*A+R%GNC) ztFi#WaNm3Z7L5PLD4*hV0n0+Ns(zm$;1pZi0*3z7(mV;;5@XNUex*g?<*;i+xtZY@ zE04k}h8@v~-+@LHOkKNC_j_uUn#zs(EY;Y@?B5MKDxEQ>7ll-Dk3Z{nag0$y{OqE`J&R~vg+t*Mr}s&C!3 zga0v6(GFrd3T(8PZ$D!5MhZ#oWW1kze)h6k{7q7E6`TrqkApO$ZBq>6qWI$82p@4) zOD^b~nzL-RLs$YfO+#RUH0a*}zCCC{T7R1PZb!R6VXPs2hibZyirt8+nJ-xAg^Z7a zSn9&Leah0ec(VT+=Vt6U%DmzoeVTWw9#_w(W^Mw*OXa>4fsmQke z9DgtV>v_XkvS!V4F=x)%`?K%+x~4R}TjiSBRVWD$~e-LMU$H?*go6%B8KTEIs#34V9;t z0=ko*(DHlxBQwiZ@g|wjf~>m`B+H`YgfbLOj;H*8pRmsI&>J>oz?!(lo8{oO}NN-(8rh|*l4 z@?ts=Vv!J6o2>Y-En=`ZV;-^~@eH88SvcA}!(FiV_I&P-*|Zki6`=_)wEjRjTJ_%n zXkM<|GwcpKh8t+sak}$VJ)&n;HIsh?H9~YIo;96TLRj=8rz5O^M|=cA>#}JgUH6 zAB+UUP`H=QQrtAcRmv|xY4-`d#MZeyZ1QEo+uXKhB6+n@(oJ6^#(irD?r!p%+B~?# zm0iH`kpl^My~krP?Fo?ZzYRW0U;NsqsTFI3KGovFNM0+<1cu zqwVwntjZ7wj=>!#f$b4yLcmOou$wq83#MI}(J?MaZ>3i>?S~(OE0KWs)BM)wga7^V z4??dK_0+NAduNgLDym|{i%j`h)M=+N9X0apyitynYdW_#iWGo3I07 zY#^&8f9Jhk+~}%9`8LyN^bi`jo(izF?5HZQR@y7|;It~Rnm;Kl#uNxSAW~lXZU1RQ z&+ed>YAG4OUwSgxjjU}hHZz(0{ll`9AXS5JC*%#W1l8Z4RF|Wi9NAi?4!ia}URj9# zh#W@5g_n6ETDGB!{hQlA{-WvvsXF4~RLYU}2cP6nTNCwQo%;Y8E1DJ@pZ6O5<3apY9fq&DNLy~gRU5U)YXPe?h{ z`#yV0CpV@yND|gP&0OiMTrCmYNY0^JzrWEf;oXVpTHE_QJT}4HJAv7f+KhPhd5TDw z8L$5pvsXM%MCB5TZw0Qumn3=Ln}<)TwTKSOR?l_A`n4F}#dQa{Q*HMIj`^_u_}F6L z+<#43$V=pwHo_vF;M!}9@%ZtEmIh4EX6ySO&d1W86{DNY- zD<*Ox4C2hJ%z~5rS#TtU%2TrFvAfFQCLUL;0(|7sXHEe(Fy@bVv~R3h1=fl6wp?3& z$2eQ);)09%rRwZH4deI{ND1CP=fu(fCB{V`ZA#i>vJVJjpRykMU3Mfrm64-f;~1{u zCZEBo@fuaz5?S2zil}>XSmtbrF@u$W-rJm{sGx7paI<&yJNmTFG0BKrY#)-+IqA6c z%BP^3?>8%qGI?YLxhX`yt+wprw^YMP``t$W`&^a(!V`mikKj6K_hHCv_I-VwnoAFH zobs-4KoDRhb~Q{b+i;y|BDT&gfZ{=Y{wH)$-6(3R-oG$=P$kQ%gM6)V=j{B zPp^V(H}1Om&GV)8xgk~rqtiLr#^%+X?k`K-Tt%R>)%CEU^*Jv6yz9R`U-smYfO8y~ zG!nt)eC|21zZ<3QY{lnYJ5dS(eC}|1*4X0GUZE>)*MW5WVNLIV)`nbF8?9zT7e0PPef>+vC zO}BtK5l<=++i^`=k>#!{z_)>&FGPL^|3i zShs?GTiK{|)EN?SkEt) z$SQJIGujpgbI~2N|19i&L$mjK`3p5jbwEOg%fl{iYc#g-oE!L!%@=FODiX1KwvPyz zmW}5U(t2M#au{0*FJiBZ+s$Pg7i2C9I+yAuII<=Jb}or56guqfdCrcHTbov%Rrn{0 zZ7BK_ABZWlhHbbuZVHEo7V0XXbrfJ0(14xboqXQA(i5cUaFx{=+1yW*bor^jK7up}ph&NE2&A;}<=_=& zpM)^=y-pS3Y=#mytc88h+Y3<^>_`?Tw|56Mr7@iHJr^1_6J9otD`= z7WeV${l2BuN>T7b>4-o-qPDQBRyj|}KC0vF@Om4^!wI=DdFh5H&g0e`z;(4t+Uyt& z^LF%DOzRcp6DNQXV0hyMB%a>s8sr*8cw`D%K7MVN2?=Q;5u=aS0|bXUJ5MkL(d=Wh z(5>ZlZMV`Oh`q)t+tH>t(pv(Ov8%TWh!Gf}d?M}V)hYCbJFnCg?Y`{i=}hQ9q>h!` z&q&(7b6mGRqP;k=eKRUHFYP@%v{Ad})n0``cmjKp&?Cw#v6M^enH_3L*LH|#(#?C} z(qSoKwoagZ0`dPM40nO^)zs~9K6!@05$6J z2**iM2cL%^Lqx)#Fu2e| z{ol21tU02*TX`MXl}ymw0an%6wbXrNDUo^9DT%Y&5w^OE^=faZc96)AbAbvGs^@Dp z7jLF2lzVochP6*W1LD8)7CVi2kXH>fZK4uKtxZC|-meOjEeI^WNa@4^F-k9uHGxZE^W~I zqMb{wLVh;E72Nxf+%C#HaO`jbo64B&OIcY@gHQ;)jRmdI_ja1+^2rxV47$4g+)l)T zVxevy{>*5(jzf2e@}>jY<7#YNI^Hlaz@ZLC_Z-jl_xdxexX>=Sc>2b8BG&g0;0r5s zYFNV~H(IQIXJu8PWYuq6752V?Fa;70T&hdV1St@yWcD)D7)E5upwO^l(xwr!>k6U5 zqU`P~*LDxXclin#K8dvimX?__3s}fj_4z)^+5tsPMWiLSo(zYe{2%44 z8GZ{&V}Y_P+aH6$+t*w-Ka`Ema`tP>oYj&Z)H0iCN)x%szGjQ3cE-{zDSl4|zM)f% zvew4c_To?1rP{V+{}@F5d&{cG19ZUF(Xdt--pAj+PU*p3N`{!!u;TbXjAs z&7t!=K|}vvAGD*@?g3EV>fYr!YM}oToSqQc7bF?{C_!%1M-f9fc$yHoK>3 z6PMCvL?Q>}Gi{jm`wAKjMcs>pzh+c8`ENa5Y#TQl48m2XuCd)`pNu;NsVDRcq%-?X zhQtLGvD&xh2Og~L4y&V*Z!t5aPIqsMt3CrTAPg?9)hoUXQT3V6MHQI6h`=ay!F+iihV|Y-Sj8&6Kx%Ngj5iw1V1)QqAk*8dy|s%V@=O)4 zTI+R`#W+03ZA{=G=w?c``aC%Wq6ghX>}qO8m|r6EH(QQLRe-!(BZcRg$+rD9F`n09 zxH8^QgHcoSt-6a=B{PSG!dekY;YK?(Rm*52B1P4J(X|nAr*qy7PJy_L#tp~8?dsJI zlzOBx?~850wamQe?uCmnZ&4MvEM=MB`mFc- z43G`A9MaNqH9aD)mKME^C}-J>1yVj5O?SK#k_oj+a&*CR1joQj3af=?MM!mwLFMP2p|LVfY8Y1-7sy z@ql0f;_*YIF%`An_{Z^8;VDZ|A+ZiDHhQctE1ar4;YoHDCWd=W;k^2MeGi#ZA>>U- zF)|^sDPcJvLcWj-TiGk^T;G9PiBr?@h1aet$FJ)|HSqFMe1RzVqn+w_$AbJhj4pj`K=B5 z0(@!PsTZTw85IIr6}jo3q02UO=_3m9kQ|kE#L>0>Kib$WE(Ltf6SnteOsKmmk2>tT zl+?)o=vH4kWsoTCf#t0+T_u?!el!O0!GmM(HngBm%{Gpw8cUm?>j^Y7i5VCe7p!Hl`Lo0Zl z9`y8D(cq>tcXy3IA9Rz&0r(x{)tiVDqR&{#evrLqN|DLma3W<`c%ygw==RdkfQHu5 z<4+$VD!?}U23^!~rWDcTo+~_HDFGL%5P$7X?`toVJNmQJM|(f?CYGbM{I3baD{fK( zD#tX8H4b)1F{}K(sCmgl4K`VgkISlF+|S`V%3H>|X(vzb>h&I_%h5LHZVCFkUe^dK zv4Y0Ddn`Z7qFXF2jYSKNB$-zeu3P>6^_~^v?5aTA+OcdnAyXXw3y%%EDF&~vy!pfr zXWr65S3EHF#ahwm_YQpTdNz;(SxyA?{aQ7F(07J06+A-MXzKo(>-Qg(9{44mPEe5t zxFGP~!O=pAGby+NBrI7?iKw+47MX^wQiKZI12ZJ@qbZZeHO9d-Z5C6;y6^gew`Jh^ zUIp^P>UZhA18mC7eH((}X@V$ds0Nq%eQy0)!C%rF<-P2?5-iW^-1#!=Nwq>CACFb7 zP}eW8B0A;%jl*{eYnmvf=H|_xaqs5*ZzS6MIumcig&XV#t3!m2pe(TNQuTvQ{Dc3# zfw1{JDPReK_@BB0VK(Isxt{)ogr6R>QEWQ;UsiZhJ^(MoSZw$CKIbQrpFpKM|gCkSjZxJLcmr}=Mkyshy3kPD)0WiXT5b~yH|%4SdHCJ`Ia9{RHGAt)5r zV(Hh^;Hb^ot4foR0f&CpflEfq&&n=8qS{a$W@S3fcu7R0TXg~=HcX-_vVt_84B3#iyCnC1W61)8b~NVh%x{Zm zf|z!Xz(jUZ7l?rnnp4y8l8)5fBnjJNHeZb5n&&P9#9k2e*BHHuAKW7X!lUD$?Z zFw6@t-R{!PSKlqhpQ^*BQV93KA8K;>?j*xUz@z7t!$d9FXUD=GGnV*&5Xp9 z@F(8px4+NeuPa3+3D+9n2rbrT)(V!?vFj1sXi(G>{e>O0@v6g-&CSxCxjA+dyq>*) z&_p0_f>b7X4Y2j55L*6!0T3@$y}$YY-&$Pk1@->FwfOZBgR+N&-ewd=LsR|I!4-jE zH!=-zv;ke(IoOx;AHzF(`#~&sP3Wjh?QE>eL*c*KF`HX)Wf>J)Aq(Fb@!!3%IX0hM~hiB9_bRd3>aV0DZ&BU>{6^>vBYKo0o={*}$wi0a z4?RSGk#ecC9dE378LjR6lKmSbw;uLrn+67M2p4pEy}yZpl^@KMUafw`ISz=Sp;GCr zbrmBqyb$^`=yABd17GSfH2fnroR7y&>j_I$`XoSi4zihXc{LLxm3hNJ>n2t2Da27f zfC5Fu6F&Y{(;7-Lyqmq&6n%CIhcuI~CHZPlf`tr%{422afFF(|7o-zBKXg$W!;8mFn zMj~k5vBU#Jjn*pJsd0)z3^)ykh~%fVWO&~LME{uzuF=4 z%UPI*lf?~(G-(c1apo_raq$Q>^4I)BY)$JfGm3686MbWc(q@b`n`ZE=S`Nb#m$FJ4 zd^&?~i!(OFBdliR+-5hK1~kHMNQwMJeI~_P-m)NdM_-$UR_UD&h{QMKyL$}9UasY9 z7G(9e*6;rayODOgRsA|G$1&pwI-pzE674&#J!jY#bWki}cNGytKZ^4PY-mInR)Jra zKMkVZ=p6PNBgz8Gxro?9`<;_1?hVDqk&WMiZs;c$r}l*wy~bD!zx~4Su1&NOs}l~y zM*w)?*XT}mqz~_)AOZtiBTANSiFLEvcYB7a2)QSg+1+wWSOW{^$rfn|7HNMCR`uYg zrUOV0C`)fx*lcLzWM)tav92!`93gfqSy>cm?Z`UA^!Rj{-Cl)7_n0GA0KU+3zI7(Q2@ zxU^my^FE_Q=uYE^;nodQas>ztyW~`!btzwMYC1V z7!7fx=He*92(Q?p9ZA_mm%luV7EYQQM|^V$TJ=F>C>im9m=WjC4ygkyOS#n7|JE20 z^+jb^hV(P+nNZTWgI5>avRgdZBoFCODR*O#vh#hu=1UX9%ao>xTNpJ`(*WA#pF>em}R?>GT z1fG}qW>eYb5RRdWq5&i5n^5ivb{mFG`Y-nKH4FXsuSZ4RnO1w!RD#k#k8nke@p=Qx ziMI4nhEDg7CAGQ<7hIEER_4-%@AMwZL+&uVSW%q{@5{~1g<3!c!1u3DKQBfg8Wohb zIEHN(FHR*$b>_BJo*??jG=vvs@}>k|ZiQ-=aGa-fq103u$uwpNU-zbkNZI443pH-9 zaT*7;J!x!H;S5l-5slmWmrc5&5SHw9ei3Kyr0*`~Pd-;fDD?d+Id8!HTNCLXDx@|uMP3@2KJV(ui;9{Q? zm+eFF!x7>`}pX-RO3=j+PeJl(MCx2VmBZa6|Plt;idEUNU?Ne z;|1+Gd(-{k3yEFy72%ku&J9L|Q~y)02hjez@cl2Y(YCW=&4a|r-Nf*fr|`CV|0w)n zpdKRc&G@VimGk9uYe9TW-I5yUWm>aCoEZF51~q6KnfcR(;tm!U`t;f_h-w;H=%EM*HcCc%@RY>3 z(lo}@fIb-JwD$V)A$JO|k|ITew6^=8y8pv_lRf;8P?rT8eQCWpQU-aMp37C@NN*p- zcAF4g(!X8**2>9tPmj1kw&#^I==DnN4&MQ);(|580wi1OZ{Zzhr2oQbKmO0|L5J42 z!=LE$!IIwr1_P63X?#-2(-aRwqk!dFuc1iFVJI-0WCj`_w}7z8KQx)~mExDD0`5PV zyx(tV46hKWR20JoVnw2yG@uh3c@t0M^fPE(cUDGyxuQ%{f9PGNL3Sq+X65dYi;K(7 zE9n_7T%*dWh3mrKGv3dT65Q~t)%qm60?}Ws=DS2SMW2aZ*Ws_1(5?c1{TPYkJSlOQ zPvrrL>Kvs(5(Rw+kN-w-J$C8RsXg6O00vo1%n`sei;J)gSUZ?rhlIKs5P1~1Tiejc zK-SsWZEwX=qAyKHcmfqsi3J5qhHdUN0Nk9~6(L1v?2^r(9A{RR?(s7pI6`o%m=fh( zL8d`sv=g|tosn-mBCQ!+ooEj*x9i+Z_lY2iJL>cbVv&8L$?CAh`r}IB;Kk<@#q_1s zdcXNMqez*T>PROot(qiHLOM%(A5L|zZ}-#q|H7WT=%Rb)=cd@h^Jwm+-j$heCh@ba zJRONUD7w718=)aA(P#b%ZOpMnarXXkho^68C699YKD^VPeraiH3g7rVBRZJ<<<&w5 z5K^XbW=P^PrDDNG-fmkX95 zEP^sWygYWrFUe2#0m47%4r;s7M@mGcTtD5I?mmpnwS{eqba6nJ&R3n*kj$7mq3R$Z zfD-EMv;43TwZhh_*fMhW{p8=LW1*qcD=3_)3%A!Qv}S-hoExDekb5f}*CVjU8>Zfz z&-cClo$=d0-%`VEmc(M(zo(qQU>-*R`U&8Qt#kcz;%1<33PD+|-HWB56WRl{?^iO$ zj07?~{g&5M@g<4#wBI46N1COh{rE!>+;{GFng{FTK$fPas7rV1%v~gSe^%{(9;g7! z6iA{i$jo7?y%Wr2#9m$O-z;MrZeX9|euJL*rWA-(*tOn+nZm2@DD(0_pBQ6Zs8uwB z+Az#J7$Oe?RB9nC5>fnZ6P>5iI-JsyDck5OgmrL0Hs)2Imhpr4d>Bxt4of{?eqgT` zx5b)^EDfzV7Fx#H=iaK?t_I4czX+Ei$Q5-HUNO*GWrLUO7~)bOzG?;n3oxg_|IKx6 zjHmLs9BW*nA8)O|gLxn_iG=r~1e`xwK4g5frAPO+6HS3+vB;;q__Z#b)re`&oe0hk zPhQG&k$8Faj;&MMW|hA-uGmV`CXSh#v;6o0v0i<5^|3Tudtl1D!47Y<-`u^gNoH+p_p7sO0wNYp8IF+d1JwIV z%nyLq0dCtg2?z2Q3AAWGc-1j_*lx4$YJPaq|KN>_IL&dpFI@U2fu`Zomn5|_M^4^4 zK!^rZ2#Lk70Vsuan9kp=HK*0~<4{AfnWyWQU?vs)2Nekf<_Fvztmg=EKp*$t{LJwM zFrOhrdk7Jh$vdZmpgJVjN z{jz;-qYked{|5KS|9Y5!uHzbG@jt9oZxY~8Ss~NA?wEG_dSOU_#26`h-HDd=cr~d+ zev^=~`mx293dNywXDEUUV?pu1h)V`NH**!dl_KXR7|Y);1D;cX2SosSBc=IJ8JIx( zhkmOy(wg|lUp<<*0&6w_oXv3z5(g>%$#es843r;uAXW#%S)8@< z;o&uQWyR#FHUHmycFG>#RP%0Cmgx~>3-&=CNp<&NKZ#)%gA_HIyy@LjoWUz`3=Kh5 z01(yPpHy#RGlmsue8C3lSL+mHLBp=kcU~x`|KK>4E~R&^#NP z%s3R)msqeQD2D%~!@Ki=K?p@p=vq&M&KN&HQ;tSsP{@^RemIYvFlqzdAN)={kj5A< z^LC_>OEC>LH4EhB+U9_-RC{Z^^^iAt3Z&UG%C(;NzSNn=5r{D!{{(8L2A1b->_Ex5 zdv4d1z~;oCW$8Zt=UTn40Y=V9G!U4FF~8kLBo;6)wLL5FoquY@c%)~+h`H^8OQhyAD%|6Bhz=h>GmR!>Mr3&V9ohF|%Y^Yg+rf0cDi7`4(3rprkVVF}{|DgmC$ zG&8@k&SPaf4idMav4_j{6R0!MlSh$X9=s=e9^PT~s}(VyMJ=Mc?Ars9Ru`deM^z?*vkLP>4ve~ zI0+^e$`|QP-YM0|-mY0_uu}#k@F=};UmX(bw7lXW!=~|Hmri@k4<4RM()ZrBPWgM^@RNc!rValq`P};pH7hNbVm_ zJv4kLaZ8_oi7x9+xb0cFN{^&X0TVH`@;cnxJq+p5nh_zm7T5eq`{)aQUuuG%Qz{%4*Aef}_r7Gcu#zZU4&pdy7YfOi8dgpl z=1x>6WTW0c`-uZNlqW(6N!;uuivKY52bQ$4z)e@2+vE2<7`J zV>j&O#HJe~8A9648ik`^%%O_+I<*Aoj;cQ+TlScW#hHidb3o75GP1MV*wN1;xWv^G zU0ns=?%oCrMJaeYIK@&c_^Ojy2b6@W?%PN#JJr#aZD~FCQtGPfO|HC4xBGy_+Wp%2 z`u7LQBJXT|v!NK)MJ;lEFQb>{ z+m;>AxnF_bUChG0--G``a2%x0mJ2QcDIzq6ZEn^#-IzDTL4f*jm?1o|I)bglR(g%o zz3^}{VL177x4&;(9E7GS{uvwFu&7noYD#S%$@pnf1Gw<53fLj+-;ZbUlR&1eIg`1Q z)tK!2oRjj)^G%Lmo?>UJ8S91a%Uwd*ei^+OSd(vII!VR{?f=k;=-?n=J> zv_tz)AMw$R)|t%YcL106Rs_g>LQ6L8>xl#bt02gCBE3V8j>czb9OItMy? zJG*qo;%Y_^T47+MmiXeDZ?LPlY7(D@S1#OF8werQW`tyO6*WsdsOX9SUIEcrAiwMM z&r0p83|`(c-oD_tB)%f(lofG!6^=fO-RpEnDi{93t>P)Hx88fo9Ea6EEh?7ijqh-3 zBggG{TkAf^;1M)6<%sk4i==Xtp%ZhQW3B6E&Z&DAhO4aW2f}A#k=VT{*YJu~_-J`!2JO7tQib7Jy4udOP&R1<-R8I1sMNOk%H0G#gwPH>Xr zPL|8+?Qaw5+kl3fm7^5zgW%wX;C=w`Xn+zP6XF~KUM@gm<-6Of0{_|Y9cYLqS&j`W z2&`TO^5(yP@; zA(F`yjH6S0G9cWH3 zgsO)V3G28IHiz2Gt$ngBA$LE^Y<=8<08wT^fsyD90On$5UJ7q(HL&50`}e?)8<+RN z>eim{75-w`7OG!l>kkvoFoHGPU znAJ4R!KS4&8!lXZ)LH-CPYQoZiO%U0uLl;5dOp185<6g~Ys>38dS$Dsxrny{rycqW z+r3}Ez%T*dE~id2D2T5Uwg;xFZE0!>_X$mLEvy7gLonNkAB_6nZviOeL47MmEV^=a z)8nV2(X`4~Phi|8Pktsu_W+{p!MC_J?l2AMn`i7zfGI@&YRsRJdd@hS!DkV+;tap0 zt#)e#<1)5^@))M6?f(Y+lCpB?;VLBhL*i_YE@%10QDgO-k(2eDjE=Q6`X&iZE0b7u zI2$F&NO7b!f8Ylt%cFh5f${Jpt=?ykmvC2txc<7!l0rVw`CRpq>eRIJe17TD+Vy;o z$so(Yvw_~5B1W8*WktM=^B#|GUh3W;+(4i)0-0QPMbY<5CBnR@?xl%g4g!1s-Q@72 zQL7=fIi!}{xN%{2CcFi^f*DctFwztKjK}y+c<#;Ou3Gt*#??V*m*~84Te=_c%s(YB zjxhUY-t-~3Dpjc<0et}%z9^%M3}X-Wpp z%zZnJenVwm=+uR>dQ*AE{`G5aqsD6PF~pA603~&5kPoLO0x!v-H%M=~17xfQqP}uY zhcyGlV^ZJA>&tW)yL0%)y?YuAMrJCvm}~~Iw6t89NS6+O1n%+&flyN)u_NTQiuwxp zm?Jwwu1^WW(9JN?MR*HOOTUWM@xGAEw4n4Ubbbgf2mq?HgQ=r7ADTM{U_x1{`(*mc zv9G9^<(}8aIC^Xe(L@dj&4~Up>fwkNa9cuZpL7o>`k(Q%aR5-!Ym`ZT??>-_pexQy zq2NeKHmFxhy}2?tpcoXgpm)@+_Jl(@tfadJAXBKcS#W+Wb+ZAuQ6nE*3~;OgdUXKy z1YU*H+YAt(Sr!GYtojQXrO#)oT ze@*0AH^q1i>cd@KCmMZ4Jc~Y~KFfO|tFIuCFft=~<`}Ek?JxOlX<%sbcyn3@i5ul+dan5Hj7s?o zG@L_a>Mzm7mgddyaB!QWw>$cBYADMl{}k)ub)z>s)8_93?TpPyJ}lgFU2J>(*FKpK z%yrXZZofrAqQ@hxP5rH%`vf$PYxUAkK=ikGwr-p4i-Cr&^paUPk30jEFo!`2yX3)P zT|wSsI*?Jcz(ML1IJ6vMC4yPdz@_+O>eH&>~^XmLs@&u4qg zU9UD2eiP&_Nw1}LuAgW-(zE$de<^wY49a5S#Sls9lil1tF!}1wDVN_n+j#Oa2VYHy zBX_aOtJfrn&?P?iBZ76}gA{&Az2Ceo;u(2wx+~?R81?seEI(>gqoyNm>bBlN;KxrB z9gX8Zg+f)dP=|iHT|8B)A0=rx3Py29sN=B}sTa+onBt&PLFT23#Gi&G7G+>_6AC&FCS)!vEo@#Un4? z+u)P#m^#1k{Ua-M$u;qogShZQKzb@XJE!dYkI#Cn=lMix{953INSO*0%UvFExo0o- z^?F!mEoDrn2hW@B(Uo+7Htt=N`!>tN${r|hMmHpVzjJMxXKV2m}I^O}P=xVanVlOGGOx-G}uyz{>UvdD0Azs(Ui;RUP z1;%WhmItYsVaNWx{LI`wxq?RJ5rsRjZsU=KHa1~h83zqZi^ut|u`F6V;|C-4dZpEx zrrs-cZxI+9L%GKXO@Y^~%Z050r33pYx@VNPTc0S2 zIIW_&6E^K)0sa{yl2*$Nc8>{Yk_^-(86vp<5=O=6OCmRa?sK2tiIxsO&ZlL7?vrkP zZ_o8}I|vt+7MHgll6z4Cc_Qf*Lb{)1L;fW{0iy zL@mS+(uhBnv;1BH@W}8-L5fo^@CNO&(~HV)xc~kTjVFqkQI}^!Mu8F=4GjK1J|5U| z(i6g}^cV~ovtLd$;FkxwbrNooZyd>`x5E}ZkgRDLsH8{;nD=gX44hXXK2q<{$0Ha|gYCq4Sk4Do z--~{*`*Q*3O%(}`DmxgPCkRHYw>CB0jp?uWJZHp6#7omF};` zmZ{ELl08~#V@Gl8J9Z7+es)E5VNt&$F?Zs$;aR747iAQ9SVIJOyw)M`{XLanT@t|p zr*Ay<(EfP# zT7BHRuy+Na{ve8i=q|f1ONSeZPYRdAp;{w!efkp)H2Ft^wk-wIkn#iO;rM47oBYv~fGk2pY=gp0$(yV(mE2$I?eqEOiO_C64d&;U z?Je>@9GyH7_w~UZ;F1AEZ-duU6Y(9^xmUVh{@WMY&KqHJepxo z5P#-(g;a=U+;JtSQhowxN9E4McYOe}*a+BL{}bjMbDkF?f7#w8ZPM@Q=w3_ycMA34 zITvWP9w8P~i`H<%5OThm+}_+9Pi(7Rn;WnkHs(5CxHUWJd0?5RsYAYKv+}uY>LtHa zQbubuEO~zTi3@fsm>X&NE!IxH^j^4qt7vE}fxDApO@nf(ke+fqw)l7XN9xh30ocaI z@sA){w6Hjch39t3O~sR8mCGXZRr=WkS~)E^B~fpBphu!tMs zSYG)XsbSOmKr(^flgvP3ePY7Y`sUbg{_$MeXgwtzHq}r3P%a@OgPe%tbBe5ty~wS$xDn4OQQe9kt=lGhD80@ zQV1LxaC2~VUohvU-T2&Z`&HdOjnwoF^vpp?o}kTmaXk4vX>?$lnK$o+&q8Ah&+t+j z?C?llqyr25-u#ow#(6L>DsxsTAB=Ny*0fj-p5EQ^I-dSUaeZ!%K7+p?1o`z=U|Z;O z=_k`-ZTfUr#)JXVgh>J|x6wug9Q=76-(4fQXLtZ+#@w)Bl8-#<8D#_911BF$FMQA? z&`j#$!(`}X07)9usij%<@e#g~-ZvR`J|XspBXyfUl9ulrV#u&kimfcb@4um2mlK&M*lQ`S8ba<|KR)lxVb@UC2pKS6 z4#m;^%sLtUX_WFaj|ULK&7&{{$88*LZkZ(~0Qa|ZwKnj4eN=~!i_QwY=V4#OrzTR@n7txoYSLDZf0!KB;|@3tMiJK<|CRB*CBhg^L>VX zvpTD>rwsAsRRF4?R__%#YxvzOsvl)dEsX<)!cm31)a#7L0$egI4NEmt`VTrSJ^y94 z$mw4s*BPB};$naoObvP>YTgtsaA$P(JN;Hs(e!}b$J*2A{PN@454BQD26S66VZQJq zR9dY0_wXBGYcM$BCeit&py4NtHfVx3>^|x-_PUqV^)X2pDGf^S9a?jf0jhy#J-u5{ z+D-{IZmtBQYIfbmE2OpT@I zK|Ax1;^a4w_@XZwMg(bw{hM*cfvcuR?=`UjdG3@ z2ss}h23Y_!B*6wfLGPRc9pPUelW%PVco*0s5G2M%iy4R>bGy7E)!}XcPLoLMu_VGZ zBDj?@4{L4$AcMT)eY0XZTv-yILfm)=Sx;0ReR75sqi-Eh`NAoXx;%poIEKy0liKkD{xt8^UJ#56T%^7I&Me7@Fy0&mN@7K6bYj^X;~+)kh-^W z{->57XztYLg#Hf2I9o1s=np9>4{01Em#BB0Vb-GkeVHA0UH$Dm6gfsql5i9kntQ*Om}mXFak-1AGa261gii+V!djT<8|5&}i~hJ=yg_a5 z6ZJ^+$L`>tosw_v(NuX7Y8VWq&o`^=~jX?4wzWteK8(d zXy z|9)|H#BiQR@@B*BzYDHy=sRh%3#=t<`D$fWA&14FRHp;O*YQIeZ%zVQo7&t-oIHKS zSsz~xm<}sPTlYF|xL~#>&?^ewaQV0|rL}@08zO#lj}JcvPWo9rTU~yOc>61Vb#p)7 zp^tF7LOB04r)py}N?QMjnRW`(=0;~NO46Ig!KvWZ;qW{uO3eL1QXr_N>^v*#$s5n; z)Pf6Wj1^YTDk>QQ+0LGYg=tK#OoDN*LwE6_%u?7jbRY^fW#*!)xvJ8i=uhd3SzeAR z?M-oqEiutqIQM&aac9uCz6&@^91do=R&^2=Bx+C~-P87IADmq^0h|9?Ck>yyxI?$W^jT|DJl&YQgTkkoG&(JPob`wO(l&sZ8u z4AvK3Uv~}iG4{-?JimF{8Rg8wtEs_$$dsCV%Y?kpPEG(gAm54Ozse<8{qMH*06qM0$k1!)i<>-UaW<3tQ<=| zSzFoUc4V^WP|7jW9{I-6S^e7iqoQ4t`nNuXoA0+?6@{-7>b&NAonK$_y^dewD_=O* zgWv5ThQ@FRFFD-mrxVxZ{C(gxjFZdC()VY%SxZV@>Xj9z;$cduvCLcKyL{3H7Gs zP@Vjs)sM~pev`lB=V9Zlcz@4EfQAY)v@yKO_Ktll{aCQwr;gwI;>?z|@qkc^TH?Q6 zF#WYXv3LHJqyYNfBy?3?C5>-!zcHrQxR!`t(!%ba29;_50<4NNLtZXg)|B1OPjlIC z$lB<8ZOsC>xTb!l^}ztDuuYwNtq)AE6_~F~;tWZEmz`^A9bVvhOqhv5_smR5D+F=?6!)8wGFu?|PP55*7e}*Od{EsPuBv zr+1rVqODnnQpnFNLCn)eI1~jX1xiGMZuIA7`Pw}u^+X02-SplY(FRwe{4Uo5Q|dHAMx&83CZCQu+D$3ha!~oPMMF&l z`}GM}rlogI3vIeD?xRPhQ@w~edw(qk3dZYZ9w-nV$B6w2)kV{hjsqhxZSlH z6pfP@?iFa_dU}b*HFTctcgxgJxRFe18?W1$&IYKEk}tS~e_OFV8FwLy)z)@3X@_XP zG|J}lh|PGFI(WZJvT4jIe;8k?BEyqMY2#K;6yC)713}17Ml_6B@uiVCe;k7gRo>gvN1Jrpw9ZJocWALNUJ$Dh%Z*SJJ49?fjrLoQR?R}Wjznr zrFTu%KnM>B&;H2&BkHWfntsE!4?KzM%SdJML-&)21v&UDUk*#QDAh3 zbayvwbhFVNqr2X(zvp?5_s{J(h-2S-_kCa2b)M&k-eLG((=YS7Pk=DX_2(;BDH`?c z4W&wQz+6vix<6flQz)(#(W{7kWGZ&|{X9mQFz5VU_`|&E+X#KX)PbRR6z zmYh=*)PQckaiB+wWvY=FmTTN3bRG#^I2!xFK+TEwdwd7 z{wZ_Rzv))p8Ad*cE0IiHd+@5;wAuXyD9onw59m8RrlOz3?)>|U${XqVDgQG1fa_U< zQFAlWG|PKqstj3LI;v`GXO408NO;jh+{v5Ha=B5woTcZnwQS2Hx!dw2^Nh9Jg;I>2$fyb+5)$BrUcT+aw}% zryS-6dgDHj(LWhc{HHc*$)febTd zr3YJmo9k3d6VFfs^;BBYQS4JcliA89)nWXy&b+7&)6KS<{Pn^_Tw{P8lE3s9&>WS;N|V9bIrgT zzL-4$;>z-&D`E=XUVLF=93df+sBN_9>Oz6rY=H z>f*-<5y;6@#DtNS03juh`YBq0WYJ6S2Y)}rh?fT6mqIb(Zn?(vAU^d7<8fBS$u%v) z45qcq?x~EEzup36vL0hnp9C0LJGNZLbqpLcEEy}|Z$Q+V+~i@dS8!(Uj)*=nnUDe2 z4k7NnVs8KL@IP&3?d!OaB|l|8w-wLz2CQx7k3JzG*K>+z2p5l{vx&3-mCz2obW=4H zTXbBg3Ml`$#Fx1@KH(DbJezf8$#2}`qVPNn6JXonh7fLxiwoTq<}YZT`>pS>Wob)% zP`2~o2mi5|0G0eGm!{Qi0Q{uCjmuS3ibzIAK5-?4b}66*bCTP!>iQ>gbfAH}yXpH5 zqW_7*U%QYpr4*sEDGwG3K8E9%mAMLqMhpGz!_r5Z_?oA}3m)yg)o!~1-R3XuvDxlE z|3|(ua`oz~U3auH*Pr+L)r?SnRnQody(6jXUYd5%-hW8-XgB8655ioNJ5UGwB)Dk2 zjt75&M+*x0aY{t#^neJ7lu5m>)w>EU9#S8PWkAE5AU}@+{qHAX`29_=NLeIIy{*#y zQG4{eeicu>FP2Rkd9;V7HaGkD<2+UOz6rT@CHZ+5lw+ZItg*xUWL001j?;@>uGh`- zFf{gMX@^@C{utu8AUPW-6OlwQaY6?3pL&%|ujypE)*D(b z=GPT3g1r1Bjs{nEQ-D0JZJaaC+$QN4YwY?F`#?(zO&#&_DCE9B+3puJmsinxcE@gy z>ZW8(hu|T`f#lnBZEr&iE;;Co(yYQ8Skv978Om;*8r~Rms>+;vDH1;M_^Thoc=J|w zw@1p%#HrU(T#EdRV?yf*?6@n)obDxlVcgo6k6a*ldVEVke;1Ha z#udjrecL_`aq^WFnlKo89W$g!AEvmc%SBJ{k~Q3Bo7)xCij0qvRBcpdNxXRV z{`1c1Bb?ntb7p&&Q@;!DA>4-MrPW^hGb5a~+tp2b7u_W%l(F4Z?@ED?&_ueGM2L&{ zLt_i=E=IwBxU5*S9N8TIkc6|e28vdY|G;1!r5SS+M@eo|Rp5cwI|4OJ*i|nyY5ZwA zN@GKA^UmzxJTvnatG-|Tvs1Y^qR>+FR(PSIp0~?Yz6GOAd2bC!r6|NJicZXNzyW)c zZ!lsn4wj7NaZcs&NTSH;4Ss`gKdDus9n-%p>K(=8y4M#*?{Y@A1BogAD-}9G4nZ+& zCZheVHoj(_*3}$U)(FJ$u@~vLMjeNZ*OAldNlc#ftrD>J{01y_5fI6ZgaodW%m#RZ zawTynM5&{Y*vc9oG@^X3^O;cS{t`y#p*9JrdT>)jALa>#>=IG)_M4m8?-{||1VmYK zv0rN^b@0F1tCt(=o*C<`KcH_n8`KJJ1ut*9e1d^i@yWaS&vxuTiZU` z2%4)IYG#F8u30VE7vnJtkIZo$P#+x~h&Z7*LLw71GQCA2N;4Vy*Q3(61^jMV2fxKL z^@E9yU?1*&5msn$XLCT0;^kb6>y0J3UNvq|t{A@ljR^4R%|-RgoIk&8SXwjoe({S- ztGTOPs}!5g)bRuxMm59PoZDZ4f1@XEQGu&Vu)_KE^&wjIcUJBLOv3E_;n-sHbmi8J z2kNI+Cix8ogt3Ny6Ai$gb+?{>wKHB2;Gg1W3lBb$TE+kFD$k!vV(;`Pj%Jif-3a@;b}~P%u#$Hhp!eGs_QGOmDvQv0>7Vm?jBfQU z&s0WCnExIh3;JW9h34GhL^g4;N`F^dHBPlb)xkRE`h51poBYEKX6sD({=mkb&~MXK zfm(EouM8Wp#V`5>=Sj^M5SUKqRfv{*ZsWhW^3W80=Wet98?2!m9sPL@>VwCiNq)iA z(3cVnw}EWU?$Q-Khxp%_4wl~zC?_yc9lFnZj>I|W++ckSH_Bv7ijr%Ip~Xu6{o=RA zxk9*7J*63>3)-FTaEbr@CCiI@b>}kt&W$!v%iG4?DnB&D47|dwJY>&Z`fsrw2P<;x z1BnBA7%pWW3!y`JBpu(Q`8N2-{Yxx`!z6@lCj5oD7!BKuaGVa`jYO_)<;-t-y9H=&bS`>3txRn;DaB(J;AYN;X4wAb z#XYUR(aP_PxYt-8a`2Pg$BHFO*Oyt$gQW`N_S{V^!0IJyx!eDQ1xxDqtJdDaIX`SRKky+Y@$Rm1|d8t`b-I9L6yur8MA#g5Y3 z1O3RVM8-3_w5k8RMFw}%=-eLQ6Z>ZBB`^h@zl3h|0oH%LWMSbpSFK6-@MN{s#XE1Y zi-D;t%*n-kUJA!8b}AnTcuL`a%)F*BpD%XL=m{7s%e9IY>c0Pj&c;Wp75;2ISV4(E z<`{eKwst&#KJJJI9q?J_zhC37I3Dc6UCeTr=10y(1Tla8>?{Mh8w8eT|JuW7AN$(XDDI^(V2whwC{tTsr3+267Y z?B}Z|oxPb?eDU(2OYG-?dgulXgF5)@ndR@27Bx9yo6lM!MD=edkednu3!7zU$NUKm zBZ@!RX_&-eF{J~NGVwp0YQ7LpDN71{eLMh7c=lZQ9in18z%J3)^T7@S+RXyPP-tz; zy0;ieRs}?hueNcx{4}*smtoiIC+%RM?7rYb4^Q{QD<1Vz+CamnIUPiokqBkJ=D-x> zeT!~|)Q=NSRX=Q6=?>zI;kwzng$gz}(}r5nQ`$&WgAMwU=$jc{UK3l+HdnTLUTsQy z0y;7M9@>P)A4mA}lMSCLX`%TxIdz5SFjb{jY)6)B&7KVycAjv>aPAlj-9Cd~q7yeb z#^&z+#{F&j%b!td3xft=$R9l`=oZ=X`)J^+lmO^l^{k;WX83|=qYlL{gk1_{(X_E0 zS+srtCUxn!yJs-n;WPpMGl5Fun+;wKpKmEn%-|YSQF124z=E|Ieqmr_46ofix>2ml zInJjGP`#tdl_(D4J?C*u59VP#*>n0rYH#={{n|;WeT32Fo>)Cei25l6o9>5xomhJ;F9z|mCt;biqzRQ+w z*(y1)J>-^1)2Nu|GfL#NKy*E29=Dv(q;)8*(XK@E^>H-`8mVJzP7Hg}Qq)mOZk5mXEcRCM@PZGz zMSc|7w;5lnfpQIXQi!ur8Z<|)MaT0uHHc!kS;J^Ew8+E+@_Ev^n`B5K=uES&y%^ps zd?)W>e~1LS-8Z+T*YUM|T()3Gx)toC|KPgSx2kJPgYGQj<$W#Do&f!3F0^2F&A=XQ zsgz)DWwy-yDMl%C0J_F;*Y6By-59d?CTQmn2-iykFaUq!0IdJtk_)_%4JN7h47O0g zmjLl+uh{^QfQh!G70g3!b6gqv9cM8r8mVYy{}&wE?TPs#xiu@y(Ukt)Sxy~!3VI(* z)1=L4a168emwIX@e1Z0a z$7=^qLJfU2ra+FZEmD1cSjXjtCO7G{D8)4+`Hj-r8ER;QDVx|a@#sC(W@&Iwm}H{p zA6ohw9LPhubwz0pG4eW`c>>br^n#=3KOOw-KCL(6*O4pc7FkOxkilNzfu@BNH^6Sgarh{ou@3mKA;m- z`tq~7Ot3Q^OR&b8Z)!?C5W#G~;8yq!?*n^Xoz9JnkN)*4%;nOWUiyXLr;TE>}k>Gjv4 z=rQ{Otk~(5u3)@);!vXg1=A$s5cle*qtATPH$$PsJ0v5`sd80PHM;>-3f0{usbfKR zp$no3&Yky$V|owTmS>{yT@Jgmb_#pzfd3p$m!WjEyGz!s|YC~u8X~XlY<}Kh?Kit1tAHI6kyU7 ze+^8kjB8S4$@tL#BK06m@gcM@J8Cti9d8g1mc8qBp9P+z_J<)e*ceAP1sLZ5F4COi zkMp5blm}rP#fr6;H^wf-w^Tf%Q^FL#lUT@580Pk56Q(X+&v51Ndf?81^h6{gWoDiX z#5s7@BZ9*(o`)Sp%bvA|3Ikyje5ZXeX%O^VBnb`sq$_U3UkzDF-NX@L$c41M0!7Tx zV1GYmHz)tsDcRXmpKSn|S8>(99qUPN`RF7QSAZEzdJ1R=5XlaaE)|AT z3$QSQ>z^t^o8B^mJ=rxaw%YGrRE{Y(qf^7`tF-VYY?p0o(W&D+bT(t(NZMbsF0pmB z?N^t~mD$xJ9Xd0D$}Y^e-Ss5qVU*1CGS|b*A0KPGvvk$h*SoGHlEu>qXCF(eP&&}t za#92|`=7)}p31MfVE^AMX}vDDhE7eYTRd1j+CsS08;F+QE3ShS*~kDBM}vpP?CZaG z;UMtjy0$SrGtV7oQ;T9fuj2Q_9x5D9E^yOhG7qlkx>etL>Fksvs%Xx=!<5I zl5&@Ui|O=rG@QEl;^Ss`x6Qe*fcfsvO}nNIrWZ{GvpXhC+OLp*u~2X9KShB8|5%{9 z9|J7b20#)wP{*9D&md2c$ZBVhI|ztjqqjI6Po&<(01AmTAo`xQES-a5RqxCsyZ!e1 zIAuIg%XoP2;bS-J$H{IRf7y5b{A4YwDd^$x?xInoHo`S>_>rlAtc7^co(*{yld*?isBOwF6q-`~3zwhE<{U8H z2(q5LRZmr00+RKE_ds+1m63ztNJSgNYGa40sU}ZOrcAuCu}Q;m#EuYoNN%L0?}|V7i1$y8WOFhl;BO1s)X$zT78VU}O;AOLWrU$I zG5>{S(-@aY*$IvBe(Fc$oP3J459mf3B(5;7`;AYkA>FGldspY@T=@2iK3K^W4|+&L z{y%e;;(HkAy1qJSoT5&cbN&q&ZS`l2EE)srmD=U(TX8~Pn%sX8H2_?0GSBL5Drr(g*#&$Uglkk6xI5cCC82_X(VBAR%u|4%!6ATmk zm_h6K(*CjRwZluFL31$J=)H!$A6TA(A&;E?mmye{#tP~+X$v(HNMN$71C;E4{m_20 zYGfx34xYQIn7k*htbOUv)VrmctWBCVbj%GuxDUx0LkPI>stslyI?NlOzee$!8Jp_Z znM&5ZvOW`xlTyacX>MN{^dE&){#;o+UwWyZbr?4}Ct-m+&R}b`7yT^Y0>DhA`M}*Y zbfjVp5?m>!Bw8JnTmORkFGh;3pr?aIpPga!Cmd}KVDKucryIIhKGXQh$M4TZ(K~IRk1Kkp=#)#UVlI zFIu#O9*C}QJOD?mb$9WSkJV9!=v%w=XY1&%zU+A^DIW8UnkT>*&2wJwPODLZ%rm_c z;a^ItUk_y4S7CiKL`+9v$!7lV>wB@Bfy2V%K^mbnugMi_Ml@B~m(cC93cqx(Oij*}9GMuRvm3!8E{h3Q*S_jqR z^ZlBOP$F;gT#lCwY<^s6cx8g%cR?{W~wU2cc1M^LxcPCYF3q@x79AO z=oEmA8H82a^~=5R4>RK#-Z8Gy@czSrH{yssH(4uD8mOTn?0!EU)qFXLsKsk? zKY%!Q|2)f5;9)%i7WxZCx(UXHD#ox)sw&?+S6S7Qf1}mAsb^??z~=bIMVdE3b;$_F z1}G%~STw3xYLt8P4fPDsto3btt@oEwQMlIMH{Y9fulsP`0m=z`u5y$M)WAvh!WIOS zmw5v8Rn#7OE&nj+BF}kLtF-mIiW_i<&j}XAZ~!s(i<@nMD=1B;Mb7iKg$=vii9RH4VoGmn$LMYuORj#Rm- zmQ-ToA7JPK;a-y8nr8@@w{JU(40-*U&6BF~Jhc8KE!c54W+%EOj3E=SB}`jWwamsz zwXv1I?(Z$BkqU>jX#^q}{*Dx9AL^T=J@#|p{9YBbIhFhLkc*tON;^c8eEGF}KXkEd z9rnkqRpNqnWNR&T883;ff-#r$;F%?es-@9gM8dwr^Z zTx+MgJ&!GQ=|7JOk@Lb}xV*C`n#t-4YaT+}3Qx4}0y;8Q*QWJtylHr5PhWh|pcA|3 zd|*&Qu7$I0_GF8%(|X0C>LT^7^AFj@?@*%5=l;PubH8r=Jul0fe+`xj58$|^gp~LE zTs77v@@&Y|%F-y?$LeyZv{I6NuQoM8H46J>JyoWqh37fzgicy2oF(WJO|DRUR5~nl zVsK}N8xb9!X)Vs16l+0^5wuGD&;w8l1U*!~dJRS!Eiv_5(jxGtojgc>y>TnpByq*U zBnED|)7$B^uD@vWbuX<{tVuyA-}U2|hSOM|hwSq(jSgz;)n_Cq1568ndUwYeHHmD6 zG0ZAX@^UXCNbJy^ZP7?JVXyQHL+R@n3N%BXc}}3Hb2Kz#6)&UV z4PeLdZiG7Li_ou(tR8G!nc;jdd4tTCQ-;CmD1%QyOjBK3zOa;G8{3-!Q4hVb zU)XGboN8Xhv5p2N zn8EPLHWOa!Ss*14GVg`aFF3?`4_HZHl*KQC&OU-=)qyM{A3@^!YB#Rveyr&)IZoxD z35$UnU4#{=6TQ!Cl}uOR3>i_dOw?+gHZ2MGTw+m{)yZzJxW z7z;s`jxKJCghqr@TMYM;Xo6OUYZBV1P+-?ABq9Mb+Uya;AE8teOsNr{!ejdw))8KU z<&ApT2OJ2mMui8e*0X`22>XV(y%07E*yX{p^P-XTHQgvj0-U3&3_hJhAzH7cy+8F9 za!6|Nyqd;7BC}TK(M2Y4?paTWsDKWHLH9Oy`Go;?f3+^8G>w!^W}a-bd?eyt9^2;Z z@x^v^tcvZ5TLO$vkL*-Y2t)*fs@+;ee4^B`NeCP=lM1iXdysZ(j~!D*rZ;K@P4*PJ zoguKjZoLpIC7C>*qu1S zLi;W-huUX2b)u_O{2$awsX+-Az^(O9Ux3k_t_25$ILGH-iXc>;9@T z(n7F0um%HCoie=bcJImn(2x>n848X@_JlTjm0ugLH8*M)H1vZqM(~lqaU_rTZOUd8 ziI|7ntYdh2!Hzbk0S$Y-*^6=p#9G9w#@PSe#M#z**V|xIhd(w!SY_hd^w@tsn9f+& z{CHNy#y=p)W;|&zqt|XR;v;VM(g0tWQ;ybckpPu#?fxT9*j%+1V$i(Jbp4h08z)QZ zd^bbeF8@xz_ZlcWMY4StBF7MtxX?!5PR8H$HM%P0BZw&_u3Bbxc^T>ZG)#+lXHs7qjj zEwP5wT1S(NWRj2I1#?fx8(oVxD)zP&kztX8y$Tgk>`MBCc9)k0^F#TZ=&BD@8t=Lr zNv3idej3(23-BO51aRVK+-Kt?Sgok19gYgE^hOv7^^8Xe2|qi%r>($bCQa#-r~g!( zDCpxy_BXY{EmfBmx3|q@j%Q*d^F*q2h5S)Y3cyaZKM04>n=&P`CIkOAO`l4 z;rm$+gJ{z@UHARgH<-%VY@l6@FAsG1`a(H9AMq%zZEQu98Ud!)kObi{PKC%-gB~I) zc#i`YV{eWJA`t`yq@qBk$lQ1ARNcVPqIDd4%JwOs9`jHcPeB|**I33vXl}fdJFhzDMIXtv4AMlH+;Qf@{S+4}U6)@>lkm+wr3@M@80*3EZ9I0DB*6&IldaX0DxSvdPl0)Dx~L& z&Vv$pF-NxJq?8=m47OW6Krs(Ckg`?TIcmY{>dgmiflJ)WPiCBw)~0(&KqwbR}DU50%uN3ZhJRM-(f9cD%kZ#T2n!rjoG*OZ0U=jJw{nl%T; zUW{8&^hUFaykMYxW%KdGuxN2Iuy!$_vJ>Oz!YXjT%A1Q!gf7q4B|tgT{mBu{MG{?- z>D8ky0}5UCb2aMK@NaIy9Wy^}RYWDc6On}0p7xh|F5f&zJ)?PxuO!hjYbUWd$@nO* zrlxA#?ph8{V~tf5Q`eSN&)JV?IQtW5=d;NgR0`~EE2Yc^sq#;3#8W^U?vUagfA+Ez zp6C7-^)9hcdA173A(7#@z1;n*1eJU3^kJG)QuO8QZZASoB<3DU75+N+Q;tPjtyCKAhZppHMV1!4vg(ceuLgeumf~^xl#_NP zL?R;u?5@^J65aH?!K%@^bVQ__OdA}SSHT8#qc^!$PI6tr#0svO)(&1XdLEn!@YiAA z#zC~PU-;n{VJ4YE$!q^^2>d}OD!TI?t=CmTOKA0-HC94AlA=XA$z-e(7PX^3>-7PZ z^)#%#85VoawK=a}s>|#U8@@XDrc-AI+nefR@iIWg88=G~V6oQ2rf+o98cqPk{ewYo zU2CvvwJX6#YJp(iTYD|O{%5NX2(3u1Ey3l92y&*7a&Hosh-nX?AgfCmMmc*O>NVup z>&N2@KifK`w@l#$@+rC+oQ1zMFY<;W5rEE9+vQ!cTcW=`H3i4n6I4noPn!(Z!M+x7 zAsW0pn&h8#^N5EyZAQaMy-R5idxRq~u84*j0GIR24Z!Ncc)=&ZC1r4d7tib|1)jqn znF08ff6Y1~KCmq7R=9%(s;YCk8>bkSd_RgKi=^6JmhPti>L3~p!?sw+eZBIl^!xdu zDZB1_z3Ijzn;wY4?Pp9qGrDLj#nO1FgqZJbgI>H8~U$?g^#-Z0ad4a4- zB|WqU8Ye$eIA1OO)*N-~Y5o}vcP2`-a8IWlY41e;gV$jT`FClY%UoJ z<#JXJrh;90zXTLGaXEG(6@HB{uhmQ;5N_eMVPOhuRi)e+1NT<|ufyNkU2cYcQ7Xp- z5^Tg2!^{M9t@ud{Qo)A&^*SP3l=pSNE5MSXMOw~-c)=tb#n>45!9M6(PLU9B z*w$4Kf7j-IYd&>C)?#Nx9T?0Em0pVns-roUrmd#eN9!I;X5eUpuicHn%4Fly(4h4q<{QYaU*VP#EY3h ztn_gB%S63#vv-)e+2``Mcr^A0J!^Qh8TKZ4pq~%9)kDY?LStF;A;W6!C>)2{MFt?7 z|B~StSgOcmP^iDCa!KRs@Gf0~LY)Y|MX#JS*oqk%hnC~elZ*)$u2ZBUspgjavMB~{ zDe(TzHrY6)d=+!>zG)Jw>vJ)ecD;7oaVI!y{gnM$6T>xDXY4$Y&k1d2{?c)XHGmI* zo}nHGX|jO{z+W%jv+i8xbi@T*_gdCaxo~L5E9Llu!56&}s@}ju-p05(kTPqgd&!{! zZuUK;lA86_(Ffz3RGxxG7&ar7I(%VJO@#1RavHwH+?9vpwC8OPC6cC_N;U3jyOokm z`FUww$moy3%&RzRYzb%^k83}~jkh;^xm~Mr6(~*xhub8o9Y$|IxC&!V4EW{|PT5~S ztPr&*DnqLx;2blEu{#ukm9N#M4@Z8txoHkSih68>%>rNY>cjcXuA|v@=o-B*Z{F<9 zcYuhk>uUA$zZQ&cETaTFcxMBe?F2-Oj2;-&R2M+ty~40hz-ax-m07#n@GLt44ru4M zl)yhnLL>HDjMsX2y%E6_t%1z>=9WPFQcMy{4eh5gQUuXQkpC>Q#Jr&D^T06 zsmdqg?)KC(rbz5Fxp03FWJNB{1$uiv)T>}~ZVZloFqNgY?zg6=&>AqxSpSE%3 z0=FNqmF%8mW+)T@y+Z|um+4k-2H7|I6 zC9W5l)t35#r+&d#XRB@+AtOl43{K%g>F>+4J(}is#q7$==RB}Gn^`9=vR&htF#1gx zJX>g8T&I|U#~t4B5J}S9+sy#sbA3WOz1&WuTE>t5K%DCz@n`UbF?f3GsFICEv^dJ* zE#5>8$Wd^>r+pkMu+A~fyM+xfn8FGCgA{0FGKg>d`Zni43V+gw5Kt4hU@H?DcsF&COo1L*XVd}_F7^4- zNCasIY6+=u9A{y4J&x+qEnn$HKyD+NJG}-MNt+oEj@DpCHii z=78NTB;xHVY&RPIhC!L`dA~cqKe(A|l41ehPnij@c+H4Z62c(NNw5XjJro9e#mwD; zTITL%&_&HLSdfgQ`c}&KccfEjfB(J9oY-1YtSvb^Tx9@gDV9Ozp2mA`>;XepSyxm_ zLqRz_@9)tPtCH@B81Rs@4xTl0m13Y!ztR%5DWLAbw@a#OAj(%+nTCF40+{iucc)9- zc)!jmWUxQZ7ezD5 zcElO_LJD@CQ>&~nH<$}>e2$m?a1v4G$7W-4C?iPloI_yHq=UKpD|46aBXO6Y>OrC1 zV%+zB`yA>T;wveq!UG_9{wQZ+U=Phv9EIQslZ0Q!CrMYC^v%Wn;5FMNYI#1T^!#hP z%Y{k`S7WyXpK^xro(UYcX&wd+e-h8t&7;a^LoU;iaHn~LL?;fI=cs;#>hWNdb0zEX zcbbi>%6fUydws)losQtK$i*x8&Dr%5zvu`-=G>k}TEgqQfD&54_ zV)8~zW{9VpzkB3@#2t{QZrKy_r0GErx;aoSdcxTCD z8wDa&-H5;O^|p}p2&fQAGCt_X$wHwrsq{=laK_!~>9cC5KJi{jTnZlhb?=lvG-bgw z=PORY$^}xAaCm*T?MZ=gFB3%cc2vz{^v?Ra@1pej>)^-UCd_G-kdeLaIY4p;=CNpALzm}DDwd;E!C4|X!wr&9KwUl>yE!I zQiJo>Ps#%C9YB&%;JMWDm!sJ%+U$XRzQt^358bQ(02o6X6MtvL zX;W_Y1t0O*Y3}8QMSbKOE$g(Sv%Uvlv6)<4Lm|Q~xA$g9o>jlHWTP-F5t#~_6lQ}y z%OZg1nrngAv6&yZMOM+&4`k19=^MswuUH@&%Lu*SjICZAUM>ys#>?NHbD)ROup^xJ z_pIe+)rHqIPUD#nMB}{*wZKkyS9XI`c(v>1`4y~sL=cV0W(MEHT}<76--QD5q0@Qq z<{9YP`0kZ1NsNHNnkthllc1A4HIdcDuW*iS45pazxU-i8y~*k5+I8@l+`Z#L_0?

    @J^0W9acP2UEkRn1Cq zq9e`gaf`_&4!^kyp%+Qrw<^zL%}9Zc(sLYQTTbPs_5JrE?dr)^^3t3p&+n8!3&1bb zflDHVDMlHPHQdwx?aoh7RNW9b}A*t{4PH%WUy489arjY}UQ@dehSShv1_0 zI|sLy*B{`-%@{CyxtC%LK623lq!ArnQbR?i;POI790AbQ!6n)h*p-zUM0s|;Y$k-} z_NR9=xE>t6Eo9pyE8jddB{v&g)DCS=>>gW(F&vLr`FjL>*R+PYyOGi_Zwmb>P6!z0NV8O8pjz&clrO|*>8UaQKT!SucgL} z1E?sBbS_z*K(1+Jy>ym5&Ma*Sky5P%V>RQh^agOWjgv4G%pp1|CV23vIqK#RE7C_LaG-fwFRfqa78a&w z*;J)+eZ6R#ZU9S*k@{MiR2SF2$p3B8X7N~LDsIxv@EQM~YMCzfUqwqhXWk9)hn$mR zCn~N5md6h@rU4eUM3*k`Jg2V(@TNZ{zy}N#Z-3Z~0)9TAwh3U?gJ{K+z-zH}Az9(>nrn6WCtX$r8pepGFF?a^9NG;u&vnqK?tttzbB)|R z5^*%ik|f#UVKs!HLNzj={}T}AwRQ4dxqviG_sP}6^`~>+OY@T-Ag@j{Hfk=u2H1;v zcdyTTlP17DE6H_u@q#JtcoN`1%I|iVGW1Q@8>B@h24KAFn%RnajI0#X>UdQ!j8G5G zR}HU=?e^SbTE|C%e*p-aLn{wdHNX&1E``HG%{nvqnaF1HShIClk~CXdgEe3$7eTj9 z!;1QBbBISQ8<)ES&gbYr48>d2^+qo<*x}J0fe^`*1P+Y|K2eB;xG8A{V+zS zy0YD%omYCBBNc59s(!(s0-SN`#{It%;CBcpld%eHIY)qFXDc%l=rdSB!+{8a9Z6-( zjIboZNv}c)2D&EWg>0~baw$vmZ}vtonef>)0AVbl%24e!r!&$4gQT;hRULaSTgk@H zo7DAkE(JeRl_ErscNPW&bp9N53=%ux#LSLhXXXRZ^Uf*rH++S?a~ABz zY@4_$dT*6gB$QN9xSe+?C{EQ_?x zfcV8OOpQT%j<-_gzJd!-OEu2`A+C92ACiie(d)^x69D@OxR+&$*S$i1XelwEn_UKI zYqM9DxQ9XvbBM&0HBm--FbAed#eHZ9H3Y;As_M7a0gLkK!X*oArhZoN?}@gaaWazN z0a+z2I?Tsc)hg6$m97TDFXC|$ac`IW6>)wbuK6H@;=?H?x{M6bNftL#R$cnP@h|249^0T0N!I$d9*r;bH4*S zJ2Y>dgIV7m;kfMr10_>F@M@@X!yxlm2zxfayZ)QU^fpk!%h6Dq!>t_AISLqk(Y#(K zidSHqN_8nj5ua&AYgAOpwGrNnX9mOqt9n@1RicZxd^J{0m?8>FqIywP+iu9=c1xG< zCiZ*m7iQQRKHGuY!LJ6DIRFX0u!BCus!hMtE?tXfhCSxSHpJzDe7VJ}WQuPW(T>e- zmkHrV86gh2kAaf__#2Sv0t1&L2HbzNy`!Bj6UX=N!z?y@RuU9%hfb8CTLEv{fV(m2 zlrt3U=ns@GyUU6$e-9#@HY$>5w?MKb;F`l~Am9O*W~&LsI%#EbrbGIyNY(9h_P`tU-Sfl69fxmr#ys8hx50 zmKVqm&vU+q>A};#5n7rHIqkqJJ$48ytc3yCd-=+|BJD<@ANn>70gV+CUe-#e(33YUT3jMf#zNU}INc#3wujioi z_-}kp{V%;#UR+Aa8r&`4z^_>%@B2THKYdp)bx4qj+Y^Y!8rPm*8zdd54_z;tfEmQ< zrQ%{6$Dy(A9;bCNO#2htZ`wNC3In+sPnOfggQ^0ptKGSxD;_9|5^uf6V+%0znO}v3(p!jMtiRAm z%;vD;o@f1)^W7cDjj@PI1pP9h%&BkY2!8R9iUH?CF1dOK_M^2n6iV06-LIYT2Ub?& zS0Qd{mzooP7>AYO^3xcd$LiLr(#V0_vM$XS2|d2_H$|viY8v$ks(z&tH|&*A zXNUh*+)EFI6W0&bT;I&Ps6aLhS-Z%$e}CM65Dl($?NF+Xe0oXuz&xrkWMAo%fcKJv z{s+E?r!ZFUi*C4Sn|+c!gRfr8!?M$$&tliLE{6;Q#YS@w1pv0yC?TxO~YM{PY>$}dvvE0P_(QViXy7Zi4KZ- zzA#Y|r~JE{t>LJFZU?&ZSE&;cV}uXk`Rs%BB#^tb(cWLzH26=I`-DYp9ySgyInUGT z%G=fNJybmzneeo;RM^=z|EOW_(e|`y!f34_2|irwXO{yW`HG0sMjX!~V)YQh^*heS zg`tOUKONa8g8Mo06owWcsnhUHQJPS=VE0|Vx-)bu4z7*JEQ0A~vPlJAXYK+~^vP23 zX5Gzqxs+gaJy6Op2%KvzNZ38h5w`T4AO?R_q3ls2PI-X3w&bKP0q$k5@vS({T)(Pb z%l6AaLhtQ}*0f&iKq&?vUbKK$y2_?(_AoO=se^D+c<^65!ZyVxA=r)k8^R7U0b%b; z3rVgXw1SwiW09s|bynU1xi${z%i`EYRgV_~61YSKdRl8YImSP+|-+?9+oZaqzInP}jmzz2R3JQ$&6iq!rm?#h|5NbAj zdyZjs1})+nJ5uFtuBaG{H@KYV&UzmDU*9q^jGA@ZU-pd#yjrg^}>xOj8Bfo3aO18#}9aeO>b#sMTy&A=gZ^BV#=!EhkOc<(I%I;d&X!V)!M!HM; zJYU2Yq2VOglWgrvHmwZSY{@p5f=@?@g30uY)u(3ko2D z>R-dvi!S0T&um=jHA*F@)A1g*^TIyNQfE4@zP_`5T*cj_ao%(oV4FB3Prvf^GWxRZ z%yw|5G~QZ!ozoRz_wyC2`0g_&p+T?7T{_V}ka-qGbmvJMQ|~0h!O{yAJAY1&7Tf4L zABdGjV$;0ixXQlH%bB!G4xPD!bda-QTWN7`t7j25cH5)C!q9XF0^*2)u^J1URF=`4 z+~aWyrG_BrX06|5Mn}Ee5Ax%=iLFqv*@LP_pxcwqlU|VL)Vn= zRh&_4Mfm5eKy8AP33}EqSUWr%Nf;lyR7a)u8$q5`m@K(lWsQ9us9cxiE91%kYT$Sp zBQlx!%;R|3Ze?iL6&9%QVuvok^W}YnF&{P+f!1?WA#x#XXCNeQNK-SlH1H8+!U_5_ z>izMH>l$#b%PdJ^_N#iS$llELBEMNahxU&GS4&k~s(3w%o*v7Qru&kp00Pl5+v;}T z<7I5~_VSBn6BXazq3?_TZb~#Lp_^(+u-#-! z7*7luFbr7sl@MGE6WHM-jPF@j!sXzaw+d@tYgziNu0ByB*Mdnac&JIiZ^i!iFl~h9 z^TR2T-#pm;_X3gMXFKt+8|o~n{4kn{U)7c$)Zy0L-6yFoZ)g{|`wuDH;mHWSbPJTKjJw@ldZP&)p$kHqGw?J$HyBLGLo-BIXVx%!{8rgQvD4Qvc z2YMAl-Q70%Jh|44SP!$4<*so}%yKvvt>bpDuC=;&_6L+ZbgQ7UT!3_q(`6Urgg%;w zp@&B|t}rR2keBbABJ5YkeWet>5ekpg728DeJ3#H%40~)GbI{~I3H-2yI;{$Q@v5<$ zcHZE0(f3|{{zTMcM`=4W4^B+{2NvA$eJ1}rlwn$m3gdL+f)<9{ZV~EHbNA*xi92ML zy4|KZz>3W1qHqbJ3hG>@b_w&ABfoRy9cbP17Rw2WZYbTqN~dx^$~+Qh9PA$r#a#a& zthFi@48B)yS>siol)xNG(T8R!V%>$10ZGInjT%+5+dSsQB)UF&px=20R5(?%MDCp9lAxsd{ zY8^#kfMpwGYjTlFu0u{%iKr@H6n)|#2Isx({N*-)N1;I0{B)Q|y3MvNok`kl!Gp>F z(V0=L!?o-u>ayG({HNRPuS&QaH#vk+mk-@xtU2gRy&Al84ap@%FK(@V&Lv?{69Jh{ z+j|yT3;&O$^A2bG{rWII~+Wg<2ITU%8 zqxtvXl?;L*fx7&V?ZNQRtE%5BEx)3cWz&9>oyfGwiQI)t}A+kEqC6+xi zr6Jv-{Y?kLdVhe3a5VwO-__%kd2T-RpJEV$eoB1Id69LGt4W=Y9Zq4SuRewLOHBHd zoE?u^x1>V)a&|P1#$qRP&45Jr6iNO*%t@LArQLbUe7m_Cvqh`PZX(oXNbIZuv6cuc zYw``er+RQ3CQ>p+$$cqn_I1&qBjUH2IlG6wn59d>xvt>fH#F~|Z4sWI?`NOj0OZgNfNg3@oyH=A%HpZ$8X`k zY|6P>BeI$9Ddg3C&q+;{j`+Q%_P9chz^*m&kiJ9H6|$6^XO@Pl)<^?JE|QNiV`Om; z?QAM@$KF`~)=W0Md)NBJM0QUcvXEwzkNop2>WO7Jd2^9Xi6o0c{_RAIkRNwv@la}C zC{fy3jcz&H+q!8wqp zyGK`UrD&wa@`Nk{7u$U`ucI*n;d~3okE5`J>?McdGE?R22NFMh&{(+buxNz;*nY$z!=R9@VApq_%F?;K z(~c8CM9e=wW%b~FM1yn0Y4gOr#dX5LOv2PK@#rJdxlTd~Ff`OVZ?mNpXY+~>fU`2q z^Nv;kY$qRMG;ch)r{x3+IH~vb^`~g))huZ7d!$hpd>&(f3h6P%IW4+5Jhzg6Gt9e1 z71wI1B&JP_-#Nk5oPzx!@dwRq99g@`E@Svxj2~Ri>!U6JINt-joGQfcr_2C2*J?Cm zRpgxMkT9&-P7cCVxuh`Fd%5?W!`Fn}d|Y|>DVy-eG2hR6=6^1+iBG<5Ia6yNT%0N8cWziUmKejyUxZ_xGILG;qO_u14aDcVOCj-tw(l z;7Wad`0D;M=zR~h3hlo!IdD+ze^C=e_b&{OpS-*Dni5`$c}>p;E&?5&FZ@7hFZ7v6 z=&v|ntTMp`mFaxFR2{8fb?;!FTqE#X+#EOi&({@Md`LtGFHSd!2~Nmw>P(^MOd+cl z=*h%9Q9%=&ZglTZfEuZB3}&mcCOUc_JN8#JErv$PaP!~B@4MVe;si&|r_Kh!^MVVV zr2BqR8w&jArH*9U>H+t2pedRS+=+Uuwdvut`h56>^oE&+M1cBZ+6x8O;o8HZ!j)zI3EMxbUa9icjgA!<4zQFjDJx2wx755HOTTVeee$|qx zss?F8#CWbYV`tLg&qDNfY(oy%@N0x$IyAZVoD}lJl!~9nvfFM_x7l=7BB%6M<_eXd zw1(x|-f}AAQMdcehmBIs7TtU{&ft{k zSsdrAWMz1eV_@=7K57G*ROfm zzUOmlTW0wkD@%0HslgheVQQsuqdPw-8tPIB6n9XSRk17IrK^7}2X?IoB4443pZ>Eo zfgW6q8GGeWzE{h-H47!Y!2jp;rN!y!D91^i>E{qP_&X`Nf=T4Eo*6gzm~%TH$x^sb z)X`T1GVZ^<6^RkPJVLasl8EZGxmFvc1-C zde_Yv!N8NF*l3uOV8dO3;uOJ~$qy&-S82Y@vNOM%%D%!cSukb~_I4uEv^4D!qPuaE`!4(+?d>)o zP*(a>mkmSc{n^EFX$41qyiezg9Su_j<#6Mm-S)Sq;H5_V+Bg0D7rh0Nnq0%Y3T4qn z!ul4l9u=m=gZo;vSgyx1nDk5Tx6*+Dh zsH!5fRKStB(8&8&Ov_XuQ-^O1fGLi&LS*&O{%{wlw+mc`Xn%qZnkG;2@q0WA* zznTr4m_)jEiMP|*{^g+#VYW~oN4ioJy^xDr8Ul2CoO0q<#S|eT$k@sr|Io`uO-%YvInWPC zOLWyQNGGDhcKB>{@;_d!v?Yd@J0Uv48Gn|SQyUMWGPp{#cld_J$UQ4$%NH%j?A=Zj z0w_#mCbTr-qy2(T@hGO>zc=eTVXx@A^Pm&Yw@>7~Y4!54@aD}>Z5d9E7CB?sN*O#8 z8xQKH%~n{mcf<{Gc&gp%Op z%dRp3(i&pVB~rpNp4PxaNad^6UkvNAxSl$CNv3)la0OHNa$SO~RDqt2N|>b#3E!7KVxZ`Kj&v!|1soE82P1P?tIGmX_teKTYO{WJ*oz6N z!#m;|rI4*94>Y$vletjK*8!tyVzxiyd+dYM>l_<%S5rPq=!@O&8>55yCp_DU(oeT& z4zsYHQ=jKS5iKjdUAf)_nXk5gyWDplu6`b`uXSkwP1qO|liu;K?0bU0GiCF7Jsib% z#<&}x0oV6cJzQiBby%KO4RQl;WvAlEn?rNsXm;tB>YsGx_&c}4GGQU%9p7q+Avc8a zt?Lgj(O|VIMT#DV&ShEV>K;u3Agp{c9~7Y?$OJD?pZ zq@fSbvyrB@)E!-Wb*Hr<*d+VuE=Aq$U`uGYm9aRRF<|q?sRMb^WNRL^$W)2%o1RH2 z`_&aG!t01X(lR%W`hxcQW(}XkD!~oD&d*mxXdcTpmI+sbJ}o!z_GiKX)F{~1JnGZP zcE00gKviYVfE|Ard$t(=-l+qon7%@(W7`1};^u1-2N#_Q{0tm3Z>z$J5GVxf8ivC9 zQ6ea!+z5Y?8_)OFVnWv6d61ckw}O%kF3CKMj%WZWXcz>N+ukXd?rM(Cey^WkGiEB; zd}-)uh3TjQowTAP|HZd(cs7CaN1n5|5fH}oznw6`ej)oK6xK!a_Z~v7sY|lqis$hA z4}0VB0fv2YRc+J0+H-bcXC!WO+P~K#h=EeHF8z>pOkp+=1964(Y~|O(DuI+zT4iZ` zYuP+&5^uj8rpVRH0GF;N`nIt1L6Q6m1+ltQs)me*;-?8ZQPC+*S263Jc((sxZ}lxf zeCD(byd@J~q$x*^oP^&uCdsD;B0h{+@h?r0*!r0>I=e)@E*F)Ea|rFD9|>xJJ)Eis z3|8guA$ED)NqU;9R}xR^3{KhG)k=5bm7gpbdtu#Fsq!Ugqn``IP&w2zTb$w`!P4IB z;druh)CgkEjlmg>g~5;lL;RzgRt2+xOxR+p&-~p)w*MwG3zHDt%H&u2Z`y+ic0C5P zvPZyZ2g+4RaccnY2#2(>?zuJ!)?|cm*FOs}?ucnD?NQ<9pu=AT8I`z>kD;o1f^i+H z9nwvnqDPDohNnU&B2Cjr>cr7*qU?MFyPh{mJ_bI@IX7l30^Tz&tf5ezISzcP#KFoBw=TnpLxoE&}_w;EUqd zM7)#k&QTOr+;-pL#*SLRDqaam1r{8(K|4iqx2)-~cT{;_Y%T;d^WF%b2Ak6J71?px zHxgN2RPxC-<+2b@d;=PRzHz>Y?(O9B=of6e1uAqp>5WbrPG1CnFGevipYw6{f&@@O zoOXoYljLsGctYMpqx>6zMRqWW6q!;Qrqdpym`DkHIs?a5XSU@jhnV$&%iQzmnkl2$ zI>x}%ja7}kmK6}FV#J+kI!li+UlSCHz7*q`Vfnenaq%V^_Hc4DlV+}q_(2-#V(Whg zgISQ)`TwfC7jnB=9PlrnNr7NJe1McLee!e)?{4=;j7NK>Y-W#cF9F!Szs+8}AI;2Q z+=>D?oy3iY_zjlDjS4uw952dgzso1S-}xpZUL8Zm@gy5@FSah{p!fB@DnA9UVW+cByhV-k@lrqO zgicK8a9C}KtAE%(BFjD{$8EUqWA~+rlm>Szc%o2G5^7GKJY4tK3%tA=4$2^aO)b`7x8qgaRcDv`2RZ-esSmvno zpU-Bk5AdflT8Y>*<=_%BtRFx)-tjgr|BrW6LMrzh8GgEH^-f044qyM4m*qAiNg(By zoyvPBG~Vy1`9o&T)Hi#N|C;*U5N{22mBozk3W2luXK^&W8hTB#e5-R z`R|)}<^(bDt>1GY^po0_id4GCOKKanZG|Mz%i+owt^d)#m1j_L;&zu`FuLdyE}oBf zLKb1Fe27mOA=I$*#`W8a`SAQ=BeW}XGs-1jh;$*~In90V1_g`T>8x~t-f~UKRll)%Oj= zm3g-+v6svKQ^NG+lia!oy8jd#KFPhg`#No#y4gb-!2k0)vW!GY57^e-)v31qN$p;v zxwW-FbZMyd%$M27P{sSd7VadIbARL1pXeVp&&zMS)_(bXM0x_Cf`a7hiwRFz*=Xkz$-2BY(=#n!;P7$9O@0oOq}@(}q%HS^u|mo+`E^E>%msj*g9r!7-TK9eT} zdnjn(Og}>bJwNhNT4D zPetqM(vJfC?%Ho6t*m>4FfYoFQzd`#JNmHCbBVjRiS=PG@03#0QFc9I&*8zxWwG$0wNFgTWv|nJdF+w zOiOv1H)pOQQ-Rk0c{9p6>H~Ju5n*KS_(=Kn3(&zuj(tZf0KoDuFjV6HFBqK2mTfoOLD{t(d_`vX$*A3t@!6jJFi{gLgn#gu~WL*Sn1fW{p;P$o?mxl!d1lyz(qh&S*iaY@fZc zAyM(@=+E1ViExRcY+h2m7aBuE+JDA0^0^qveO>iZJaT$?cA$=NOt+oG!+1sW$v_Sw z`*>97RlF0sRbd1sweY%WmLMrbaQx^!za|Hm>|QcTg|#K&PzW!YkI>{R(f@erWFhQVaimI#3}af= zTj+hOI_EFk{pdf#&l}cV-i!vxWpX<`c$sVW@Y0KU^#k3}nD=tNZ02gIqS5|WS~=1~ zPlm}H!Z{uMVm~%oUZ$ej2)56Vm4!&P8=mFLh^N&_kRxaEM2GGuj=w${dq$7 zF>daBJdA|>=51o>d_RmU5#c8kxc1tB!ZV^CiE#h-b}h}H&czFfc%kPRvj+kN=s7R` zTUq|w_w@mxVjPkO426$30AiT($BGEKIJ4iTI3Sc}?vL)fkciv;`KDgp#itxOpRSbI zdy{ERo;k5HsC|YWhnM5uAylRoFPu;y(1k$nkd&idghV1G3`LShOF~%|`367io)DGT zkh|6za{E)AndcILVBv^;>RZ@iZ4SM2s$64s>5mfjnwx9&Lw2-@bT*IX8M!n)J@GuZ$y(8l(wLSi2`9YC5Bhw6`E-WR zuSEj2nC4|ig2gn&H{q9ZzE_YCuQ4HP0^]j%dO%d&D@3M75Uk%)r$$tqUL?Utd` z8Wg6Uu>xX?aRuOrtqMvIS{Z)lJ{Ggu->Ca8VXq}^X&f!}M!OZ~8AaAlFISO=W*l;z zY#5y>yBQsdv)!g(L2}(F8+O$yE_&%FpdNk&gIP1S<5)9iEO;`Ix?R5!PI>CJt7Xot z@L?Z|PhVW@IB^1SqUOJ{2MatCU3gk zFI+8Wi4Fa{%c8VPL-`w7YhMc9S1GHmw|EAWB5$QMk7 zOM3wHW>c2_W?=|oWseYuMVBwA*uG&yijCJECuE0dH@znRmSc3Y*-Qt-$Tr zw(Z^HTC@nMco6kZ5nf+b~BR=V`>GV;n6bq?G(d{R)DKe@SstV%-Kt$8&-h&v3d z`eF$`&1(2M0Rn9xl#ct?p~5lSDkzL&a26byamu)pm-W*lbx~;QR;9*b{|BjOI)i_M zyPB4~6?ujUzcA;h#V7`S`7G=252N90D_26VYa7qV zrjXh47frEQ%De)ya13exBerE~$*P$0A_%TgG>7zWh1>MFhA({Pc}3;#{)Jau zt6bxSmIVKGd8o!O*DcVO_E+W{)KXioOg|{MKXc@-+K!Uw(c_-g<{~byEXY{>E)2_} znVUDPZB*@2bDK$ow+4bY+j&;Zjip0W=kf-ted#_jaSy62Ji7~@DV|4G$%1Ht!k~Tr zcO`)p*H+e^ecZYfAM8%t6uMc&T)692mDUNQqV$$`-a{_Xa>hmCK|^=TT2p^9!dXv# zAH`kI&3#H*ccpS@V`Se?H7*;TN2FyLQBZF__?_M0vnVjn4r zMk&G-N6YbD9fyv5D8)gm8FSdK8+Q33%Y8IzNS>_o_Sq~9B4N&mCuoA55Rpfllcf8g z<|bm{z5Ouk?0^6Qoqp+0;@~`-D#^)w{uf?! z(ji$OPxh$XTx6piF4RaeDFKkH9XQBh_CUsyu_G#Zw59Z84@JIslUhdDy8xV}nQb1A z)OlTS?M?q1cb-LO!n_qX?CGmn(Dx&V{?J{6ql`G|WT+#f6UfBI3S*Z{Cs`ITX#SxZ z$EFQ*a=R^XDj|LEHrHiNQ*_cz_H4%s%*U5*vcA@P%?|P zcSME1zX2w_f4@J3#BzP;zs3@WYs>ClYLLw44+bhTkvpg7OYF=N;tTOfaSL&xOQY6t zJk0d^6E5hbtf{OJ+0)>O8LRo89mdbBU6cha3;okD*HMqVj%P7CNU)6f81Kl3(bzxi+}W~&sO|@OyV}O z2O->)`YYyHtjqfExVKj%AyQBglXEkS9{2mQ>eQ<;bn`O~l`Bf|%t1C7?-{8R=)r!y zN9A4X`WqHAZqf(xl+w+K@5N{$0GNHq0dt^>kkAS#pIedVP#sN8{*rBoSQ9!~|B@&@5hRJ4348tPh|#6j*r?C;2T`?`HNCh>zK0>Qf%fH4g2p| zz*@e*bZ4l*#+UH4q0!)Mg_6#f^9B3lgERHp3IdLJx!nt#8RC+D^)J1Gl_1jY9loyU zHj#nVOrg?%(MCW>Tlo-=lzyY60u9KcwXcbPc(HsSf7!swLmvPRf=iw;0KoTi*sfc` zXLP`$E%yw-4f?VSvsg@z|8N~g4Wg?6RE)g$9>X%SqjZ*LF0Sz3$oc(UZW<7kxNrws zMqffhe`R>3lz#%|*vvKk$|+l7>waGcyYNc-s#$IRbX8-SFi9N?Z;u?!YA{DdUEi4s zQ^?+N8xu!~(9_J&doay!J3B^f6wPIMhL<0v8-#vx? zbEXT=$QF~CC)9UH3Xhu;8NCUMY*MNG#D1)67{*z*SAJbc^B_RA9oabz{W>w`3O zc=?@-sLY+ux74Tpay>d4K_pNPj~t2p@uF@}Avu80z8rW~o&(61oF3?Ij)v8@yKGND zL)$6$N+fhfLZA^Nh|Nsk54CSj|E2kO30J26 zinf^BH84pG)VUxh%}(xT?Z@Ra01j#+gdfy%tc^s($w1e_iZe+VAJwxC&+B3rd@W)2nC#NSb8@y=`f&FF}Uq?`J ztN?FkIS)9+T=Kr#oHa5!61zIg(J&J!V{a==gHvlNjO!X$Zq3bEQB`}Izih@yAJEV> zf*^AMCWYsbi}$Opkz<~WlhS}7k49Dw?EO?5dN|8y5*y~v<1d=gwNLal;GNA zva~Bj4`K0lnXF=A9oOxH1&f6-^@XAElhCP5*xCT^Z<9<$YsXJUXJwT=vT$9K*_DYP zl=uFKio|K~-`wrmodxi{`XU6FWCg{9)sfv`4^Eu9?z86vE9v}%BL9#sqz^vgpij~h z7VQaE=c#h~2MCD{vFO`umIvc{iH;O5|97*h(J)VO)lhhNMt#)jilBA~mC86Dk7@@_ z1PWo!y=dkk=TZ9pmlvnZO+KFNWGg|4czy!O74t+purW{%Ce`8BQi!ieqjS()6Rk79 zo~$-1BBPal^X?D6HFIiGaGJl%L)Khsu9H& z>X8(@#adxMcTIohlp$gED5nvxJAmFfGU$^^l|I8~By|VlrLMVY`V+pJd=7gXo8KM{ zb3UI9{@Sqg7O}B&ugZR?240XTO26*lbes;7+*ZFf;!#M>h3;m5m=b#%-s9>i1(RjQ z%X0FQI6a%`dc#Qin?d(KQVKgMcX6_zktYO2e9vfSfh0D?#6>TcnoVtExKov@T6*X{ zo$(=mFuc>MRUoZzu*3`20>7uagd4l?cDwk35Gl;e@((nND>S$)-A^4@@IA!8L*F?y zD(6VO?nA$A0wm){T#si#BhNUN9CoNw9c3qB6chO(uA&@u4xIb=K>cViC-I z!f>3IRazP_JHL;(Eet-PYdBh;v%I)(5f=OKyw_VvVas z^%UEhKuJvEEM`{NY}W^vRtzscK(uc13dFf`z3bs_>HBIB-WpViv!1fh45AdDg$>l9 z_)KoL3|z2UHYn*-0t7lct2Ajs7-gO_tf1QuUYFu+J z*n29H8Y_g+?^P@Ngw~i};B7sZ-VOg&y8we7i_eSKZP9Sy&sVUp#9|tHs1490*TBF` zSiqtu*tJ{*?QDg?QES1T@e-~HnXnkPG$z4w%!taZaT32`pD55g3K@G~ZiVU5mip(I zj6$fZBYm#YJ_G{&=^J^hppV7{i-Cy6)Pk8>fo2fM6()0=T5KLIx@i~jvACCwzK0|@ z0RCN7$*T+>=eMF0)QuO%DzsUC`)`D#d{@) z~&8iQ-E&Qrhpw{u`w=oMB#;~!I$7-^&vLzAzhOwP_RPR@pzX(LW zP)_kH<=i63u-dK_atMh27iQpdxmHgfya8OfAiZeL-{7Jb77WQU>h9@HR+|mp>F(G_ zel`&*KX`w<3N}eIsZG~(VVJVh*0UEvWt9X|P&Op5Iv&nzYuCAKqaZn^)i_X#n z-?RB9n7$dZbFI_pEofwaC>la`-^Y~ds-UP1?2mFf1I0ZLc}1kYG4@{CJR)N4O-|)S zr5c3OXvSzZ1o;aPT{y50(yl9yFoL@d>;y0cvk)6zT)04O#42&u2K@M!@I=6-=jxXn zz3wTc)#dx{F&#vX>jv8k4kMxWlix*3j}BiO2@8!M|8MvH1h3tq9+acI7tqJEa3{Z`f!+wagd4UXA4B>#Q8#RsF`kKw&+jUZJ_dUHmZ3}B)9@N*ARNP# z9|^`<5{L5yDGDly;Xk8dmp*GaP0A)9KTph`a!Y9a@#i>8zwiwseck8yHEW307EC9#s1L zlC!-f$U%ua1td6V^@{0C5HBTE7T%mXIUw+;rPMwFWvv}zc9&xw6R%}(wD7#3dLuN? zkKI0!{rd%Ozx$OQohjVx$^i?QS@7H?8i3ptF9oHzfpQ4~y(zTu{0>ZPW--lFd|YZ$ zNrra&>3<9S23FH@#+;AFkDj%tv63&7kf!4g!QCYJujIH|3r<1W1 z{<$qlee!1J*?=OK+LKip9}?wFeX6x3!`*giEy?rSPlZaNTN0SL>(`Xf+_PV^xsW5b zK2lX`?~`}#XnSGXR@s{P=+++{7E*$FUxsT6LiN4XU2+7aURe0@hF>M%WL&bThH}g{ z-Y$Dw<3~lt*1J9Oefi%VX|V|JKMrcAWx}EJIpY2|$N9Fw$J15)Et-Rt?a8*O*qziC zp_Xz_dd~a_{k})Gg#5~;T}Ap`BDSZ2tej?Wqq#_6fxrTH8KZz(9+`F7^r)_^qMTRo zOIEary^ZEI-+%R{Q9{dwtlK-aN%4Pub_410T~t^k#5UF1{TQKv2Cy@ROpXt9mrn<- zIhmX@Du*)^%w`u*>|aR@oiy=d`?51zVx3Z7m5MfPeSSe8yca52Yh=*+gYW4@$X*ta zR^M^L^oQ&Iz_gD^-bu&1(ASo8$>hH;U*A3zx#%{ti2;h2{q<4h?HJO5zj@S0GO+wM z7nviP7szTu?6q3+>RLWukX1F87e^rzlAA!u#&`_PBk62jigh(iN-~5$^{>Ay%wegx zX|F5{|5(GvY4`htiOA9=eBEAqh8+I)t0FA}+wYI-jQ1ahf<;}9VQXS3H{96x(wbDx zV6OF1epvHE${99-Y^GiCmSsg2eBP>VO=MW?w^rG2kV&^?tT~gs8kBn#H8?kab(sZw zZQx%1hU_CpqeAwVGPshkBjzA~qi;wWM9CV@ZE^9uS`G4{s~F2G<4MW~Y>Z{U>GQo` zo|2R)BB%`+bKD*}A|5un*50w>*xQxTxp{;fl?Z?`_pz{@T=#PkZHMxcU6Bj6H^)M3 zrsXUsSHCcP`o|k84gnXL(dk5(eX|<=`pXJzY|GtZjYP<)N8`_YdYO@8Rl(P83>BGa z>_s6=+plX}dDSVvKimas?{_aYG%LHAQh3iC<% z=~zYzK18Tw)qJX>k*oAi^&O>it^IL)tD6N=Vo8zq+~NOe@Zng{?S4TF0)w9=!M$B^1@pH(p)`(A3UI z$}ClHyGa@`m;}s1HVK)EjPT2&`|F!naCKkASP_|j{(GwE>)Q_tS^bg?R*vozq02jO zY_xZYaR^a=Ltd2{zgD~_e1uTp9(1v6m~mJlgsxm65X6$JE`Y9TEai8*FGFLuAxVJc z+6p^|Jd@E+3VS)&27w^H-V)KV2G>*@5`D+zF65Pqw90t4jeASY;cm~isl~DQ-${_= z-@=fc+8~xBPgc!k!G5^~EqxRCz9&Op99#cF@yw%802$D63j&c{ti)H(dk%+Pxx_vv zRDAbashMb$q4rF->$CIV#z zzIUy3*a#>1K!*`xR)>Q?0FRjcI_#ciuCMA@H&oTTr5jsIEYUx{FqQzF{Pw*?ZOpGO z0?rYLfHeoqpk4fi;~U~=soixD=;d>MV0!}RxKWSb_%&8fk;a-;fZTL^{ETGvGEp80 zo;oM=GlgiuLG;7iz%cd&tEDsZ(*Acw7nheJVf}8y9>)ETPj;Dt*Ez_>hZUU|suw;t zjH!tkX1_E+4DvqnR^jZvmzd|%XMjTqip(5+JML5HGYiF&wPNzqt=;IUg# z$Wa(Lk5DiEaDgBeAxnJV;4_PTh?f7~WdJ)!x zIC0D-Fj>w}oZRTe9RdW|7SGF~j_?a~qGYl4(RBuUK*7M>7cPy7J??m?>$^R^w&mr4c~bz3eg6?cKp}N6(1AR zA}$`&GU6sCt=8$~bzv^E@%2CiBe30j2C}IMf&0b5kM^FZ-dp!d8x`-sso@8BP{~n~ z58G>Mxwn=$cy3NZx^0c^U0TI-tShgRR;-cQSO~I91Dax~R5F#>#@}quqD~hm>NW%S zV#|2w065#ah>Y7r!IY7HZ(i~X%ilDh?9zh(VA`}PoCe3puyUf6iK{;n@fI9P##4*t zo{cM{0ri*zPwv#y(n<56uE0-*VnILMzkc_O#b(9#xh<1|Kd`IJ-i1F!R~SQ2^yCGr z>-T*v=&N3qP!}#X1`RAJd4c{PMN41i(KMg4YLpuKR_^QNG6p@m-0ba9>HFK@J?ktU zTUQ8&Odp2!0>dhQwX=_QT`qY_+oKbE8Zw3p9HiWx?m7Avy#0ul$izsL%=>cgx`E8z zK)3836?w_)y_)@_?6US$$P_imJcFX*7s!alJZgi38kFte4V-Xw#=E%R&+Yo@`)G6q zTYie|3%`>+VrtOwec|9~uqH~~^q5M~c1s=9I=1vD2$r4Uh z7>}|}J6C>$edi%zAA{g951UGaOEhquni}-_{VlnWk~;YiZp_=q`O(qs zC_RLG#M*nnDy-Mag&K6>1xdehn+ukoSl>PQ?_uICH3-=Z53WUugZk_Xxl?KRW8OmpVuJY+X4-5JdLr1sP)V!( zHC=y~xJ2bY+N8+ZaU^;a0N$205xGCs^!n3ORuPTcz_Vb(JJcPS1Fr9V~Z)T*DBVY3h|b=9aZWJ?1nVXElv!BTyYrhr=I&=72+Tn6NSC6 zwb}Bv9m5$tD*GDVtt)0lxcU7|K8h0-w%QhA!xUIx_tMeWmv5EPj&!!UrJnTJEc&e`SP*FG{cz&tJ?~l z%o~@_A+O4@Ca}T9DoEcIt7vr!2VH`ZfiYSZe{N*);PE3&$`ewC;CM>4bKU+!<-o@0 z&H-ik2cxRCtu@Akr<(c6AdxeH-f#;@$>5j&*BDEBTCMdZX^6!#1eFfWCnHO(i25Dw zqmq@xdA?bCyBWKDMzFyB>P>XwU26lZWThi=<-JAcUU@!5qo=rzmHUl@o93FU5QMiDpc!^`!JXwA!Yk> z>PlWB+V$vA{VNU>#ryOo0+9vhOKz1j`1>&~3;6rJRhN+zxwJ(0=uQ2nz-L6m#wrmf zQD%dwbas#K#v}EsBlDuw&+Y`|0_B={6K#%&%*KW0NDX`%<-#LYKR7m|FY|fcO5WeO z8AUVofL}{RAxJ*oCi*HocjF2;+>AE(`CT$z{);iY@OQ_2IVns{gtxJ?&cysvQGjMl zOB$X{1>4!4VmcLl91!o|eNLaEM?v!RDcQ3E@t2IuHr$m@!O3-D_;n}tBOXUi|4rkw z{L^s2S}kF|H!SkIhM<0E__=9Y`*HSQMj5)KgBa#uuN8I?t@rVH%g$Kh!fup=vUyku za}CbH>`e?BSMW{bGGmpshWWYm^mfKc%6Yc!9hzr9CCMUfCYyg@8~LChQoDcczp8%8LgFu4G zL*`@QL}o!FkN8L0apkswT^vpRjo(I2))^OduoEXxh$=2#2|Cbk=y0aZ9IT1KjX}ix zXa40umMebeJQi%12PXy7DDNR8zFHOaZh23JuY@(3=E8sbQfJ_|cA0+45Hj2SnU2L+ zZHFT&i(oYdmwC=ycIiibE+2YE5Y7{EyNKJ9m!4q%MQo2)+yR1ko$&2IrsF4ZP(B** zP%CJe;!D^aJ!Z8cbRv`uzydf1x*c8s(wq{n#mMbb@c1Skwg}`={d80vgE8ERW$Hie z{OzY%f-W>)63FNd4wyW+ZUAfX3D)Ynl?)+9>?3u0PTnUh(%3Bex;!jWWR>YOE4I_) zQM?sBirHg^Zhk*bgS+O0ROZAYfI<^s`;+hGt3E>`jk66JSkWX)5U&3|aZ8Nbm1la> zX_-&DsEw$0vn^J!m z+%($5}!ln=-*jWgndzud%Fl;;Ox=Zq5L|dsf3*E>0w?a z{JW{|06b|qG{f*zn#a1K9zE>a{(tr|O)_nXeSb%*Wa1=fmqEj8ZPS+X!r~JR3)pXDJN5}oq@8_^`4!` zXe>=CEzE}fs=cJrqy}Y9ynvok_N+T#j!O_5+i*1d;FE0iS#a{y)pQS{|6>n_QsYg* zh;RS@ew@)Kk_kP>n##Mwh541Dn%d&{dGbGQ{lzEg-7EBc1#Oe@Q`zdI9kZRvfos`` zjz*Jy8|#{@r7dQujw$7^cPz)bKiyRyG!&9o1?G6e;U|Bk0D?o(KO*2*uj`R8k1(EZ5*uqI7al5x!7{EjsaL`#ex7i%B6LN& zV>B$>mW6k)$uUWzA9W2@o}^e`Nt3@KXTKQ7_7m)o&9D0!W$-spU=^w;c#h~+YbwEt zBtBA|+63Wur8c8+by-!J$lopc?N+rNqpE+6z~&Qit7&`da{*XKbJW0rKWF6gT_Ck5 zinZgW|L66<@30o>P$r=*UUH$`?b&;e3tcz8bNw#Pr;SX@V=R*W^ z<~in6AIRCYm0Ad|ZyTRhigTPMNrtoNeA2gH^r>t=6Leq}o>IP1TXAnSarxus7vJfc zu8Z)4n{k>KaYsqj7TW=Orm7HUAIVqAus81fh7Fzhn*1|IQ1%;fnB`vWZaPWSEJ`xr z_85DcJ{m%L^U^6uu=d**_aQ%>j(0 zvEsh+H+do)jD@yx-enI-fkQewR{oMrpZwow9JKV-2p#7v>lBL*XS3iaOlJcTgo}?? zQWIZ0t9@4o1W-#){7ntkc?s{MUpovg?wkLc1ozk2Sn1ja9(Uq)*xwqz;tip%_-y&P zJ22@$ABljBZ&oX6==?pChjaXTI|e6`#9mE#YR3 zG|%!xYoL_9e4|~DDXSzzq;twlk_&MU`8@H_0BKq7|6P{UAm&>W@CV&@OY|G4Xz*n! z;Fzw6uBeCX*REv6TIKC*D9o{q4Z^&Fn*iCEpCfY_f=Eq7G{4}re8agliWGr0WMunY zJ?1bwvgDqBQyFJV#5gM*kHa|kkyMybh$bbRXPM&R^EdT4pU~KYQ={zOL(c zyJ(Fp@}a(8eB-*-A~s@nuSJ&`m2orbVg%3FA5RH~DLKA1teMvo_2*>QJsY|oFY$P= zIg4f1Qi)joj#Tbp9%ylquZBOaKG|mhMEGV`g&nIS+YfdfT+~!or*p^it*m8N3Jh;x(qbKYjR^d*qbg58P$nE5kLg(^sJ#P z=+?;R{JNk)a(uj3x#4~TwMCMuBQQ)37A{DRXB!U|h%}a!yg$7JmcEtWoGaFwJsA~G zYi~`uVh4J34JoxI0goqOxE?>I@sMpH&%|du1fTz0IT&G7XMMF1vEyFV98;H+{nkwn zw=9jmZ}JVf4{z1&qydn+J?&tEz)-J)Xu z%&nWgmJkEhXg`=u3gyCAdXe&y zX;$=m7@FWcUHEhls&y)y886)$F2pW3b5w!t-DdWYG(lWv&RW$Bw$uL0s+=J#A($7w zoJW}9&__NCl}jaIIGtnr#3t+XddkX2C2A@$!5RnAsaRq*kw7<>qbNOFtfL+)Tgy0l zVsqH9M6MQ$R0WTXl!YlBTexNj#%xqLsdAti%h51-~b}`Yvx1QU=ql@INkJikS6j zGZX)G(Cwx0617k7IyI~(A#9&U$cTJuNZYu^CuZ{vx?&=!{rVR{kyJrlvU0juyyS6v zY(Wg}w$8gUtU{a+4)Eg}Q(^`#r7rRAia#^3!?+DF>W_Pv)Ppzl#3o_KGbC{9cacJ| z;y&a(8GHRx$hn!({Z;6M(U;<`$Bc`dOg?qex0v-gw5`hAcwLp8lO2Su;v(VMT-Z_j zoNr@#-eLA=r@;3Q2bh(3(b^?;CryQ*72Vn+5pst9v|nj?!|&r6Wc3BUVn)c z59uKe72n#Z?RM!tHDh(eJy=$ZYEdVnjt|MoegAaB_tS0lyUQvW!Uj!4>Pu0)*MEIR z@Se`TF3njSPbx^FvHc#sT=v~7)YBwiIwvtDqCVwwnmlJn>K#?r(G$-|V=$(=mcs^E z_KP7))@(CrHKXzUs~b1hSM~^e%|r685;BEbL}S$YrfJFfD^_p2+|pPoUAC{4d^2u7 z3N<#}rPYJqHNk32xn>;Bj+ux8XTLJ!%r1NpK7zhAcZF)R@(o%Y{(|kPTNhj$aUR{s z4DWGJA|-hhlAi2xoK*Jwa{B9h4Et=oK0I&k!!1cif$TtFYA}mPg^>WPh3y#cvn4w0 zIw_aw)2kQhqTP9A#LUZ0J5dXS&NN#s{USZ2INr7clT?RjO@#h#&xq!BRxJ}0$D7=Cfmq|0Rn0cfI2#^DSq3dEl}R99{8jFRd{q8-MR=R-pCe|yMe`xk z$WQ+_qErqW>oY zB6;IH?3vLWxilz=CKtbGRlP19Y~GxA;9qWM3XgFK4?ul15Z_B&Mo*4GL&qXpn+byn2*pX)auxf`USd-vYYnd0~`1{tbPwVHogtC)( z@1qID0Tr*n$V(n?@r9pV?V2@)4`RMwRLxv`l}jO0YD`mn78i5i58<>-$MUaDZ;!@W z=C-3Ntm-~_Sg}Il1d{GakzTGKsvx~kGPS{3yGx7J zk?r$Ww4k)fFvvvP{vvE`6kr=TL_Kg?MLPxu`o`x@B?c%-8tA;i>_nfZR2P zx;jQ{1WBx>G&-1VG?3xM|u$|eIHrcXDrznx4JXQ?;&}ugq)Iz3cS}F zwLl0{J7{j3Da2KdvFqfDW!~Gb@v(d^@BOaI4xNP&c4xlo%tsuHD6s}VKXqAAt7DO0BGrIS<;Lp`$5)xUUm_ez2X;m;b7D=NVnyl-o{lE&F00)(u!7u zPFYG`D~itz$&e+o=_H=Ip2vljd!9#>F&69zMr{iJYtDQY9VsO$G*22Fnl(H8A-Cmo z_=;88;3Dnq&0neGP@CglVZyQ!i;S_>`I*oK1Rr}vhyk)Z`%!!%hMMUL)||f1eEq0l zhxo&(5#Bd`Y8qmfc8>hh(oa>95awb5EGu54y?b)tWLwBuE_`%Y2_JtOj-fle~257oxv(k8jyfywW>Z16Uma zfbuo#%r;f%7*<|2M(*{iJZO^^3y@iuSAR7NmYNl~pf`ht9;6yenoSq7=olO$R)MHR zbHmVVr$!W7S^$(u#qYySo9-xwK1S5aE`O7RGY@PrBZG_@fCOP&q@l=FO?RKJ>$<-lL6t zKhN{+y~E+;&Da8(iRb#>(fdE;8!rY=Ni<_DW$D-Rwv@99Xq|Wnm_p0Kg4L>3y~!`6 z>mnbB(#R+!s<0#rKKSicBT0X>#oVh8L@8ASv!@m*o+_ZJ$!{X9q!;%@ACsR6E81WC z9oYgJ66n=HRU7&QfsnPh88XMB&cr5IN?f$dvNg+Niqh03KWk`#9de6)M?Gs;&a=Qu zlpHoo(5xm8B;47p`lm~UXAWxJZgm3671|ci3Z2hZ;!Dg{))5GEvEmd*% zSZ%qYB*Kw@5C-9#P>`B47-aFeyXhNz*n;lRpk;?z2iz%Y2=%pKacj1+JUpW0gPe*+ z?!0JwERqoDJ%5SA`YvHLcSE5Di;Tm1oK#=KwR-Tmtss;O z{6pa7X-N_4G~#LX^A@Leo&2_+BDyt{0&j;2{i?pkz_h&g9waOWiEac_p)Ee zn40eQ@ecxE6Jg2K@UD05gs-+q*nr%r3CeWoo?Je-v0tn?_mx{+O3x&PmEMN)!`KUD z={3fF0j?HUeY+JWZ6$)`k>K5Z{4w(dc!1Rf!m2U zT6c6Hp@CRqYJ~r-Uv26hP6B6L=DxAFZ==1G5cjuf2LsElmiLX5R%;EFhNyQiotFer z#9vZ~$F&Vpie6l%OPgbj9hcmRVs>Jc5_o?I4HiA=>oOU;5yij(YV3Zl_8gg2~9_ba+)=TgW&IVCCkD zsl^*Dm()JDvKrxnZ{YFdsn5IwkBfV9N$QhgU-*f2$0Xyb?-kYJ*Zy8|D-#|FF(uWr zb-1Q_;zPzN=B&t+Zr(ihdD`f_GJ{tb+l}**`g(DtYz8c`aT>e-DV=r}=JFJZAi3q< zJSg9KaiYXfw;S%t(9k5N{8u80t3W8g!W1_rZ`F40MgMjV5W|`~WeAp5l1bBB)!pB4 zIQ%LaUF4CX?b0W-VSC8^=kZC!`=n4~cEB0)Eci_xmgP8@r6i=+Q9qjU1BXcuI=qeM z1^DhwOe+k?aKE9q;&l=g7gKvJi}F*&nqOm+FtU4l*o90#YXF$e)*)>n+if_?jno?k zv2A$Q^CFb*km7^pWc+slaTv0+BEHl%KZ#lYMWk|@wBx);prW^u-_|>^X?KLy!gQu? z*lBoe9Q?q1P$^5`uJ-v#F5%0nMp`BQ8pMI^}&Z*=Q}`6N&h1RypN=APr!hy>Mo?Fb=8t z%31jGrAm#|^3eC_SuM^>xlhY$wxsVa8Lz$&fVgJ;RmptnEmPB;Vl<%)oHeWofm`kA zZjZMLC_iXB5rjRW;omgcu$J)knjpU&OG^ifEOJInXcH%J%pSlVKMFME#97F^_#qed zBGK;^e)rgs9vJw4^kfD7WpeG4fFJRdum}(nWD&z{slErV{l0zKMn=5Yo%&&!Bx3M` zGs`onvX&8{n;)%ckR?p~W1~b_%NHla5pKhitkZV~MFlqc9%30)Hz)N7lycY@f$r(o z-MBBEKh#=!f^TlPoC@|jKwhb^6vHnag7~L{99SwfdB_-MzPIaJ*JGQaxJ0VfLpu8w zkTxag4yqm2pNRF4Dw_FgDrX&s^l=8lWfCz}vEfXO&ZClglIlA8`6Ah+0t8y#bFk$M zt-xPtn)|lrdgpd-y9#@@@$6eIawFckqw>krYP(<#550XBp#6&J*LAchGiJ>+-|Dt@ zO&8=|~yiv~*eF?{dXPf2d{ffruKdGf2*`ze?As2})01 zKuAnAJ*ck}ukpkCzMKV_`2#OFJxglozrK#_vRQEoKW`MI(7BBIBf?^2TPWbgnT7AU z@DnC)I8~i1?rJSD_X&~r)0x=0rvoyR^9Y&l@l|;)_AGQ7pOr=)m@MqGe|uciu=wQO zgLP^3cz09eIlqqc&s#rvXZD7D3Wq1gl{4eE^UiBg;18$Q=w16WQY1p4@wYeA%AX5N zmW&kO?%asY$iN-*$B1I~t+;xNSQqkDT6W1!V^lDnlUD#vI4kJ7ZdugMBEr?#%_1PI z5ypSA;D2j+;^o@!J#(+683giKQ)dmsPx;LFJ&8K=kg2xz^-)cE|;E?_`MUU3JtQp-ltd(J5x#_Qs4tuf>- z)>cDu@f`X_oGuU4*}C>EsnlJk4H6b=DQOKnxE0F!CB4f^>TW!=z_@p@IgWlCN$!?cOMr!UgqwtaP#!!%L z_)yvM;*k40}%{=^ZGwdwf%;4JL(T+r8ddVvQYgV@GCqS>%a!U7GxsrTJUt)aE{r9h3Rq` z2n`^?1#B3lA1(c}5iDJ7&fCkB1BT@5Bq|uTyAgpa6v`2fXvBWt_1No@hC;G!h6c2{ z#wp3{<$5$;8O;ZoCe#Ldyv$4w?w^Io_ESughkWuNR@tt%Yli6L+b%bQXkk@Wj4Y`rt%x;z;~&nQ0& zs^r*xVhBbqSaRAy@OJ;O4TVO*W|i?az?RtoNYXS`Y7t!zb0Z zn3eeNqAd7Pi(Cy$^Sl)&6o@)?ECGFQ4-=F$KO6!0vVQDrJK*G-1PEesuLNj7Fsh1H z*0tBnIS+_mZ%~&Os!3I+JUx?&R(S>n=}l8cQ1fZ=kp|1Qb{!88wUDiYW64)}igqX} zTW#CC2bbS&i2e7XOMdWpRt%2$3hE`4v6RPbsN*Pf8O|9dffI}pd~aC5Ubf(-iA{E6 z+ezEeb+_lo4Eo-mjL@LPBh<2DT_lfG`_BV}oY)cOT&E~r;u_70J7+2L4x*1%G!p_G~h zGk@QF;Rqm=JUc0x@h^kHV$r;Hi{9R^SBZ_Wl9raTG1r8>V%<#iZUb}-UMHIO4efOt z>(f?iJ20~*azV1HX5gh*e3z_D* zs#FsQ)G!kOfc@?-0U;U1`_4l1_{d2sctdDcHxLGM`?Ti9!}c)&w*ig*OE<{(3cvww zEp6YB?_bhlnfL`R{6|E<@fy+iSG795))Ecs+?P+ zm0F!i^Bo5x;DmD-tjA2`Q_^}N?KO(nhLQ2O54Oj8r^}*){i>BDu6)0wSzmAJ`kb$D zchXNg!ejAe?=SnN)unu1Igy>ncb<68FoT#9fDCBS#(L=lDR#mUywbCcz+LnvVr{g~ zga7&~1;fLER^0B~7kj@VY^S||q>&Hgr2(}E?{4C~T(_Iwu-_3t%}PExb{P*k`>cJ)T6L+_IJ3~7YPr?g2 zel^z1M~g8c*(Ps+usRzgtdw-~>(Vx$U8g*h#pS1kBg}CnC;OT1w1JG)%|Gtw6}V|@ z9!Pl6Jn#YAF;1`hn>DEk8NMD>kvs&#Tg7`9!$ndck3l@k_PW@i^*< z8QNuMSeFBs(E0{6I9-{!2Y?^mS|7tNK59+j#!`_fvmtkYkd|3lM@w(+&>a6-E7MUx zlKdrbfKe9sdoh<@*i=e^`k!&LxiDp-Lg^9|EZ@N0CY{?P{%~R3josH%gkFH#dS}Ed z(i5CEV`rOQnG;bXv$sKQNz*JiY+ODVsM~^TMC$Kd5hpz)`n4aFpz;V0`E~!NG*eAa zqiD3?O!3?@9Kk~#WTosk$Wtlcux+&lPZ49+?-_KRPNM-82T(3t?+`?qCAteVfG}Xd zSjD^{-?G-H$^n*qrV8vvg^4@4mq){vXX7Doge~yA1J8U93tZQr-gPCc43T&gy_rI} z_jbln_5&uu04WGTuF|NuM9E^-ra#YC{VO~KHF#6j6vxiDMDs?3sdDF)VuALc1&`qk zdCx0@>X;lyWcp}CxGN>VbE4LRGALe|)oe9`xV3FkXZPrvv1?6vA)Vj2R%9o^pD+_P z-jG}HLi1Ri<2;19f!$_F-!Bc;h-DX-R1R+zY)YvEGR9`1?bW|aJkk6U9D57*?U$X` zB)O!n4zxt2BRf$3n+Kkm=h&7&dSzz6UeWBzl}rT@r*!{me$k$0&U6Qhksq&kUlsr| zn=oy<;%lTh>YDaPkMt9Du2?|I8sjAVZv6+8a_+KHr$z8Ri$(fhx~H z&~79!kC2W03$R<|<<@;L1^}ZoK+GA@$GP;Km*3$K>FM1%S}O5F2KUo%&0Uo6PSPZG z%2lEx!FlWDo_r=9Fm$c?fWoQA-%ovM#i!J-oo{_LddT_)`#6AIW`s?G)_$~X-c67B zK67FKc~eD=A+^^|1}}uUv%{Yk5@P4T@|fz_ewjYJPPI}aDDC1BNL>A`pj?^+n$Ygen^4#kyr2ig~Ud@(xXMl^V&F@lu)b8)qSW@TyrY*ojv+KMD zqyZ)8mi^6c9KQ2@UrzV^YsDFBi&Ht>cA*6Y4U!Un?5`MSl?CjuvfhCwTI<%aGgfPV zs;hwSKgj>0;wr)=XoGAOf;I?FD2bd+mlh**DguscWNrWT>V*9!@7o#w&lj$j3`Cnm zA18X@FXwxe;`dWaoq!50^NQc$h11Zq9735trkh!&j^CjVRy=82cSi!qL&$ma( z%#rT{;c4WD#QbqPaP)vs1Gx;*j@Qh4 z^5AE<=MIXb$-NYaf}dXdWpLXwCpV#r1-X!LS>@!$FDh@w?qO2jfj4j%Wv&_`UP=YY zHW9~p6c$PS(Okzt62CN2cWyBqrtzEWxh2lHi#q#5)YbN%?R0Lvyr$!*pv#aS;s70; z6>b7m)@-hv?~S_a(bFE>0H)qj;5_llxhUcj?mQ>$ieL&EEsxu@oh?s+6*!8{vp4No z<*l~2b4a%O+UxT|+?&EPpZGvZDpC;Lk|>rx73Xek@N)m$<~T}TAu+g!t|sDi&U*kO zSO`~Z`WgL3m_{&*@z#4!Js8EdKje?u2Yc-Y`A?V??OGr5Ce91ZGOqPb+&tNU{#2a| z56^j8yH5agf<0A282swc4dQ(k@U-Jz}*ZD==Tei zAiV&IzkLu}w`XO}u0NMtJ}z`RuUYVyfjknjUqKQBdsSEPu5}By`5{Fk*1?q3c(i*} zdXO-pxqz1>Oj>-IS@yG&zS6z10Pn#_54ajDf6;22A$gNW*`!uIwfVTxQmuZ z=(ybsXlNDyr^0#J)owT~h>u(>*Zkx&y`@kDzN?;P|0B9i?c<;L+w|^%HkGoL3)Ijq znst$t#lOzFLeuL!10chpYlk)UU>z+pb$k(@wneMA!2xGHP|*HFrd*LJ zT{682aEsr+J*rH&^{<=fH%I#i1>UigGb>5F!QPgW?z`SRbg{P0JD~^m1B(`az|1?u zRK6^%;KK4Vw*1YSXp!@8#)ECH*oGF94N;6#NOaX7tRT8(0JsRGr}b!cf`QGupV()b zm=jNbI==!mx;K{osVeo$RA%1*>oq_CktDg*vAinU-HbqfAhqNbSQg!OFmE>Tmv(Jg zv10-}vr=(a!&g}i#LY5-kB0fHIo^#2!95G6ZDAz<%wa z0Pr^-;4WqXw*d8iLn;?FC1!eZK!ZT!V|hBj!zjlZhk`6TZ1b$Hq@x_#zREVLzO%Ij zkLa-cSzqxHdmGF_>z%MSm{h8e(TOFfx&`Q>t^2|{o-L=U0*mpuZzv_%o#{F zXWd?4_IfM=naiPFY>Wev6zhe5YY4(ezJuo%c4MYXG@d7Mxi%l}^l~=vRCJFnXX);W zH@$7zzMif-cMjRHwNYV=t$y$CdO*kz8JI?>c~HJqf7UVz+&6jxfDW)C^mz4|6vzlA zJq?(#xzVBxLuykDCjr+)cI76sJmPN)9S+lqG6=U0(eu@W4m&CE^V|bPUb|*8F}Upw z;mT`CPf_dlVg-8^^pNo$2!->+vBhSHOR@xKCnny1HgmWpmBSFVqJ;U-fhv79kA?}7a&r&qwjT~KmJJM`M&oBtz&(%RJFpV|m7tK%0B~e|!6!L&!8e(C zkSQ`~Km>WDlAfzl$vNi=z|4nBk^g{mhgcL{tm(^fp}uhZ(4NU>gT>&j^yMz7ZR`w6 z!~k$MUMvTEk9MS+MUg+-LHSEfAz(i+Q--K0U(R5HJ+vq9yUr4}I$+jUIucYVKou@V z@pl1mmh~eMrBx}gBAqpnsb7zQr(&83j&Qf|njI9#QPm-7q*CgPHkgg(6FGAVzA96` zRBXC5*(P^d9v7164!49>mn zrMsC`2Qy_)3KwQwWJgm-`M)1y+BnbK4VR*Eq1qEL;f;v^bc?W@Y04nsje03iPKwA1 z%VVGESO6?grC-ndvrvN4UIfd}cI^lMWsH^WTIH}b(|z!|{7eqtO?+|hOE*xE$?#Gn z>4(P!5i>IP^FQLJ?yPu|yiE3H+Sx7Swb!nexj~TA)<_v#WCP^hZ}%uJ$LNu_Wf?YYn~J)% z+^NQV@5}2IRvKY@u3izRiNd3#ia_7HgpF#Ucku-=1C5G!vt*M3e2f~_d()6y;PB;klkAkiJ2gGK3K_?S2@$+5-|1#?Ut7+U@1!E??2Rsf3vTu_y1T9LF}?BgQv; zZFs#rILBonEO@k z5_>Cc!XDh&fg0_b$YD_n)Wk@9M`dqx>_t8V4;*z1MmT%T*53XPKIOskv<1ghHAH3IdvgeBywcirJ{4?@GI9O^kgQJPC7MO56#{{tMu5u$akK#Yi?cgLT1{)kB7o*k9O~wcLFC5 z7I);jVR`l@xla$*xBtf?-D7bhX}zdh`KzJzzNVIGO!oq!(P<8wzb?FTy?iyH z9WnL72~Tdp^;$`M#E#4gwMri@0kPG_w7E-xf-V;pH0K}#S)MHXh?y5h57VI>a73au z`tUDWJZQb1mltY3f;R$vC+JZIL~_!UU*4&a68O+#<}z@F3sJV^WfwaeXGfYV;77Gv z=rNTKY;AHD z+@v06jUAp4E?e?LYLw;cb!H(4zQA_4KchSpn809y;&q+YwzthASK!bRJ?Gwqc0pgP zvY8m6W*4M3V{CaL|8OYaX8&KFkuE~lFJ#C;EtFam^z>po5%9!d%x@a4AdWYC^(hin zGB=3^tNwQ$K3=EBff?LSrKjz92Jgw$*Q7|C?ufo+Sln+3nlUR9s25Q7ixYXTN-RKk zpF_L;X8C4sqhr}Hg(Znne8-d)f1#xT1$0XIr$ZEfN8;P>QyGSf^tbYs%Ia#%!**OA zhzvdjhCN&r)>jPC6Fk(EAeLjq0Im~Sv_1HY0qNqUlGgjnW2eOLN>5g?G7lj%6n5S% zKb1e7Q->Zm6HMF{j5DF%P>ArFCe=p9PN?aTyepj=q${nl@D|itCZhF+UOnq~F0Xui zTOhBKs5ZhG5ZCZlW3p}}y%HIpfr!+2)Fb7U)wBd~(CsGx%8awWphx|0L}1J2ByjAd z$opZRMes4p&c3OPskBr1RK7nKTaNqO5;hGBwoW{ZaSSnEFk_jhp)z+a*=tZJw<+Q$ z!0(%(dMa-4_vFpumb65Dh6)-zCeaUU(%Zn`NOKgmw}=sAK+U<;TFc$B?8yFb7BzE& z5F00xk#v$bu$q8EK9P}{Q{P}k-RRIld%wyY^^VOmXusCa?MMubUwJgQ#7vnXo1s{% zi8k?PboFzNt&V_a^d(z>qc|dQr6h@{l*>#>*mvSNJK_yG8OSVrZ6U#<^XpceE@e2y zfM|e2wV?yIP=$403*-a3tAN%KT7m_>E z0~#G{kKp9FMqFWMVa+9}3v|XC?sSTG6ajT@V*mUG&d3?L>MrQ}iFK~|9K^-UeeskE zeB?Hq37C#H#$_xu%Ytnz5kihW09sYgnQn>ljp#NMnm2a-dxLeZx_ro$<57t-5{@|` zDUf3zIc1HH-Ieo{bB2h(vh309(sFBAENV-|ty_p+Ft+LP1vAq)BQl-g5dhpY?E+at zYM-eJ5lj>OoZy@yEk%!JN+}5Dm42gd<`@5#%_s87aehM<*eyIPH<@eTz9{SOOO5)L zRek`2=$tqM6qJd%U#JH9u<8Q%4&;MJPyR{PX+ZcSnxa>nN(4BXMAs^W31pJzNao6>_@D)Hp4V8T7JZRXHrz$_kg@p8)TbCHu$y8GgNLHQROc$76uR%i4q)(F)#i+DT8{CzQ7Wfdy8FP@EYhPZk!?k?^Cs!T;ugcFpYPr)pe< zHv^yO&nM7^KG54oy=EaH9ec=SCX%tT<6}%yVCe)@%HmoX8PYoyM-#`y# zUT(&hh}i`}Rf0+}dp~?2&3C1HOKk{+9(?@~?Iu#<4wT-M+jr|dmo{?9YQsOa zjjVrEE3y_WJ(Pg}TxqS3`Hw_k(iaNzhj4+#gIIgPQR2`K%DiP;0~(Lns-p5=x*C@c zSV8y!A8;1&fL*%H`V09R?ggf4RjuB-(uBw~ABe+;L#s7&U}MduszQin!o^1kk0$^(bQxB!6zwDsL$+ssmp)=vD30Y{vpBfD~Bh#^FuTP~eqR z{i4C~@{38Vr6h&@eNkg5C5acmG2iz{73mG}YXz>hh@GL=Gs8)HicrS}v_7mQ`!frV z{T@?|M>pxU;=h?-(!fkGoPcifI^CmfU7P4~>4bN@rl_&TBw&JC zglEDIj+U4aYHT)dJM|lF8ZeP!fXESmr_O8B8nO5#z{?iegbO`i}5@WCtq zS*N}{jU>8qXZCTK;-k;&gacogBNEcAJz2&2oGFfq1Sw+Vm- zfQr%e(#ME7q~4=gx-9Q)CKHC(ryF_Ma-LAydk)h^gRNdI*tUz6rxbo*)E2%4b-oP^ z{(2e@o$EjyW*~m?wK-U}o(KQ(8lJZhuo_js#qdw5->+x-==>iidH1l8#G6 z6ge+v2kd8^X8O4ibYg`}Y88}vken4-qZ-LPbEay_Z0+SgKRm%Q(i?#oz|MZ><;wi4 z%(4Lo=~E@xjx#dD(#yC0$R}+a6zquGJe+ETefEynSxJhnmLm%D_K!0i+BLrIqthUD zte`W%@dVOVgPV;tAP|l+Ur_!wfG=48JBNUENYpsRx`~@(2@hjO82*g4g)Ait0>(sx zSn~SP%=F_5YuDL+IO0cKw5@T;6hK7-Kdc4+2Ku^-Lq{x(9E4tO4i?Gr#Q_&t?dTIY{hsd`5pg|yIlF? z+UFV!ELDTKhl*2?eed^f5aWjaC3>z8Xx zYk`WgR<*e}?4Q|76WedC;h_|QdBs)rJ%2fRlawiaFu_+1l6K#J#9>ju3&acG!6B>%%= zRFWZ)Z)RQ5=lJ5=-b!EBH`oL6f~!Em1nI}>SsRrKB_dH7K7>CXtNZT5uv~*8W}57k z+<>{RnLp2uU0bgD6RerksTh9$y#AKKR(I#va!6 zTCIhxX-9uoddKo{X*Mg0^T^ds8)L`|d12%sh?&ri5d|m?;`@YyRYIi;h|LaEi=)t& z)cE~>4P$1{^Nz#hy+iACL2mE-ZPT5$ZLnHddcuiLy$+`>X&^yCSffEV*%m}u&zoPY z8Z`PsM^Nv6-N~D>xSp@X)BvJ^c?0N6!3~GTs;H=Z0QXb!J?@YkonVtku7~aS=viH~ zj*tMYA(*LGl}t;TeFAF1^$;!qX=dhyyw7ISL??a*9g6332-N-H))ECO)(Z++&~Es@ zYirim@G_#lM~Zh?b{yW>B8&guI~0|X1dOsPl_L~yEbEA-$&{oDgATa!1hmP#q-&T` ziDGNl?rTxmz2tbe^Ft18Ok2oxfi*eil(JMa9EckfHu~=#9aAdl2iWJ?kUwwk1Gi(r z@LM)U3olV|-)`(0q`T7CeHzg6VC6yHPsU+^m?KmX%}O@LRgyswo~rh8mOua zcBUQP+XBhYW|_N$&Z<$yz-6ijhfj*4o^rJq`?2LXEMb-wR zN}?u8MSBqOcVb`=i{n z!|?J^_N}p*S!i3ncvsvU0a}a3@?jD~J+WPjok}#ezm*`Sh!1kK^rj_Gz&00(+j|vZ_uX>l~oK+CV`;v~a|_fi0Sx z-LFJISgh}f0>1Pd0zlp%#$}I@h}eD9&r{jglg$odwZJ2~ioYkMy?CIP(Xv_>2tPNJ zA1@@)4ZEIo3-11fC=+!3>4s$N@=sJx8P9W@`}I6pNiZnj9Bo0MkJCvc5ue4ab|y2X zN4|zNG!r5f3T1gWCKM$Z9ChL}Rrmf%Z@lKdQ%Cq1_Crz5ly6*;PkYVOt)=j1|1bju z8*t_m)`53wW>9GZ9=%U4fc~2}=SlZx!xg|py{2u}*zXS@5GRbeGx0(XMw3R)p7KJ- z{s(tOgEt+=3|OT7y%;bfyphK3{~L~`$|XGsE`HXf9!xeqUr8fO+UmeLVNN8hZ}JT1 zVNT$8)`5m;YI+pp7;% z{r&S0C%abFslmXinc+K9OMF>O`c`hVwhp*^0?vVQ3Ik&v?wAgB=A2xo29FD)*?)u2 zrp5+PYRnUQoI*Fi!BW()k;xeN!`k82YAx1f!7J!JM%4SVi?Fb@NsgpPiu`A< zqN5&3EB^7xei%`FYFbuV%7xV*U~j)XJNt2al=l3f(Vt=5)C&>Sy zRIAU-#ls8hhCv&i=e7pxl8wBf4Lpr0b)_B>nJzxSqV|7D#|n@{fWZv|C__|xUOOgioy}g1g@8rFyLQ13$VqRWgBA-1;EXl=2>P%GWl22 zytROOa)N9KkNI0`9?dalc21U4^vRmA8S#GDjnfPO`aE2J>UVWh2j6a43tj+hfk(wI z_2l4N2Eo)3;k-jzk9Lk%iTnxE$i+9bHIKL@1@qS{IyOYi&_;Q6CrO~nlgjG zf300B^KZ1g9+z53(IlkmM% zfmu86St9oRPK=7{@7M3z_@>-7e;q{;a%D_tvYGRSQ_tqo1&xOn@1gM81(DT_e2!zX zt+jHzoCk~xT`d94r^Fu=UL5fkRmVZ+fa;YG0Mz(&m(bOnwlQ(v1zx{gFZ4V07~i< z?Ft#dPbvil;<*P_1ODCOzipI`W!Z3>J!W~535mX5;&(gOkX?}GFt8F zdz2e{uZur6U?xL&e^va*W@Z9A z3v}`i!%PMmk{6V6H-%T;nG2GX0#k%7D_s)?EF0bQ{`p$(n+ChS^%+wOT_$02%wdVA zHyHhplbQCRXy}owV0E-?m2T~$&|G zO>dBr>>*ZgO;oa}=I18`dWsV!l7~@-4g>eXHfo8V~YVU=Ou3(OsG;3ZoQC zuadcUmy%yUN@5$8eydWXmK){2!gjgx)?y-U*~jR#rufcZ+>cAlmbaL#w;oB0N!_;Q z1yrYlHue;(aF`DM-f1L+Dj(r+4O>k6|bao8iEoeSZkADqQu5tuC(1^DjuVE@4H z@=pam%I((v-sFTMoR9R?%{DzVdIX`CcAM|>&;PCZCfE!G7p3kb!W;Ua#=5RUqjscy z0CkDd;N<1(iJyK||Fiqtp4~b1LX`%DSa3w-hAuZ4_UT$nN6>2WAw>rH&achzr4Y| z(sMhR1x50C&vS;u5_j-3S1B^!hX#CAz%f(E->lUVL`Cb5;&V&Sas+C7b>r3D@UA6h zOuQ2?*OAlbrSLX~g*&2%u&3M?AqkvYbwL z6BRL@{b_K-Q(7Qe<2}L@R0ljl+*!ha`@+i{;EMv@)Tj)E;nm z_!cWX)`2qo8yq@UA!bZl+mw@!_x!Uh6_2fH=ft3FxVDJ5K-fCu3LZ-h7rJ zaJ$g5N9K7e3+UDi*V-9_t5y(b_$#{&f`Dk(1=_sJ$m=u5zVA<=4dx0hLRK2Jvs2s5 zOnX4y45I>Cuph#x&XT;7hFy61oGiDzkiNlcmYjWdpE08(1?F0znJt#H>L_bNER4%g zZDZBO|L|In;(5!%k5I~s!oU)3eo&lRJG-vyR`S@majPsuhbA(vqpUdT;57auJ4tiZvm|j2@%Lw^Z?;eUJ0mbjrV5^Dg{B#D zGZH5YenTU*r*H@P!JZ2(0JzDa|8qbim)4MW?zracxAnOJbY*(fCXQ>XEhSN2tLL;( z?|ukP)xAIFYe}DoQwz%+LhZRL@%RWu+-^6vPc`!3Ij**Mt`-His!0DN!jYWP0EMru zKP$dCJeKo+mG@b;hGqyFBZRR>zT}UoT%Bpe2nzC7RY@{@>;87Q6~6v!vnS&9a+jLJ zUmTksWfZ+U+L5;(;J2-WFaeiote?F`%LlC=dKbD>bO?CKJqHyNi`_o;GA&~YdQ*Q^ z0-2Pz_TnFpfw{%{fAI*40qWJ{aXI@NX2)02JEBMu1e(l2lIqw4ufee3{NlLr>hk2O z%A%DySt0L3ZKmS!ph}jHly=a!p}#&d%n>z1hP8wgZ_o!uW!E~kt75ue#jpWryDV-A zt@z3F&ipl|7qbuk_VLh(#Vq0gIi$5eORnuI;_C=ExUe+?cDqP|0z}a@s3$P)hP$hu zFieAQnNd~R&WxkSxtx(y4I~zpA@XCFj@X23OnLBY>~^F|YW5dRS*Mt{e|&<11Tu4E zUbJIcIYgruBVyy1h5EJJH@SAdn;GBzwDW#*T!RS}kBvstn87%`M6=(#n03t}A7=SK zOucnfl;8LMZ2>B!A_G!GNvA_MDgx31(jeW9z>p#h(h@^TcgN7(42^UT9YYMAzuWic zyVmpkJFEqVnS0JTd++OdU84|H@Z%SgfiZDh6XSO_#~_ga1cYp1{jYIjCoigmfq1}? z1eRO8PUa&T%FgB7e%TSe;6qBaO}g$|CNmSIoplwcH;PG3v0w3Wl~cyBv9>hX1sPv3 zP-Wb4`tJSYa2$1gTTqu=ho(1bYiZ0q} zxFcoTS5kK)nh|=w9hij@AZdPzYb~yJX!0SlpOlB&%e1DdvGXqv>!A;jZU~|XpMTaP z)&G`?S`oB3W4VY6#tT(Ae7xG+&$zVWV#DW&&NqSt7QGfU?;xn>tr5D)tb^d@U*D^dL?b) zSKKioqN24ZeZa>g)Y(q78uo7Rqr;m>aT=$D^SU)JG1i%0qH^x#J-Od~jrD~% zYgKWNH^TKux3(cppANw}^A0hXBXTRf5&dBA5Ngy+pUcw4C zZ7jNzL^YRKpX5o0STdV89r};eAL%|bNAHxpdto;pNrv|?FZ&~_X0~S0j!F91>x$2$ zC_1%#g{2cxzc-`s*U#+n4$;@4sHCY}jc|~fG0t@`wtww4h8&2YEZE6t<0Qt3fCM{9 za*})PL&4FD%LIbvhg#a~%E=W;ELibrt}%f2Nvb(JoG7E$&<~#h#AQFuTwxyFYlo4w zxcv_2T5ezTNGWhIC7szs;74_9u9T?w;6Vl(o^)YzM#MQ|VZh8R13m1z@~MM{IMHSK zbZsuWzX@e`K#97j3&!(3kQBH%_`@>;p_xKQyB!C6$j0T0x2}Wtc-Gqk z?5i11Z3>R2EFHQO#>aQSkv(!xUwSRu>^{uEw|X%eq1kNDN$PAm*~UskB1sDxj7z}H z-X55Fw|@%zbplUaGE$R>8(l9_8EEdk%>D=I=NTC{HKLJyK=EGq$WrBeOfhw`KcWOO z{vmGvhG%d@;bX{n6pQH$p;(2~PKXP60vYDgM;cWZ-|UqauQp;Ww2MJc`4*o5@wj9v zaHY`o4BSxlj^)I!Kc`N?d~$zt&GiZWNdH=&tjaw@lAvvbn3hkkLEN6Ho8_ffD-XjW z%Ku!h72-tj?ImXEr4?c8K1(9Qn&~DHDR<{A5D2iRjt_M>&*IpjU)2;!TYj!qj0F#u ziz13xj=iYj+juh1&x`Xz3H#?6m+{^29+Y%io`Y~Tf0FAhS6HF1!=EmXkQ0I|sheJH z=5sm96J}It9&gO1?vS_Y55lnl8%Bl<3>&M*`_43gcY34vbi%{{H6MLSFq=%6z)*xDD1>W zKG`X=@XR4ZAt{BU`doTG^J*|z@xdo7yR|`PT%=sMGYXtV9=AM!a+T;qhK3 zbmngdTmrpG926;+7(aSYkg+KKnDaEr`M{Vm=CusY6~2T9{9O=%j9)Fcq6#|fKgEU# zxu|bVZ{w-<=m|lE0FVDx-1RKLJIFQ475i%c=M{dBLgD8n9U+La1J2%bYu~_KpSVk7 zD+F>0-vUyK?c1sd-~yEN?G&TxqE55I7(Kz5&`Dc;3`PK6U)W|LTz-&n|?Ec|J9YVl_>H91boS8UtI;`*|PP4gZ)E-fy%va^D9U z)958?+*RVzVZ?895RnAo}*3^lQ~oeg!zZzk4R z^+JUpF+>k;w@;I%m45bnocL`Z%d(&GE=z`W>{H}X;F5k|b!4+)j%rp2$7@(xIzh)F-?cNXPCR>a6l8(YCuGrJZQB2UM`vTxbu-e$H)A_Yl-w!d&h+Q(;k98df!7fK zKXXdV9|Z_eRGGbD0`2qAj&`7cE;I<>#A~1FPW~92^!ag+Iu>h3I;%3JcbC=#v0QXL z*TBa_*M}omVG`_do=H#<2*Gy3)G7=H15NM*I+Bk8ZocI%lOFas_lGY+-5WSjOyH{o ztN2r?X#F%^u>i{&R}&NUneVp7Gys5n;T`ZV-m)J7W#aaicXf%A!Ge67?wn~BzvB1S z13gSOHtD?sH-58U3b0>@-fjn?)*HrA%aNu`mTZ&X+l2(oqiG8xv-co0N?=<`5@sL2a$G7si?>6i^xl7iLgRh>#&;aQ&c{25$#R0LTX9NGjC}RO;)grw@a>Wc;kDAfR&E{M2j7E$ zd2%JBpolZo_%lZYAmiV?Lv_WV6gS1b^P%iOm@Gd=N8{lD;Qn;njuURt%zhFYXbogc0ZT+3Mw#bwqk9=~_!2mj z$)YY!Ev}{`jb-G`5i#%lI0hDe9SOX_FU~vF#=qDJ=)rJ_B6pC=(D(fPU|90k*Q({5 zW_1TijUPBd8VEPi`PDS{sK4r%nX*?WHfI0N?KA}(45 zEbKkO_kH4md}NX8lA?NYj$@u1=*RU8*FA235Y-s=GTE%B7CR*Ta)-LS_Y+I7)FhFZ zk>?OMi|l5|Q)@Y6GQqL<9-?w2S@{b>1UWt#4}M1-Ys7+(7m-wnU!>Rj2waDL1BAgW zs3W1EEK`X)J>ELJyejl(^VClEFjN1+H@IsjGFN2&#Rl-OJAT{lrzt(u+5FT0zZm+C zGWE7t&MrD{$H^D%wr?oINo~PjIY2!4Ah5$Rms)9fS1x!-$4Rfn0-j7D?;d(lv4jOvPCdid``?Y-EbuVH+k6W)Q@inpB!|2p8sMbZ1CK5-oeWU5A`1U2ITbI#lS(WOtm; zwfI)FCUY6Zc_8s)l45KptW$x^LPjv`0e=27tWFH`mva%(VjrA9bQrA4hZ`@ zxyx+vx^JHR@o#he$1x8-t8NGs8#(KZhGo(B+SFcs1B2_t%0QU*N|n!Kx07pVuB|Z_ zKpD5B=k^@kfm0)Ytx?WCWdD_7d}QzElj+Kq20K=YR%oS`o<5czR}O}}-y~BPIth8- z^OXI==ffQy$w}Zg&wK#*(SD2I^wQCXDT;b*Yue3@N8q&p^{B?VFBzilaJ%ywgqOT5$45F z9ef&a*lBp31JcW6H)`s-#D+fI=iCgO0N*MEa>4X%qGruS-YB zk!}sY6uEKT!$xW*i0pOQ0NV1v%V=+8841&pcGE` z{+QeGo<%DIKjiVB&eDgLK_VF*gN1Xq?M6^D2FriUacCJInLTh1w_EBYT|LR|?c z5q8r;>WlRSLnM=6h_4}ok&N5_|HZF;$0Lf9MnFY}E2!42cR>>%7y$sIufI4^u1@$Q z(7JoaRFi(xSnl6C(75wIDO)~AEJYS<}6-CE(WLWRBcmUkzjss{6HKjmmk8x@%A zuHTq4INV;ZndW(K=T!C*n`k9rX8-p>KO{nb^ zpVc>ebUmY>b6hv7!A?%8>(MNv_4qlxUybX?f1wO>5w$DU8_A3gf)wObW3K{Sk^G-? zY=*5*DDEO%Pa59ZK&FyO;HzC-N$oCYui5wC{me?Qp`v|lH?nB-*$9wd!)L8GSR?wZ zH#8bKjod)DZ;2d}Y$4zlj1m1MU@kns%OCNvPDM|76MGFj#CXo4&JOUT37Xyvv!mv> ze;a!^cud@OeF22*HVuu6w1(cCkwS-ocfmRYDFsWyHjw);r{v#<=6pA+3(#}aENBEkj&6R(=wO4>8{wqhFdL|fhwCG+TBfIP*oOwST8#RwQz zoPBqinQO@o`O;J`IsBAEzn-{1G<|mBr%$f)!IFk}vw_{o22GlxXR3l~FWSc|SVD~) zo%NKspY}YZsggb~v5Z@`>a)ckib1N|^uK`OS=Cui$2C9NYsO7VTx3qUZoU}sSj?Zx zt2W2jm%LE8-)*?#K|h^xZI>}L$^Kpsyv362^7ZupR(jApn7oj`mRaYkHTZ^i_0P|k zPkz|2J03@jk-)lZAfM5@q0@SUUEyB&GBr?i4c6mASgH^QI^D*T*YtFD;p%3#0(jm_ zY0iOI0;Z8^#{xjslb;%I9$;wSbMvqb+)fBvPd5*e!N+U3ZUS_V(4q52t&KHf z)*E|>oY#oheI7@O^e?4L2&!)_oQNLtU+LaYRbJ|-{G-C1SNJ-0SS5E8Uj>R0j!GEg z2jbTm2W}s#@r7}o;IFt9ezzVePD|VS?tQ(gWF-`grtZ^h&gmFbC){kU)w8&}TG1o) z)lRwo8TRPqYSI=L8Rr`4ldT*df?9YzmPtgua0_GK8ORwM!Glfmk2@gDQP zSN84Xfn5lfrE5(P#)59)nxAm;YMhpdZGOc2tG4Z2IZ~s?$axwIqr>Rzi43-^*J?=NPWN zS90@{um;lJsJMAG@8t~J*e-B76){Bw;Wjtc#X!)rQT`Hf&A#+U|GRLPZ`9BOQXb5wz#va8w_Z_&7@gPd5k=o- zdFf{Fd$vYq`4!eJRw8ABI>#nrEuh9>o}7WQtFt=78G8=1udpM&TxxHUv_Sih-Y9tr z;?5!NCa6|#uJ$9!x5~}t7BRPw{CGSKpXPG?7v6?25=h#P6jM2l1=el!l{Tax=@;0L z`R)9uK)Z$^EkIP_r^*Kmc0c3&xxJ{ATtK#{TXCY7`XP`$`jQ!=%sBw}V8p2mK^RY^ zFx?vi!(@|M(GY(y%ys{z6w#FkaTBzp&$mI=vl7%L zt#}Yem=8Woz0`4(0rL2Q{G2k*y1*~6m;a#2MU-hW|jySDd zs+>V61~Hb9H=mC}*-Y+`E~So~%4ae$?Z&3SlIe{itA)s>g(rl8J7eAlp^50CO8}cV zUb@h`BM8x9hf|LHRgpXTr)%)l*aoy;>67P0_3~S;D%l>+jZ3%1-KmdL2rlRC6YyLd zX)_NFaR$A_#~qHC9lV@nK7r3qEh(v1k{_R;g6xiQAY@aUl}}mpF0{2e3rVMijb%c$ z2n0<_mux?c3uhcSCDS$uNBASu4MRC_rHXyS+RR1oQegbV-IR-l-ymbm!14iOFiB%M zY#h^BGZO!pyG8b~lqqjQw);zUo>K`%k@^(a$%lE`E;gFmn5tbCljyh@$+v_jz8>SG zs7LKv-X|ZfaQ2}k1XZ~`?m#d#7T$TR^_<6SUeB_-jz`KMAg^OsfzkF9O)Ahi&Y?bs z!fwQWio6S2U^b$+?Kc*9@#^{EKheVPus|$9`!+Zr5*`rYIK=!(J|wM{HApgSd1I2ec#zH2$3#51mtmC+)J2a z@*oKJnmG${_?{gwIkdRf1M@(@M&_vX>mI>t-^QfjIm9F3u>I3D+Bv-;>7(e_$%@TuWuDvjE4RrPnFJ zhSM0fVS~6ty^9=|jP;&(;thH$CxpN3P8)qiSK2)CkXj5i!WhvZo)?_)5;2+938Gkc;sy)m5|;nTGsdY|6E+B#6^M-&x$#AlkTX6k>phDk#c|} zxm$@^=rV>&x?!?04yV9K3|D`NQYmFi4-L278O_hE4aw>vUQE5A=4!+VZC518nV0yllnW>&Fam$^e(qzvEM#&RUQ+5Eh4t)WHlAP zixT<4cr!22^s!vx7d4rsUNTuX9ZfkJ41=ZxukzTAb-6V@VO zM8Exir-3jtt}b) zrF!L@a(;)D;_T^0H96VYC{<_^U&T+ATozP@+Ym)U( ze=ad?&(9`{`VDpz+d1B;9E<}(&2{Gt!_mGr-Se|#+=rVMth20hmN=)bAw0JG_1RdT zxilTw!_1aH*;5iN#(4c)n;d4ELHM5jwc?=aj{7vQ0fUIOwYt+-$%3vhx!y#76p`PQ z9V{%l#H?doQSLEZ8SnH~`L12=;-Eb)OItg_O%-1%_3tBkn;O<+ zt+j#uyWt31L5j^Ew>An5?i6lHEC!=7f`+;`s#h4fp{KFaa@K4XKtse`ZQ^({BKW12 z8?1qP6T78RiftBpy|63vh35(Wlg!VSSqow|v*nn@k55LV-!tAH=T~H+f3@1f0Z7Gr zsu&WI_q6xxhMNzj5!M?~I)@sRON~u!f{^boP$>+x@!+Jt#(VSOYh?Wi@dAb*OhT2wklY3Np*54N5?XuW(i$a%OiOTli?UF z)bJ{V$o(P>UCuo7JjJyI`-KjC7U$s~>UckYUUf z>6LdjNww4#oE;fL*sG9#P;qBA)dl9q>VJDig>IHXx2M4Fo1~3D)|32)uX2PCd!}-*rn8vB;)5|{nb6$3eE{_eqUK_qva_i5;sCe(adhlI# z*IeSd)eO#<$eW*0eFt55BUbsBb0rTQjC3DzhxVsn2nBfz%5hVy=GO80jL>8|frL;( zF1UM?rmhOV^}=UCy+s!KN|nT`>;eSpvLDDIJwjHT_@y#yYZrh}4vf>Q_zfLl5Qa6CPbd z?ZWN+JB3Rau4z4wJ6$t;59O$3-eB(ThRRK6-3-0Tw^zyM52}w^tgsU(a+LqFqT37b zgbikuu?s2Z0n&HmZ#P_A-d_11T+c}9Q^xVEW}dzm7TpfVmR`@C4aWbWOzM$QZ4zhv z^@2;YFOg<<9y{R)tcM$t^@A?)NDc(4t^LNiS`rM*Wde=Q*A-Di=H9e>6hWd{E2A~V zVektKD!dUVOtbqtF`Fl=KT3>xEdG>s@s0K}4bsSJcWA#dr`D17J*4|)yb()>k!m!r z*8h_d8o{X0>ZoS7zKyh#!ixwa3bWAEYmqfGm&x_9A?RoN%P}|#Q>Izv31WbYbhuF+ z?9ektBC(J(8YA2<>rLvPV6mPc<7|Z_7ago zn%4`$$#t&#QXlwi2!Pc21pAw$EWX7cy7VHV$DE!9lq&~>K#2U?P>=C#A4IML=`6wO#yzV$v41Qk-{&{fdNA`Mjj`$Vx_LIhefZpwHh``4?-yIh5-?SK zzX#yHBL&B#@Zdr#soADV)6TWy?Jy&iS>j57{vv&gD9heZ{a#WHiSe>;3zymPy7E5C ztLB@cY?=4r05%YNgtg(nsx=J`88=tfY@@b%m<+zS2?>3^HJnPmZGgPGYzN_Eji%0> zT}rg>dsv(144H~1TNW)V=74ePe~trsH)1qx+1?OfTJqvIH3fzPM8PMSTT%_V&@f4w z2M36oQ{=kd1FjiZzMUtvF7%wT1M`!R(Nzj8o&+1PX(Xfo)2G2HXj`tc2~#Qd;5zpr z*+dz|u>uR#x%sW|8aS>o-VkAfe&sl~3K0I%feq4C*wU1ahjMAPY;u$TxekEj2t1Fu zDln%3#}4QN-cq4zTU!8{dS$1(o&pmowPfMj&V$@N4V6)EKk1|Sk!Auni)J@&wCS*J z=Wow-XmMB02&X%ZM-BQ45XCr5dJO$t8lGTiadR5E{k}JX5L7mc(YU1wBQV_G+K*Tm zy41SN9nQA_D+M_%63#Ptk{6}khs(<|wlQc|tqCZe1nV;&%k%2rw$bR0&(jwytRyN) z*LbD?eSt(W$C=L+9&-jJrT9>#N?OeKpeWa`ul}G7H%-qg5}-vwX%QRSWf5MS=#%fd zhf#5%qB}T8Dw|BdlceJxe$+nw4gZoM$(TSK0XPqT3q}hJcheM$oV3*v6WH6=0*0LK zpD}S~2=9%x_%PE92^)w@bKK18!w>tf1-&|;O|0Te5xQy4rtC|@zmtL$7i$;JF|KIO zI`*6CPjZ$)tk%yYM(D%2K|l-ffPxLMaY=v;jyCKE z9I-e{GuELnEbPVyTl>)SjR;XgqlUp`5e7jnTR$653u{JLd!OxT7b0!efR6X`7ZHOk zUlx-ZoX_FU-@n&mqs#$8-dNy1X7JlfPSc?8RtciHy+1zo{=}!JqXjE-9*D_)3?a8*$J%GRhdV8M0TBK=Q zBswML^aUMpLdT*toH@~=H$0BVk%Ok$Z0}vh(~VS@w!5Ggj+~Ay*Q@t;a`1bG()0l6 zqrhRHpMgoUQlk1H z754A&BK6jo0ZSMiz3Rtz>5vsOvH=3FS6tD8V>^y-v6@~{Lx@;z1bpXcpO>cID z>soeX9K9#o)i<=Qi;0(8-fd1jvjf#zfL7o!m(nDV5{I4ZwM9@XvxKX1UflKu{%a3M z>xAH}AZ?fdxt~D{F;;W5eFA;$k_c{OARcD^B~)U%>h?qLFmew++00U#fBJyp_DmY? z!sk_?Grj=C!f8*RG4ng)srLXKqB)@Q6(asMr*`2BQ%5|G zn42Eh>#-X_Ze#p$UKDwO(#5j#A8eZJKm{(&e{(8UX4>@6H`7WFc^td%ES*ilVQk~M zf&-GXe*r*h{N5P=OQOp4asZ%SP_XA+t>EZ9PaM7ek3%qk3w)^0qHA}TUaO;XQjPOI zjzhbjRp@^Y==7oe#keTYN{gw0IQrCC1J;4f&Hfmn*A&>WtcEe6Ofi$x=VS7$CKj?Y z00*nDbN;Ij+a7hXRTA*f1CVS0UP!XfHjCF@8^G+qtz(tLuw~pCnC+Ozd2&^EW)5tM z7Y@KZeLu74x=VJ3RdP~JytA!ikgW0saLtzL0a?4dxvrUaz_0FCTCw9w%?GdQxtQiK zN!@Y~K@6jW_j*^`r2$ivfNTcpwX<8)?Xe@d;QU}xo0jAa^6N+PMOG;}1gE%oH+dY@#@S1Zg&uUx{0%jb}1&WM4Dj+(%{CK?r zIM5GQz7TnBt&inD{@f@_g7D=v4-lOc7O}xc{+J7<|0;eJ-FWi*&l?gulGq_3mv#-J z4o25IPfU5Qg@br3t<}WU!6gUV5eJTeIafXMbHd>v`9>}}3PbE6?|N@^tslN^T}dj- zonq%|vi~*yqUz0o`)GM?z-QRcJ7U5mfLZYDQ-z5NGYbvA<08NZ22isxF=U~McT^V5 zXb^-3PN(LR)`bW{j>+)=iJs^rFHXq4u%45RV_z;S%#Z(jY?1>nX$DJw%--Y@Z03o( zkqwM(n00KyAbtkM51=Y+0Sr$j;k&Vwu+{bX0I~=Hb>O3PS=E*a^=s|`fG}VH{1;TWV_Fr6$E)#1e2$k%YpEW_3Bf zW~wC!L!MTBQ1vr(y>zki4h@|vdzjI3dcXL$7>WGhYpSE zo{KiS3MEbfu-(e5pD&LNC(pE4BI*Pog>%G~F9tk+mF=GzB}t!bRU-X~AbJ)KK)lCu zhvk)whnH_o-_H)B5LU-HUb2z)>e^V3>FoP8+?;$0hwl~vxlq&|!YTDP3~PI-7Qh=e zq;c^#_hX9$0|ejdH|dL(3X=u5U*G`4?QPsl`3URBS(Q1Ov7Jl`VjGbG5eT}0w=SWs zC-|}b^s8gDp*XdwHR*Wse{mUM9Czk-Bc3&_L$b3zUUpFEVpGF~cm;ULASa1Z#(b#? zjZ!S0iF{}w8jjBF7_RqCp*an+qA~lbSFpljmfGT0N+75~a9gWU?c-dMU3^2b<-3Lj zC*2l*KN3A8>)Zi=IvWAtJ|ma=OBsFO%g5dTp!S;p_ZWaNN*8Lyd>{B0{P}BL zdeO@}lgG)SA{B@(LoZG95M& zXLVw7-4R*`*R_r@%Q;xxb)KMrx}9mx{Nf4`!Ec~!`7Rbb@*Jzl+GzfB`SFk}+nvd* z2dk;lj)s?M4&C4Bzd4{Us$FaawYk|0$zXJeybxx4#BPSVM&l$2)4qu58${LV9{m4K=4|oNz-VU^4 zs@gs&0ojL-n>~(A3vDJ3yPVo1vPc4`uzl+7)MM@-*}t|ol6q_=pE;rlJ4hl0X9vim zYaLBD0Qcj|n3Y83nN!BJ8%9y_v$=U#pM(vYiHM*Hr=v&IkUlS~$>giA02AOp3tSoQ z;VCd8fDg{YVEm@_vT3N~K%NSSvNhRuaup%Z*h;J@5kxs0c%p$+r3kNT*uN_?+KTTZ zzv%M*`Zs`Y9slf{=6fRm{QrWUQpt_Jm#@c$@l`%M&`F?{{MF*}e6CXCBjGNw=lN+N zDn#`D)}f&$VVi|Uw%w+|OpPDvgTKk8@;rC4=U=0%4#2JOQ>)oGfxIWSD}issm8#b- zjV&_YaUkG#VW9&RDtRw_^Jl{n$_I3DyzX_Uqy*BYa`g~Kc(%s@ zy?02>2rH9D-T@^Lkv2lbb?sw)oEnSCSO7gcXc2a~5dnDch_QFnj(h65&2?!a*0nmO zfa0ox)uiI9ShJ8xwA*>_4Xo+0fIAr zH>oi(&*0K$sfzQDaILjEueFrDaruM20qhF)m5|Ej2WGVp$LF6%cN9O5u`{pof*?J+ z&rYBrE!QYHSwBIn0_LkHN8e319>_NUb5|FW?zuO?9iX++3L!&t^M(r-b)~hsJp(#? z8gG|7-(yw1===J$1)96jUyu5{7_jLNAvRR$8nbi0jxGBhOc_;2o1e5s=8^m&C-}1- z^$NHP4=;zkT<211;vdP48J!57s4f*IuBp{6OyE?c3p5c(c9uRp;j3FP^ax5srM8v# zjbiYQaov8(*5R$1Jlb$E5m1#e_UqjKAgI@|;y*8WiH@%1{1zjeTkT6wkvEZWxYOB8Ie z;xC0oWZaZP1`seCAj-HYhD{EwGSO=eTLX{JJ#E@Au|x5_@AiyP1}1}3C{_x#d3i(Y zXF-la!#};Q1JyoHQ1^(%5a7eFQ@=G-;{2|bn8&iI)6FOnNOg%go;H%*1}JR1VfpoD z`^B}u=5Qm_zr6;CC;Rk@8xk~jXZ`V__|$ZP0=geK;eQUNy)#|7LmfR5gfyVQ&6g$D zm$wZ-QWi}YzqiooQ6CY;)r)^AC7laozh)3Ue&$|xb8;*u^6#EeU?=oSyhfV|O8#TK zOnnT|a^qC?0zvd{mRh#){@uctDiiWA0XT_M(8>@ZG1+Ni=D(p+$%mfKHL-K?Z}PQA zKyQSJsVj`SXLzH3R}<&2e=n88XoT@(+ZPaXhlkgOL4IV0=o3ac+14}LA4QhErOK5w zgR?IZc@l`;ZJMYjzmC14UZ!7;69Y+GG^8%^{Pl>* zKztZe2)A`sAb4-MQW&*ok=$%#(|-|+aGKT7N1Np_LthK+1jQVLsyj8;3dywyJo=c@ z+Lou~loylLVcMfq9>evDgetIu6$>tc{!F>RDtGZAEGPo0M*Fvi+XXjCBD8n@W#8}A zo&@sP=6ii2^-nev^S2KyhzNmEG*Jci1Lc`4b;+?ucR&#hzJh8N|e*) zqnWzV<}(!)@34}+8tH7x4wU(hL;N8Y`KCC+E8hFX0~FVf`flGdY*Ditygc6v#|Q0$ zOlmZHGZH1UP@;)rdA4_=W*#xG*OMp)PBW3}PO&{Uk@IBJjV#6ZmcPw4ktGB^ddkLTC*Q5;4ETd=V1(DQFmC z_J+kE>+dJfTXw4#teRudv}Qr&Wvn&R24oHP9M4lI*M7>do2ZM(X_Pk z*tq(zl9n>xAt@{HuBhRa+omPhNaPQOt%IqH6$ z8hje2Z{-^E;jbU%EhUy-c}j(RiK%#t*jweQXLXBV+A**bB8(w%YiyJNUyCbgL%s+| zph4DsP!%J4YU#=x0y;o;?@@AsKq%&MWG^*+;dd78d_PQFTdZBj#A6HDe01b`FcUUR zh=xEiaU89*Fee{_cbq(NeYEXf;#ce5@Sx8gQ68_>G^VUPvKin!F{M}u7|F~7U>!Fz z8GnYA8@)~F=*^BZ>C%`3{yfF0%|&g*e>eDd|Bc07oE5{191&?Yqn>$n3JOAChdi!6BpkVPlv`e zkcFhOW5%&Yq$y-x{O4~HG4;8Hbf2Fbd*+e%KN^^H0-jxt1@&p!iB*`d{xOLyZ<$a+ z>;_Gzx(+0*i$?r)%_0QCt^0~DgwtR2=~|qk3@7fGV-o+-{MS7|XLs!sJcm$d8BI82 zJ6_c=3zFA2-j7_p2UQ3N#IXduKcbNotY6X@ru8mdQ{+cOjZ!UR?w;N~4|+H6 zQo$*t$9kh>Hx2+p(&vnHPKZsvbkvejW6Igk7%t^I*Er=tdz29WzE#Zs!1E)f>S`?Y z#^(v!@9=n~+b;Aa`-ApRVoAxVEg?PRYckn%y=1YXu-Esu4@i@FQNb`MYwz5i+cxleU+@prP5YQbdagR@M&?@UbgFY#YK}d( zYIWJUqP*DH8&KMY0quMsW^LQ7LZAV2jzFMMOI{-6O@qnhqNM|L`;T7$|L`_PA)rh| zUwadYVvBY{0fNSLF~L=BpM;FnKm`hjM@`i;XPFm9HM^dOw&Png4`I9CA87%36Q(8> zWh&4)>+!X0_II@0{{j!;oT74-AND)I_)kgze~WG^4rN1ToI_TyKq!NSa=78CzaA?< z`>;oF@xzld6t*)&UrYV5rSD3^2Xu&g_vcBdLnV<68^B?~2Zvo_h{d1_8wa)Do5R;C ztzh9oKpV;SVU4wLm=0#J!cV?Y?#;H5Ly5fXKK=X@)abOZ zPSs5yPl=eCKURulN}6u-o^G0_oJ@Y*B|4i`DDQT;d!jrCfAdNx@a8B@c-TJ({_JQ7&hHtZey+9Fp_ZwsgOK^t&8gozFW?a4B+0+JU;(@MQ$i~QRK^zt74=9 z!9g7lQ$LWLG~%O}IIJFd7arky<745_h+FQi&O0#sYDZa(g+cSJ#?YTgUT*hEYno-N z;%BI`MB@vI&_4(0RV}w=m03%iPN;|MWjFZsg0yXTO6qwkC$)&qLOI>+VjF3#Ini88w2 zd)?s`f#jaiMbm}0JNr_2`#Yle_&SI(s;kPBKU=IlI$*8|FA>iP-22tpgo0dqN#97+ z0VxPkW|R4;^7zWo9_}A|69;|x0%(5BVgFDm4^gd^*Q9yVpSbvAK3&fXG>PHa=) z4mY480QfQ8igPGAY{BcCLHBv5Xzz?4x zk8A8>?xDP+ZjJ@XCsRlvktg~`rYW<0&TOcCCj}>}7C?&RFNFtH-F&?S^pjd1NO{qw zCnbhC0f8KIj#&LMnWgoRV^P=J4O1fs7`fc%XC zqO|OmY>1oiG;|ygCal_C(dazU%Ds3l2>Dwy4uDSUtepk;PCtA9c{c;=gWxE5ow{-< z046WdM&X0IJTKSQN#^aRp5in3gp`-kG{XyBqF&~1#~@Zf=w z5!!Cf+Z2;FdA;-ZjggK@ht12Wu&3+`5fW*cO{TYaa`4@vny_XXJo}RCyKCN^VSzvp z881G8@*1_b(+)xPmlNJ}CH0<9oGLpvys4vn+E|Xe{)S7=VXYfy$vnwawkcE2CSGT* z=|m5jHh{eArqEpy_UL@cwUh^(Lkv3F&*g9^_fG(VAxZ_g2-IIR@Aifp>4NG3zdJzZ zjZ5hd&-8aOxqA(SirEO7uIQT6?f+g|bM9acxe}9uU^kH?l&y8CH(TyjD^V`Psoj_U zE<_}rB*5RiJzp3a&6IV?aU28%dOv^OGtUBnQUR-R7_0$Oxx>$q3Y8v7(DA7q=8+w` z_POsGEfD2fdf>yk*SWzE0~9x&(mqNx%!BLDg}8S{Sm}VBb|wn5MJRr!-X+l+DB73e zr(rN|P&g~atBk0m%IcM(GoyK$oA;ZNws+`UREQ&o^9#{GJk|Rr<0q0tEqIdi418e0 z(z`?D@k9G>1@nr`5Ubdqd^(3Y$-Kxe$JGr0Z9LTZ?4@nDyW<8%g*i+jiYT#Rp)%7` zPU!N}-<9@^6+8#8OI?CF_w`zX)T_v|Z|7Nap>Q%iQ8Ozn_@ZYacJs=b;mIkl-4duQ z*5|sb&)(%vXpFw6u|}CV))$~J5AevVnFYt`;IO$_%-MPp@LjTEoF?LCJPEa85+{ft|&vJv)E{X2#+!s%H-P2OvVP9ODD@m468G;(sWkM9K9( z0je%tiZy_5lceeEDFKKJ$+{`PpZa|O`rZA}Uxo8jjKMVM0RQ4P*SD>-P)!v_4jj^M zHI;v;$cQH;ANT;*-lZa*Y*$Zh?vbf2J3xiJN6qYn!hWS(7|OQi9G)eg7>2@H+-v%} zWUrT>jU9EXbvrvdaIOjS-!WaCsi)#y-~Gcu#@p8W`t}*nu_q8$+T(nX(GH*jLXw$u z!8ZJBas>(zcnvMCM;@QMx5j&ifR5`>2P#f-LzQjhH$8fFs8V!p%V2}HwCXX%>E}0p zMYK=IkKe~(0Ef2{wA+9Vmx=uO-gP<=ggM#y7MOcB#G5YlE;gaQfHw@gDF0qqi(grS zYI7@+O*@JXIdLHQZuH3!o3kf!H!eRdzMze+^YM4oSLTtf=TIO^nKuO1oB*~o{DA{R zW!YvbJYKVOYv{S)Xbz12B3ilIhoSibl-AQWVyiO4&G8lMP@fDcF>?e_e2p_MhpdmP z+!^_QOucnjlW+JouArbIB}z96A|;F(-H4QkN`uq@X-20=N+adiNC}aYZlr4)-Cd(| z)X4Ywe1E?;{)B^rgYjI?eP7pkogv1{=VsCMbI{F)RvZ^(0R)AZYKx`bOcFD z?vsd~ebPnR?h0d#161)Ju+7Eq1a8kXX~O|s!2+c&a%bhw@cpmnwOs~xXy$A}Ngwdm zc+y{bjv1TVztue^tio;Ij@I=_-~N_C8+_*}S6?XpH}#U9Zbt<^}7Q_enZ5pjPuf}M}%#M;WR^MqfzkqM!2`)o>wnWHk* z48!mSW0TGGcf*TPP%B7PxnA*kc(Ah51)KX=8cc>Ecm~Eg_quphzNHPey3G2K6<98^ zZ$69+tLpBBZKc2Vd$o?gBl7=gL`=f^MTfwF?P0U!?XKrs|Dz;v@*T4g_3hyiR|{)t z`%i9ym->3T`j2hBO`%=4q|su)5W^1IKQ!+W@And5AaL~I=6iF}SFs%B@z!gl+u-!5_22hv%_;Q| zx2-OzIwg87bt0K=h1Nmo-vRU12J6Rfm+~s7vIhu_MnmCVfn>P=w<8Y|-HdlHg=V?& zA@Kglu>eQ#-$^u5kqV>|$aVBgda$vY509$vOm2xAl3r8`WJHK=X=dys!DSrXoP)N~ z!xUG)Fap_??|IL2qH4d8h^$p{K84S9-3x)ASF-JVpkHTFZWw6D?>14S-`(&hoE;xC znZrFsrNpCNlhk;*k*;ukq5d)Qm#ysGpZ{VneShY4=|qK~{+0PYt13z|821a?zs+d6 z-AS-iL5sJ(}jarb2J5aU_9RY_#K zT3YU6MWB&o$5F_)AKkXx*Apx)d66g-;OwdEtyI~qvKb_kSW#yEM=!6&g!TBKhj3h0 z(N#m=&I&O8JI;U=8h#YA1P1`UPk-@vq7%gb+;ah)vUbXaDVtsuq3zQ5`HVZxl2uj|PcolY0%2prIK(e0S@3XBRvTYX*SIfl7KU4*ol!B3vp zB&B(TMBinM66*RlaJZafeJD=N{H4Ai*?swG!>7PO4=VdcB2R-2&8or)7&t5KxZqii zqoOb~ea^7!fn7-&OsvFCOEv}f#BG>=j(0XBUOSzc#F?k$1V$g`|{k zY&;Faf>t|h7GpypV9MRq^V$9BRht2ztm=CThJ8riF^RF!n;Z){5JlZj(0AQ|%kht0#?^ikh50ib@+$g$W+7Fk zpU>i2>GA4kHNY3^S86NP?YaA;=M_}Vi=NQOAWeScNEPPY$mU?lSyE?5qK>l9aj7Gp z`c}k6<^sZZ3!i9ILJutcs}uk+*YI@(=wJG#1U%G^znONqI7s2wX<0qBG-h#)*+q81 za3gvMm=4O(7@_6{(I0!I;hs1*F1ZBI2uy&$HGhbP(eUcniO>j{1a%}EQ?r>;g|i=z!Rf(~qa2$=ba_tc>H7IM}u z{kroKyNmpQd($vIeiGq1|2-lpcrXl^jYjrdUTmbGrpAai4~%~2th?;~^;HhPSge1) zv6ZYoMCcLvn<9OyTfnLCI{QMG=(Hw7aDc==?+|elS+_XZap-o{TZkEx_A@szwEMz1 zQ$?;WQ<4ZL{DcnrAUMzWVnliGlMm$H5b1#-7L!a8EEG+_p+H7app>pw$a-z-rXe@^ z#J%{NoJn*U+l=SJ%N+yB4bo$|6+h6kS7v^NpO3f0LnQsK{X%MnyZ=eGj&vWL$d0cy z+<$o_n}dppD+PB>uIjc+P4R+d`t%M$s<4&G)(@A(uy|TLguKoSuJo(f+OY2#psZW&{U?`~LtZ_b5_%AxoM0%<(8s=MIBaF@}pz zzPo6RyNT^@^<-+=H9f0Z();)Kvmc5|mX!`)>wuoJ2K-)BS|wK0!jecQParX^k6rQw%T-`>Lf)Jl(|o5@ZlbS3ZZdu?;&vv9y2K5S9NonV|H0-y*-1 z*7(TalD9)%T)*X3d51h7f=<};U5@If?mTENe?XLvm^D_oCKX$lf*P87!gv2-F`gk7 zM}J37_~ozws~@WzJqZgVy@CXVwn+C~`YC2IufR9^vJTpnT%v2-==@drB4?au%n`q^ z76~Knu4+awS%`c%0U>#YOqBSTURsWN!Iw|9QUyOs7G+1tPg=(qx{47M20>p&yXktW z=Zx8L2koecO`?qHCILr?%Ok_@jb0N6c34LURC#=_=9r(iV zjT;RNc_lL=(PJOWpBieH6tbCOCZ3zc4JwrsX-(&uKd=-w+4=s|LHH?0v{S`MsAJgg zk?jyH7w!5?xovlCJosQPUD)3A5yOF+LjtxK^1GRTW+PUCc%bOn*k&Pn*P8D^J??as zDStk8>QEOuFHt zN*OgZ3_tu^_v7VY2tf1+wc@-4|%b-3jf-Ou)qzEEf( zxWRj>QR>z()i+EtJ&dM9WnDt)XH~K?(?K$n%<>y651Ea2JUraf!C1o}(_q?{%!Y!@ zT^a5&V|S%W>-V|5JYOnZmX}bgw3kEoLNHjAerOT=IAfIKyDLq>1@jF{8MRv4w5+xv zQ=g=oJ{kM{r}iUk{_uCP+bdO`w+4f4O>w5Hx=h~}M0p?b=kd>b&8j=9MB?OHCfzI# zBC>aODAn+UWX4&aJPk>4HD|#urmTG7NoGA`W&fc*S3_wpOvO)tvq{Oen;vD^QL9mI z`?e%y=PO5ku#ViZe0M1wqhhibN!a5fhX@Lrk}OrY5(^azDP4`b*cp|A*qM`4uWrB} z<8aMjowwKCVE2*^q4?CuLLF2M$8F~JZRB?nRQOEOPxi;%Y%TQyVR18WiRE{6QWR;w!pdqxbkwpyqHcsD22V-gi6r^zlMaSC+v~2( zB{sn_B&CO!_bBgm33-}O|6^-ZBBu0R;jZ?5G@)hA)IY)@Ln87rx$wRRjhXtH6AJgx zjH5>25gc~_%8Dng$cvqDskyw17LO1@B3}4C=k#Y6vm-!lhKLK=WJFtnP1|HmsHc6l z%ciPQ8fz0qUR>Q$Be}1))pi~n=km#X@>!D2{JHSWJ@IRpjzShu$-8dL@6h-t!0}nZ z%qi$0N>eWb5AArzr~}%%;}!JEslYkJAXR{;DeU~{R1NRy>Y+v|ibY49oIhW!dU6J( zLr-E5qRHz2Hf+wY(wpY8*K-K`&`>57UvDXJtGxQpY{*V1)-_Ib8e&iR-9)9hle2=g zzP$e9M3VTVeWL^3ZlC=xwZy_1iJ*GD&wiXP?8Xk(e&fKOa{F1DkIX_lj(nyZ+6W{UC1;vqXx!p~$8uKtjzOp!W;vOr) zl7&pdLN-S|u*04=Vr4LjA$9zdI^_VgFC0gMji`%~#~u)-$%C+Q84>V9Wv%$vP zhEGFH(_DuShhP$8-3yM|>JByQSguAAaAV}d)7;iZh3jrr#q1;9(Qog>>>;z9K8>SQ zzXY9`y}wY;L?jVsQx+D)Y4nr{)8}{^I0%&q=iNMrkl^@o+zjB`3){|Lc7OhQU!i4b z7gkzpV&zP_xHJ}rDcIt72)x8RMVZFywzDuX5o(BOUmo`&}km?SAH!uV}hja z)qaFdLndr?fhNQQ{f%5O=r=LvKUllJwGR-Z=#@yKDs0;-{Prc%-HMsrks-4h*IV34r5@~j{~&=EcGoMJ*GFCX2j zxFv5`%FNy7oE4(dGmQV;IB8G6!7#-8rF{BncjhMT4-&MtWz+`HWL(>Y0?@KuiPR+=VtyMq zHYN!gnc046%74*{#-@@wFcwzfh1FZZ*YC>!CVo_0&MlS=9dGN3+K=8+BTS5SXVYPI zRdbEkRQn<`SfF@!+^0_O%d8oun7aM8_nFzd!s|{6!eo^c-zcn)>^{Uwk$El9-}*s? z7pErR!@q2Ehv!w+^5oW#8lv~O_s+6n^!Z%C#W54%SJ?sg;!A`#MoLWAS_VFZbY2O2 z>Pr>|Pwdg-X?d&$a!;_-Cv7jz6?dbsoCAZw_-%$(iZ?^~^`T3-GCfKB1a4rNMuNJP z0w`-@rQzKzKryny^HkYgqbLnV)W&fSVQk{D)bx#k`JU^)BfQK=wg8oHKg6xr%?WZ3 zZGXM^?41)dc{U2`eTA-h_ruQM3%%Z2>DGOjPeH@Wp;NYWVMf9vV|<39@A)|Fvq~A2 zZU1)e(bl=QtXir)i;NPNueNwPKNCsUfmrzyN~Co8y7|lc(%!jh;Kf&8RaWNoB5@m-IwXkXmqW@a3+>4BN3lSq?VDR z#8ZK2+X^v|bSKQKxZ1fyhN;2HZ3QDzYdk(ony_@CHg=X!1GN+L@z0UbrA zp@`uvGA8_!lib)=A$^o0)5KMP;J^&hgS4o5yH!tbJ2Ep%VP{_6JXCMjFar?p_P01e z92gIB3;Wlp?zCRE4R$ULFJq7&=rRT_@t9HO7B(YJkw!KCDOqh-j!PG*kcq9s#)L@K z%j|Q_1@B3_?O>4t4KlAOz~SQ0Z-2SJyllY&>;5Bc?3ra1&X&m=tuV49p;GNJcE3fi z#G~9-DyqR$^!+AJ9W<-+R=@~y%RIJvD(8|zWR_PgP&abC7BY!M7DgZ-cnq%5m*g4E z-QASe8@^qtXvEux46Fh{A94>a*v{U)vS2~qg#h~9T>O~@0?{qx<3!oY5WReI@#hM! zducBjf%KQO$Z@gWc?=p^BDLMrhAWj2|L(o;I1InHL4kwHa{g&K$`PGR&UIXB_3~4Y zA^E$XkxMAlF2-q{2Ne$(A*GYX8xK%H~cTnw+Hy@L6f80yDV7LOanPfDIL-C^jJ$hy;-{V!IHJ=@F z&_IeGGT!y=O@m)>)`6X?Rewil(UU(8IVQtD6{#mhU-t14&t?^XOO9XC9eFjfI$#s; zq5f8s#`>XCt}gWZ1Pq<2{P7>mpp?ja>>IR4{qR0nzjff6XcUCn_N2Imp?+m-h+QjL zVJxwQR92^UTTYPj^z+ng0os-6&la_x(pQnI_q_}?0WflR21c{{+n!hfh%sT@k#J6`2#eQmqaV7Djz6P>UEEN%H8k7cylnvXaxw?8?VeL%c{ z{wD~E0}xO6Sj!KZ;+kunOsAez39k2J2HW*_rF1M*JMri7fAy3H#-G$>j=O;d!+cTr zE7ehb1Q%OHZtCAwbz|=>WZ`~$-DHXif|Uy#v%Hbt4N}|eUM^joJPFGiFH(V1L6o9w zPzIl&5AoWH)zI1!RQTrgd2H}I<7njlr37ZN9|0AlZTn2~qffI3d@dNn(ixtL4ekQz zp!K+j3>azRn%A#5M(x~V(dUa121jQdu)0=ap2g6C)&BRTWmWA0O?ILnJ-&ho1dMP7 zHIgI>!Vj)bRoBq+=}HqFuvvXxU*T-Mb~%j;!`r34Dtg|BRzKU@F6py56k_1DXwjYYJQ~_U zz+5?G563_GAz^yUkvqs)y*8K^=cN-sG`7N^CD2IC#9E$)xx;^cUybyC8e4R`#W{TG zadBG-Z%kjFTu8%bA9L2}A+EzWc>ipiP`EiFyz?iH8U-Pej}o2W@DY!ND>q16yZz%p z1;z!|;>0hz7*eme_1YaL_)I5^T>GDoR-aa_kCW~4d1_bd8i|Qc!MqN3mh7ZK(%mqx zKW?(N`BMHxEC#fSb)(gf%Oes?0!ra$OnXAoqxHk<2%@r6{#afD4pd}Cz;N-ukf|l_ zS-c6chelFR+~;+Bqx{?7V{mf&;M)nl=F>FT=;uwAk>0w!sOcEEUBkoN#v4z{M zH8h!eV=xK>19I6XYRO0G>u%EnNH>?rI`{I?0c5`yYU`lB$mhE!9yuxgGC6_8`k{3{ zl0d0M{AO@uVj+p#64_uVr+)k2SNJ6WVk?X50DwcY}Q=jI)xxM)haAN zVkisH^t|q%)e;x1nEmiZ;~QEwxR~4K#e5&^LxeKkJA@fcaS2?jFv{ua!n?55>G3xQ z=W`K5$}BVl_FHdHS&h2Y6fo#!o|A9^QtggZI0){ zHP2dMn?zrKmDfq>zn#t5s{>)Vpb(N>IHbRwGF2ckPd)kcuzco+-ZffnE3dk?r+l8P zv7@L_WBL(kDPPs=eG$T$fvO&tU*Ny+@!IYl?29(rS(6UY69(XDHtG0T1-#|5E|4vH ziV0@=AhH!MhwTcD2PD%!wHpt{KRH7o$t*|r@MaJQ5ztK)gsGTVN4+=%+kX<``Mr`x*npY|+tdBc5E)n&Lgj@p^e?XK zvBgksbHzl?6^Egg_6)RV9^8)AG)~>lPWSNi^i1RRN7wOGo|F|H*W;Edx={_JOvk4> zmH9xpP9#X%d`b-DbD_5RyT)aBQ!E06U9_pdp)-nGe0=nZ!LYJWrB0QPaw^Y-mF43+ z&BLAn8Fx89zi_ZFR*WwU^kpilxpK3N;KV6z#6|R1GHOE=9z_jLo$zY(n)7$LS&VgK zsLDU52O#^yl-mQI0&^F(cl82YUTGpvPIoBX>SRo&pRT_8k_0BUjt*a>6>6;5NWTfR zlC2gzT-vNbovals-*C%twdcUhe;SoE@sE=l5^mCKxe=L zkeUw9JT#YngGRQVJ=;6+Ohd4R?gam!=Tp(0LL(nd<{?ARDC}3324SP_kgdjxm3-_T z^08IkWjLptC{vb|G6;R~M44{M+KJ)qks8_HTXGSOF3 z(Q(pBC<@?=N-&=^G$KuHO5;HNN>9OC!^N%3iYqDtfZ-Y#k_ZLfI^q+BvNHqZGrFGyVUVj;FZ{o`;Iw7}_p8R#`;hBdr=MxWZO zXwTJvuI#*mA8Cyb>Rk z?0g~)!VVy9b;YW-NUhkhsOh|uTbzmS;EqHsz)P7hX%w)+2(J@w{hF@?L36lqW{ER1 zd+re4Eo5aHteu#F&EElg`c#*B^IiI*&W2W_tfu;e4yc*DE!=Iv5=F z^ZY3180(mtcZLBmtTn7^0{2G`qx%C(j^|(gZr=UwbC-acL(>=k(UHPk{)daF>OXl$ zcR5hpjc|Q3b&{<8Ia?JqAkJ;KpX<8NTs%gKy19+ujp_f3lC9YpdR{a;y&qD}~ zaQIUJf~pc7O~dNCXl;x58U9MS0}QhSP=b-U6k@z#cAm8S3T$Hq;XYZm zPlJ!4)rzr%``p!_kpO3Aue6yRf*P?DZH@pyl9!9N6$J%+13^9XtnyN-yyM2Yryufp z8ALl+(6x|P%drzFrh$DgA6&8`RvZb2ZvL1!WEs?^A8m7Z>_qJi9)o8^sAR;)qkhSp zAFXC1Jyh$TbyRYW(K=K#7liYxR3Ec+?2-Hu5>SHA7@#QmoH)&eZ47n3>rG3F#X4;C zz%qZGk<57NSYO(tf-1rcz-ffZfCg0z^GKD?t0cVkpc=KHW|ublwYGe;xi>;uoL&C$$i?+)IodZHK|E;Y{(AkUY{ zES=?HhW}`%G41PGFCF+(G#2zIdlT$y()te@O*cR?JHDuy`jVMF^5nMzdnm_(JBj*H zZ^Ts;HSEFqxu4w3*9L_Tk4ysZ4%IB5qULh^HC(_Bl(XLf{v6k6uZk@c16Wk(v}1^X zhbCn3r~kk6$7j@I{9Af?;T){@u=VzLKqKO<_x%4n@H0y1$6d5#UDvYW!bNrFXtijn zZLhC~T(+EC`^Ec6 z^+}1vf{Qrln*9g1eD3%=^b;zxn75mFIVRMM8S2HNOGZz1;`2Jn`D-OnPuG59^zK`Jh`vjL;#b+3Zam#;+}3Zn}Z;z&exGo?mUtNS&;HD&!WpTK4$z#tGkKY$07)N=uzobtM0Lw*8_Yw)NwqKVG%s zw`gQStH;|ZVP*DwmBJV)xNbF{>i2mpn?(0=K+b___gR*x5?hXvDa;*0^K7DZeO`!MiQBKMVdSs9BL*(YcgMn|+ z1ICOC5uI!VoKjPaE)Jc+A!OAgmJ*R&BTWoEPefBCBsCL}41&5upPj7*Sd@`R)u$A{S>T zyt^nEP5D;Cgw|?3Xt$bGiCT(<3G4H9-2oy7HzL_S?Gt=kJFcoT9ad0Z^I^Yw&o=!w zatsV20>wyqKwLq~l6&BzfS5IP9Lk&r{12cL%p1*9t*+del+aS zl@Rw=B`F*Dtao;;^HF+0-j^M3QnT(~hR!AfFv-k}jd0EAR43Dzh?a~RWy6NlWl0?- zSLVe4Z=S##QXK1u>HItqF4Zb784LPTsbU8GRsDi1{eub*-S0Jw%(0N#ZTUF)Pqlb; zXS04WP~B#QuOcS{eMc|PK63SWvv@aPKSt#Qae307wdqbum)4+D2CAsEZ~WP+;pz?r zd}x4Ri{dH})+b!TnBQu=wx!2hXj8Pp`MIWT+exm&^EW$GMtIe4J)Ma6Np3}+?MCBK zv6V`JV&sR@Q+mZDY}7dO-8@ENoIsO`z7WP@G3OqoxxZ!?Iqf@OHf`C$lVd=6KwSZS zoCRV;cuM=*Y)^FFw_MWNzZHC2!HNi&RZ648igw7gVGj<5bxF*%7wTEDub`vb!O#l_ zZAW5S(KD!^Ighvgwiw#8d)xea=Fyjd?)GWbAd2)>T!;w%I}O#A5H}5GKoetcY=ueR zQ!Qe=P9wETs(GKRl>PFUvnNdx0BO>o?ye@-9h0lfDZkoAkaq6Omo%R`z*fiwk8~hRn`9wV9O4MY++G@WY{8IY}_F~R!NY=lFxF*a(mF^qz;)jdQ#wHc0 zt5p5d-Mu5&{e!H%cA$}tY<#+rkb;W5J#~Y6fvrQ~^9D5pV>Y{dCk;j~Bqvnkp2xL| zd|s*0$p=NmwAqn`JOp3)g;jNm=_V*ePmkbXKSa_mgmy5GQrsttA#!gZm%x?Kd|?sh zh_=a%eanZMGu8Tc67^qSVH(%3sL$MwiX1eUFv9Bd%1E&F%|4;#>dGgL2Pj0#kRf^? zR=P9>zI5LaHs;HsE%KhOK5Lnso3Gf3NLg}12le^iL)9bTe%nJL_K=BcLm9Gq4vonR zFg-9xU8e+H#EH0F-g=O}`4G?)FF>TG(cxi|XXI1OGu4vEYus6%hw->>z&-;XTxC4W4(WSBiy`OLrjV{G>1;Pm^pYF;Hz+PH+r z+x2KJ402}P!FBm}9~WZ6sGK`5mX$ZJf5{Rs9@P;CQK-eh)u(9DYOgRul86bC`AzAJ z9|Ui1_l_HJ$75dR3q&ps+O!?MQMQ7vv`_gsRmDNdz`!KoMDi*A<&1Ini#RHAkk@K| z651XyA!Y>$XtHetzovhD>1{Z!yMkgJ@BW(xqoVMKkR+o2*so0req*!J0>;_q5x;qj zy3?V$Ed-SA49mVoq!_r_&Xnoo4nYG#X<+gwE%N)}P*PL9d!;nHf7#f3@Uo_5F3m57 zFAUY*w2PqvKm$9#2N&KKK9LEyD~ngV75}RvmK4ex^AY*SzQt6tTg|Uuaguyu&~Z`n zELo8ee=ndeaeMr}gpQaFHy^ko-&9~p`Cvks7;$yH5hYGEKIYq_w^x+Q#ta49uv zdpzpd$GXE!V!))j>+AGCVDvb9#%4cs?=wl+SBatQrGdfY-n(l-qU=PoCXWOM+pe;0 z&LK7*fdF{z`s<$`O89n(zaE;~^@%FY7Qq2as}yBa zl7>KnJ0!KajX0MPO)as|pWd6Ba4vvW8|e=Ddj8ysefupyuUmIOP2^uTa5+Iji#K`< zjj|3f@5f45{sv^^spjc@)t)Z$N>Ohus;2W3mZtC#v;io3B!o ze)H#;cb-rut-(=upu=!ej7X@R($C@4XRw-J{;?$fArFO=z~cjg4>LTbz++W1|G;?S zHS1pV*iCA3)mzEj_`OKA`}!mdTnHN3uJZcelv~w`*8E`rv4V(#z|wDDS51&x>QsQR zps|n_0O&`3Sz^~FIGx-03-F|DHG6SdOT-I!xb5CBIpiGxN4kVdaV za9nH2P7p@F(?4KdanSCS+)csWf*blTl=$Mk*9f7`G(c(sNb^-_{uGq3u(|jI1n6(C zr1In%p^%II(0_+(nO?OGBUhW>&}tVC(^gw;J8;qdYkGr-8G?!R0>*uLJ_oK(Wk#K#q$0x=o3T3nkfC?rdA$h=;rE(j#ARb zRk$g?&(jZ+whew!JII|v!Qlu$o@9IM83Aqd&$7!knp6V`dF?_qwL}S6pe7}Gj$D2cdjB8w>*leDT5pF3UA&VLWLmm!-! z#6fjSSd6cbZ;e>Uy->va!Dvd;LRg z|4NNpzLG1TpArQv?72adBzEdzdrs%7ceD5=D0+m8$~9gW7u12Ag)Gd1aF9Ye`DFdL6ZPtnEJz3y6boFx;nU7+6gl^f7)@Br`A3 z-25YACZ?b0D*z1Fo1bp4m`vk#^{X$gGelIA>OX%oQ1k&4hJvujVerJWcD2*fB|jIB zljv_!*|tkY(iG%u*4FrKyHlGV1*Bcob4X29Ckz2+SW!U{k!vYN@k`7-ue(R3wH{oD z`)mNWmNC+r@lecAq>^vf=dM0|g#cDe(}GAH4eV=OJ z4o&LpgJf=em**BFTa^!j#OT8-0qE{N3)BCD+!hh#h1!NKC{yoKz+>~#k^U}1w`ZN`#ykF^UYeB~w zgHFXdY8vFXfB2B65HP&Hc+eDvO6L7}v4yh9Xp#b1Ve&9b&*>cHe&PWWm63S|rDEp& z)Jnm!c5=#2EkU|j2L}0UNmLjB%8E4T!`Z=tY>#Wi>Z~o*O#J2_517EQ`cIlmbZ>ZE zAN^@6NT@UAUP85sPvaCC-t<4H(~Cd(h|y z++Ex0$+(R4U0o9Jr}5g+bp27!__E}ZIoi7-5HwPf_H%86Zriv^^~@>nqo7ZY(RS^)e(f2S#=6}-Y~OJ~_+L_q^8@FK;**ln zc?shTCL9_`ZUxERmcmzUcR26ytuwFXv5W|>S-MZYTR(ihGI0GE6)J7y;*HH5(Kp*x3O|z?OC|&2YS{G6XOri}`Y)Ea;@YC@ zdx2$$O+A4=bO-TlTkda&Sdv>)K^UD+0h0H!GjEeLh-hvQbwyZ#lynD<>J-Xz273(-yF+t8$==K6#@-8iPQ{6csX6o5oiYOqlO-yY^R!?pERmAghmJzvO(@zp2?W|l zy3QFF<#S&L+9d=)q^4jr&b)V;ef?(XjW$+G6RKy5{NMVq3BM;`q^`;N`dFmbltk@? ztKv*#ELU{&wc-12{=>i{Cx}$DvlYe}s(PJ)k;n;@18JI zz~EMKynU^w8?ZJu8ngLR^08Q)aujE7&39x^vi$7~CrgV)>UluY56NtHzH%E?M-JuM zGtqTDnSU@lDxk6KyF=Y1Ka$O{XkP;}deMld%a9kRthsSjRW;Oj>onkArVh2Pe%YnV z1e3=meZU>Qy^w>XYDv;RZR&!GzO!qj;I<&bMNU&&+LE~FlTZn_Qi?Q0WxVXbxIoek zCujJ;iia=0uWinPM(d*I7}%;GoW2h^Tc zwarhAM5O()#egNWeo~*vU;cOL-T8odcOcrHG;aqPLAx)zv$gxUJ2F?H{MrHS{^HeXfN`5%ghfa{Z((K{9IujB<$#9TyKBFFcfP#;@B)^WQQxr_uF2Q1OoqHp((wSX=a*aD*1 z5HLq+L@P{X!A{78;noQ1eVAQ`p)YWq*)d(m{Jb^7g&SNBqt$3?+#&PORoq3`YbkSS z(Cz%)ZJOVy6FoRE{m)N%coe~!4f5Io&N34T?Ccb?i2H1O_m@LuQY)D+K?I;J@812t z&Njiuo+LpJ7Ls^8qP%_CNcdKiX1m;D(qI4#)GN!ufKe$0QC#PiR2NB|3S-rmEB28R zI)IbPIPd`tgR@KS^$9qNTVblubM2TZIpDuu_YU_lW4muGi(@-8iAW68k47>W2{N~$ z`0H0v(LBbIZ3MOZ=}qP97!uc6G!WNu(Z`FdJ^xa&EkdgE+A;8GQ4!5M=}rRp80`%W z^z@wuDt*83`D1VYjOhSkVJdIG3diWB!Mv>4q2$WgIHKo&I;!K#C#TJOc)sdqdyCG| z=6zNa?zE8fU!N_~uj*sI> z2+2z~81LU+4}gg*P+DPlCzJvAV7HJ*+!{2i(c8azNY*tq-n4!3fLy4X zFv;z2ppjMpFmk4JG;!|F+!YC(dIrVUKRoYjG&1M!pgx@B^OWjhXK+MZavKTyp6G#m z5C0m$?d^6q>I;2UzA+0tvQi$Pqbd7M!E0bqq`WtqOfLWSTsSkm8uGT~B0yA>DPS+4 z!`{~yv0ESfw> z!^V5zwK%RIgWVMyae5(jfDy2GNRL*F@jG&yh3OqFzOXw1S|+CdX(G`kX;TI#&X82% zz6z@unAK2+(%|%~mLN ztf)u?RYq~chjdCb;Gsn#*ro&T zqO-^5XLgPaxFw2W(+fDW#EA=&0*I`74qSnRF>y^)%G*N#&(bX%aQM#x?+W~Dh0-za!^H;0d}MQt%jXU`_C@x-t_X`M^>Setb%NKk{3V z$CCjUFufP^k$?*f_El;%-q> z-SaYa7Vx;^&?xY>Zq zf$4GTfHA{V%J+>L|C6uNZ*}dt$6ECzml0GC4eBFB6X)liVh{Zv(bTq=3JnIn&FL|Z z@;};9smQO&s-{z*jn%Bf;M|iX&03L*DGYGZg&Nx;Uy2OVYnHg13y%dM9S-~k-o6L$ zML%Jy*D2Ki9fwrPbJkA72~T1Au=78zSU&1Sj8Bnvy+Fk1z2L{blsE$g`#wDRN`Vfw zWANsZqUl;)`jFw;n)|-wq`j24@1ob2m*yfiByq6>+mCxEHPI$F8qN&F5k5EecnxN+ zfAH9!69>AFSk=tm(7fw<-4;4698y|EGKm<*m*}go8Q82 z-ZlKyWm~`?gPj zsLGnCOlyTcCDQ%G3BD3|^iV8dGy7Z(*rdh|xM}&18BccMUUf;g`6D*6VUhM||JZp) zVbA1)cT}q%w2qY}&HvLq1iAP#4|A|s{4yMed#NY%-CMho$P_Yb}hbfUjhtuV(rET$B?{HP}9JlECmpQ5P!lG586QNytVkPUr3 zOk4;RB6^|mk>i93PQ1hIcG-r041G@2h*-H;?n$>@cQrGa2k-ytp^)bAowh?1UO9bk z>Rmh?Q`XNhNi&+_U25I5gmMb_yABO6o|o5&F;FwTSfiq)SIOIH#Pf3_(8cOfv7GM8 ziVD?yU=Pn|l_Q7j@DOY0oioIzIjhb^jS!e{=^LJIGDir{(&mc&rto3i5q{!GJ9n4H z1mT$zRJ)h4amFWD!qg(B9g`^)3)YV1ITVehaYfik;R5{%+P{pfUFvu1(wc-v#PDk{ z$cn-QNMUlmQGBu+kJHdY(G@HpA(cvv>o>-U4`)4D8V}};-p(st0a|bJ!LK{Cb};&hLO~k^L?F@ zwNm{J&l`uxgvZoN0snIRg~&>9>XikN4Ckzw#?PwYJ|7bQ*8DH3&N3{j_KVjD64FRX zmx3rE4Bg$0fV7A(bax{lT~ZD(bV+xIp!Ccj-6A=34V`Dd|8t!W=Og;+saNG6anhKDkV(emyM7DJ<0b!;5j5g-Tz!uPpK;Z| ztNd2Ryfy42DUuqrHC!NuZ*KM&Dhh3U#@`dUst#n!ku_L#6z9*;XOvz5;7i82uf6*Z zGH8*sUK3;XGdljrKErttPQ4kQ;W4sJnP5iXI;SxsUF&rh8kJ%^wTtlpXr2iL;(ekky+VT=pTK4p|_#2`Pjz1rZeHa~DB&$15HQ#vd3B<{NG$DLqzZyACI6 z7e%Tup4xv7gw$8lB6zh@3EI?>>3Ktk7-WZjf|zK;A{+3ZGS`$SVKdQ0oyAph>(1y! zVe~6$%MMjz2^>b;(r))jH*0)E;7h@9QrPv&6f|}4K$iKe3kRQWPmJscDRd6+KbmAv z-?VTp%>Qj3EUQ(`gbKK<n)0fA zN5p-aa>=3YW}b(t+2;d>MF9Ed_9<&GD_$uffgT|VX9?fHlIu!`;z2)Bd!iv%8gC^F z+RQA?pt3wszV)(}JHErhsYs>BLMETRFXcYlxG}sD9|xQnDLGbSCNKVp48&uH4vl^G zeMQ?IKPGh`T;eiG**S%o+e<-HIK+a_OsF!!`_4U<;Nn$6l+Rrzqb`ibhHCDv-cLn0 zjl!?47xnx{&0O@-2!*ez(lXCmnHtKkf93}5(S^lgG@L2B6Ui>DHqP{Pw)bTb=C7=v z{GSd70&WBI)PrK&8KNmuo~}$i!9RKhh51c7$7gbJ+@2x5c9%xdk21g+nas;_F$q{C z2_Eb1Xdgv8Mfrdz!vj)YFI#;djo4#`Ikp=@r!gHe!SYkeYcg@htN4$wS9X$N`8by9 zA*UOddfUpG&q~tK9#zQS(`DaD$j~zH<5I|@+fYO;!ltw5jW-U ztUKWIchx~(*VG#zK5CJ(k_=l-^^Q`cj+ZFun@|QO+dQNSfZLWVe zsrj2W;J&%3B9va55i}-M`W`nZ@dPv+b-P@fOYqU*4Z zJ#o!Um5@vm@fj$-=QFr3;92eLkHzsF_%X&4pE%HN>Oazo^vSBW{Dcv?HJM0e&>EnC zR1w6WC}Z1?@}=_n&^6?Dq7Ae9Ha)d-*866s zmreUUnbpAf&OzU0a$k2`_J34!;LvqNQDuVy3^`hnZ+h7P3C(EXlA{#2bq*2e7LmBr z@3Q#Qa^}0UE^tUPe&w^o>=qHe=L1$#!*%GIkf%sY@~a&M@p-F_xYL~%oz^pR$+-M9 zHNDX2A61H^?0&f)Uf;It;5IJT3XWr@12#WXPY^WbJW8|j%uc7t99C4f1#BZ* zS(K*qWA`w%trb=c!f19yN}ui|Cd%`#xD&0%znGjoEA}zRVA&{u#i2AGb;@}%>~3Nb z%r1gHA*N~NsoUEylw`gQftZx(K9XzLk5St1Y4mfNv5aE5L8NA;r+@hnTJ4qGn>as! zt#J(=nq3&4kC1G~owym1mQ`#st^lq1LA(&aH0&h!dKM$CkSo^f{K@1qN>iT5%J_PN z=)|Ba58$6JsFyDwTEs_M==`UuU+Wpzad1l2rjckGc5Uu9Dobf<3-?KDRA?iotuO*@ zNlCuWb|OXraNRAmyOI4hi{+*ef{=gaNPNlO$LX&O006EROH~G{G(Wb4l!0cs^&g(a ztQc*E_?0p4;sNxBp5=45d(&3Bnl+qHf#ad&Rz5X=5A=Z&E%^|j6om_di^DUun^>I9kiLJiFHNJ9n^<~u-}J$u3CKI#CNMn zl&L5g=(P?4X#&-^8ejwvu_#iNY~h}?=Y?>OdA)B%5!xhpf}cqiP3s*}&MDrjRx_a= z{|=L0uW6d1a91Lmp^bugwJ76(a#Y9n4#%DTRtj00m_utMwvqf}Fw@6HbEY%s+}6FS z?ZA@OO3aze;t3-ye`q%L&B%-`X-NDFEfm@bwV^=L=uW0js(k1oRYfI_);GGH|=zRffQ5~B^wJMGM%Cor|DER_Zn z_3Ztc*LmvbH*SSCai~8K7hS1-0fTwdFSr-5O+SN4bKe6m?XRRie9}d$bB79YZRN5z zzZF33aHBC3Dy{qeQ3O*?4Dk%Jf7wHGwl~$?4owVCj@XlBACc# zY4dVC9x)6sA7S_Ul7OExR#IWMj^-C0S=tgiPS`)rn1kCf52$Cu(Z@3TAE+Y@mGV(f zM+MjSZWu+*w=OO7(>IY$TC<}+a8gts^ z6TFabF5K!6ClY zc;-&otv_dR%=f2_W`DQDb zo|nm9_<)q?f4>QR;N8S}d%jF=*L!@h4poM};t#f67(#8v+3dmn_|OeNBV-54+28Qp z+N3YfxjJF&OZ=3+QXJFYgT=X|hBa6_%`d_LM-6ZR`f6-S2HZo>$8%=pRjcx|7wh*; z@;>a6!dURfEU+yVs0I7#4F&#ug&sh+D31_8;btCnvN~WkKh6#DulvSo*z?1ns~u}D z;2{N|pW5}Gm>ADfdJetc)cUG`$XkUy&6>@EKQx4GjcZ!FSnnDkvLWq=RpIX=e`w!R ziAp{0c$K`pqX<&bQmGYP)ciu8d?YhYPF|nrj+$A7b#4=C-<=%!S ziRcdmC5h#!ubFgzd6L_|1U=|5eoKjS#gP*$tY#a5qt(EKqg>!D_;&MB8`y3T zL*mn>2Y_~&ss|oPHh3EtH;kc`h^4QoE$%=HOves(|x3lF<$Mvt^NryxFglY1qGgath_YG0|)*m5PjXE#b z+!aTk@ZHJSUpxB8_m(WnWo3KuJh#iEDO){({u2(nOUDWLOK+OnKtxv`N067jvtR=S;jy z%;?UPn_*jXnsKnQX1w3qq~<{>yCpjSeG+Cx4AM`SlvT;iiowClUMJB!;^ z2SJZ7P=6-p<>i8>Y;CQAqHbx~H`7D*B1Yr>dBw$*KpdD_l7H@gJkaUyU2IMhz;1go zng8w8#+u;@U;Veh&a;-w$Jb04Y{99OjS-x@Yy}Xfo)$V&h=1_YStBO9^@`t7JkgZ( z0+|FcV_#l(pcU92mo;yB&5^~(@=eGL930|&@B@?&vQdFAF}C z&X8hkY|Na4*>zx%v)b7(>42g|($^zJ4LVD>a=}uf$XFj**coV6QGgBK^k`9Osni+FFd-Dt#g)1su<_~d}87FR%Hm$=w<1~~9#2wfws9YpR@VYN<>&%;=p6qt)ploxiubfG{xzAa6Pi|nl}eQusX1QnPvT`O{MDrn&NA(s3=sTRODU~ zEpvG@(dJRP#7UfnIY?1KOB|&8`u@*zf#}(0nq<>bTN4$LrJQJ`0H?A5;Uwe1vbFu) z%jLOqvAuyHs(1Ll2@n-~#f^B))uOrphwRe;QBd`58Dn@ zT(Ze;$Z+=Gu25^+giJftt6<2Bmx^t7o#8%7`7!(L3Q}Qpw9n(0eA(W5L?2;n4O)JQ zURG4exho-qX!w^@jqE!$ZH3?}hmbSsWP+Mu58%DffMdy6^&C-W_A!fFr!;yE0hD{%j_guh(rB`29T&Do0)Eg z`I%F+mtO9K4K5NakZ$4aZ^}!svG;vz{G*smzt2vM8E;oa1wG3i({5XSHTrDv>3-+3 zL7;zqps`U*7pb!6gg}t+&n*n+!dYKk_>f!hHj?>1g`R_<{IPm8cHQTJ_hhl)?KDX? zWj`iEc~GpgV+DiPOBVlX+#wQo`m>>zX(Dt7DACf9D%Z=`TizlWoBWxA?7K$KPg{*f=L0IX|=Ran87@3HxTw zC&L&y*R72U&}c*dNt-UsJa4B&Lwh_^mXm%j`8$jPtsLL+Bf1KmiPV^31~hx>Lzb?> zE0%odY+jG0HC8cC$|x-@?M1JL((LytD&l%R#m6fM-WV9an>K>*%5zmiH2R1lDC@H` z8&@{+X(nB73vP?cT!&G8yT8!=e&9j&S=1s;YMn9dTCtaTr$o!i?_R1wI@G{chLq3{ zRz|?G$bxEUU%oBFfT=|+Wp%U#We^2Le&1j)tv%4i~~;JxcWBcYx_j-hrzuo%cb@ z;IWL3&XDR5r!rBr&8nSo;dy6Cb}oBHgcKmrOm4<0C~MKaXQ~g<_NX-f-SO}`+vB!} z`MVQ!)w`Im%cOa$(-`h&_60i}Z{Egulqe*nv0LqMr|8kr?}RF0ux6}<5=W-c{r8T~ z-Ab`oRg(nX(dasnV*ZQuQSRG?#^a;JHSZ8omKK7QrxyIq0PyIB5b^i;`&3~qI!g0Zi!2rN*8EA>9nD(HWSRTgdjEYHKj@CguzX`^X`{$pH|HWiaF{fkRHV2ptWaoQz^ z7+yGA*B-Ve^nbKZA5w!nvF4FKTSfn(8K=4O;yONCbU2-*`1 zkW-t(FVmzq_P$!x!S$TH#y@-8fE+9q(-%Rm0ZyWP*AOj<8mmUzq=->Mcvz`=L)Was zKCJ-FB6dL_QZ#A8i@{@+WLMP~Gs3LZfhTA0&FXSgX=9r1HhHNz2Yo7v)Y0I?DoTW3 zBaeQ}_38vB$pF@bw;DzgCy}rw1wd3Ol}`WeZ?) z>StlZml4D?|8y65sjIMtmf)aOWF>b~kJB_m6cK>TEH=8a=^>jBCx@)PqbW*$!}~-i zjU3mX0`nk>sJyRNUffzCzk*kRlZJz=MF_{@Q&LqNL(`qOBhhLQ{A}>siv@B;|7u50)yCPNo^fq6gVZ*mT z-Zn-#5-z8rIqb-Y%GN3Mzx|M*jo)=onCZn%-51{D`brE@R?8t{G+9QlS|pThft$27 zlZ3UZx$ljr(#Z@(;OAIom6K);j2hMKi)e@a*qd~r9MZHeH>kGfjrcYSS~g#h9#O$n z@ZSbFXIPh(A%5Ra9<&QeAyewd63^CDU2}G9iY$K+jLGV?_5K?X8p|Ar9$v@0ZsWgG z*|_kwoI2mfm-<`wyLfP|mxb1sc{iqZJbUQg>gMhDAUvPe8ft`cLte!wvp|WLxj37J z)RxVN?}KU%;s>35&GUF!&o)e@$Jq~-@x>ppSz<%4b|@9$)0hBA1s7YX-6poGTmJl` zbqo1T`}K?G-?Zm@&+{x)B@l@RVg2T4WNcOxuL(UwrBk?g%|_~J@OWaN!vjd{hq9-q z(xz-t^#;GB-2+b2cIm$B*!?3tV4q;FsQaBd80{KHISIQ)&&wEuk8jF1G;j)U0@m@# zzm}Gg3XVH{{E047`fsD{Y9l%CJ9lWZ0Au`ZI^m7OQQ(s#sDoNQUWePdqp<5D!Os`T zExh3#knbY%U`7e5DTf2Xh67?JT#%AqV-u)y++E#4rYonn#+F7&{nFjY& zwK^r0${-JgGnnsoum0j_!3(RM@CZz*x4`$kD`G{sfb&=|#HPjd-ttYvE5~;Evz}d4 zRx;m*llW5(U~}Z+UF!STTP@7jmiN+mBH*2d%rIN`z`eYv^|a3yC5CJh0mUBwRaY}K zxg3OeXGn2R_QUG-_)9DGRe9H;lYjTVfCj%K1IT_J(a@n0nl#k??WjJ&3zaNvIbi_IU7P2>p&lIebH*Og^TewZIW9&zBqrE7jXSsIm#2zGS@cKF{5?L% zd-BIvAi;d8|-zdN2z-M+A`g7m@ao!3X&K5?QlaE=KQ4?nO*4L<542eZs;eSF=<1I~N)0?O@E<4xzk z9!VkjMO)I`ssh&n?)nX8sY!#)SW$My?#IInJqO%qI`n0G1meqhA$;ALks-MbgXd`$ zl@7CautL&;57E?P^_*mEl7-X!EN;P9xG+l4KF`5S#Ex1rrja-T%a?G zslhF&aj9s*TU;WakJch95Db-&)(Z!RX5>qhPY{&ixBZDecR(|3x|`}lXzI*a9cF%W z%pmCz6;Z!CD{vWCRuP=9*lULElUe=Nqc`n*p(#7j`PwSND?w}!UUEsjM*vQ zpJu$er&+a#bPbFHG2Yx>P5Yv*$05RQMjg0T#FwrdEyGL4D4o1gN#@xBN;_`?tdn8a zG}Jo;PhZ*{RHwf9Rln_c)DmaXxt<0Jc}q2)fo`FyZ2aZLg73dg00bgiI|+>4y!`-X zb~MaeM1D_+mu1!}H555tERE-gv+=hNWA0UaZKvjLZJ5XALpV!|oqr-j@-?zbit}B! zSP>C4>1;9Zh1i7M8hTqeoB~$srn+GH#uN-d(B#M`6v4lfRN2rQEaY+Y zIM~1?^J*EG=3`ozUSUY?80b=@@8mzEJe{j$Ioy>Iyj#o)dQ!~dx2_WlH5GrAYB6PD zYc>BR*lLB&5!MAt$qlV7RfpE>zBZ&YZArSiEP}big}3Pf+bU;XXl13$rk!J zm(v0ia#ZF&;0>3{ZVo)zZ53|+4v_zQFXSC%U9<+Jw?{s%zE9ZgrPrtopcxx;0xv*( z5x@xEzOhKy4ZLE!N2mJzN3okRvndOmo1~s?gj!>sx7MktO{c~{xT&;2dIHg>GO6@>>pe zJ68DN!-CBql+k9*K`h~JMLdd+yYz*n@^_?ZlPGAVj)#9Z=LT&@*V|fuQ_8+#*97>W z8bBY#iEx~7ui}+GpWFgW?NOWu0;{-+|0B{3#D7AScq zGh?0K$Ujo~JilQ}UsD+eG_V>tWP~Q+*Et(-Jmjq=eS$+y?9MdEqIO$t9yEb(ey2~8 z#xy)3&#JS*oKN1$A{Q9g+^O7nPie6&Ac6%oBHEgRT;Et$UH15`a+|H{4Yw0^NgP#M zVvsQ{6xVoxOAca4+5UpLZ2^+kFff7ZD|~YKzq+o(cR&JRpcuTEP3S>CyHLz*70GP> zL2z)K#6rr&|E-sGj?zc>d?*Brr1W|uJJr_w&7#I2FLXvlR%1MCAn|9{*bcm9Hi^%5 zN9jowxcR#)@UOrkuAvKLi6)wf0%S;F$mIR{dMB?GG+h-7GA-l_bHSy-bUF zD5Nta60B8@l}h<2JG+E4nkryY?)qB7$e0a~Kju4GGENkT8)^)yz3Lk1QlK9Kd@HBY zo)_2J0P<~%_dG$=n6&Zrd@V`MSMHJe5cfK`n|KWf1Xx-|`SwEwC^ndif4SR^ETntv zD9H6w09EL%i?z4?O*p$6eO3BhH$INrAeZuH;9*dm#pxWUxu2v?V z5%1sr{qC4&>=YC$SLj)Nvc+RdSbcIE`C`w-dIA2zeClNN(`|Vs-eyuUt%aLHuywa1 zvMKD6{v5&bmMtkL1vFXCT(x~tKMUs)OgFkj14gxVm*dSc2G#z ze2{gJgiX-!80=L~OT(fFs7u2B6ovzxp}^Jm#FBB^DB%$Wc{gWC246y7K_TKMo2?|x zsN9I@p0~G3me0b+&Shb}b*|SX(XoNJwNJ@aCqeilCqJy~`jJ{gc)|k_-Ittj7LZ&zJWUj<^R) zDGs!q(+=H_NH5yv*{)}C>>o`MC4A>QAEv#5Vfc`5U`Y_=7>e;vF&nt#EDMC{d33P` zZ{Y#G2!>iuqIt(<|LDc@ZlA*+e<%@ZYc*Wenc&++IQQQmo7wS{-KVZW<-yiYsM+>{ zy+k9TlPWmS>d5T`0s(yYfLmXB5Pn-gYQ*Aw1*L;$NF~kGxw`C7CP>#+|B)zH%;}+@ z$O#}M_2w`G_d+!eD-JIWEqVg-Zkg7 zjladGseR$1;FvI6KXAaD2%iVG8fc}29R^C1xV63NxqX3A^&DF)2-rQHfAyT0D9F{? zi2giA$X2DcO03yYSb-?J{0f@rtU4z02qPIg{jq1V4*xaaCN2<69OY__{CVPRKF5>oZM}fXv!wt1 z#Ay(;heOD)asZ!o*q;CU`G1fo(`n^(s=6R$DyqI4l){fmw+g#kZ%JQ-D7RxEZ46cQ*fgF`oe(N6!WG5yO;N!@fWJg%>De)I_TG?i&7?c8lG?$v7A zA?!Uwr_z!1MrAG=lBpQ=Uk*LhFhm(z==d~s^ZU<}KcyW+`Iv`QRZV~CKG!>V5r$G_ zy1f0U;6m^;(Paa+D65|%@MDh3K7%?^7S*LFhH9cI?LPTL8wP6r{gsk!Vo-#wQ648% zqvNfd!G_&nmW$wa1Ll%N%iIS?NB%6)NP+ag!H;olJFz05)hdwgy`*-U_~7ZG&7kjvcNHAfHm13obR z3Ax?@jNid`SEGNS5Tz!o{;K!Sz=3(y>#X4cbDt1u{Q3rOK!-3f$FI3$;F7}*BQR_I zcBRAcIp;2n7I>f-n5eG#1_EWUt<>f77y{XOmn+$GzE#d(*8W%QhPd+#(}sCEw)LLC z%n1R|z~kLLGjWoolYG-PK%+>X7w7e{AK~fBFVxi-(E_X53~|~GD|ARuZgZ2n|E>dT zSFbE+V_7bZwI_4>msUsqKDt2&)HcUOsUQUMCcLx;!p41Ft!Ds2QXoSppQ{5j35D## zHWCwaQ#;>l8U_MZ5Bi;rc;N6CAaW1GBDAHK$4QmV8`MWA z18h$}mHt;t#@SVzwAptzgUb?g>S{+rTY)W}d_ z(1EpG5P0jTG5sJf-1C{?44L~&3u!PzRDFPS9|1#DF643l`WN{jOisYV#|MBn0jFvg z2n4wA5%$0I+MoEU$|j)dPF)lx26q<$;`=T;QRKr|VImA2uflT0f^NK3BR^0fcn4cqzgpL&rg48 z?^NfvuHr^i*e_wfGjwSFIf&g%r&YH+=npU9f}Jc7d4gOWi~0@NkOB^5z-TgCNAt`5 zSv!O?q!Q5=c|rQY)gifSK=`{A{vGg!VVFbfYrC@RbJBDB5DlQrr7%1YgSY%FsxG2M zj>`0f?#yT+!(7ToPrpCu5pl!%9C!=m(jYlbi{Y2{=}*`?4~q=^Y9o_yB;e^vM~WVj zVkrc=1vH^K#Ert^x;Cux?r6rNOU-!2G6(WHszAQkt57W6(%>>aX0znssE~}+M_?c6 znww89_qZQSbIIS&yo`>&8ugvqIH_$&F`pn@_~0>fKk=La zN(8jE)0+QlXe6BrI+7w)k-DZe4O!(GT>caK8e!=@A}kz)P*Jv^qJSWyqgCzGQ@ZnF zxLP@>#xl26?0iyL3fv3n1yhC6*Q}3pi}mMU6Se0*ZcP7(H}tPOW86w3;e}Q3FN;n{ zvJ5#T zf|}SRj3KfHg{?n_g0_%ZItmWwxOhu#tAq7ELrOIY_94rxK~I;eI=$`#VCZS=o-)~M3hKzs`FLx9 z!g?(V0{cGs1CV5+y~WcL_b{=LgM60AL21wrLNk^LXb0VKgx7z!Jw=IOk<^mz)qcrr zx$TN=)nWlS!lL2&Gr;$mr$Ql7Z-8e_<@xf58U2%FDCEuEKShABYD6~M$ry^PP{g)q zynpi6m{a947vetx7anq5Cx-j3>%w5sSp7X^U? zB4Ev2#VwAk>I}5XBRb2mz~8^Irn=ndyO*cJ=j^j3h}t?n^LNOOnoD^cE*~R=O zz3f~eba!jJL--94>IVQ*OD3NLZ(2VR=f1BY18^++xDX!m^#{fTX@BdjBeUJ1nT4cm z2#tvKZGt0>VzK*vB#0Cs<&aIkr~sU^46)KBHl3OGbmt={4|EAac5kSdx;c=bSQY}T zswY4ktAzOSXy*5K<-brAK+fE0g|iWOEA1x5C6@!)t53B0ttNaV^W^3xw0lBeIyxnp zKa2A9{k;ECS&ua^d1eY2wEaCp+0il5LyMO`aBjl(fxVH_ZlItO8(w9#PN^tp$Do*d z8@93OHKK)z0ZoeS6+2#-&lhtLMv4RYl+xk**|$fMbM_JeZdyeOd&cYZQtJalA$}5- zC$|wF*j^wD6U_x`f}z3I)rA+8l}%i6dF}0NSR${i^| zZ)!0+U=#z)ER6x?F^wE8w(tEAs)pQ#XRAULA8rSLZ=WKN7iVng`5e0_@bpv@+cDUqV?*8L z$NyGmB9AJRywHEH9%FFH2APY~rdYWNbT-}JnpKh~cLUa_^8AG)!v0WZD#K8@S zBzo4*5xK_HfG>dk3uG#^ELR#0WHd$8}3V)hfiGH$t`H!(v$#>2)S1Ao@f#A20CO}wBO=+G5U2&SS?8oyYX}0 z*k6d~aqdR>S+uq>m%iR#$+lKFrMw?VeV9RIe(h2?jy!O^B6jO4PG)jgsdXt&uGPnfJ&@_)NYipRZS8b>6K^S$U zjIBGm%i-}E&^IpbT(N5UrfGu!oBa>+M5V4%KBW8VsY$73DAzQJD~!nmIhLqznP1km z9#9|H5;4*LSAZl^m0?g5he%Gy{WFLYU-u2J(>=O8ZK})5{$ZX8eM}GeX$u8=jUV=D z=jVBPnx4|uKdFPGJ`!|Jv~ApN+Pa_IEbZv6f+h{~yE~^Rt=34IZ>%n_-$F;tp%f2a zcdXXjC;IVR)97f;ZG_jdi+gtsX?9VW(8S*;VZ=lpRiZn&A@v7xK8Av)w6b67OEw7_ z-9Meh4mla65w3oI;#F1Va;Vx+w1F|K6@$t17ye2Q~`Qy?==C>+M!#yV9J&J!kVapQ5=M%5IgDR-*h^;CA zdW)aMViLD%J~O?)HDlJ$b6>Q2V8ijYc`9`{wJqaZVqIbVE-PiLzH>9c_IIf6uI;a5 zTEsTcPJj2LsXvuZT;Ug$N(28;*k%u&r)>k%MtnuQ=cA$#P}!@eN~TyLM6H6iM6o+S zkFe|(2q^==VxtE<%ky|<EsEFHTtxpvdoPT!bij=9uK@5mCj zU3~st0kHnG{DZnAh#}B=EAJlS`$OID*$gn&ze)|rs^^|0BH7^&Fj(O!$oKMwpyL)1K6ma2@ADNKcWA2W2qeW5;&FXIocl+q4FLIE$^9Dt5XYY&00a`$yex zDZB;pC=GpJ5r(5&ktQHiCTp`J`FYd%%)3u&tHOj7{H5FVo|3mF7~6gM%n4>J`Z#LYl*K_k3FL51col-DzKSnVncu zwZfhGul&Amd7ESdi-o0MRcfZCfp6iK%`vHuDS9&fZTs~T>N1^%D}f@*{WV> zvF~Br>^^Plf(O*)LKK6Ho!5j-SVpbSibIvm_W_aWw2ApfF2vjqjESR4|2LhqMe(Uo z^MJFv{{`R$%V>eP2lkJ_#sk>{+Xw26<=0XpZ*z04NG8Q;W{F_22k{46JGltpY68xc zeL%8Bx1sp4&eyi~o?k4x4i|I2Cvum8`)myhWew%do9_y<6_aFTLK&a0p0iDKYO&#M zo-H!=q&)^czOxmmnbyg|Ht~T9g2O09-U;1ppNxlz`Gh~A)W6#ZFvhDt$~*RuYAuYK z?1^Aj^E)nBY^7jammZP}D(P5{~`QZz|b(o-Y{7H<)j(ll06YNFbE??Uv{wn$_W=nDVIUClpfe>|P>rfAR~ zry`G{g(rJriLO~}a&u)SDKFqY*_!CZ_Mha3R`WO-RLbNz6US^Sv-jS8!d2tFDP}!Y zHOEq7P#kI{C?xCBa-V)X@L^8T;?B*>?u{q+(-9hjkI%=yrmHMe{uCIA&l~((37U2s zmIg8Z{_zW^A^)3DWI6vs2(i66Va*Qxb43?J-P1=3%RTikBcj(Y#@b)h&d89Rod2x| z-Crnuul!&a`swibI;lmrOAsRSj7px4A<|oYO1F=BAR;T+!^9 zq`tnWqw8knZevFpHTKtc?hb+zlywF^Nu$7_ zqFdvyNk+N9Pi-71K^Ti{gm-a_@;ng1*_w4lRe*V$gRCIe@oP6ycMAR_XLUb6|r0r6V`NvE`&R zZPtn9 zE-d>AhMrSc;PQ$VL2%(#@M7^a2pHH9mtCELwXXu`YSs^>R=H=7aLt z3-AnZ~yMvLG;)N1qiLYjkzd-`7Ce^$X~dnptt zd#X)6`!HA_*}u+Tb4MZBHBPHlv6I*we}%DRti0b__5C?`d_yJL8PQ zSB39o?5R$wI9JF8_W&;AJy0}2&r6DjLb}uA)8)Uq0VZK=IH~`WKfi>5^2?$Pe}gFT z%nuW~3cc(}^cjieQuw0)>H!KdWbMmq?wScCm67mJ2>37)*!&gV0zxSvn=zIffB-l< zu(eFJ_YXkxbhIK6AILLy{h^)fGfz*Dc5oto^vEBX$x<{?&|(Y3-oya#@yO^qZa<+G zzwO8BDf{(0=-MqHX!`D!LEN5xN8&_1l!4C(O?QVLnS@nBu!1SS+#|_AEcR#fB3NyJ zl_Z!ZGY@>B!^o8Y`Loe47x#?9V!hpFWoh9QY_t0*5ea6V9*ND6dCvz$qn$S)l#_^R zw8e21TI-emT}l$dk~JC%44ML85$86BRmQbRoS(`68w<^fA&#WkVd%Ghohhx|P#8d) zAK>KaUa&{muwpm*RK(b>jO`#S#hqF$>%lizm;Br>jsHpOsP}&prCH%#ovK2w2kySE zVd}TP*T=7GW|g&`;sdFqkv!eCsL6O*j%P%!R&)7GZt5mRqVgG}kK_Ug^=&gGUPt%o zSiAn$#Puf8DKE))Ioq_0H^^+_pSMbw0bLJS@AOx9htL%!Xj=QK^lxsg(fLpJ0oV1y zB9BYmSI3r}qCuxG6pV^cn20b2F()sEgGEfJxPL1xD0|%`F~c}P23t(&q?yoED>J3E zD0=^0eZbb+i*(+KmlAnr9W{bM6_biJf58_jS~eo{IkB5NuFJQ^(8C{T<(wcGubnynFD{IySN}jx*#)q z5dKXVW0^@vhNo;)%I@wi{j3+BUd=V9^uhBLBi2M`%oZky1@dWdd zVsdcGQl`ElkAl^bUE_5G_6`FiLM*t>)9Rw>$+_7puf>ryDi8*NS@qjRD)FA~VVi?S z&AENg^NZ5|W_(MSHe?N|Kobf>Dr&!QZ=}w*b0fi0Q7r-s;>iw_5Mfp=sRi7RdPafO zW|3b=Y+ruYWiY!LABrbwBe)x+r6(C^Vl=1jJIWL=%ME0uu&(0a7UFneBJ@8Z3MUM> zgu0oq#Z(_B&FnwY+RH$*#3hZ8zDq`WSck z0BQS83IZQjUI_8L{nxlO%LEwXXII@t5F zt}k@*U(XX>3LNa#bJOkM1#Z%yc2EjI!h`zr>wXj2#9?{o=p}%HbtkLs2s`c*1qu4N zQpeLrv8;g09)zOP@CpG3{SDALJ1hLZ635tjkbADP-wzF6F#}k7f{p+LFhl*v@D)R={EcW5C4J{jIz>>qZU$D?(s6zO%VvLm zv9vU`8N`sZXx74AdVZm*X@q5q1=Or++`uK!S)uvV`eN3G4Aj#(b)XzM1QdBA-GP>h z=Y{D1A?mH8qWr$FZxtyi5v5BSQEKQ^LPStNz6eN34Is@>L#m{-l0!GBbT>-J%+TF6 zbPk>G@wcA$dH!Uv76UiuKIiPcuj_LuddgjV|NMP9v_)&o1SG{z331Ma?I0_Dy-xX2&My_~ z7d^Uz^tv8`E-kP~Lf9i`w(jR<$MPJ#$l)#5ItD+i0tNW&XPrP(v_4wvZM+HgWm=JA z^8&SIz}fTxm=o(TDVWKFNI{2D9mN=r`UJDku)Xtz@B6t?Bzl9Co2GX@O+7k!uwhXY z4=k&#(RQ6?VTyYMexbcP2*j3)*Q(J?$pl;oXnl4UK|7d7NjKvS(+X)t?o-edm7KYE z3MM|b8aHe@7eK_+`5LHl-11~0*d?kh%SeU_(?=}zEa&psaM?Z~4Gt{k8ymVEJHOE&&eXu) zNnV!wQ2 zxPm+Xg6-tZ|8ry|%aA`NRT2Up6n@CpQvKQN{FRo_LM~JlFJNI%D02xKupxc5dG0}r z9DR>>W=C8f7ZzcK-c{MnDlzvDMNT9ix_gZfgy%>H3@E)UXXzo-=*d#>` zWOdfzeD{kE;5nKzGnngt0N!{B3uDX|M};FkOJd-=|9GVH+$_W(Z!~EXk6_vTvCcz1 zN&!CGqF|uHJg0~imp8-n*UyvhoJ-t!+@A23aY~ABJi%e_x)rl=m{}`9H_k^|R8d45 zgytjSwEuYdVP7Z6KGvDBEpA?W*q)xYC$7bXm)|E;h+c)qg)ZK}!G=hWitYU9-n#^> zZoQR%>97Eusi=okQeSDxr_7TXHF_&8<%GK%n>PgkUWUd|gTRW& zzY{$_%^U={G_qWSPXFq|pZ}dG?XATRi_{bT@wcOWdY4Y}8XF&saWSscyDiZEbFP;+ z!ZAypT`KtIIODB%=3J||IN|8CA4_==O}(8d(LEgNVrmi zf9I>lA*b-#{p2d1cB1kSkIF(en7px>bcDZQfPGKup17&#bp0 z+ZXV=RwECIt_BW?=&GUN-7!`4es8NBNoz4CLZ{k%6i`I< zaNlrUrp#oS!YW0PP+EB@DzJ)t)a1MFclS5qz|eNPh35P0W48HGsI{Ac-2=8xVHK4@ zBTN8!_*YH)u|F&KDbj6uMDCK0G~384mcR#&dkHc~y?uy>$Krgp=gn>7kUEZC0d}K3 z!ZS(-j*E4%4q={w;odY#iit{0(zcA(HCqYqel#jXP!()%6dSdP4iq^~WF46oKnHO#aKA#zN zTzdZ~hRouj6_4@iOs98#0pGDTn|GXF^&7mf2jK#SEu%7A-P5=DMC`JT49J{hE#zd} zNj;gI6|9yXYoBuIK7uh%()xd$7pFf<#&4ez>}9Q3miftD?Kt|W5O;u6OW;TD7m1_3 zp1nDFd(zD`1SdZ=?Wn;2O;xa!F!`@;pj7#{8t7mY#or+bM4eT0qDH>ivGpF$$Fe3R zw|=bPu8y#5KGMDCS6BQY$|$e!PA#8P%^#ZqlB{PfW7<7VL2WFukhy-Z=ap9v(XU2w zTowB<;hz@r+y`g%Nkk_>i|V~2|EQAOaBm+nlCLRdrcC$Igq?HY(z~gzgO(c=T}>Ih zsv=hw7%2)@d#nbmQGlQbQeqf4RnML1|ZR_7H_EIYei?iVQY z?p5`?2`mm(Rj^+=NauAnwzMJwyszfq7~g8r4*m|omM;VD)Obehau%p8#>k;JcOB_> zY__M=(4wL`7Uz9Nw+C5L$~w~y02=hd%5r(k{5kJXU^~tzpH``I9S4i3D3(@SHV9{^ z2N^uwfdr#KdQw#$2qa`XS9@g~CEhP~L8boh&vm;*CR2p=WF@2}$e%S(2A5sleR6~J zN_Sa_oJ-ub!0@U0{#H~!_@ya4=|R28MlIdc(BMr|TFO(qgZn(vb*^)()Pq&#%mTx~ z&N5#mF2TScXD6aCldNr8Se4Rw55|%P9!axR;?m_EW*>1jhFCA=o{7E*LeSs5$pY6P zNxRVHbD*bbKCS0V>dgv;Vx!_oUNP45W%q8pp<;^3D0;Wr1#&fiR08#mO>G*YdYc?y z9H~F9E&JiW)oEQ{C?oumc60f_I!Wc-Ji?TJg(V_flw@nKY6wG!(jy(vU%IDSz;$;$ zo}idCY~VN!6Ui`@NCpiY(}=Wfv%Ol%a#>$<<4epk^0gpsg^n>LnX$74RsNRK8907^ zNR>>)QLZ_C_jS!Pm-^tud2uf)>Yu;!)Vfx2>jYfkQZFPs9yC*Dry(|JZ&G}(G|I7i z81Q>`_JQ#s8t)ha1M^(YZ2*sNZ%U>r3DhF@j*;w7yu*3@PePV!ed&9Q&N}mjqNz}? zPpEGF)E76ZQct|6L&ptPb}baFo@80bKiC z(JTV7INs*B*0t9yFu-(UR80zU$=~Oexy7>vP>KR}%RBR6c)3 zy|Cdk-)1DW6G&@D{++Rv9h;3$L)c%uA>Gi!k@NsVV$J>F8fI)tt7AGs|+kBh3mVsw!;UhFZ!}%p<&?%(r8nSN(iQ%CKl0 z^cZ*UZc7|_lK)zKY|FWhgx^?jwnV61_N#7(dS++ez?&kQmHoZnPuheV2-Osn4WmhJ% zomB8|_`i6o=KVhY^!r=?RVn+yNe$XE=7Y;MXL8;b0i|pOfA5q{iituNBTr5ey=V4t zKV3ZYaWN)+11tLehTY+y?j8eWp8Y%v#Zi-Ol@Qf26RYrhH9Yubm{oc-YadNE@6e|R zhQ2)ETVf3u=>va@m7O)HgY{4fJ4c~Z zlG|v|6Wt(THCM*%iM|6oi+IXNK^pzL9)Egqk%4jvaYugiJGj5@6ULH9n27U5Es2NO z-0$*uPI|&@6M3vCHW`JzBc9p{42T8z%MN@k$Lci3D)EK_uEU9j-VS(9hEwpGyyWh4 z<<8rOuQ%`UDsuCCzjzNsGO66}*@VWXOIGoJX^y@4_#vsQez`qVyBPWYS5;-#^&z*p zye}Ty%c>ntGC2d1DR*jyL=GSYyfegJFeejNyUjp8Miqf4uh|IF`G~>@A|H1MO&MEB za1=6LbN42P-NQm>-56yOCXI5Jwqkd(-)`liI`S$#%cOIAx45vXq8fBTea<*1>CZ;A znV7G(cnVMIx~Ik!@eE87Z0~H#`lk>QWGcDB|-WmbW|%Ofm9NCKBM}?hCE&z62f)#sTG%* zB%aCe&4qgA4L?oJg{24aDcZU_Ra_fX&6#`=g?#f-tDFd}?;CQQe6^+p$JJMfPx}I> zTP5sPtpZL`x2!d+KuE`1@2W|OB{<&rn>JjoSM&y_e~@I9g5;DFwF84^t5z>#D$X@0 zZPm+SWgepvlk+RRb?<1UCD?6J;1cLH__y08Kdd-?bn{`O|a+nF*H&b^1WnN`}~2&*8z(u`v%izIFZ%tz zaJJu_-TKb@YE6Un%xDIjj@Xw8Gj}N|n}0O4yY!PKw#4W3YjcdiiqL4#Nq7Ds%V3{&x;t0FbFAbDynV@E!B z2Fc83>=t!Dtb$qXgoou0Eb|#oJn1BjZDB3uYwx#vdiUOiPULIz6wLfBB>NP@#uS=* ziF^OUd=9>9bD>7u`z?VNz3lv={X-l6Jp3;QXB>+s+{bZ(`US#StydnAF`m5?^?fd@ z6p6J9OIDJCnO#vFy_DG36|6=QJa!#Z=*Va ztQ1c{>|FQPcHqL_AhkpT1F?z8Z%=(!0@>&hVpdMNJbeCk_pLO^7aiLCR{5vxq7>3G zF5(3Lnzh^nQ&|SJ-r~>D?2nV+2Bdesld;%7k)w}r-;>xnfiJx}dKRjV+ou5eDhGY< ze-`*a-5&mtqlVnk52BLh)F4PIL#eJqZVqFG_G{BJEHOw0iE~^{8=*(Ks6Np2Gf8n( z_nl)f#}&_K+b(*Lzc|m~GU~aksv5p=o5hNUN4Hb{Ix>&*NjR(;T~Oug&siOY*>f@M z#I#n+YZRZrNLw|pRwNFqg6q>CHw!*4xUM!gx-#vVl zJ-DQ3|H7oL9%lRpqx^W8x-&@DYZPPymv^LUc*$7Ox*De#38U_YNSz)bTByE7bISa8 zxiNeuEY-rYv|6{yOw5$gRH2x^mJy+8uoUkxC3g0{xtiTQ*UDQx`bh7QT`ky{`0Ae) z`V0v7@jRO*m}oI2eyX3rIAorI$c%)&(MgkBX+=h0-|UTKAln7CwPJ&PDcq;AF=tc9 z@_XXT)u{y>E| zj-IQi7xV!5Q$eiCr2jB+{yVg-`R;DYll_Rlzn-d!enn@%XS-T_$zI+35^5&Q$F8Lk z%rUrBh5fKGb{sfdoSJm!z8^2#BTPfbcQ+t->aO-69v`m9X32!~bY**(`Cr~!Hg%Lw z$|wW%a@r&l%mySMRGr?Fjg_gcIbW_L0?ZZ?a>F>e_>7I1KfyMN>2GI)lOPLs1k z$KN>DzL{tuILSo$g(A=15j6hIi2Zz~ZX@TdVeqa~rtZ?F^*GNd3>RXe`zpoiXYIPS zbelJ3T|PUzfVgN_+>BwMHBTdsA6C6C2^dy~WOPMjG9avjoUF?WUB~-L zT)p_W2VZ`Xb`0CYrI+-Gpz`7FUxKdg8$#$$8*Eoj`SC9Q2K3|ppZ9{Pm{38iSB}}e z>+7qeuO-sw>5*fANE8Q{8d134MIM0$SVQF4-7V6bOx=y7+d{Xs{zAS}{^vDajq_yh zIpINHxTTwQh2WLCvO(k-^$Y#zc52sU4=DQ>1ieJmp{kD)maR({_xxczuh#TF^Ldca zUB5XIOKp{zeSV@$dUJ^2oLt>P`gSI;gl3k`r z>{Fk{tR5g*&e#aMV;vT}zEL@yk9B;nbXQiw_u@Y25W^P_52%W>URwFgZKm8o#pzK- zx>~_3niHzFxysDnCt$01nbvOq^%HlRi6|_~YmLXr4u4R8va8fa1V69wuOBj%QD+vl zw(-RFsls%mZ5{zW8A3mhR=Jnio1sME|KmFm4}MH3Mp}=f;xKn5C)|RQ3^qE z`U>JtSEF*jsQTjV{lk$$7up`51x2Smn%_IYc5UQKL8A4%o7Xn{MDM#HTF#Lshu*jb z>)Q@@$Rnqx>!NBI+`Z9RxoBFYNMRFIG0E?tRn^Byeua6MbSus*t`>nWPN(M^b>bJt z*|kzK)raH?M}=1JGuUScGiCM#G#_&L)YQKiHjj;FR%k#yeR>d&hc6NNYTAl)&eMi; zjk-7NmFemhjp)&nawNa;_3SA0V(SsVh^T))m0cf9t|D(1QP*aJp-G&XMs>ODOLeGJ zx_qE8_5S)hxaWsNVcX&#j#TcdYUy*$iRadmeMqk(#Le*MZci6QD77f%OU(*#=YAF- zDjkZPte~9;{0_jMuHwE*UAOYm4;dKsh26apnk~hrqi!>5HH= zT@a7M&6?@2%L6JH*EILZ%sym8jYJhi!Ie#JkLXGW9X@&Bssr<~;CYYQ?JFuQKkH!T zZn-`wz8o*>@`i(Kzv6X1L&U3MxBA8NKbrYa@uvboMTY>?J#y9UI?I=0-8( z$is=Vh=ZN&#v}eWV34v-^Q?ZbjDe=MGOyyZ*eiBjMZrnOoW6AF(KvZR`i#|E-ph*a zEFN!?hEpA%K_E;bLA$cF_hzNAi61RC6xVJ)*ZXe+-w<27pmO}%<++|7e(V$`gQ75?e}PP~1a>H{jZ1q9eOz#DE@Q&>|IDN+w=XG>ZE zyfS>0pMgkksw}o?5rK#Syz9+3ifW^8`H>^R21h^ueX>Ig zh?urR^u8lDHbcm_z3r!@&7yv`%tC`~jg81027%Z;gSUo+kKw-p(yH8p zl8bj9DigGYg^QOaczPo2H8+Rpa1b!rcZfv#UcMdcS>ep+S;M5y?Ejp$)ZkI^-L=h{ z8Uh0nvXew6)G1Qc=id3^p>`tGjIhLw#+Z?lR)Epo zol}4`58**hdt}4LqrDB%zGt~#F5YT8U2!MH5~IeXL~Y^b zI2=5_#jU|q1a~NV@y)afS7c>DVfiiZn5nTu6YE-Z-v2y__*1B~z9S^Ec{K63(ALA) z*YN_W+Oy)JnQ#f#?5_f8V4f)~vbpW}{KFMU0xv(X!(RzVez8BfQBYl!MV2qm_B-53 zo0j!$o_tC-9Exc^-IF$Oi#XA4Q%Xa?`-S3HpA>i+MCW|f(3^Bxblt)D6`;xWWUt)@ z1*Ra7=2PFR+=+3G35JQ>{Yrx=KSGfZoQ*{|;_`JY+!*{Thuo4neVwroh%a^#j8Q~8 zQE?q?sR%fGQV=Z98`R~L?eNZaTs=*V zLZ>0&(Xy~_rHMjcXw-bU`?X+aiGKf`>*ut#7;BHdxOBZQ{FiDgZc2$7j{mWss^a68 z)I@n{h=AVGg`e0g5_qOzDXK2m_RG>$pAI%ACB3&&Eg`6NV2yhVvOfYy%(Z6K2m?=ZjmS~SPT5YzsEw?)76Xb~6=&lBRfx|479aGE?|x1qm7PWI5? zStc^f@}jhYzoq>vrEXCiiRu%GWPgCyKV|&?+F^7p$BBA|>!$Qvl6njM$u~LAInx?G zp+R8i2d2hUD`q!2JtysDhjg|5yIQ@Owib5f?&&*p_nml@c0%b%|I9I$-}V zY!ld!izEAzB8^f+CFwp?XXAM9yjsl5*0&jAinFP5*!Fu||3T9gDexH*-8m!#OmIfv zspoL_*)gkJ6NKCzl_|7LN|G!y?I$iqCvgV(W^W4Gb9R}xl7jd)!1+bd@Nt*)Ee0?3 zzIQm1L>q>Q)Ek%)8{<#g328yKMMr$EuZht}dth(TuG5{WUK%&N6~o~51CrU`u1B@{ z_-}H%c03BB2Y8!D*ub1f@H&H#_$o;~QE%7T_1c%8Y)7PO9+J=gcXZK5nh1sx7VK!% z>WQ++vSdk+vCUm8ena#bX!Pf&JMKDmh;+Ea6Gj4*sF(L^OpcG$&l&#=N}!#EweD@{j;$|P1{`Y%yLD5Yg)tAXi|Cjy-o1uUyaouA06+l;;B7fcZmUJ5;x>#xTnVdWC=VT(6`Tk;%6XfTNV?1NL&E zF9}~#6j)PQcV%pWFRmM*JLVQmBAk!6|IUC8{X{OW@zyKHrcW0OL!BsJ(J`XWz+Eo} z-bneKU25)j(P}r0$L;>rn?57aq`H?Ajhj~yo z+;Ua(!LPC_H1aoQ&gV26?&=4D9K7XgvNBBZ{bcpH*URM*_O(k8RuHQDSBnxQ%{;jO&@wtKCXvv2KNKK#Gn-Z6! z>)txh9R)VkHBIGPk8~ZIU+7K6yF%Zo9$=8kN46MFlmG~=^WCdjAAFNG^E9z(;2?vd zX(I(8@7T0b9x4>={PCGnuLK0(rO8&bE1`T$$+YA4m9O5npkMe~H-h2Pb0!UK)Mi7N zL?bWNno1I}^J6*}MX`9MN>hCi^)cN|M1<}n6+G~PS%Z7;8S4zO-2(Azss?xg;Mgui zs~Jw(nZZ=mnW7u;lyk%fo;=!qz)Bz|qFzQK?)}(*=3Ua^U_@B35*^L})koaiu&QV3 zJQ1fAK0h-AMxL;c`-)wucZ$44z(Ek$6w)OFRhM0n5n(-turkanB0OI;FLudj%<<6Q zt?kjc>6?3(@_Q1Y3}4R3>^-tOzijOI;xQ{FeX3htef3enjd{y51!2BT>|M_6{HL~? z;Oafy&BI1zx?Bxp&p693y4ab2AM-{PI9}BRi=@=IoISP3j7KViA=t$ucsYEHPwNi` zpd3clyYW=HUCzsAYmHkGwG;GBm5C{ciG_zxxO&6QXAy8G_(+2rrzGSeJA|B-0Fg{( zettmt*QSbpGlrCtks1OCWdb+EnA<7Vu(mhzFazXJ-V&H7({aX@7eU4K>a z;{URZU-IGuB=#Net}&^s;cnjxM)`drgT7X{{%8bReD{(r8F3Les(tem;EMM}TyxVS z<1c{%0489;VKf*3p&)$j24nt#I?1nFN)K=kbbHC)rD8gre`^{`H--B0w) z&CkZ|w;vg@&iEE_3qM+lMPXuM+=M9oC$e-)lrn1F5{KWB-z%iB|I8c)A`Y}c3S@OyW!#SMsikS*v_e2rJbCv zhE4v%j=)#;-50Dqy!SR7su6Vc;x;ie z9%Lg^5($pX37CB=N{*pQF19<(>FR~~267Av+(h+Ry2Lx@ZnZ|Hijcv%`_p+$r$^{C zxJS$%KDr_>7V~#t(oUoPpSi^EPOa+O-7iO)3#{9}#om&+Gq)gElehpeXYpck=9% zM*8jITa+pFjo2^FTK#r~J(;s5b@PsQo-s1+91(3k{s(a|fDIcM2%Q!T->16!b2l?t+yg;2jeJ@Q z83Npv3~a=xH>M~ywgx5o`}g=S*YTZ40ir>4sK3|=H|RA^Up${A1oiSLXcyVGE(f<~ zk%{1{&%usgS1~PZL}C70iJw4xb1%qgipUgoR-jI8rKz;}w?+Jq;NT>d6^8DTZK3NWm^1vE_#6QldxsmVtE$BC=21_0hSTgS;})n z?Wp&Y@6NEs94v{o1-JD`b*_36h#H@XDdsCm%nO=A85LMsKNCgWP5td0H8kG5t^EFx+Fftc=fuxJ6s#gSx5$T!#= z6#fIkShmP&?7BgTAPHYRR=ZZi?jomSZT0C!ffmj>y+{yWS0>M~qT-O+Th0tA5NvB_xg-RB-1E`lE1jm*>pa;v;=cZ#8&wBe zStY6Lib79JnYk?jc-;p*hr|zE$?;mORbK>C7g4l*Dc}UNea{pEuff*)73u3?0gVcEgtKAHe4VJ zk*#m|6rrecq;0hmEj<&q9++GFHfnQ4BHpOZ`JF#>n>t>RHb`m=tqa!uNBs5PA=p&u z=H~aoH$m1JmXWp9cpIigGLqBPm9@pqEQP=%MJoGyc)za?sqy(rT12Uq9Ng_QC%iT- zfQWnoSa`3tsQ|qvJbK~v5vh<;2&BBKx>D;ZESfL_o`L|={_Jx31in5Szx(Z5Ovf}3 z#Hliu@rFJy*W8$)Rm*i3v$N2l2V^s|q6Sjxn{JX4!}}U-QitR;im7>sAR7a4HpUPR z?+Yko74q>Yc%bAdD{GV841>5R@|Pa9j7~S*g7FX1bOw1cRrK|VHd zn#onXs7Tgmz7yV{PFL^a9Y0z7s_IVPw`ySBgNnOgVrsOJY}Jt7S<_}qzN=N^jmD?o zJs|~MPiQXXCQl{&J=jO{Zhl%h?_y*j&FZ-wy6{(1wY+BSFr6D!D#v65sP0cdAvp4P zR69{W3yqwABLB?wT7%kxqdDepjX~x91mA2WENQ||U(0@2JQOk{?7WtYm}WwsK(Jk& zAj8yXlFu^#v-m6WOp1`%;DBTV{e90VYYU7wo@p6l(wuJ_b?aD-QAz27Km53^R;C5f zJ%x<@0*R*3^8DU2-hSHdxVa)7HuUDKcL%wg9ZYQgdohFJAI;?J<(AbWw5sxlk$bcs zD?+0)H+6t6q%?~LO1SNdJcbd8 zO%H2{LpU36wV3=LMtx~~7CXtY{z7h-Lp|T#GY)hBy#LsbMx%wj?@oxD z*4&d!gFR*2CP;<%W3;gQu&p=5v$?|dojc%I>F>UJpSExu;Y@kK799$SuSv~!gUX2O z*jR8xNWU-K&g`99V!Dr|j*4vNbcOENfD7{~YIL-QELe=01iWgyOKMu3xrNQqHbhZV zlPq>u?|Ks6JIB{_f3Un4(y(pvaFuZ(NGRLLUkJBdCv3MK)1K+eDYHK^; z8rx&idYZe)>`xmS574T)0;DdUp>>!)Z^a<-06@_$Od}XFwbSR1M*P&@c<+e_x*4LE zgp@;~$*_KhR_69CUjcg0a{xJssO_LVxhp{m)?0Ap0PufgP`m-iM1mWWEvc=QO9eWK zY;ysS@=Pk(SC7G^@6!4Dt%@MUA$3YAe0te&pb{v;A3Qy8^!QBJwIBUb&Dny3vpW(H z^}w=+wCw#zKdAZSGSGi2y2^o_YL&W|T@;CO}k+k~rT1b_ilid9A#m05kVQBdGxB!Eh(>J=B&%@TAkV|Yz z{IwlPI$H5)jp)*|Rf)%s3j{g7_pL-FAgucC7g$w#wNLv%?Hf?xu%LlPuyn+ng|7P1XM%m#ju#uy+VuzWfztxz2KT%N54dF>maM(nNdt-3M9l$^cU zRU~x4SG^(>t@DCz6&KTXW0K%)w?*~HIQ}~8iY&3yGpny3pu`KFl(8?7qU>$2KcsfM zi@K{4oQb^PKhiSkLVf*^r=^3@vHpDeYW$ibVNp=rTcdw>^k$IeiZHUouSQ$)y;aI9 z{*al^?=1*5IRWcasR=84>F^6|sid6;H~Zb8n5l9V*ddJ^_rnE$e!jc|in(gAwa$Y3 zw2Jk*zr>5ndyAoCzB!d^z`g0h%rt3_*PJ*p<1yZFvu7ltr?=GiUkBc2hUTlC9BIgq zP5FQL3nhTNYPLj4$uRqz=Nm=8iU7MFXf-7V(uXyn{4>K6` zKVJx4ec2mRPwx!RQli3ETLIkHVq-M25F-Hmb2DOE_sSP|dg9G02~nxl*Iotdo!*3$ zxB4G@qr`s@IN`pt{h6Stz;|HMR(IQ1~5%G)!z7?}q#tRjL zs5vjK+T%Yv;ul>A>D+l#hJ1JZlgYKFR)|4@n}-7EO+oNB4Ej~982&40AujJg>L#dy z#~_>e>f?#@#aY-5y+s3Bc!v@BD6ob8zL*RL5k5Y5C8ASylEj|Rw8<^y0H zj5N2%O=IQGwAtU6fb^4ZH`8PgNtO;5iA?UzWR~X$4a1Xsl(;xPJ8XFDKJDimpkIeq zT==mY-aE{MU#VS6o%Yb*a~oi4cc#O8UO5w$9ZZPmnvr+uv{O3Ye5;yq=gA%Czv`VA zqj6XI#~o>iC9%QD{odlp#IX;0I-HaNaZQ+?MJV6%t>@bog)}Ztq5jfhKX`-cwCQVa z5+3;w@2#aNc{2Sf+P4;*#4lM29aB1Xl1y%}5wgh(4d8}xW{sGnlX{*E7-KnirK&GN zWt5(}o}rP=Hi_6JfOV21p>u&kD^}V%fj9821Y?DuFbf0Np>C#%*+K!dPY;6}zIvFX zz9EpqC{PSL0xK)V;>6)|$;gs9pw(9JZXhquPj^+RD(Cx83~~)Ex)h~Yr+$>~K_DQI z%jZwkOZT?H9oBP+>`L!;*OQS)HN6t{zl(%-@Vv2|l%_dkwcp*ZYGq5@HHk9#TzrT> z)WSQYmQ}nnS}||3`?Bl_!xG+&ByE2(-?^`mhY)%opn&Xr!^xU5PJB#~;Dj{15dG?v z{Br#5(|V#Uq>x4K=7LO-i{Kqd(cRFurZ#75dM0%v$`{o;@ zR5Icp`ez7}DFzW=f$=Ua2}|@DKZpAWwn{&i3<*pcLoGFu{dck)8UgAZC{29S7qF(7tJP%e(pjh){B^M@Ep=n&{SjVp;QcVVD$o=57NSa5(=@p7{19S)_V zqWs~Xk$|)n7W>WZd~>;b-e!un4?KKz zpHoJ1vS!r1;>7Qmb9K1Yg_6E4xoe-mlu1&^=xRw6vqms6bys9k>WRpoMkC9Z2S|UA zopKJsYzg5rh0hif#$1$Q>ZF&?32^Ah!h1b$c9c*%S^HE=cUfj;mmBU#*7J!s%y_%Z zvRg9!Ax+l8Oc&TVsm$Ffc~dpc>!u<7lH3iT0BnqI2@N204=3;lyt!mS!yH&-({5z{ zF@~%xI95gO{w^yl6nrcRsdk|{+)|sfPQBc>0ZZ~3u)aC_;IuN#=J(YWhDD7GOf)^Q zz>K3+zdoT9@sp9(^(9qvfxfJxidtat`Oz5>*O-!5N4PC26;Fp#=Dkj6DUWmWOoY<; zs{GIICjkq&OMzwWO>+F(o4rRD0=i zRScypt9lcI8~Y^w@DEuL+kQUiN*;F&yZ@W_F2i#i&TGnb2CAhw_)SyAUiBg$!DXsp zV@f1l=4Fx<`%@F7EoTSX?<^US2Gqo%MPGUzLo%MO%=ZFIU1*k_|LonC95P9C zL~d7FgFT7j^p_jdBT`~gDmD@TgDa_N3`NR8(!3Er$7ZRnX}D;l7%BeTb?$_v8`O}} zf}_(y7bgCm-C94`32a|8nn)~|oBl<>chIWN2uQTi-Mx0iH~3L5SZZW+0;l4PtHL(= z?EozumfX77@F0B)(956}xt~gpb;=D!h1^!fU`{`03&W*Tf@1Be98)wTSK%m%vQky6XUc;G@}WQkQfq4lq+_t4?2f9 z6E#|w(bz9^niE|{AYARDi3znPrp6Igt0D&~H621JUj!_m{t%@BN>QJ8B7JD&x>mDz zg~;1dhNsre>jSd?vbR7Z0hgn4_Z^il$VjgoH=#QlSTrZE^O)ognfCc6`_NfBV?q6f zhb^@;WG}068xvKCF{4yX6LCG>viMX8ZXmBnVoTYLR^ptX=rRc84Gl0uf>&uG zm=x4QmW(%EO(}?DeSwYPTC05P-ws;iQg702W)aFwz@C_xCWY{c_}0*kR_)8nThymo z73&@9^l?cSi&S5j?s&smm1`%!teH1+?>}FG)ZngdR1KY8rk#G>fUg_LNWod8{E)BH z?2+PJ@<&yixZd$4GkPimlFZPZCQ~2T^rrHqXj4akN5B5{T=>M%0`p|5=F?%ghNMU% z8c9TA`@Qgdyyp>E*kgc%3dZ`arFD0{%YXv4GSXvm?jWSQGF%n5uNNL$VAf~dencpP3Ds?*=^QSY=F?WiCJ2Q^uAKv? z7(`2734xJ;jv4U{K;KKTY~}&5fjcqIl8O$IiF5*FNTNgxQCn@%=C= z3}QAgql&7e&%)I?o{T!hr|LR$&xzdj??pux5_n2n1$;T@!>M)fUj1u_eIA-v7~VzM zicP43#RbyDbgH2vn}+4w3zF{5rL0q(8-|X(e=LzZLXp7SOd#ir`kQ@TzE$`|V!&v` zcCB}_l)a7P@oLhOtKSzHd-u&%O}%XGwg4dk_R<0xgX51vaFa7yMieOl1LAY#Id-~6&@ow8mV#&rhCraIPZ(Xm zH9_hVKy^duBo(&Nsuy^ury}*YKh!J?O_T%34cZF8i~r-u<_}+)ezYpQTlwyNT46YY z%90Ps1PW!)s}%OBbyN>$i4OLs<;u44QNP$`UTN^P=M6Q>8CtbB_N>p|(efblzKVv? zOhq&q4Zqb+L1_nVDC_7f8gVx1CD!^k!1kdD1K(E$B}41v!rvi@kn%N9JFDIFp`L&@ zuIgyd4m3%DV^*LUGL)LcjRf0{8c;y={3G@H92Z9x_KC)%_>*u8yEraUg-SP&Bs~D# zri~IJt%eEuEvX^Y&MEBi))~ROfTrCDHS@in+a*?CxJEgXepv=}-M6tvf8((%NYg{YvAI`yQ*1}z(POYFx1h>e2pjw1GVqFNvyqx=0f3FJR zpqud{6`?$}RyZhPy)O3uuPc8BKZmsg1#RSY`D;DF`#S9Zjg3z_TXa1;5Z*NWql%cG zDk!dUJ;+&~;F^Sr0sRpd(xSdcvxCxod{Vxz z8-FXVUy6o%n!Myopc1t6wAMBiJo|vJ!+5)6rl-&`?XTGEOleieuluG@G*az)kZD4s z3_`Ki%-}cUxV9n|=)ybL_^^}Pqs{`#yM~l%{_$)jnf=o?Mc+cGiW}6axx?dTi)vR? z&BczDj5(g%+};T~dC%NMC+-WjZvhQTrA`2O?prSVlO6qxrU{~X&&Dg{KN;~m2cQZE zY*a6}(AlWpKc0_(;}$B_mzMSF3TmsQPG%9hQ>p6uNH5$^lX0Tt)Gp)3egK$ zXTr6Ldu{lA%6Icc`Gw^H>#YwKxx9BqczV*&gVrm0Mpxy6rom5tKZHILX59Osye7hY zG-`(XlYQ$}4$scR@&1X$1^B>5`fYz|HIi^~A={wbNT!Fd#~naTC4g&Typr?$X;)$> zhu@^(X67;OeFnpS6BnGv@!xy z-x>r(izcBf=Dj{Hg;wi$1tG9@bd!n(q4 zT%^h^iNt^pJFVIr_|$`Vjb%2auP$xTaflL)Jh_zma`+04bo6{xoq{OtMS}b4S@jIcoHU&L0d{>ck9vV6jBmolpvG0 zklB}^(dC%U=pm>YiG`=#Ga^-eoJaU z-aGb#t}YaS9cbO1#>uu=iplNwK#y5iP6WHc#MEt6p7EG2bD<-B7N%s9m1752vQD`&PUgvC9{ZcFbWHfb>LG=mH|lQG=(z) z&*pPjyN-%WSXTsK_x^C>OuyFGW+>+Go+W*<>1%6`46U*`v6nF0H49zsMA_;uHMQpL zEidt~MhKe))%~RQ!Sb*#h8lZ6`cU|Xs zoiFD+;GzY{A{NySQ&&|VPq{oS^$XLhikFfKmBVzgk98*W(BujZ!2ExBvDjG)J{1q- z(Tg6W!7@!{4YzL2o6+W1&q>6>{v+ek8|)XZf^xRw}Ybj3S_1j3zSab@Ql z9S`R+l7=^txBP$;(Alzx9oY5Zd3x*-vU-#kc#RX*YIyitjVHlcex@ZE!Ob+W;UH?? zy4rTti?X|bNI=z$$s=0yLTPqBBMJa&%uA`Me4;|&x31q^IZ-(hJG%TGoJFTp3FA|I zYQXq|kqs%wcPf=i3CPifXWP51!z@VZvDXAJ}YhBn}5Hqv~ zI+>P)Vf1ts^?C@~o-gH3b?a-bgiv*>?tRmeGV`y<#Jjf=qqqk>Jq5(+copdsih3lA zB->hFS3ch~i1O7B#!{^%_X-A93UJK-#ls#vdL_!IcBI}I`7dc~#KWum|J-5E&*&gP z5(+>hXfgyOx#unvyBDaM|9QvM$zMjWnZ52U87zCXk9=c|{->x*lez))$A$wjD(P`+ zIl=&FV1y<9{SVcFRgX9k?Sv*XD@GQI!5PWp{m6|FfG+gxsyysP8ub7dP!L*_zWBFP zn?^`;7_co#J;RLcGT%XjUKhBr{d6OQ?dRvV=r`j^aRii1*gBk^!+hv(#({U@DnDjgtym5nEe`P2LSX@Xk6GzQp2 zBpx{$t{|(tSJ1#x<*!u$v?HUq?b5mYx_@j2*jIR?)ru~aZA3J-P19Vf(uzy{3-zlC zqdAO)!Be8(Dcv?*=tvijF*S08{{KPY9z z0yb}=Rafi^98rK68=D{TTETW5G*AbMV&I3eW&!GgY`u5pA9Fg(sm3$#h6CYMiE~Ld ztQbC4c@dRqlIV3JvqvjHW#<4mzf&0_0C9mjG)>TNtm&Vak+~Hks?>;RFG{Szs8135 zT}3EZgNRIhsX_=0<$bD8K?Hb7PXUHU@Z1X)xo5g+s^QN#GH|zC_qB~QMLX~mxiJk0 zXp{_}XO(PZMqQflNqj(t8Oj`h;E~ZUdR~WYi0ZR@A%q3@&AYBHBEj>|T~`qJgE_+~ zc9hBNn$kM-bgUUYc4sKUazYm{hHszR8bA6ZbPA`DEOt)l$J7>r!I)wF`N@^sbW{%} zkV?kO?UusnSEX+LNIwTxnyJOz(sse*UD8C-^&GHM9wqPdsa2q=xcJeFR@{Hz$x#A} z_yKh#5d}-=k0dFkh`riRwa<|snY2aSB_)Y)@rekGZvbUWfo9SFFc^EnW3U(eH6QE$ zneV8bC(wU1D^hv<=ZG0}#;ok7tP0EPI)nM<2KLcM@{%y-y207S<`*jO%N(4}wKzg9WBQKqD?e6KSgebs$`Fl6$*3QQxLzY zt1VaheRque=j!_tQWyV+!5=*e(D=SJ9;P_&X2%{wSw@Vnx&z$H$BJtA`v%=+~2> z+LH)Q_^}&@aHh8Fzn4gK)N(vM-`18J>eg) zF2G(FnFN!g8s%*Q6Di)uZeBZ|G*|&s3WYjWOIwISD>GgL*!2VIZ#?@3@^)ukRxn@8 zNrRLK0DtVUxDR4X@egsR5w-iz4)GIFyL&kC-9O0;aTNlSX{xLeqWI}Siz47|z`~xD zEeNRq4RI#NsYNGSfZgba5#`FC z3u6(}mrEYt+Ej09OOJ z89^VwwDd-soJo;qDQR1T1i&fz7V+;-Q-)Vfj|vO;)LV^X;fOLH0y=R2PJ{Y3upD;U zTul5^JWT;;Lav!s*iEmM%yx9kGrTm{w3`g;bP|5S*%Ti?XH7B^5yM934`=N7lu+!M zTG6h`z>!xM8GP8PntVoL3h|Az&nlec>phYqHzg)8r&e^00^YZYHCjjcot93fI19Ol z?sP=dfoJ`oum@q=G0K*k0@zVtubF#~E?zm*GJRIqA+FB$s8r(PWJp0v=&z!8|3=?s zMLZ(&4CC%rx5pDbd};DTtY~N@g#h&!pB8_BMqIq2-qwJ z8nLKg1GGsWIIBB<1==oNpa*7SHdTVIPZo_G^X-Z_$OgiBGwyHGfU{_)<$$an+(&$R zBTv)fP1_Nm`K(R@Y_O;w7U$2b7)^|)2Ve(xy$_?O`M-?JBKaL@C5! zsI1O+jhI|k98w+#otae@p7j0!E#(FNMYV@|2*1I9(6~(?#4^;y6c;EooC7^2DO^y? zgiR@2z!uaR+s~ZEig2Gh8A1Y;xmZXLo@@)=K$R=7DFJwOpr~Y~8wu?+35~^y8Fa=& z;sfF#Y}pzm!1o8)=)xnnu>^*%DN#igsNb_|qMUv}GfHiYBYqF@$?*B?v7ZnNiU?x1F)M zND-12u<|`EmpTva1k-bjTQ>KzeG7N7>J)45!d$|5Qq!x(eKqlKY zi45_gr^qn4U>w+Vi7W$ODe=Xz&SDeK$m#LYJCFYFJzJ!wQ|547nq6K~S2Zg4S%mS@ zh6Gyux)n-zSBT4&NzwMMlu3=Y6t+p*4vjSw_4+++FN4>Q_BKmnqGU5@0!lKDJ36GtPiaJHAh6Y2q+|mO1S9 zOu|Sv5qv|B4MenUaJT1$Iu$$hlv14uR6mW*w$LkO=)P{9&c5d_s|ifo-_V1(eV9&K zfx7Q)D?urLHXA2^HksdlnXSOtpMKUWl_fj87TzD2zcK#Q_wMQYwvE(_Pj+|~jglIo zTSTPJNz62=IPSm7H3a;Bb6h=kYdv-z#u<0lH(FgvHJ(MkXQ$lCoojh?M0?sKl=wQy zIAt}fy!J4m-<~5iY3tm3-n^x{#A)`3Lw$VH<7|^d`j=Md*zfaQwo)P=6KDZ!*Ejn2 z`iCxb3+<@FsK<-!kXnM+)VG`z$ z9D6#EM!ax)u@6_4yx+ANHuxrg@Ki{>9gfb9vZte4r>w}E=A7%SPmXL2afq6k!WdO+ z6LSpSY=Vw84rYBBZRFS>tZ>im+GiCP^dbI`gu^WcARU#;}>t>W-gej$}~n9V-}EtR4s@`Xnmsom`_Nc`=Fd}bu-n!(L9 z9$3~-+_XG%!p9K2PA7fKgg4^!td^!58`KBX)Uh*K$6wxuCKnZiGDEe%?)=~^C&AmH z^9xQoAB5i=kB|L3WHg<3KyguVrA5mV1HpzbFV52>YqqO~P+>#eLm3aoo0gFHw;rG8 zYG!7NCEY0=(Z~9m$Cq%E&3Tf!Tu-Unq_SPe z!$zZdyw2u;0MuD3*RIG9K8bm#gj8XtXJ8Ds*!|}?(^77C7e?3I)hZ;!skXQ!^0DXl zobr$(*y`SyRNg*Zx36Yb;CrL7x#OC`PN@hJXa+aN!|SA~McA)o=9vThxT|_OFk@Ia z2|GUKrv9u|6jg?S>@r%xVK#0?_%B>qRx`^Go|YAWpa-m)NSuE~)l|JY2f zPbO9Zp?E@q}u6T93U z={|pVq%2&z8BScktp`_|xhICpCb^KgQr?Q}{K->_-?p3O{GLLi#rbS3KH&JP@RMyC zmv{dZLrZ23#VyqZ-*G=5vc|^Oiq_88MLd=E5+9K-SWc8BA)CYeAhA)WXvgJ|!a8U{ zY~W^x@W z4;vDqBa(Op3Ts$iQIg^JtCXdBs#8jqubPTo`T2LW6&*rJZ>z1g)c^7%Q*3TZ@$B#I z1U59*aXHs_S5*)G@MHD|=0}Mi8AU1M;({GAg7d#v#DS# z;9pj0P4(X=?&=7}c0WVM(Fb z4rmfZbe?I-t?jI{?%Ebav^#ArYKk-F~#yyvPq* zF^jJ}8g6vW9G?H1Oma!>&lQec!_0}r{^yV_b8)s`%Jl%ybL^ursna+C?dMcQpFBq7ZHa@N=M{iV zTk7=wt{+w3)$Ys_IW6mx)b5bVB;IZxP3l!x>jxlj*~f^5<7Ur8@>hScGs!NcQ{@ zCDxQCmt|y+7ST+0bfl=jlj*0eJ`V;iIXA8NUN`i{8A&tqmIrIH^I=vNlEkm#Q&fH5 z#2Y_aU+XVbvjjLk!;s2u*}W=tdU2t=(9q~P$NKOt^jVW+#H;haLg2nS6uH=MO>yu9H z7hR2iW%jpy+&u7n{T!$~# zb5cvNC#)J)Nl>uy+-)iiCLKK;-vuag?U~=hiR9E=c%_nXX#~q{T_(MLb;nW@7kYZy zJY(BODhiww?c^YE$eSrvGbiW!-Hokb(2NT)vnj!fI;!Q!Zu}YwQ6+a;rtQ%4%vA{~ zsYI2PM`|!Xt3lD7aC~jD6~Wys8^4X=3O}x7DQ_6oIj6+DAg$ur z)saB7eDq=bjc7HHM3Aws%DM~;*ZZNE$;QFkGp)wvYem3QW|gk?Vdc|Tp$B#R+UG_; z4uy`pkrP$59+1G@g0-@Uw*K%W6C&Wx+$6;EosrDN7ArlsgLfmj{z&z*pYaVNOTGm= zOUA}xF_BXxBz7ZhfB|EKtcjvDh}h=IOMIa^&+7!CMr}$DoiX>5B9=d!o`i%{70u2q=2U-Mm%IP)jpEbgAlN7wAec!Gzf z8&D&pn-R0dP1x9QiP*qctq28u8x*rcnKo)AtzwiO5^O>B;Wt@U7vJ+4Q+zdPHX`9X zxjODoT>Ly!&j?#qeDomWPKyh5^{I2JW&wvVU zcd|8pMh=PFxET^KBoByASekb2-ub#z<1a@EvE(_;hwR7a#Ek`5S&oAGr_k7ah}AJh z;1bL|Z6pD=eK~c#F5M-ZNJ8r2)x-Ww$D2)eBrrDnwJRiP)hBO?H{9tk3YZJ7E>cn< z@}krHwxtXj@Z6H*?!p_j{)Kh=-HHDsaPin%bKGK@cw>mfR}P_n9}Rj!={i&G5RG}d zxy##zIbtJu*k8$c1u;l(49GwvkIlsLcVD?yl{d{we2Nh3u^3gBwtf;9@cMev$zhs- z2raNZ72yPF6=r|93)iuTHa`Zd^NbW`;= zljwJ?kO=d8-CP>DXK^FG3`Y~!j)F5-HAB=(Z%F(m7Jb5Y-mVp%(GzGBix7;WIKs|o zyugvL8?9xy9t|pg*68?R#&3=E<#vqoyYjq6OJn5i!|kUjSd#!m!(UyZs#|%;#tv>< zHajMP*Oi)4U57U>!bTV?Q9f;6snB-6T$@t56PC%D-rY zABUrrQK`*IkDABY2q)0ogKBh4-=Hh!(kcMyN+DKNk&%2&)FLmG7b zyF%2@lnYZt!lzVbcukVC!!?b>T3PKPl52J(*bWwn1vU?lr@z ztoK2;vg$W}mf1BrraPhR;~rA*oosUD{iG*J%Wu6qJ{{RapliFZTiNJnq8m9^_q$Ql z8oZj`vRK`%oZgIl#>^GpP}Hq#`>fR1;G0jT^Hm2pq4Xq3bj|=3C&ytaAmBq6drP9_ zFbHr*6dgV&4ynls(112`{xXCo?Z~7Y?*B>yIYm!Ltmz`fM6}!flD%h@%Ilf_lzmmc5#cmF>hI2A3A>X&>Qibn zqTudM&GQR}DZA1!r|H##EyUKJLl}A6-??52#aP_DCY8XS=@D8?MD#&}!1Tl8lAx0{ zAzI4bhykEWSz0{CUHS1fweTJ`9u-&Rv}ciB7y#JxJ741(=-;jRU3mP4%kqNIcjXhn zj%?vnAa_+D1@p_N+1VGb0q)!fW``qQi9wxK2mesm8Sr@2*Sa=RovF89A_X}Oxw2|G@Htex-$|DEP=0Hw)7g77u>25IT80zX{~3Sq-%sE{k`})64s-@ zu`h`}k~`Fl0NR=PvBl)}fzNq+5{HsOijbxk_v za(87NsM&F{SjWRkj6VH-qG~V|i9m-u4=0in8kw@ZU_B&42MdL}st2uTQkYz3{prh> zz_lV+lEe9XV@{6cmGLO`Oqq}rM=xfLYNa^7RH4x@DSABoBzp44Z0~A<{q^3|@Fn6j z(98%)q;?ZM1PKTY+06*4Un5I4e0s!C)4K~veAKexz`Xi|4%fwpc6Uc(G7*+RFR`8E zVh8}AI2m@yvx=O8dM|~2%Om5`SxzKPF!1FJ8Sm`8qR|%BYvh6$!9|}5^qkJ=&>C}s zwrI?wWB6_p(Sv$CG2xU{Zlthm|9d7Q%|G2MS`as0|?uQM<~JCWQk zPoO4aE_YzHs1PcE0adlW8|;e?Jliid!DQXk9h$sidn5eHP=^p+T^}6y-m|UjcTp+M zT6nh}hX~U?@40Ctqv^j8XdDw8eB^v88t$WoeNHc}c%Ndpr zsHU&>ss=7T32oBZl(!K`9 zu*}>`11?J_q175nFTN}?O*e?S*~n!*s}!(sg=rf54Vq}J6vw#^ z*1E$>nhshMmlLtzPHQhdP!y2nM1cAuMGwY8xspOd>>})#%~xX6QDBS4EHlE4<*U)7 zqBw3t@zJf7`uo}%<{-{BA%k-SC-GfBIx;pK^0bQ)Hgnb~Zk|$A^o3l|G62=h`^w2U zRGm1~h5eB@g%Z_flNhMf#oAq~cU6qZVbBA`JY?PYOt6YYOg0vu$tkF^H>$3BOk-^< zQ{%+KK=I7^oesIQH+8qstNDqI&9JmDX;0ptPMVPLM2_RLi|gvE=@4=GxwzO4H&k0W zc$eI@;q;MbdD}Fm77cmDE|3{^DNUx@-8N&1Xc%Ejd|b!~OHq>#D;F<>Mnc|JDv4aN zxYIkDZ?A;kqDb_wvI}d|}Rpe)hP@`|i3Cf_LJNU6LYbZ0l_m^DyX7LTU{KEox0+}7hABPMcIx%p+2;hc}52sHX(qmbYUiPaYBYU z0{-ZbA#^Oj(n~_-z?h?Vx*|x0GOo)Aj0Vzkj!FSlN;o^W87FK`z;fGyQ!YSK*zDjgblP(qy4cI6z5{B$OsT7p3X7?&K7G>#sY- z(Rt$R^UVL7g2;O~{x@k%oqyzu*Xu+aaBdBgz9Y;bzL-eE5gQZOvaw^|kcp%=e<=k~ z%d}wHd@KH z{a6h6Uo4f~&TgrqPFgEVofS67ne98}lte+PPD@;f=bctrr~yRXiDOYj?S9^qC9|BX zPn|Zdn1PQJHHunrCd<2u`R_V6xc_lUd4w=~c0Z`$(k%Vk3?eNX+YGw>_f}cNRwCWg zPxfHM992l!1!d$cKH>S=eCV(k+Dw_-Ju4B)yvlm6#tY_$_3_b2YiUfYTlfj_?`uVu z8eLU~BIq=OXo%kmaq9lF)gLJ=TJ88Q674vOk>|uN{TiQ+lCtag%@b$yKw#Xt+%k)x zUaojLj}5dXlMuV}+O_^Jd)k9Ln;;wsx$(bS&1@0c;?^adN-;A%-ftgY5jd5C=PG9wbGS`f)<;^==b$2Bc0d(^yf#+9ibI z?eL}#K5ugpXI8PyO#K&nrZ9uv6-uS-*p&)A$lLR~UDw!a6q9fbzNkzzKh*DfL!F4F zUgT;@bp3{Q2%Fj0j@Z~(kBzMvG;mUSDI1-a850=pLDc5hbS{NDY^&D9TII~{t9CI! znSFF68CjP{>&(r-=V?6wJCGmDt8MS`O_F`8Mur`BA{NF+(kI~&H$E-gJlI#+7JX-p z{`6MsX&~#jo=23ybKN00XD|tx|CZ!=6fFnzrH!T@VXvn=<+S7*>L!-_)g& zU7KNqwKazVRK1n2el^Q2HsZTLywf9};768Fa3x)^u*(C@PrtRV`$2%uFC-vX+8SA8W4* zgvHnI&qgds&&HtEJFnB!Q)~1aTxR$k*OSjxVJb&$Q-z@#XxV&4?=qXmkO| z3oprG&<=TwFZtcS*};X+BrKl_N1Sn?P3HSkZxHmfgLz|pre{m{Vne1~#|#=Y!i*f2 zs*k}>jMS?S!g;D>@qtC9s4e(0ji_~aamUAJ@tfQ}dq5wJ_-K3LHZM-^ijX5_$x5)T zVV^Mua{R?cN3AosxqOGxZQs$jmp!;SqBw@Suj!q)d7*d&y~}g@?8HRn$x05XL_h-^I^w8v7k5 zD3+@h`V2{-&^hN==xrkwq=a(}S_YbMN4&Lac?ri1DLI#)b7hy-ggHR7>gw-V@PA6i zxSRIZLEISj&{v;Mx1FdnlV4^gBy}6o&bwlGKfMZ~2!A3HsKHqO36T#PlAY(PFsxP0 zcFfO9_6!PFc18Il-iWQ!+R@-m`q|T;1`fz80+U4Xu!!1<9K$Z3XazGwU4;gFn6a_W zq2G$kiq-|2$=?}w%H!)?wqcC9PwY@(1{aPVW*%d4{D4uu>y*|SaoDj@JmPV!6(WxN4g0^haKG4$AtENL}&ZCHo9y%jBfi26OFkfu%_({Q1Ei zQ8`OPwsB6%cpbe2FMhi))A!J_J{oQNGA*^F_ME8Y;bSEh?1AW7@z7`d-z`J4TN98+ zokJ6~=1Xmo!%E{e!R>wU?G=Ht$>cg)v~!QTA+2pnvSrMoJ}PTv%|?clnR>|ZdNQ>Q zZZ9c2?LKj(MI;dD6tU96@RC0nurU%J)25Ebd84@B5Md43PlpB%3^_=v<7De&x^{#c92Al2rIx!2RP zgQZ-_5`u<_p`O4Q!P*I@HpQO^Zn6Gu!sLt>v;>^gj_BnToqoNS@G(k z@=J+-n>`7iZ`3#IF&rz|mh%jpxo<$dQHLcsTjy-pBA*_?5Or^xvofWkEnvSEo>;x2 zbpJZlE=PY@-gOdpGt&73m|t4+dM`ok+T`w$Eqwmvw;b=U$h>>Y?YY}ECwZes6u;BIRHEec{dX^{sNrF_+oPwzkHMoFK@dI{hfz9DZynn!oU zix2xwqDxOGdL5(bA=5arhFB=v#rzA=e<{Rd?>fQt9GMUvewJRxK@i-G?!3qNBd%l^5d1ayYtB zuGr<2I8gV5&_6rwLNEi)uC#kE|88|yExrdwgpOw3aUzB?@U19W9reMlS_29OfwkWY zv5*$=s?Akr)1Bihc3=8c{ghvW`|3XFW7ZxP(FWRkvOY`WuGw zdgIl+4r^u~=>_xWMD^AV3K?Gf)v5-$HV~ND%T3GJx*1~QE2RJcVYHEt zSD7L_S0mm=oY#vt>SzlFx2*{u2y$H@sGY{G<~3W?PQ=UHdVhtH_u`gbWrkDrv2XbM zcq4j}=~8HW+k~!+gvEVJp%ty~8Pl?BTib9)6Jf=L;#S{{RLBtm;;g&H&4B_8QP+F_ zsZyoq{HJNck(jSL0_eiWFDjTialDjV(>hfB3pm%dJC6$U%S z8O0zYP7GhQWe<@JcOf;y|g6pkN483SnWGgKuhigwB%jLyXr<$n}wT6VJFtO zLlw9tPl6iFhH5irtgw!aU9y7U(j1E@%_4OrSuZj`;(A9#SepitS5o(8lj{jL%szyU zM>_0NGN(v_aDq{swL8}n$4(e)(a1Y}Ax`x{8@bdW!%C*W*E(F2Sd;Mi>y=HujQKg% zdcOM+n)itPC51EW1{=%U8UK$%aP;@*zV-qNALgKW!LGNp(gK4LoIxGsp&(}bSW5S| zIFK&aknOK$u;r%xR1LGylN<>SC9w~34oDP4jGpQ9exXFV|K*uNMq=kwh=oNld=E%1 zz2@PXt>$tG*Z2R&B((Hy;}6?Uy-CB$yU+Ra*KrCL^4l@}p$${XV}2(S={*T!RUN-` zy^LEr!sYpVeyfo1WEZK+7;kX-wdAX@*$KyF(Cj<@a$2B}@c8y#RK!;!z4h8gSVUBl zec0~uU;hrau&?R7ZO1_P$iUAYo7x%0l`jspK3+HF@i`M|gi!y7n_+~G)5ZSaY8O?; zRm=P2!de&MLx%iKXL$+84!|P}i@AzXf}=!n1XTp6ZfXDo)bpdCRNJ}N`u0VzX=u&c@^Bs*dPh+t6zRu2Fj%5Y{VaYAhfpPz(!>J(+X*oQ44E?&1Q z;CE%j#)i7TT&i!3m*1|fO$i*jEWYr9O*KaTh~P+{sug-2-YCEJj>;O9 zdQ-cx^l%jEjcT9VO8zXL3mv>zKbM%ZWcxKe-vfGFk`k%e6xf2aKqxhlOdvhnnsg2v zd_Pg|-#6wrzD|PHtMQQlqU7I-ZV*KZraO+KQ0ST>%_9W?e|kS?%#bxfu`{8VMy^z! zz`A0hLM@cABaHx3;QOob#Bge|-GVqB5(JjLm7bukKe-P+lHd&E?F8d>8zoH2RyKeg zog3R}C`>amC1f)~omIvzXQgkeM^*`Dl_i2WFt^g>Bh|(_Pa`%`RHoce_ILP8tz{j7 z71L85u}oXf@KMJTXOqvX8dy6OF=f3faeR+x)s?(Hny?}{3YeCJQ$OjfbqFz2d8_!2 zQ@!kRjg_v@&Pu9zv-+l@=sgKF`67iv8ojuAa3PGxAcoVJT{ZRi^^i~BoOc>ma*?0? z)XB8cs%+|>oEOI*qF~5dl`_)Jj|!%Y%~>uL?+5V*bwZ$s#(F1pnrm+}j=}G8dn5C( z@?Q>w^INfFj?Uf3sis~MK3c>c3@t{!Gwm1H@l(z+B95!1idV6nQX+7p{l%Au1klr% zO{1Upf97Zs{?u~NJRf&l^uP$+$n&+M=xwleSfF{+vz>(D#*cm_5i2&Hu~ z3FkY`v@t=iYV?AuwP5#OaTL;(5;Ll_o@*V2QYbufbpOe`ib3cJGhcHyswUSm+jueV ziZvr_Vx~4Rw;e(V;yLCsZ@g8riS6yz9KtNLLw0<$KqFO^W?n@F{E21y_}>|bvV@v7 z+65CED)!@1ODQNn6eK$@6vRyVZ#jXZ+k(6>&RCpb)lP)lmy~v(^BU*$Sm&mKt9{wvK z+A50>(xX1j^a8YMwtb$%3Qj(I1{>4b*N5xFLwD8Nj1930_#=CBur_3-jK}T?Ja{LD zcAJ|Gcza{p-sJY*_@RRYo=Q zPfyFTU!}F!B4lX}R+jgFqN9biVL=$e95G`UcRm4oQ-6S%908v1qVKQYZ1ohIJ*g=sNu;>!vT>GBdtJ@jh0?*3w2;fej1mmKFVp{cJgh9esL}s& z1WHa5c4>`$($kVC%e9P{o+B=cDlpr}DSCa`DHei-Zlj0}HIAmHfyk3SGba;&IV z3Hi-$wKMEd!Ms5FXp15p#9UO;M}ljutsu+nJ6hD9!jmbS9W3r^U_Zbl7dsMdo|A?bUCG}MW&$}o;%zq=0| z9xL(g^Zx=SGT_-yd&w{H&HWG3l05L_Tapfcf&F_KfD~OqF=2^M@NFRdW5&!XZ)!KT zY-&U*`S(Zjw=aaExVH)q`c$N^KI3A#TQMfVi(&h7AkNvO>+ICK11I}SqD>-{^%7q3 z{aX_kJYqG~`aj%Lk`WIzyMW)oWiXf)cAV9L?ycJUQ4J<~w?BjgA$k_JJuG>xas)gq zIb9{wZ8`BfU0f*%|8|SwG};jOox>zJdIM8Q`nCi7;EKR1;CkIi)kn*5S1`xf@il7(}tpO8F zk+;nrlHTh2W&*M>4+{G*QFO`M+6Gv=PA)tx>3tb9hIROs##^R~=`dih5+EwGz48P; zdV3?`zi$kysQ#Un#A+0xu*l+JxymZb$Q&Y9(fF0kcw0O4tdM1pNpX(Je3tUyDU^&* z0$-1u=F1GzqZwBFYgs;Z^)9ZL1^dL{B7T{YnoTvGFh^1-xYoYhA%Cg;l18( zFQwM@<{)cQJBphF&a(Jq@t1dRaVUNl_LH`cb2I*l?!10teDQ*gb*gN?;>d_c8WHl^xgY=?E9{G=n|hT#wfTGxQu0P(>TurD5L-~*}9LE z4B+qxBH-t&Zch>UM`xn0$D}4hJt5Vn5^f0hYn7b8J~lt>TXY#h=)0mDctc*K%6U>< zrD4(BTj=SxSx9^WbnFOFEs`N9a$q z6|~YwoliH5n6tMW=^=L$h5v&Ejwnj-EUX3vaz3v4{?0EI9M7Nr$55%0<{e zQ%-$J>2(X#?D_DK^G0iOfRPCLDL+m~Gz*usr~PESq8$`$glDnfGNV`^&ekL}ZTxB` zd^**s{2UgPh)_l8C>s1&BT6Mblp=v#UwlD1MYb4wba_rrvS!3h&K>PXPE^%Z8Kxi5 zOf9%CS~1d@uQr?BZ3izJoyb=miAl;ptVHX^dBDs)#E0ah^i@Vr?J<#@l%I?x9LKnx zY^>M%o6m&I3OUNHPh&d(-IHQzGcmbul_6KfMHBA3Upl+8S(v3z_YB&sch z2=MWF^~+bd5MD9I=4xAzamdPi^Al2(-^Pff!iv7cABb-AvAO>u>VAF}Yr&4>6fqdN z6|}H%)w%n&&|O?Nz1`*7VW)d?5isZ2PEP8glFpXfLmC?&;(SE}UzWHx_%R}-czn+I<_&jn6jO?B^smCkaXT`zm2Gzy850M=>+Q40spQGmIE3ZLpd7jSha zV0~uPccKu4+TD=zpSM)Ko)&IL_&Yj++uHFK#jo(6z(YdRmVQlTz-toUI4jRy$HEUI zLemZleXmmvxl#caG72S;>a&2BHM>i#Ps-o{+Locgk>DrwY+a6Q#y=}+1$G@a+IAN# z4~E~EvPYZ<c+Hl?y*J)?>#W2M|)xo?R)H zg>a}z_TCxlaSFKxKHK>{hm?Rhmlt;0*Y|gpBLnM`QhtR>0_sSuNm{*r+N$fk<&Y~V zQQKFiy)o~TzuQ1ev?K0K{>z#3&&z=GywiVdJ6G_)!<2L+|UN-y}GJJyRU? zgb!B)T)kt2FWz>R{S~DsM&%e#s2J8=){Qu2ML>_I0t|BilUoMK9j}2d_WVK@IBzMw zuCaY0ur80`%n3a8|A;!vxF+BC{iA}QAR)-4O92%aFuEI+55UW+MvU$pIXXv<`rV)J|H1zOJlI})josJ1i|ahk<9HwSdKTXY%mnKX-)F%mxjtUt z`#z}maec+OWc7$*mdq(pJn-fhSBd=>c-q=vmZ*tW3Km(-CjaOSI<*gmrH}@XW`@z8-cd+Og#F zIStWgh7Q(ZId12+7)dnSe1dv%A%xwR^m`}eBhu%9c~!jQo90vZ1i3s7Ca%VlZ5(h; zyVyocg290|HC#?_sddMt)`3X9cj9F09TKO&&GB+&ruUQ2fo_5m z77_O%tKt3WF`8{=BtLI<%y6a(1K*U2!1m;eT#7()G`ThR8+VqC&(ZyVc2DQ4rioW3 z!?g7(&a}bN;2xGx_t%%ZC9%>o)0}}9H{7$8w%4;W4=Wv|yP3=GkL}Uc19PhIihRQh z?&jWN2|PhNVnpe(Tc7Yti%WY9op@XNM&rN0+zP zy0lsXjN`MYL9%iE7*P<@3FN3v-!Sb=2+QP>hQL_>R|)f>-!L6wSZ-p1+wyGgPj4BR zf1NITi>yGuBID5`{$7(aiz?7tp%uEch`i+hR$z9n(5_D27(0)~Il84?{NTY~@(-lU z*SW__obpsuQaq_Dv8q<89|A#7LAtzoh>%>FRzCEnIW}UUS^kW_3SWt2-=+Fty!s1H z2*@y(${ec2SH+Q|+|Y)Am8UHIQ50ouZ-T4>9N=RRh*hi4r86kHV!1Nq+f&n|UFAkf zAa(5*aSQmA)T5G<36{AEfx1W+^=zIYD6ZLwa2!$PMFfw->B?HZIh zJBQ?3tThy~?-_Z1)4pzux;nvLR}~R6XSU|zS9chiTJYIEtB5%714HWuQI|h+Py7RHgr(2FgpVvuP+r4L{z>kFFk9{@1Z?2xQ^(JE)XwH+Q1`%1GG@ zigj8Wpd?;a1YAVf2e^La$vEC9?Yk1vr&S{|B*I4RX*KS?c9jFbiU<(IBh;}k89RcU z?Nnu5pwF7|JB^-A<3X=B0>_sCX?PoxkiGq437~E&Ve;3BF}W}=%s_584niQik(piI zix%GlxAjpH<5M!;`WC3uj_FL8XibW()VN}CdR7w``{9-K-$-dv0ii>-p8EahzyR8a znoSVo1sl=>NEiWf^H4zeA3DG!bEn7}`iY0>M^7&M)sw;E1i->`| z$IwpHARz2yJbruIsbh??G)efmNy_=w9SVLoYlA!8VC{XTUDm~BMER-Ngo%@EEo4^I z#Nrm0@gVXb=ETtQKtuCdy5hP>Y$(n@hfF1$EzhmNwGfNws`erp z9qaQ5A`OL1?vjD))65@r18?0r2@r=~XLdHzP(yM&`LH3bXBs?!(0Z*}cuhIhG|{Tx zfeXs&QMi3C6Sis5XS2|h(lcv7x`qzI)C21FKtsk^^TMnZ;MYeqd05(EVY|dIS~U_z z@l`xu3HfTBR%D!c6kx3q>nnLeXB1sE0v_X96ySqw^v*svKC7@D^8{Bes5NxMb78f^ znXL$}?*&yyq}Y1mA5F`#bGUuCV4-ZVvBm_6p+TSMzIP5#jTU*+JyqNdGbJ9afTwk$ zq#cI_CMLG5k)OlYfD>UmF~Phzj=AZg#h9f@CHAOyWa-5G$C5MGM~~;f06|t}dXvuV zhI#SyrsTGH;ZKO@0){{aml>|A6cgF0YH~30&#t{sd44PxWE#`cqpl=!;LA_+UEU`x2%d(Wz!pyoW{Bn+utIG9I+Ny{W(Oq!}H+0Lq zRv)z!=+zu1R!5t$4B>(@HjDCn2FPc&TOnLFU-w92b{!wq0s?B3-Ny+)zTM09h%QR) zrN!)i*#`y3EHU6OQfEZ}y5-OEzdnVoSk!ric-<3rz#<7|QY&`zfs*p@L+kReG%MIb z(Bj{>F2b)(RvEgp=9sL0AS8f?f0)Cdi@PVZx%=LF_+Kbr0toNLt#Z9^FUQ%}^%R+W z#c)!D*d>JFZr#%GxX+#sPd0W|uYJFD+>>7sr&=?ykqmq2g5IeJvFtMHX=*zQwu;X!jKI(+fEhJG*P z9Ntf#Udj17z5PEW{osHq`&3+*#gva~jdNcfZ@*EJ$5MTEC#tLd-@Ur*H%;vTJf?zRII~2KWE*VewtpQgNW?Tv&}Q{Fn2^J( zaQ0?nu;a9X{#<6dIb{I-<5e^mBA!R9?ax!;qPd7}c8P=yXV%mkA9R`*s;6AEXf#5w zx`V*n1mrhDadA?Rq+xalh3U zrz-Wye$pk-n%$M=U!F!#ybhgi9SeMB!mE*JE@Uthc?{+d(NzoInLG{)}%> zWdY3#Zm6qk{#8@|RVfeDAUc0%)eY5{(i7aFuV32`FZgX*G0Ph}q5G<&1AC;TKj739 z3s3-oZ!X>3;(So_Bfl^~j@1kpt>zWs4-0>d-8sX1Qs~R$=4f88uYC0sl6~fw5_!N# zV`nc~+o?*26xah^9v4DL1l;Ehd_cLo#){cqp3xESvoF?xO;>xoEx z6+8=JRF&AFd~&E8z4}IL@<1J42&OL_nVK$h^fUT z;Yi&8RpaJ&*V)~2Z%ikhlshJ9w#1X3y`a{{p=RtXXIn)jKI>RY(XSgt#!r~T%ZV&G zqC8_i94h!o5au&K`WJTAflF@xfYh@@cU^ufUd(%Txjg!lUyS4G>w?24)Ao3rPH^pK zHN)XAjo9Igs)2TddeYP#_`hYE!PzfFv22ckW`8Y_NjCZ+Y;&HE%eMt$*M%zo1QtB| z+@`xGE^%qInJb1cq6>3aIU2kQk}pnXmw>_jW5B;_&E7e5s3OYpcB3OK>NY)tD&Hj` zlqAQ5Lq%`Y?8d%)C_0#Tx@0S>ux2EiHF9=`LCX+UngtGp z5V}Lnk6$qq4W|ZCkrltx6_{YuFPl%8KL7Gsfrno|tu@Y27$p1Dxh@kQ>zds=E{ zy@;t1gfLhK3#uziGR|=7sL1qwlaBTNoe@9awbZ2Qq-?gLt2#y2Qh>F`DofZ{%b&0Y zgVVLqO^bU;?Pv9q_Td=o3eug+$LQEM5jV8{XTU;!uSi?*CMZtNKh_sXJMyL=U zR;p-9yW!%Ww<`5dqzImBEyn2-XhN$cxlx`&+oeNC8U-Lxmhf6F57SixDgkUdSbZuT z4jCmD1*}ir8C8Par+^zO3%tr-Wg3Zw!5BWB{ADZ6dk<~u_uKaZ`yI+r#uP+P!(blM z5AYdM;Z~lkwlXcw))@T@^Zjgq9+tJCP|s=q@nf(;A3CcH!uPK-_9eJV3_<%S z)F3MAJSPJ-Zq$j`WsEQmOZLAL$EELgNe`i3?5Ut&sleS}V$TbK$ZMN`%sbNEOs1ia6OUr--&cSW>y(nvl zO=p2VcV9CYgW}IGf zkRoHsICsD_{j+!Qa5x3wnW>ym0%4%*ZbTm^93ks%Wp|whq=x2Bd#-nnY-TGSiJ!dq z6kASehAerm@4$v8Z4W39-99RM(KryMt6OS}^Iy6j2#=_%19A`cO@BWBd?&7p83PN- zfU%IpULiR)h1>u)5dZ~jXqwqU)!3&?bMR7QLn4f`Hh~=Ae8jSJ05+&A$ri{qb-sha1MRzSgZ_KkgQQbDak2sy*`Oxm`qqKAU_!3O{0fN?XBuwF;iFRb= zbl)BSn-mi?B-+K^7Z?KpBj|KBmP?7JCwp`=fp&_;iMwJ1NG#|0ns4$qQcko0V9A^iq!-V4fN0d8|GLcAo<` zXM8C!*ns%yrU9w4Rj4#-r$FmEYiO5w;do=q*|CzM!0wP{j<EwvuV91xCV=Fk!sm31Nquy&xg8sEAHf z2PoXi!wb07JUDWFsZqp0$Gq#=Ak&P5@EC^T?C47;O7~R$&8-kNMI-#k#Fr1ds^-&h zJL>A^n+<r}L<3cua?!ZH);ZV$_)(AY zZvD^|PFCGvVejG{2C9L#$ZF*}UBtuK!$c<2r&{oS5g*+#L>YPbZ#8(%pRJR5^i(I-FqcRA1^=RAPRa4r}LyRp0HL>YBVk{ef_|DDBD&XLx#)%y-PyC@61 z6#@)tGR_4eVg4%)qN#q%6ch362o>NEn5_QgD!GL^hmD%3M?>To1z;EzjA&8Rl&*o+ zg}1t{{VL%rp)bvS?vNX<7VZA!C{niNbJO#r&y8(o^Rqfwj&_wV()o1GZT7FeFUYVa zNlf~0wgfZ;E*`WH8X~LcuF%hmUSv+C9B0TL>pD`ZgW@0&!PJyI1nRD7*ul1 zPFGRt6wubq-sQ5Da}o10cQhc0M^4X%8Y0MkkdfuZm!QXUZtq3!S!|Tz?w$qfNvW!> z({A~la5?^h=jGq?PF2;01=O7-1VF0ngg^xAN&fMO)Q?r1TglM9*~x048&GU#ef*Pe%;Pl z><}u+{JoTn$rcwFNO~W>G~8aJ^Kt~rk0}|Zqkwn4Z7Y*?+o^m*tQeWmwQkbpen+ZP z^c_=kE-Rx&$oO=SpHkB4)a8zq=n78=cln!qW%R|3ITU~CkO8BHIlcF784OJL3V;fW z>QrVSrxQiyVRF+`6A42)^^S&QZOM6MVE92QuW5*eHzOs9Dk$)aCHgGK$i zGGLV{J=pAN-VUCZm_Jjc3Gog*zSf1IwEEtwwe>LN+XU0AcUMJZb$x`5d1-Nu2Ybvj zhlTz(BIFM9K>h}W1s!e3afTHicIWjv%khIAj1&dhgBNi0gERN0&Dr-wp8_~OdZ`FD zx(0K;1ml1I{+VNLuljvJ5P$pi5J9xxitB+8s_-E-MA(53yLfKp1Me`$kQsFW4Tcs8 z^%-8Mg#{rI1^`(?r%fga_NXFZ^5T#;gEByvsm+{a=$`f+F|kpCpO{AhlMVj{RM!|+ zRR7!9p*~%ms_fl*sG1KhCuMpyC}uLEG%Oc1;KqRCHEQMj8>xhj!NyO^{x#;9utz#8 z<1}0`q<&6zxK0$1Bj@UAo-wHsFH0i!CzgevWuE4g7x5O;P`=F-fXaQ7PoKs3k_QM5*p&Yx#-xu*2Z)5|n^Q<5 zbXL!_UX;5Pk0|x0mqF;2cK{Gafh#`}avMqTQ>wF#giV?ASORUY7ij2B+WOkXVCGn- zYAqk=TI{TnX;sy0(yz`3c*%DjYa^|~PSg;?#RE5!S~IL;W6Fg!*?-?;C+83^qC?}F zPSow>;I=uYIQsc|>gS!9hGXML7bp+{f(`9djaCz?BZ}%MN3Lh-p)CDaJb^_7n_lOE zp<5~9czIku9(!f&BFi3*BqdMu&h$1o$cT#h%umBM*)rH$zZ{w3rRQW5nS1j)Ka__} z39<>l5oG1@E(8?qtBFf<52TZm+^a0==FA_NFjkF!`NN>g-_^P)yF##;)xCnZ_7Kp@ zs9HQ>aDU6TCL_7tLcY`$#wci==+-gI$Yjib9AN7gJs>T9G3%|uC{3H0^#{~+!X5um z`t8axSS1J4Q5?CY;H9$(na3k_!sy)4X z6W?w<&(O+2H^hLXJ(0-t`#Jvl=lOMiAGR|ysU!XvSI*;h2n(fcG86*}^?zAi-_TBi=?lcwHs7Jhj~^QgsCUB$_Hr zFI4dy?+7)`B*~_FcG@C&>Q9u}KnJ2fnEmC0RPH`n>Ar!{oRmeRJy_kc5QsVY{6+d! zulu1`z6DjctIHd~PA`@~jztzw1U%|>_}Po?-X;X~CPmgJ-#hh9n{zxfL-iT~ZdHjb zWNdW_<%bWzP5!G(1MlSHiRSNGNrbft*o_Vj>;6JPqj8u$bNP-I%y)GKeOvLmj_OM@K;`xD#Be}{i&QzQU~)<`#0hR4m=J?PV!9< z+ZLhY$#40U?|qgo4^!yT^9p#GAl?p!)qB*Y@g2!Q5^>R6ObYZ!c%02}_N1@A=wg<} z04Co1=j;_fLLup6PjyZbq&I3>m4a~4Qs0giA8>3&h{ScsM;saBR}i;Wo&C`oBOuBY zH2HXAu1&x@HcRy_NEOdV6b)w<-Q=4~evdk3)SEedZO* zPzht8=0&TNm`H$0jK*|9fl|3c(xoqxnwVL1&Q4MTcAn6a?u9hUmUVSWePYkk1kXjB zTDwEyRl~PN*7n#%3>Ogdov`HnL4tG5SRhQzPh=gx95?(gTqE+h!@YK$UN(I_@CVSAC3m1!D5A7kyLORjAOQ?UD+H+_UebPd5?G#mVJ#U#Cto8-sKr-k?{zx~na zzwqsLk>36to31|z#M@t8^8KNO1rrYq z1xgQa-h$pD@0&<=ge+wh%`O6e&!X-enb=5EbD6GTLPo}l+|BC^lJ@+Kku6UJv~MD^ zfPs#>ROhSQuFnCES$Dc!>^3Iy=BonQfN->Cu|Ix0_5z0IzXTF0g!sGrNLv7m6tuPf z%FSh*;}cint+tNz{=2#HoE62NOaU+4YuJZWX0*2<~(xUSMP z-6#cd+nvZ(<7qgEzt~v^6a$roD?mLohxyR#USl?-rSD%tsKtC0oW;j+2UC+#_8VY> z`Cn1`bCC6YmxLr363y;oU&A~~iPov9wT_Lzc*`jn+I}$wiViz$s)~;cTA_1se(OSR z{dqtojeY0#9^k@VJ58@W=Xetf;w1L@UG4Emt$Rqr=gv^ai%ghptkpY->)>Sf11^`_ zpfgjZRQ~rbYBaT=k#O^0F}tn$btxoHwZpiq`{ho*=Z4RG?RHJ9Z|=(P(prVfM+Jog zB#X!_Db0Y4dkzQP&nOjwtQ$yc5}%F!>}b`X=~yS%{SpJNZSnQ2=uQ4K@o|@Jw#o0{ zDuUoeK^pj3>gz-=CLbsi3v?SU0ruBkmSh!^X&yZdMKaJVHaxWX+^=t)jxN#Q>pGS- zaU@3naP$*>-*PWw5SZ?c4Wj5T?=pj*@cT>Zti$VT9FZIiCWiV3ub38KdqP+aAcf)x z7@6+$5weyI(rv(nLV}#x5=OTwx8M2Ch?5F9mYCdHCe5NIw~4W~**S#J@^{|ANLc3E!;PpkZw9^5f!+C%q zVjkFZx~YqB0d+ zTc}I3FIaJCLBF#8&suXVoQ~}QQ-&5d zROfRN)YAyevFVaKfR8xY(9v)8ABI54cK@l<8ZkBegdU0MWMf?8>VcU>n(1KgH4Fri zrnKhM%Fwkf@9`lu7H;SF^Q=MSIh`U@E?h{Jf!Q#R+}Y2Fy0m}QMx@HAAN^(hEM*hI z=qS&c5dC=>OYC_S#30&3l777*`|nhk<)_D^GIqI&1CS?G%P#c)_%@1yUiWqT@Fb{yOk!xg`5Q*(q6yeYOivo-?Qnt=?r6Y)I*O z0B^SE;8S{MIX(FpQVZIB#$2bQoDk|aEx8%P{|7#e4*D6 z!_ZDDe^{sL<)hQrC%=S}sy{T`h2T;ueq>qmVY9M!HrreMq3nYH6iqjN=C`j_T1Ms# zOz2)~(kTFqkB{FwRU?&)MlyG<$u4{?9r!4oDuL!oqqmxQ#%6dKm+Hex4xWFSL}skH zdSTP7?5@jCDF03gRXW(s%KONU4j@IoS(^pP9u*h&UnRN1jYzeAzH-(d)l|-bwEHub zJIg#>_4~5Yhi9yB9eN22?&4*xLoL2D_uh);O70TK)V(V_&2r(x299;2K8W9HZkK3e z{5Dk}?Yi?fP=W;<89OVXp&1{gLdd!RmD)EiM7>Eo>+`0dcLj`;m*yD6(Uxy?C#n$y zTI%0sgZBMDAcGw!HRA}HrDuLm{^|`+_4} zEh1J@BK%BY9o3i00W>p1n0NyC64>OpWV+1RQ*L1}X`oZ~Z6` zJ~@U2U*FL$9j@}9FM~4kq`Y$6SIMiDDB8GrD7ulQFXb(3?5`T}RTFOnaV2D3iXI#56=mUPYt<*9!!u@pr;*1pOJN&~Fm)-f-28WIf2jc4_ zsDI(JMlCJM2E`GG29PIESub#qFLBXP{Rcc!rtrXz#nCMDi7G#(^l29w2**7M(_g+v zE&YJyVL18V60 z>3$S3?)Z{(aci0PEQNHQWPC$W@2=E|pq+Vsl)4R=>CJ_KQ&yGxtX{#pGsCT$o(~jx ze{RaqHGYBMUXSzRD;I5RAK0W(rktQnvWaWco0cDhX>vg=pw<>GS8BZt< z4~;GE{4^Zc57^J)W<3o4@w~P+y8miX0@On&s6_d7JGT?gLps%Fk8I+N{9b&qsFL`3 z;o^bhzz58hyfZe(HA7_5;)IJjMDcW)N>i$ZWSSJ&>q8S6_6q6Pu}%CBRsZXDOb1u8 zyX}DB)UJh=$PXv8O7_U9ts32MYSrG;-PD!>+aU=@;$v2DEYejbFOu*1b~uiC#9&>@ zf2^*+!L#qi5xlR9sMHI&5HYt4uFM<#QEqxF7goQ67+2Bkmt!>RQ;~Y3 z?a+SSI~d(H;bTXwno-3+0X)tOp0{8r&R61gYsX(2KX<<}?r%_(6v`OT*IpUI@l+bk zB950M0%(o$^$V6f%gK$fc+9A?E}?+U{odcKlZXqtfPZJ_{QrJGAP)Wcpq90o?K|J| zSnj%W-3}#G^aqpM{DUJRZf7GB#!!Z8TeF*5pYn&${@%&jnxwHAO*_E|Gf#I?k~$1 zw&Sw935Tkyyt-9_O!^v!iRFk^Er?43`DNJ0m0=8&=-RI=OMTrhzC)?P3VL*J|RM_O(SSI+96w ztb@Eh0ii&x9H@y~`x4t`xXji!(62NUwP9sT8m{eObjU9k3JxyLElV>1!x=&!66;H>TId!?G@6#5H8HRLX?`52ooIC0>sYH11%eQ1B0=!D*pt1>u!us~| zPHI`H#g2Al?jJkaoeMh8D}rNJ%kl%+Twuo)O8~g(=aeWK2B{#Fs^xLL2obZWeSIs2 z^dD*cdiJ773%6*^MTL~GmnIj<(gsgEW&i4tsheG;4EjakVR`a?yKqAD7p;KGs^Sfa z>{}kOB47ByKv5>2&z^dJu_y zzwtykEfMU%)%SG(`7MNv&9O@SDAuoA?mI;4m7){?1r)srjk@5xeAuB|HyH(vsvANW z3`}o2?2gBPCt5s=Hp!(i&k@YmCEU`I8#bz}mE=fPt?(4^M^HC00skGOS{dlX_ z2U-vj0QDsh-1X3b-3=*XEnXrfca8M0rm8Yyf{f!HE~gkC4w$;6iE@j(V8RZ6zrb$p+!GzD~GV)UG+bT=Ix& z=1MAAWGL%?YKE$B@4}&v5APWS^1Gn8@u)s}E{3^%&o+{4GWik7+MVn3$_Sw^Aw*}} zB7G-T_vC$KqytDwua7JDJC5E?>jzep7FpXUHJ)AKA={=YI)Jom4b!BRWMxlT@7ljY zEeevyv2E`z_?l}ncK_CD~*rTOC z-TMT@E@rnI-=vU{eBvAQod+oC3jDSg)-qu|VZ03t-D|;(+>9)_k3U^W0IqPl|Fq6l z9#-yi_$aHW4hcxYEJ_#Asd88oKkJH6WZt>#RNf{=ng}HZi7DyqcI0WbT-q$mqT>10 z5_Lba9e+EI+o^{I@=rQo3KiYDe$2pWg#@I&TZAOkX!+ac=w#Ufa$O`6sLucxZ3|Z= zt{NxY zJQ}F>K(QH$)Z?%~Elgu;RKbu@ zNFSouGM5`Eh}&L^;tN}s4R;FmXF5S%5bwTj6`Rm=h<&6@H{hCfF}Nax^<5wV6z@7p zJuZ(xYgSwf28NoqZZutq!nwBsD-eh>FtinOOV_9A*D!H}nCce}X8r6K1rDQRMinpr zsfZIEO!{q#?zx;SX5cF_mUH#G2DrW(0A|U*E!3U@+UME3lk}viO*EySrpoiI^-*&` zb%6jwmqV6C^(Uf6Fe(?^Ohy8L^3uA3Z1+MIaA|x5b=IBZZ9a{0{OI|~1Q;UoGJCdI zLt6|1C7g->f=1s{5Yxq7{YmX#CsOT@i2stI~jL&0& z$yGlETCKk{MVF0Mon0oMlBiue#t*sq(}q5;dd&ENkLUTNNca+|T&qanLs!<19>#gH z>5B%E&-Bo|J~2(g<6LgcREYcHEWbl+1Ak-nkoe*P5suL^RMOk6?RC?&R}Eii+~`@%pR3mTYEdKv z;vuUj?!ogtL2=D)CYsk5&QsNi+UK$abjKfWUXV=pz~DgBCX6sKz7yp@4UukHY537E z0;R_laeS^@i~~Vd2((>>lg&=4CXc1R?Ht}^?zgT6Lm9i*pZJ?@xbzmq)(%>c-~U1D zXV11&>rhC}!Ep|Nr6={)fMh{37=6QsU!; zK?1d-0Rt`|%j+YRKB9QL5HnO|6xYX6g2GOxaQ>8xEKeZH;e98g)u>Y>KqNOO$W zo(3Yt2iG9sf30O)!!X5%HSlYVBHM_7H>Dtqbo!LF09}W*oRj02HI(r%rSc`%B(1x5 z=FIQ)zDTG&CNB0Gn7~unRZIKtxBUb-@vXfh_akA&`+6w)6^*)C9%ymw4(i};Hd^A< z;HWt}wr@JeuVUR-UnqR3ng@!ph90r83+Z)BOg2reYPysub*t+ga#_xp7m|bVQlWeh z>Nlh@S;=6NTfLJ#e{Ui+(^ZJ~`88|CVij_`|kDSP&&nAB&Hzn6(+ zHu%S%6wVUc`sKIaXv&|Op=X}QGQ9&Dr`O(z#{UA_jy56t=1`zie4XXe-*p~L(hkid zusBpVMk#!C2?OEv*Q6kBXO9ZHk|<9M{}hY#JL^!N2^zY`0nmCY{@VNL+amJ$Tv6Y(43bSIYjgU87Z;yS=%_Y>V1Apdt~zdy zn(SVbyRH(+hf1QaJQ>WWOk$D2zQ5XD$;=rPXWE;HoRMv~eNjEQ+5~7#thtg)RAM6e zlu?DOv;)$XAD3acr{B}Q956U;EvXzUXI6L`oW?LFcO*zk-&teJ3g(}YD!oS?=kD5y zJ>0D-Ou#`NWu}W{q`QvnfGZzXt2j25qa~Z7j*% zVHohCh*INR_Lp1m-`@J;_x+6Do7T^_-P74UB9F|_!&Q7-QQMiVN0|P7vv9gMd-8O{ zTM&Zmd(*y%E4mx|bywgE)nwOW(|cO1DBlzruCcI*{GnWtau*hU0&8r}5q#ilXzm9Q}edy!= zt(Zya!~KUwbEZbrG4@%?Q#}g($t7Wl)I|y%9um~!lL!8s6`f!_j1{~G{@$!DqJrlm z-<<7pYx#2r2N%y=tbB$_CPO3>opsP$N0V~LH_+l?<|7f?H&rn43HQv82r+oXrs39iQP%I;;Prlh zOu&nNgO+$EOQ8Wux16M5c20LFdGWB`c`eRz8u6uc_hX##%6IAdn$68Q_b68)!#0f) z@cKC6%8$;>OVdr}FtBVPNPO9hZMi*pbaJ`kRnZOFyCHn7@q63dg270KG#+>RpySxz z2=zfF=61b4s_rUC&>K@xm|7_px%!y5GKM=IxhkIdhpOS@>f0D_f1`3)AhB%GfWOR= zMWSTcx7101t~&N*zPve17C^z6CT{t+k)o>obCt1 z$wk*T%uFPW=!^50Qm(!7)050QXB`)mwz_fwE>vcz+s9Y=I}8DQNR=QelQo*udch#a z^B&ld>m4X@YGRz7H@9i}$5^%*SI&h8&GLs@z%kUwH#mIInSwZoG5Lt(eIi02Ec1`J zs%CPCHg*l?_&Q7f3%D-3xK2vn;01CER5$hcJHzCCr`LS>)mm4Jt78F67P8}(1(8yM zkCqEOR8++7aEehZ>Ts)zATttWT&PQU7QTBjhb^6PuWz%UxWUYXqR&U9~qAX_f)eGdgbt7=2|Np#um1uAw! z1IO`$rz=>DN0s&3u4B~mD_^!k+w9{y-reti$E?U}!&-#q01nR5&l1<(>9XW=DclPv zeSK9Xn1~#m-4z`oAVeP+yv{2TD3_^WDkQ~{KykQ2aRe|)fyXE#oK1y@;Pzu_`>rD3 zK?hkZjN67ab-OM$BDMiK7e%0!HYpI`!szIeX!67t&Z1~N&n`@}q;ksb*X;t6W8CVy zAEwH@%+B&}DS~j&Ok{o>9#I@?k)U=Fl3RS2+KYl!p0n?*TYAq29`l$Z&KOPJ=*k{m zL1%(0eYc{3xNqmbU0zITt6vT+v{dudpOMcguf?yNvPnz)DkN}~rj_eXm7=JU_Y2*b z%Z_o&4P!q3%WWiTm2U}*RGQd@p8T|ae^C_F=vHa`{sVV(6Gi2cSg4Uk|5}rL#Ve(X zRE2d~ax_auBRR)Hiv%g-zeB4R+nq^n^=O>=x@MaoDbivY-Gznumq>ZDeT z%E@eOMZ^xjeeF(`6xg)oMpIPE?5u7;*b3buUNet(bQa45xIlw3;a0n+4XtxAP2aOr zKPZ{F!-aL|CQRMv`SA(tDM_=|pDPuyEEN5D5T<%fOJj;Z4S!I9%WI*Tq^$zS{#*Po zfi3(qHq9qB6MqwHJKBf0>sny@k}IWEkRCr`o2_UNf9s8C;e2%V2BT;DPN= z8}}hBy6^}kq5 zBypc1K;OGA;hKlFasbcKVaF=Mg4k~LIQi~84_&=*86*7fYF%2kNL|?bnzUVCBhi}F z_R}6@WbP+4ymzJP`PN-i-DF)cEBNE$IU8R#?!&YaufBnq%S5SPSDI`4 zFS0|nY@E$Ft=1`dNjI@>P+t!uQams|DR{DN!d#z0|Fo0C(Sa5`vd zetM?n!1(a<>XWRrI<}@9{!+o4=n^oYZ9Jn{txLG8(Nz{1JXl%?8gZ;aMf{K(VJ|La zdBHBhR_Z=gVJ2|wGx3)Gwpg54p2wPJh5W3ucbEY6DAtLuFir$sC7W6e!aeCIx-6Vt; z*cbsROzai@tBT{JL+|GBdxape1X=$j&QT03 zlV8Fqfv55f$k>{6!G$!fuR%WZoIe6}6knt6|Mn<0`)+N73s!zgc9l@R2@2IY+X!#J z2=DxyHJPgsb?-MjD~B4P1kgH90JeWOkvB2xFRmF8-t+CLKZt4P7u+ZHJ!FMFdx&5dyhaAGhe*9rFA6Y(eqo=jN#NOOwWAt zTTSma^*{vZg6Vb)5JXl;9H;t^%N9O2u@`;^j#s`__+VO)GRc2b8FtZO!n#}-R5~W) zp)Q0i`3i}kBg-!mczB?BbjlZ~DAG1H=N*Q!EaBD;e=iV17&w*vvea!2gtwWy0Qgw9 z5*;>loD(#zuIAQCMS zrZc`s=c8DZ-sFbzhfikRLi}VZ$4Q-r8TY5tdPPc0C6DtC;_8ZO;Tu-E^t)A!H#dta zLAY!%zV-0V@oLRZ;AwGslj!NR7~Qv+(>lHZ&?}4YY$8TGh+$y{q@&Q?Wi_Mhu0dj} z6KlC7*X@K$D+jm!nIxgUZuDnQeP1vl)OanH5(-439KiW)n_wUZMhms z*;m*5)o&Wi#Z8_K*+k9=@m%`F`NvuWLNTpC8RH0K4Y7(3L3=@Ncf?fXSg}ob-Cg*Z z^I?qrk}g$qgDO%Xxv;cuWZO)yJ5bReIXN>|j!3EqqeY~@%GmWB5&cIl<9(X!1f5;91`h{G1!E|?m98gFrrx8TimiA(MM`6=Lvr<`v;Ew zr92BeykZ0Syb;bG>{}7aee||Qm7RpqWH%_(nE)ecR+e&lGv3CbUEj7v+=gBsRzUsOx?p0kLfL24%`l<;8VAWA~hKc4Z3 z;wuF6QuW~q7%N(9HHc~|XgOFi?cF;D+GO=oZtD5oj%Bsml=vMcbhPtMxai%%HUnp(fC^dUt6(ql)zi_w&u+1Sc|5!R}s++DRv_((c3acYAT4 zBo9**%}c?x%kyf>QJ~EkXbj|) z9|9|Q=s{B21lTer>b&m^^$kEE;FG)A(gF&KNOSg(;@t@|J}p~^JkOF+eLX5`zEO6S zZ%5f91&wGM_R1Wk@8>`e*`eBNOxdulUr#g_w58Q>!YNi=&&6-LQ&r|@2aG4iRT0}l zC9P9B8E@>q_3}p*iR|-NeL}EbCY)eCO8eRf-;g3PKVqAi;(**zZ-Vm4YHjfFz*6_m zcW%77K3U16CKGMU9X$2XAEY(ORJSO77~Yd%OTUWA`b9U+X(bj?+R1-BtD-QIrni2qjlZMKcz!?ed~ zV@^TNLCsHeLQ9m#3AShi(~cv`kE$KtTJOyQ)q*i4bu}xc z&c4~-*>5cwdBX5l?*$_%(O@!DKX&|e?Z_x|pgrDmko(AiGSmsnQ9}M>@LmiW_il<* z66#TSI$1=yXBbw2lJzcIbgvX!YuCS&-Oz>8!3+dmn=RU^_Wr8m4BDXX`| z(Uur%wXpom{7t%jw%#-dWN$1Fs#bR${{8)kzpuB9R@;`9>c(sL^C24O!RyrOROIeT z;qR@BFsptNz8dCIsV`{NKCY2v&Xdo+>~K#0o>;2g&f#H4It6rr>}uQo$4Q=i6U*2r z#CoLi!JeL9I8720u`%vD6AW^;)dV~)j3sgH=W8$d5H>lsw2S{mnt7diBP(;&U)VE& z=a`ukSrkSxH#8do1Q;F8WZ>?IOxRhs1zexuepx z876e_ds6P2w^#E=(`muRcsWfWF@%oliT=;kE$Fa+ulrTF@H^d7K<17ZkK0PS-+HqV z@Sl8`{W{nu=_q_OADrm&WzZza?|%B^{qRzEpZBn|t;%onKE?|u77}|}#?NNe*BT9? zdOH`5b!eF^63yAE4k|^|bkEdn5!p-@7L~E|I5i(Wi?<2U6b{LU*9`Se-26Nj44828 z!?F2RJ+!SYG;&;xu40Ty!|v+e%P905Ay6{+Hz_}u*Ogcl6HFC7OCgj`_OErxBDLJw zC)?Yfiw}`qqw?A=7py^@X<`?4ZPON(xV-gHI8MqmD;awp|K{X?_PI4$e&BcK zu4RWaiD7(8)!)SNF{9+2lKHDC@elRIr|a#RntWfOsfFj1S?ONqc5LV$+}0_sys0ZyV3rIK1W3!aQ1(8Rr{`PC*B?sfG<^yC`7D6q$*nn? zEoE);X>n@R#MK}9Qr_3gkacXIhuw2r%+H_KW-F!f9BjfS{DRfEVuf!XmFgYw24oG$ ztLg`dqT7BGbjUv$7uMG5?5ib%>8E`s(GyBmj9kOTtTP&z8Lli1cnQjP{HERi%qO!P zQh8-5mUq0{{_wjgY;)09F2gr4!S8oP0SqIIUXnDSjI%>`f3|LWLA)cJ*Qp7TkuDQ^ zqMa8ix9+{!jrFX(oSM1$G92|>5mj)JNBwG*Ad(ZZ#lN8F->qt#zW9#w#rUFh@K-do zqHj_PYcydP&hrJnuF*WAI$IG|Vcyv@pZ>kdPCf3eOVK}X)1Gb0_|V44cB@U9>2c$L z=Oy0aE`(X;jy`a|%m?7I0D^Gjs~2U6W%^`SJ?`lI5jZ7=HDG zHoVSMQe?b#p$hNAvUGgS0d;osua`-ei`k<#<$mtJz(PT1Eu1fHyJeF`Otu&F>BT9d zgIJrMU?~!zn82rfQj#zg{)(C(Z+@{X?u~x-(voR?#cb`0VC)jlH9c<9WdfGd?MUgG z$uCJLk=TeNco;*uc-}%u@gD{z06S8>#|O-+MeTZh#!8H4k8n9KRxCwsNybMz*^PB} zriYE1fe-J=ysXozb&kV3blZrViH@{L>Tl&y&6;@3Ua&g=P= z29MH0d5pLdqvaP99^-2T?5aCm13!FXTz^qIoWo;yJd>CG4;m>ZAbYk`Hklb@>w^33 z_HzX`;X;@2ZpZC=!Q|NeX^%=tb11Dvt=@L~s*eE1>{wzUjViBc|6(tOc)@#Odh)Pv z3ZZ(wf0jtMe^xN<`2ko>DZl=ppE~3hbsFp)sk)UIE9-G?NZe>Tu5R5flK2R@0LSeo zN0&^Wq{K(MF#K38n-jh4hCk>~s2xn5?KPaXA6!>(MO0hz7q++tI~sX`FH85m6rfWb zARONCz>+*#KDy3^1m4>+0Nfn*q`+|FDXK+IwuTOsnm;~cnLueG zZ@&p5<#7rXuZh#&nFq8I+}miqr!nisdM9EgEOTP|&11=PXZpVE zFTq-w>UO_Tn@h?8{-U4w^xuhC$hH=RPBRYsCdoF%a;>n4OuOB5JXl|Hg{GGCv)EAN zzUjHF&+(5WNvM$-!gKSHlG9IMrF~7UY7nJVBMV%*za%suvR-G$R>wu8=IMN9j56=NRh5b0Pv!xd!>L={tcB$gzzzAceHTPZBL!h{|DZMYp!g!- zH0Wd3$pUGlMvo!;dXgU535utfwjn)uz~WDn%k+i;j*nyKTYE8{qqEmvK>hE(+Q-L- zD|c%^lOt}&ui4eGP{!}dm+9}4^=#7gqGMFG7N4P0iIs`0%M(SJ&JOJ3{f^OFeO21B z7r&`rf~*D!=g6Dr2;DMETwIrz{5>QDK`CY}o}T`nzU`P;KlbalZM@)!HCbfj0r` zU8prR;4f<Hw}wSQ(PK(k}z`spZ06h6!Id9z{bgXvdAAGMfU>yz2VUu@(& zDG&E5T5y0LPP0A0-o*@lMUOo7qX=g?27r(v7=cx?xg@;3b=0atBF-9D7Kd^{=qxrV z{S;)dPx$(&R#3$*X%_oOO0Dp3?D%*~j zZB22S_`CjDq{<=zobh!Iv~PJFQOw{1Q0A`B-|>?5dc`<=m~Y2-(S;EfJab#^bxuJhfXLQrUyTKVQZwl?J)3rf?6MA7rO-=~MlS zf9DeW+xc$pt#z@z&l_-KWt|;4&|W6~ z$?)ta(Qm7eI31ZeidmQNFocpFB~(9-?9v!ri@NNwWhEI+m;$F0OL=K@vCcqjtea4mH}ZT49$lk5{VKk7vwyKZDcw@_3hU2T zTbJt@-2BDE?4HOd8+G}!dFygo{u#O;=$A>-40^5?=H$BA+5?sCZ6-cCpp?j+ma14B z7=0vMy@SIV3|Tq;kc3^i-jGUBU_T#{gpyGB00O$3x=jzXFnV$?I#Fv5T;V+~Cg+85 z?fXWLz(exCbe{Dlw2vLy_v-ZDNrm7rK18xl3r^YF5Hf<&UgWn`E=$kS#@_w*_WQc^ z0zm-rAs=+{1U0jRs}~>kF5$3_aO}y_{!b>DN_~r_$82tVz>sq^Lc;mP9hZc{m<4%Hdg`%seJOX*?wN0- zX|nG`+HBgF7pr~TT2|+?>-jPqk|nil~8-SEa9yALK4j@{ky&|Q5t{SvtF5$dlzrvOB&F0)w+n;1?rrH$3g3ql=0r%+Y6 z&%A_6EBhdE=no@<)y+%yAX>nOe3*nXh^4MrTw29CFmXPek=guZx;uAFya=9qTIX=_ zHfKirPvIdC+aw-+nQbN2Z~IbrdGW*xKA@SA;usV%=z;guJ=<11AwSe>G~eN#uzPlT z2NX1`7+@9iJN09`$pFr44T^9$1&(&s$nFz5St*$hjIiNhZS2Y6>^Rovy!Q7@`hw~U zqwdcd-s5f@s2{aKlc;tYpSY{K??!qKP(6hklyqHDpJirU=?D#FcaAf5@YR-$UQ7io z!olTb17GA>7GelpgB~s~H^!nUDygEP;LBow^16!ILPD>R4VAuq1g)drL4 z-tuwdg1Uz~srsZ6HqLkRz>Ma+m+@)Cqs97fi+0Kyk9e)iehb)+-RiRt=YdQd+i~8z-A3vfr*ND+YEHuBY$TZ*yv5j9|cXImbrHQwTI?CGlS%^qq#L4nHgP6 z;*h>9wULFJkclv%exgF3b869Q>ooh{9^tU(>dew5F808~b`q6@lI8VIsA^q3xp=3u zzdI{J(<0UY%US^|=@1F8okZl{;eHJO=xLFeqfD^v;jE4KGrbQC$Wve>!IAgbk{a8Y zf;4SctQV%MOD5Y89-n$hTKN$0jwjFQ6%{KT5^HT!yAgD61{TxJ(=%RSh*k&!-72wF!ZnjMgIFg20V0=q7eh z?s9wo@)aZITvw2o2|4rEuLxPCp_A=0LbNrqFWeN^MRNM^A@cL{V-5rWK*D-q8;iZy zr8ZIZo}dH3UkbuXlsf`Of`k%HpIB^qw8%FIST51KWIE( z{pF!sXm-@6L)*Y}SQxC^nwSpL?!H#*Rs)-5-=umz-dOhsJ@Uw%ih5p;?tQUI3zhNY z`?gS0KE1A)P7Wu3{f4o-<9+wqz{)6OtNkbdmV?vJMe7wo21t#uIjw&Jd;}-07i3RY zoQcQX@Hn5OmY2=qtXs^2Y3-ZhCxU$EL|vNB;~JK7ITU;-hR!7gO*AE*3{F>5mGixS zZBiXja#iNKmVWij&P)*?Yqs!cXOnfQ7V9xa=+=V=IQBJ zzMs5}m@b27KAznaQ52h5q zgSk1xjGRarvNt`}<=vNx&cE-un=Q>Tq;I+t!OrPalO&UR}7D zc|^WR+q&ofUz-$k)5m(P0ze0*{}>^#7*Deqw*AebP$9DsqfFepnY0HU! z*=^6RL#Ian9jWt;xn*0}qSEuexZy3yT@AM@_#iN}jfBwoM^<})eETrQa+sr#PXbrX z@9NiroN{-h?rC+VTB;|p-{;OVypqP_nD@uV(&M$hK0{-53je(O9o9A({Nbfe9`Wdz z-IF#Zp(^~zcQ86T5v_+Ft2xQEmry*bI1d#}=3{(hL|N>T{EO6U^LHYHUw%v2x2=|= zM?$Y+HK{r*;i6u{kdwgx{2AP{$D%&iyi*On5t|}AULuC`H~VCnS$T^kV-?D_9-}Mu zxN-%wM(Yr1-hwch3io()ra~Y8n^IjCNK99mq)aG4=Kc5X01RI2ulZ=w zotf4*ygRfxx*S|Y!DvlylH^qbUKU?_FYfeZ$x>o(g2UOG=FdPT{Tt?6^r-Nk-TrNq zwvED6*lZV>_aj%M8t()YTrpm4ITPo&Es(fsWQ(Hw(Qlk|A#v>U_?;*-6Tvs7 z3YZ=z4}wtfm?81reh@ZsH)XyN`kwgrTY{G$q4Z=fQnbs6tFuaj5=$o__K1c)^F(h~ zADsH_DOpQZV>2#Esd1h~>}z3jcVekw)jg7FRMqRy?)_-nx{2|l@(u~20)gC?Ci19> z%Er!j^>J{$CsX%+a%{;o^*S~fD7!8Fqzk4I228Lj8zawTV?jrY$NL~Hqrn2KG)!i~ zsRP%*xEkDO0q6b0neGY1j27&D{Wq^$fOJwy;=#1f`Os$@7zD=>#K8OVtg%PIYW?hYE_s$DAa?pjX%m#@CXP;j5|;g|}HDQrK=h)ZTs#`|b%Xo@84Uu4?* z`nL@tGY$2q_c3H}ODelzJtV}`BPdgPuTH^)g2QS%?N+UT-*dNqm)T(XamYlmighV; z2`cbKN|HysTSQSCaj6<`U!1L%%{`g_WR!OP*&V|vlRcGVed;(CPR}mN(Bp5F;>#M_ z8@9Pfd96i7P5{1eS{m%_Nu~QFM{p+mdX(bC8o)Efd!DT8^feVw0eHI9{ZDOXM)6rA zPtlG3IkS~p39f?lx-KM?++k+IDE~EVqN8A>ZrvZ|AQUf)s3h#1fpcsvL^XfOcX-U( zX;KyA?a`L6c&H3h62AfTF`RfoK_%cXUZV2mK&!v z74ENF*?L|ySG?CqV+

    X)v2y49?CuFoc+l$-@i9&kJQb(j@pwGay3~Gk?dvZl_qX$v7QvCv(*oonZLtp=O>~GVI zso(os9UON{f3G(4`;VH;x%y~1sgy%RS;9E+?zHG8rPaUgUKZ=fJSS^t2a_#x{*Uh1 zTItF!I4D^fn_Pv!m)=5(gSN$OOrq5i-HT(e7rNw((BO# z^kCiLm0FhRstk;t^zOjbhu7XI{C9y!emxM3YPE;3i{5h}wr1^*w=`IVk?JaFMimlW|2HK#7bNCq&7I5keRZUBylAE?UxpkOpX4|nk zN5881%;l#*Ko13m%2B@dO8vbp>0*ES?H@9BgZ~u9zO1&avV&^%nfCLzOx1MD>D0+1 zZ;arCke$4JsjZ|Ca^@Oky!p@QdlpCX<=I$?9=b%dPuJcK&gj$L?7HH|n7<7QWw%R0 zT4TmuSWogHcvz|sQz-Fnqs+D`T$T)G`)FnCh9s=JGYstsz`M+5(YV8alaB@S`prfN zaAg5wH!-x-dT`$@VDP7(?SDiamWlT+&4-r8=Vt_meO>_GpSg68A918$K*@qk*mmv( ze_bC8)+9@dX&`|4&j^aR`OA&ul|GgaeE#GXY;o}iLZIJolNcpG^4;UGUT<{fgNn73 zL{dI?I33Z31xRt4sh?Wu&FomY|B1MC509fmuDU+}KHF;frZLp};yED8GPrJU2h z;aGl`*APdY#s9+1!CObB+ADWrd`J;~iZ%C?9pg2F%DT!z73WZ7T@#ZG`%g z?b3J+8N~KWLmN|cg!6oC>C~CFhDu}tHD%w{6r~cWLhe;)_uMUb&Eb>Z@2Olf9$KG% z>ac$@j6XRH*&U#~WTNuT#lkt{0AEeJKV1$jwq7tzAuHnDX%UL2T81=rJz{-*!%!FN zxm#CUiUtj3xG;;~*EiGRHM=1Hspv#XHo`;}^xc5kl71(h&@$|3S!YWxTY9Vx6dcI9QglC1LmG-6IaH$als- zotXDRHUfSeKMtzB$nj_GX{p;l;hs#$kIr)d=1&4gjZnofoA$}wnjnR8Ls=d!A(??W zx%`@3vY7nx6R-Dq{3*j!>n-WXa*fT{$*zMu)jv77}2MBQ8?#+TDvP9Oi-!ePDL zXiZkVRaohmkR=nZlEXW1cF2;hb?8k+hfe3)87G?d1W7pZsd)_@@gh{@d08B7%L=fs* zk=URzeSV`lY9ls{51iOE&~lC@elT0GO|HA&O-$J0KacCn2p`;_@)9YW?)Kr%? zD>^iBxD-JH!J2th{+5=I22sPVxl&`d4K9Pz=k^Yld_L6w1EKJAN-E3n)#@`y2@^+i zo^>pqV!C`w%;V$XDY)3qHsMFQ0i+o#X#vru#EO-k)+{n>9pR3C{U>i@( zMyFDe);xU{g!<=d`A1*PN2*^z$BlY;s_nlgFA|9T~IgsxT6yk-&ZQlL-tyCUl8sCDQ zmhsU}hOov6tDJE8s@g{`K)A+!cd<`!nVozK4E|K9IyJ_)Jt3;vQJB;JcW1ArqN6Ek zhH|L&plKKwf+BesUYl_!Wpv231qjn5XH&=Gd6{-S3tNbwjH^|d#(!BSnWae{Zc+9~ zKtJjaLuv=KyGi#ju|O;h4zn+#(>$dlm-Y|XVg|d)o+9+bl^9{qb59>KLXHB>-54AC zvUUeKI!MCoLhDr(i8Cs7fuehl(j{XGc#IV17}ED^pY4*Z@dT z6QNO~g{Dna!1w*7R(YvktNG?{+Q;WTIPBDjLmFk*!arhYPI4zqC|VZlmD))u$=+OHl35Xkh`|i#EA2+@oHxv}e>rw!NZf?;Aec8@;NB z>dJ9!TcA4IW3Rwhx^#Ih=`EU=g`N9{<09OulIHX1b#_erSf!kF&TgSU_^r#B30xdr zen~NkVk<5nHIKZqoEVK6wc7yP-`(Kea%)|8fmRO>%A(fyp$ns^s@iO1h&-Ic7K{7mD!@j@n)(2)*Kl-xw#nAyYj=#mz78tL~$J8=fpb;(&s9N_t##y z?}88sLQNFs2?=Z{Kd6r8c8GKp3_=+L5GQ?V`WQuo>(>etB|uK@gj*|Sacd^cKVfa) zTw7x6`n>fCZRgS&BqC<0*E{cRfc8FcK~_q387qdB6-ljB@q*ptU@AuC3;JLf4JS@Da7pdS$OGViq=(8Nd9XJn|`&{g~Q6;P^{^-T~^wKCa{lXo)3q4SCl$9A0L#ZnTdE@p9u~e??vuQ zP%5~1=T$~*S_K{EN4o6KmN*>E!<8|89bZ&eD~;RwRn*D1n;V$V#bY~h1`oFGjdI*n zpBXMA_9cuNkGFx*_lhNZbA{C26px5<$8zXxp+EMYhMH&C~^&_srxUb34 z(Stx3;Y~bBJsDPmM~9da-94?WV_gxU1V_3c6w)kn!0=XNtF_h3!q+-F;7oi5puv*; ztlEm>$3ZD32jrra4SRRc0b8;+f;X`9fkl}Z;|rFQDP&WRbQZ_9%GifVnM`aFZU<wYAOiAf`0gN0tS4utu8h|0g`dB2FA60yY(Zv&XQkM*h2`3rG8 zb9$9Z?KQg6qja`thyr!*2mG;}IDbR;EL`kAJ$HWNUI`k=xcCXSCJU?-D-?-VU-Q>k)*c00|6MjW8@lb&g z){j%}N7=v*&@+L?)7kZUs@;oltlol#lmmx`PezHu{fm(%m`6xdzZTZXUO$8F2)y8% z{6>N$SK~O_JpAxN<6tw{I?|$Cfj5?z7H@qK`XFMp__2}-%jfp18Bg8xto{sKIps;s z|L|ueya;j)+?_Msw^_@2$Eanle9xBsq7{lZRxp0!)wnQqOO|@n0WMOjy)f!XI;Tf& z-6TFT)%%?I3scZpbTlhAiVQzx-Px-Sw|10x(l1aL2m9eoIy|~BA2dzDyuGjrtJ`1Sg@4)_4VoUl9pAa{TQV5%?(^5nmkNy@DAtm-m7`+4JYnZk zWbn68&H0!88WQlQH3=E(X}1DNV$zJep4^I@9a?4p2l+(vC>i=*utfNS6g1xeENukF zr1At1)cUz3I}0sX;}BnTT$Qd2TKd#z;TQBw;|ZZfITKLptJ+s0>un8DLc|t^QTmCJvVQ=%V+#UXLk~jLI!W~p>ncim|4A!A zq4f(;Y^Pp$KH>JOp6`j^!U(#wd!Uj~mbrS*R;A?jn7Q*wKF8?`Ro<7Ce3Lyuv!?iz zX=zRAv~@xfrnK6cx>OW|%B{ZRlX?~~0$QU(-(Mc4n+MR2@2Wdp6!Y3{S<9b#B8fnD z!6^x2h;@B!uRL^%wW0FRzD*`<&Z{bzZyWYtp7>7>OAj_!RjB}!ZD=?RG^TU%x$Xis>HSnBal;*OG5Vlhw(w5?#EZzG4(N^h6 z|6DA{Wjp+^qrr=AvR=MDk66Ll^yB{myl5RcZ=M__F-e&6z2KO)UxUoqiL2 z+$%A{^NGghh@o%VZ#^o-6v21iZ$>8ED@N5^yP4poL-b?lj{bq8W`I^*OdP6^6601*~a8 z=%yD>rNpHwIhk(5@P3%X#4C52kyg8% z68Yu>q~3iU#@Qroy{Gfb0RiEA2XxzBY{jRZtbqR^cV0>JQ*`WdLhUK2i2Kqvqw(6V zAge6e>1Ps3yPWD@a^2b{)?wi62U7@U#Y0xSgBw?ikRh$oz>kLcb|p)VlwENR7O%y# zq@DJr<9Ajg2L#_({O)%Bp;0En3w}3@jLAaLM?j91(~QnfZQaHlr{XB1EM8n5l<7VF*HnSqt_H?Dv3Q?TuU;a&)MlnmKA=f_(*) zk+L#jU2LMOS>`D71*E8ul9LPK!v@}Zp#%)dfnGm!hRt9ovF@i7ctz^YvTEy(V||f; zz0JbMMwGmAG+kARDA@{9>l}?eH(A{8u<+TNj=B?e*=ulW{7>I@tZV}%nf=9Y3TD5m z8SG7$-agyMTi;ouAvzS9pnaYVPk+xHw(YZvsb=W7_NM1IK&F>KpVno^nHQ~5 zYLKBN)jONmd9dfJc3giPn&5Cq0SiXun< zCiX-)2xUv%`DNusV%CHgF-YE@b9&Kh-pK`P7dpo@>auf}Ni2fcI$1;5#46UKUR4U- zW9eMsG&6v&Q;Vt1_?H?>}%~Y67sKu$c-v9()G$+Q*Zqs$Q$GHFw*9GokE7keat1xOlbvJAAI(K@eSSbVITCh9RH)|hRJ)9WpiouWFqS^WeO zw)K^4fqrm1TObGAL8FI}$F7|fkcrhcvf0Cvt#{(bvv3n7>+YKc;?`d`-+k|T&t~Zw zUd`$Sh$#4i)A4dvQexA>Ov&lau2M>D^z9_c0g1n;ycNBU)xEFRpXiENakx6Try0X{ zwe$`6UC-ClN8QEH-M-JjA@%_|v8Q;Km@fv)#R5OpqM2!q7lLF;C!N`kKjkLc+zhNl zD2~qLnT2ljo?Mo0eYXtuWAcRKFi$|dtQb^HogT8kR`E1)f*3TttPrk?TUJYsAt+yx z2=@nIDuS6fnlkD_L>omb9(8N!(NC9wFUJzadT^140^Lqa10@gh4N4M2=!!o*oBzkJ zinIlk`R9_bCkA?sT=;%u*d>rKv?6QyzZ09R-4-lEy?5@Zux~9$BU1?j1e?2SzG&|N2KKq2)z%x7_0C78gXIM#T_YyWWynbJ7-iB^`1VOB76#J+;p z$>^tirAc|UT8_9YG-!tT>V?O$UMzv`m6a{TP=VMm8|$0(S<(r+{c{dSL+TX^Ys>H98_ zUJ^(XIi4^VxnpMrgtf2_yqtYp{D_N2mtEbu{?&V{Qfp7*Yy?YUCdC5naP$_;lb$1A zrH1y4k!h8-g)qnD7Ufm7@1kYaG8J>>oj$?Q`z zp_duPVL5#a162NwBpC_9cFa!cm;y`X;3DCKkLcu}k6am#jr~f#48^BIS(bFySF0}H zpd3zjquaQlgb^NnXg9UqW6!PINAKM1KkcsHGob>oIjo^l8V9t-Griv8>$NumpFeL$ zR4roDdTv}gm9C2+57>G_;gaZC#8>ATBv)yi*=P`QIYrX@EhO;6j{e0T={e52HvLSI zQp*mKuxJq*!8Z$@%7T&TxCb@Cg8jfRun7nAoA{ks{+b!C5bpW)HS9pqI(A~TavrDr zMmSFG0mraprxAknJTVE?ZLoA)Zb&%K?qHE?Wjg=jg}$c1eT3BOT;7gI>fYif&NtL8 z1Fq1yS(x6Smc4^kjP>5{ju-h?C{<*(9mn1nGG6>QP+oz^@bXp+-OIYPN9RGpu=tKq z{alk_bfHLk7}q^IBt+9)9ybaEQ^ts;06v*!DT>1|ZlI};eX>8~G(6kMkbWPRwysKg zj`PT7=05SXyAhNV+w&%f&(7=$W&A4sn8tN*Xr%UM2B>9koK ziR&jJK3jEsNl$k-|5Ia#m9z-6`t;KwVFu;)3l!o4>5%Derkmeb!t@GG-EF_ArIO4k zG8|bZvIrrIiHlUBnHMYN>~srka!swBPjJ{nd+@5k zqnw}WhCB!i2LF$uD}{v(MqI-x*k3^)9j*VE`1PO^=qRTV-VHeA7Z2Cksiqj3k6NI~ z=%T8wG4+hr-`5F0mT6{p1$TcG4d*g_>q(K`91ohy-8a3=>C7?Wicv6rwHit&vYnoM z;Ir3YUDMoW*B|9L@9|5Db}@B=XtzIJ&kugi@*RJNydDx!fiF4F9Wh~U+g7_5TnmBP z)MWo!>FnE{@!rYVoTm~X{qX&3uY}Q?ZGA;gGc$xV`wAc8bCmQ>!y-_uFkMI*3z2mB z+~sFg%n{14aNnI2sl7BmER%m-d|T?(*^><{>ukiZE26k&n}-pW_mf<#&HmJl)`CQ> z+xt-QZ_R~F11#uVHjFaAuB4zMrL$ICkA?Yko72YtF%0NUTLl_peu|58O1mH)jRM6Y zbvHH<=m@}IIpP-xZk(HymxaH-Z*x8E))DLf@87T7pc)1hm^NLGwpShf`gq%GZv8IUvzdPCwk0C^g-nw=&KjGlSs(0sBofaMUM6>>5X~=T7@cDDE`_QyGogBzQLTx`?snl>uG6SU1;|Um4W-9l7cr z*4S`p&=%*awcDeCF-OaZNhcr2Nk$K?OCQj0(!3KYPW`sqO>tK8z!NR==s63$Yd`HLl-g7R%Gr+fbTYoo@jP%i))x6_HEq*I#l8x* z6p7A)gwEpHY)3Y)3hP)TAL5ZF;=NL^=Wecx*}^vvt+FXFg(8ZALFX8<#3bUej2y^e zXa6J25rmpfK?)K!g^i#I(^Bqn+YkGi42BqH%J3>(?LZ@PUzddj#0cdK$8(!}y1n}N zK_LmUw(Z5jo#rrY>@qWJ`D=y6_fmR%eqI~b{5+bAn?kCL+HBvO&U!Yre(sbziqX2c zS#AND!7vXOuUImxGsV0-cbE(%t&Y(c^m(9E@bB>=6zmIC)bYHGhaeNx^f29@w<2y? zo_M_sbZFT7Wv5d4;XSwT%YDv;WbMD`+-tXLR0qP)g!eTkgA}f7m~gE?Y8HX%v0T(w z{$KUP0{mKTN-pn?vG^kIho8(|+N|GgjlAH29m)K+Z{MbK^{wz*dW()DmTq9*QoMar z#BPWp;Z1T=qFlg<0Yz-XIF`mqo;aFI+BrOp`sxsRZwbW{sH>eFg!2G#S%zqz7FVO(}l4j0^#{G|cQ)ng;Ba%5tI&M0xq zrD`wa0sMkc6DYPlSmK9!K6$mKgSpR{qpjJ(p(jZn*#6Z!&wyO1dUp-)?OlJb?wheR zp>CJ1Jb77uxqPFG$_X)EB==GuW4!>BF$Xq8T>7#NOcbL5g1-1(9-Z;_l6jc#eC>=k zs--dmQ`7l+9}Nu`%~O+PwK3Facf9ousXo}&KbkXIC=xi_w{rajR%ULDujjE=XXBqwPGa=Bj@Y+9)yy0 zDd}3`yV)j-$-2zDf9&JDTI9e49m8kt&K8+%fhg>DtaR_c^Pj5Vl6wTrDcuI)pG&Ok z-*e@iBE-8wc{oqo{B}LiP4IU>_h}4a(|h8X4;B6oi(48^*Io!@GEk`p2iNm#XLIl( zPx`Fekv7BDPJ>5aZSFotjj=xAb`<|ON*oOIl1PiSa=K+t&VqJU4%>7Rl^hKFmG4k5 z-dX-gZ#GQzf}G2CS?05y`KYvISNg}F^iMw`S)i9!YIF-+N4_30L25PG);Ho(uw*2m zB=*0cvixT7(?)=M=?I`D`z(ob*01qAU~#EyrFn1Oy?=2A1KX=R?LL^##faXrPx^SD z?@#(gouF@hQkB&;8XI2cr^T78hu+MvG@K7{SB1D8SsM48)7Q+#miWeUxex`U}vmlIIufi}S;w;b%-`nHd-#}9# ziHA^n1I?$y)6@;~b9?&eP6LVAGX$5i_|L(0`ev8ZVyb#`G`y{bDN?~GSv2Yc_Wr_~| zwPW~>DYYUVYW9@13C_kE<2y(H?tw!w)JGRtA=$wx-3SIR^A{)Q)+m|}BHYn+RqEx= z>|;m0Y3+__SG>+q%0plAQ50WtacjSxtDibhNF`vLcLfTfi=Br*N3MN}6vf~VP1k*1 zn_8@J53vRMn^Wn!5ICDKTp;tT!@||*~-;ek%Ao%ih&D_G-pm8$IS z*P|Aj0sq^>l?#tqjz-8TCP~K+)&m&l18BE@1^mMQ%@y_5!`#q)mV+Tz^t$C>iGBRy z*SQwtyLvKzxwmEd@9BL=*Q42+XZ`|5YZTS)9m+5Cmg3d}DPOa4@-gvih~V-0WG*+S z2cPgPjZ@Aa)}>>PHi)6jxg6@UDY~v3c#{mm_UT(Dua`N)U4u2IrWU0Jgzf%1Q9Q9B zqV56^hgWzSN7z|`pKY_qSi?(jK3gfFy9wtu@6?Fes_rJK`zV-F`S

    %ZqMVHI-!_t^F^FCY3SWc=_r*K%x~i5L_g4uwojz4NlJOgFYW zS}Ed3d}w^Ih_MwSS(4gcDtopl<9oxx1Fvkjp(-)$^J9B1RJy{M=6cL%Kl;2?3G(fC!Av(T#whlr$ryOG3Iq6h@5h z9635ijePF!?>L@6cdYJR_qFpn^Yvz&V04`LR!MzOi9@HGBRO#yu{412a*3UyKERXq zX3wA?_zUR0;kBa(t-qY&J-l$fpSRF*^;C_?eTy0P_lq31}EqDcJ_*l&UccFq;Sl|_yMU$M}yh0aNHcJ9evR)vB!^iiZRQv0(uy^@SrmH@kqr|+)= zr|rib|9v9*&lRz9clth*mMX*5L=4ff59m9H@|n1zXoN>1qf$XAk0Dw%Uw)dL?LS1oq7LH|^E*_vk!+k~h@K zKDk}Fs=l%zN3m3n(^*5sdtXo#q2TTD2dGRKJoC&8r3;8ey9HWJ>-i`Lg+Uj=8eN$s zv#K-$6{G_)zINGCD+$D!j7mvTCN2gIJnVEeRgl6+QnTyT@&eArDcBS_GEVI&$c)8Y z7a2HI{BG00VwNY%M3CWl|F=z}+`~&@*L?+3FX0Fa-Cc3{|;ILw5DcF{ol|+ zuy5tON(g0o>JIu%3Vq}bWZ z-Vt3k?b_Acy}S>?w3MZMn%uDSbPuNW@VR2w;Naa#SyMNhJM|E--{9r z9dac}tr;1chbbUoYcolBvGV5aIYpx)<7dtMc5xBvs?=a>-7LeJUu1IGTmP1>yJ908 za3ArXF8iO9@p@2#m%MO%LucIY(9foYzz+h`PBODxJjUx=2TWZVq0K*5;GZ)VRPuQd zj(SCLk;8Pm(`vMM#RTM{hTpNPc8HlPzQ%ODZ%Rnccgx11wqjXKjdI`RS^Jr}Jdzj( z$~#_~+?yS!bSaKj`1eQe;AvCaX4R@@wo19Vg&oiQ_4%sm+>Fn9Xobg&D(bsfYE+ZI zgDY+0RQqd@4$MHTZP2@Qi?)Gj*V5b{wle=n!}mD$gv%tNl{3zL{Bvp@3MgXNfjJ9T zAwEHVv7-i^e}76v1wS9mPE5TO*Q&>L#wQAo!0);VJSLUJ*I#gd;u$~%q>OhfwDLD` zlt(-qPo_)_*QE4!587InF}Ok_m~Fl>>$G=1IoLqXA|u}->VEEob|}AXy(=ZkMv-|a zC`a#jhEVYf)V3Oz*w4JYs~#`Pix+Yj+bn{3?CmpB{#R?sdQE9MkoE1|8zW+6fWqDU z(ZbZkc#eO;K8{yrT(Uu`>~?nt?Z(U4C^|E^JD+e`k))TUT=^YJ+*pQIGZkuSneRpC zGx#To;hnpF`^!EI%varLD(|i(-Av#p^2i4l&-r^h9@|_roxw$@iAENAHh5 z|8wJtjZuOx-kaTwwOs!lhSSuJ%0tZmLD-HR9t!+1D3x^@s4@M`2dxGh)wEM{Q2aTJ zhlxj@ME}MG%{w0UqxGrT+dCIcNyQk4r^d8zZohE4@8%@K814)ld%XW%$~3a{tqx1E zcevlM5WC^+&X}pO5iTtO>C6A4qD7ph9Z4%)KL@5D{RbmS+y=st=m6u#c_5?W@vchp z5eX{z*y_srf3Hw>+eBMdj((17!|IejOzDq<{Q}yRAn#5p|0{u0<^Wpo8$9tAn)8jq zT7wBh%sj}YeA_nf924gt5LKFXz+VKOk&EJxT{xaMHOY-cVRz! z+GQU|F8I&(Yr3yBd*>{DyVRNLd!_?GsAnrr_L=nwvqw_zcV+{*>M-smSLeaN-wZVb z%=bMZ4sL&xNAd%bU^3h1TX(eI3E!>h(O&E`JfypvtOmFV{sS3hJ~mRN$^Kihe@>1h zmJ}stJb4rHRwSY-vL=9VkZWt19j~~!<)sw=f<%9GDp#=0AW`hPq(c-BuTAAaQtkST z1mqFp5Jj+z(hB*<8)`RGLcDXq=c0H5QQTr3VavUwfLaCcn4{>Va9#fi{O>=n(LmKo zNwBT4WXSHTc}&uqkUH?h7GL;*vanYSp?qxSmDx?`5FtMR58pk!{+9*YzH0+IYrc%2 zC~mr&f{G}zWpj~h0gK`v?*ALI_JSzek1ZO2bD4b|2v zzBG)eZLbpU05hmW08@zk$K?a({ilXvQ*#4$hArp0#d8nZO3T1-;Ai%`=-Yjw261BQ zU1qWV(+GjgKubb*Y;<>TD77b~OoO2_7j$~{e5Z@9s5|@B!1iL$4|h!yGFN%Wo5`jm znIsUSnbJ6~W~7KybFpM3IAbV63U&iW<1#P(I~QIJM&>admSiuu1TEb zXLMuG)-)_#vxL^wD8i~WU)}Jl?(BIhv%n#=kB*ZTB9e(m=8)(^&I=#N)h!@>VtWPQ;*za zHd^in6ZU9h8(St`!N+3hjOk$pL&gD$PNq-)Q@n4I<_HuPKAp)n$9c;5#cTW* z1Adw2Kh+0?1Hc@uV>xm&%XctM-~p*>XXl`wf(LS2j&W>5hHe`bsOKU+mIQylaY&E9 zEtwafcPUTyrF-snchz54*VxG68QO?T6HAeM0ci9oz=EG6f!P0B`2ex2CzgPi>v#`% z%Ts2SZ_i6PC+Zp8Vg0fZwg9o#5oW>^M3WGdS=RyMm#~+2xNR5lE=umy7X9hHWjnD6uWedz0?H2Q5I()3l9nMXkPAb<`UA`a}lAyK}tVKE-?dgg5jZ5Ci8DEEcXw(FcFnAL$6jIt#VB_DBZi7S#@IeXst(lr-4!RG0?zzn7l-| z47p#2AArH_+?LQcfgiKBMZhT&Xg690=M7~%_&#r7P_H#a<~P7+ne$4iU(Sq+OI~Pm zmEN$-gskc)43rb<#hhO@%4i#c0wJiX>~>yBAc>6^0eqq&zyBa0fy)<5E8c%*g_FXO z3-aoX3*+XMQWW!mM{*2vZzf6Lhmv z`Dq26`54ZfZ$+h7DrW7MKg{u^&$7s73Wxt?Z=`p7^r`g=o8Q(5LrO(NBd=p0d!#TW z<2|N-&+V6lk#?u>Qq4&1FNeU&J0|rE37%+1QP(U1Rta_$^S7B8E_38>vB&QNbPRm`bi6R@6ZTx0u?9)^mSFt7j3{cTBMXB^CB6^Y`8HLd7Jtv2$8Hsx?r@ax-@V6BhukJy}t5_{tg#U|>K|GVNrkShAm zcp-TPfj0Q`0je9fn{r^N>9* z%0q_xn<}#_1Oh;OzA%}irO^#|4%e!cs zIvlb~(`j%fEj@Pov!&4S-Whq-k zwS9-Oo5~*oOuw>%?YV|K|3uR zJqq;n)cybdN|F+Vx)EvZ59{gfc`OKdg~Y17eEX*xr!h$t+$@!bnGf@9D3twWhP6Th;OdQ}@GUOgM@|Dr6Dx=tm~KiyPsoIwQui$Eg{eM|=oM_K)> z%sF>nv!6hfI};KKZmJ`t?1NSd;jb-uC|2}a@+W3QA{*bg+_#=ebwGk zWB)sTxe+(W$K}(A+^Xjzy*PGk%B5RN-AC~R2|v33z!M+Ri&h?M`Z3veUcmmNyc@oS z!R+lXqFAhk0~J#qHcB#2h?0R*dyQm=9m(-I%lM^};5Yz56+QAc(c-7rUW7PJ<$JUD zrB|kryphUG3=~@@q{^hdY}~gDZsJWP0MuP`HI25{t$98Fa8*6eEe`2cUxOGuv~l3q zP>rJv_8Xu822$2^HUzQV_k!q9v*GkT?6@{tr z_fLLFKkGVppuJEoMU;JnbTPxa_>X`L)ji^rpQTj3v`)DB5X?0|(y619_1AVaqyh05 zxcWHO@9$-N!)30&^oZ@4ZKp6ZE_P5ce{T9|ya4mh5Wm|)H`S*G+StmZFp)!95WST7 z62*c}bFZk9_{ii{e?33AD^{i0bp&`75 zEXHl#5v&jZ96aZUnk2``TZ7H)&zV0}=3_Yw=viP}<9&QtVjt3$3Yu&Tnm5?eoO!HX z`nk>2?gPl*!zOv6(}zTOdc)n8cS_Z z@~tFP=$T>K)$-+z5&jMH+t*Fu_P0N8U+By>Kx1|Xf6xJB!TI@UuoB?cejefd1y>Nw zp;$3;d^j-`pE*zOw3e%p0_*lyIEc!2iHeAhlD>QZ^lliJ7}|!UdLMh@*JA!rM&(6c zsYeJKTA-Bvo}2%6?-?i(RK?83U)orIT|j7E9)wp!6Djrhcole!?bcQgS?vFkn!+GA z77*X^9&UlcKKGskC_br5q|s-su&?*^&W_8q3jKS5Riynx;5_=Lp0fku>S`DOUJC{; z;#uE}49@L=JPugJWqhn5>}xipbKhmGx$zUN_x|)W!t`^H{`Wco$JM;9*?G5aZC>ru zZ~iU3)@&z1W!iYu9wOAe^hFwc9|K2wYL!P;iO@gvPfTtlhQv@+J`7GFgN5$7KIHUT z=(9RZvZCMiIILlC!U%*TE1_u%K8g6^vJt22ynnwH+L^zXOtP%nF3YdVuQdn0^yYX%2GPuX)DY) zTcN`z)M$ti|??}GM1-`FXI?Rh5L!E*=QD&XiAGHz`zhmFBW`+Nse%!IJLN76u|4Tlzv?r0Dywo(nPIO#Cxl%#6ah?XdnY(Nn>T^c z*hlK;61M^|=3rxy1h~5xA`sT~X}vTl5x6L7Yu+60-u-3@mq+rvgmnF7raxi{c*%59 zBdna%b(L%cA?&yPVy=>we%|Mi?e#w&RepOJJR`dBWdtxjo`D~`sS^VykE(p`OR4Vv zi$qNS`?brkYu}C;MTf+03Psy^^XckN>2(v*jp4+Qy~{O|YB#6zd5Mf-;{7m7GBYy# z!@2mFbGsHzToZXS53|gWD>C&M{(1h`WAszj8TyNph?}xp)bvGaTGcffyVX^5ti6!m2WE0(G~%j{n^QAUzrXF z@1aklibovoH^tK?IkvD&>x{Yxn1cL|(vNaR<7!S$7_;*uG(+ZR=41ogFYrwYSS3 zOs|YTbcVuY4g}H4^Bl{md9`y<5+%PIINFVFBPo1J%6%6;oP+dwdG6jNIgwk_b?yG?dFXUJN(g z3nKTsyfm}soNw?5NBMS!_29ap<9`fo1o5kuW>pS`PDHC+E%s9VlpAKVt>u`BX@3}; zkxCFg&*w>yamI+HM39;xBqo1er9ZjmQ(7vBFqkp z!X7I?qzYm$iAQYM6TVUNol_$?M7UaKuiGevQahl0L)MTk)wa9fF>m7^xE+oeC=%u--VTr-VoTS&rrkndRd^R!@g(;K#b#p{WUYA;w z6CHR92Yu^dHQlyO8X}8>c#KNT`R_WK{<0=qO$Jga9z!}6hjVvuxuB)aJuGAV3eQil z&nXr!8tWWS!>PAqV4dLXQX+lgR1j_ZyZs?V1pj_|0ass|kM$Z`TT_%L^41s{^;9CK zhu#aXc$?&t#_kh?f4m*e!JZ4 z#?|gOWtJX;3!R?{s;PgP!zHH!<|lh;OJyEO$sukD30&c1gd>U{rMgSq-u);09loe) zdl0}5uKgMDOHs|v*2K*>xg;_l#11b5g!juUwX(IPh>s* z(hGFb5SaX&mD$i;jW*yDC&;kV#=z$dQ5JW%!{G^wpEL+{nJG69i$2SXTQAL#&u9XH zXwA%=i;v9K*(3s&WkXcH4M=Z!`3- zk3(fl&)a(<7B!hNAIT6jB*wwehU^wyRB*&zNiP`Vb&w{$YSbV)cfCVvTWa3%El*l( zyTA;&r0OW{QaAHfBNnz`xt@Df&#v>>eOu6p4?QP@q4&Bm8orz$H8a){6}|15Fcg!R zQ#F&u1gT|Mpb+{6AS0o;Kq1bpzqba7P()@Fgk-|VkLN!#{dP?(t)9+1%*2@idajoS zj<^{>9}A+(ND67)%=bpj!*CKWY^;896P??m6?y8ZD93{W_dd4#?&s<{*_Pc%!`#d} zSLl%Wxz5xDX|Iv#kQF-?i*HQlb(U7HrD2pdcD;|6Q*DpX@Y4EKKc)2-bheC?x7a1m z&+`2*hSZ1N%^J^_SJ+9l-h-THMf;2Ya7g0qgdRwXOt8Qajz?U6lOCm_xkS3@I2tGH zh5C4^_xg*b+YXc@T3S+I3~(x9#JYH2082stKu3Tgai-& zwaOp>1i4wk>b$XORg}!T8u+pzZ0s=A2;P+rE6fvHLrui)y+0@Hn|o`FqAEJscGg4EA&W|e9{WHznVEKIySplx_f1U=SR{qy_Zp{fW;qhF&`1rFms z7?%r~d2Y{aTTMi`+J1EyMeQV6pt{9;R}bNcT1&`q`BVElkfaJNKZ{dXz9xPID8TY$ zx9o|eHSgPNwr)pd;R9@@?s)rqTO3kL^V=DZxGkbcZ?zvJkg?tqSPw$@?{MRPW~x>g zXuuC-r}Ud z>wxle$JHtC_fnJoH0uA-o8=>@g14O*N?cm;aRUaU+y~!X_3NPioSMypBY32h{jpewc?( zNXc)T8l#KxcO|ZSQo&1^XXqI` z$qWBKD+l)bN>~4^ok^)i=zNF2alNa3zpockd;nR@Sj(lYnJe&}TQ6NUDnp9$$8=(G zE{eUePJsPc5#KTL{c3lV@&aHWF;kwz2=b;w?dib!(*5n4AhJV$nL_jxzUrgGO4$oL zl_!dWlELA`g^X3I0E*n{&ql+~W0AYnb-7r;ZAJR3-+01uN|VnQNL{_wM$V z_jm~Fk(~csu|MIvG-c+0m)3e6i#KAM+C{t)c(%<1WGKlPiDs0XR-1?D6uv{wnHyC& z*1l9e?S0(-Q(?S}7P+K$@OgbkiK=ly63_MlkeCyiaPNNSLoIArM%slREsW`b6 z4@8?uI6+vJ;05V|UunKzHev8a?up{MyuCm+=SuLCdmV(W3JI9f0y(kR7e&rr_1%T7 z9qTaUAe8iVBi*2eB1eXDw}ow_zWn_wSU(#9T8ITEzJx0mH!(k6Gp=PQl!#$-9su`l zwi1ww3_OQK#ThrGuKKo9Y#O3}3x#|@wax%2Os<`eu4xku4;!8`LEV|XMMd~~Or-M2 z^@TAt!+p|zgt2VVHiH}MeK0#wgmUKt_fTpAjDGq9f@OU@7y2B;3f>7y?SSLT+3TgT zhcUtx9=wBOJ=WYLw}nIj=<##T2*&3*O#%!lRHt-r2{QWCm0+^c&!!eJHDqUFgQpz^ z-f#XrnL5prEnf%AWgDhdi|k}(7O|X1(b^C0_{~iJ;?+iK1Tf$FFMZ*klCFMd!h6bt z!(%z!nfu;2Yj_Vcd9~*F+B;S)?B=jIPPj4LvPib}6-=Cq;XaGP2|ROEQhEp+kl5GKEO-E{ z z?(4R3pragXHvZWmOpY*Lxt}k5}jQaI@A0(M)78- zaf_j)CfDyy2fMz$2WHD@fGCqzo!0HAn{Pu)&}phExBaRq)Gs+^WY|`mzqjp1HabbM z`2-is?z!yu-ZrtKG%AwvRDCAUMo22HY)eOcN08%EwzJ*$bIm!@?r5iY17$ALqhV*A zhexT{wvJY=?R0Zj?o4jUk<%Jm`z+9)yL06c1({G*Cf;^|kEqn}R1I0V`jU_*SnHBS zVgmA(TWj+#k|`03>#cV%EF`W*JWql_gPfhxSkSQwBMZC9T%k(}K4`fH4n@H@YLgk`48A>E+f zX5xcEI&oyRNBg0EI;@tv7Nyf0lmiq~MH#R45;~OzskAfmAh@GPnwYh}JFdPARKi#CNWtW}HV3d51 zfxd)mMl<&2OB}M)4jVJ;SLJ0i42j%g-?2lD&g3g{lOlYB3Eyszw+m%NOhye21f$+R z83hsz3^_-}6P2R%n1|uy*LxpNOfsj6d(Shd@7I~;Px`GTZ7)F!Mj%o!c#3*bgJ$0F z9>ov*fJ`QQ2x?kuS^b^9+ zq_9(ohGvMv5gh06<5~+;YbX#hsZ&_VMKBr?Wqc}_?n)EB23 z0ud%D%rvS$UKFoyhQbK;(=b!#?svt3h&I#SXRFq5#Oua*Ge2!*ac^@6tM?4gQ(UxV ze>w$yd>I3FXW=Mh3zJSr-Xc`mD7^L=J{KU~J;(0*QuBF4c)u{nKY-lQCxC8<8j`l! z^OJ@u*6)7jdDoy&wylNE0P8&GIkIj%0N4lWUT5Y#Nk+ zjLG3!wLTp2JK^i@yTmArPX$c5(627jOhn^}IP+Aq4B#txB5s$nMPTzbn*|zf;WA&6 z>+HD~=g!RYquYf4YZ<_mn_vWY294^`%s*dex3VYn{K#^$q-kPDv7>(dgbh^)Mm9$g zuC+W3g&irege>Y!C`M`3{{-SO{aKKa{K7U*POkoaAqKZJ_WFg#sP>XqDNDI*?8h|} zs#tfjosc*oO+}epS{qGnN`IK#< z^Sm~+#}2S`c+??ddgC`oj21G5ie$&+biZB2d*1LH#yUxYnFJKYDOsl5nq=xk&4 zd7=O5YizZ>f6-R50ptAJ@$$vFLRJQY)4<4=YkJ-%y_8{-w|(M6n*mSS`yECi+*>y@ zqv-1^-+8J{!_e1N-Eo}LD0hNvduUYkczd~2efrJSOpuP2F8BSdCf*xiG8x1R8u}a@ z=B4yXovRg3!4D(4b2(1l0v4~Rgbf?4 zGzKXaX336ZgKg=N?3C)?d@=Ue!R^nbA6;Fo?rCUi>NzX%vqO@8{*w8Gqxe5b$S|7> zvyHQc_Z(;bi*kaGmOL5nAQ#UYUw7KT5k68Jxq*mG(E!L#tnCmZLt^qnF7t!Lohw0T zD#9N<-us*i>!A34*qXmvgU$8P4|CzKzMUr25_cnM!Flicn!{g6LS%?PN$dyx&OoKw z5FP0UA{KwW$TL!t=Eqv21rw!ZAe$jkwY4h=FzMwR-{s9|>-Ve=YNXP^{d*tKjgYV2 z>|)pTO#-PM^`%4Xq+LW{#IX*!MGo+9E@uSim>u_=mWpr&n0`8rrWz5g_TF~eqD`6- zgeD>uRqPwtfr?IqBj0gyV8)x*P!0wnQ1s3Zi*o{f#|o69#qB zmN9f2*R}gm>DM8fZ%JGc{xnQ5%r>bRF(Y`!Usn|}z4zuGRwCGa{S=QSOXHyM$fEOv=^G_+de2Nl&%d!)3D!qi3?te+ z@~dcU@*eMg&cQ(KIqEVqL*R(}D@tgB^{*5s>@9acLb0GZ%he)IX^hWbDzWue5_o1d zueqNe>v~I6U8pwJ`_~V|?aFaLOVTk~}N?qxOo$^`SV zxT6EMK}T_t|Dk7xWAxBafXrcR+W-|I^zaT8prY$~A&U(=FxUsEFSOmY1X!>Y3wjx#M$k#Vo0whe)63iYeyEM&U7 zP!8#-$J4`j8T*q*6;EqOa?kwK>h9q|cSoIJWJGK>;~Lw~3mh*pL6?Kvi+}H#lOk&f zj=!F2(j9gMnUM);M1CbtLP-?$=Y;2;=xO?WI1lS8sl#I&$-^-qp6%>@&)CB>J>4a2 zC{*j5A(H6L#6SENyG(%^lp*bO*oFGBKXg|1Crf9w7drUH4}bamVi9_eN|IU!C+PSY-o_eHbr)pozRh3yzC*tT|+&YNz+ z4_+E{Wk4%1#p5~H=#F4f>x8B3G&}L}rR8olVMR6${W4IOpx`{xIFW102OFL!BU#u9 zYfC{`<6lQayhXOZ6+8pz%s%|p&8IfQ!T49MS#zWWq7{1reCE1x1KYT=$gzxZUNl1-1`B*9+88!n^ zb68X}|A6%m`o{N36VpVfaO3IZBj%JxmvU)*zjkMB`U8D@B>EBee}M7HSjB{7_eCqE z)Z)N=hV#Th9K~bcy8VTsd~OUsq$xqZSif z;CiCM-1&wQ|I}E2AF~ZeV477`6==?NjBTit^X2p0?uvfrB7W1cFNxRxh=PnG8$A0F zIL18Sk>gt-BW{Rw5@%d5; zLf|#(7zLO+C7sHn{?F3`TOC;2S3L3P-wCc{>J+IyM7`9ao{d`{+0`Ix-3B)^cyZ%n z{i;SLqxU6S$Se1R=OXa>F2j&WhjtMM|@L+0-8(#XAWwyP2tSoPLDwZS?FG^wE2-%RWtdZ@2IH_sZY% zYn!wOTi!uv{wtg^bt+EI$k2TUkx>$YR^|I2=V|&tI@Ss+hK$3gHE`xl2JEO#222V3 zH3&vp$7jrjo9`rsQ>SaYzpGrvS5|($W&(jIKO&o#`OLNt**>Lz05y}1+t7Xv%)Jl$ zIr`$9U_bkispnY}p7XBz`qw8>f8BlS^7omd%EaC>TZ{GsdXmMNn~KvbW#{vHi{e#_SQbvneLS4#pT;&or!8rWF#gM5j(Lw5mBYL zKEHlzXO@08q^=R`2fz0mg&5o|6#UZUd)Tee$)!mBV`Csxn^RfIn{Elo`uOcwa;(Tv zwgaYm_#)FarbiB{j!`A=Wq9^R4jW=_N>LL4p1@lv63Po|K(ih&(9cI?sz%}}QFkz0 z@*0@ZxW8|K8QLZyKS642b_NLg5i>;K!g#mu%Je-F^&qXQ29b<`7aCIp9#_!Y^kJ!(&(J2VB zCHf4lk}S&CV)N{4mstZl@J}!`Yk^np3lH3;n0~`me zdV`V3mrxqfj$Ut_)FjqQRR~1YdEXz5Zb8*H7TrTowk<)&))}b^LeNpUkDo<-`xo(_ z=QzvO#+R~!^_Qn!ieNHeuVBp$O%83NfYI@-5!m3_TG+y2RQ%Iry7AZKEBWd!=Q@k| zpp-meyRHf(cJOBBBykdXui{xRjr>x{k2Ua!nD~SNVi z5@1aX%sV9~7s^$R1+-h&fXF-#8z@I5-A~$ScI+GkCVF<@x}O14wyke3lpc|dj(PWZ z+V$ZgRcpdDl`#0@__tHPOlMrs-<)tEkm8w87QQZ~HMDtsh9!3EZq+l7b`E^lvd%+a@{if z4V@*({fAPkL{LRD>Caexp`g9FvqqiuYV`ew3w z*i4;6i~LwRQsWh|Fdh?u1a&L0>l~?o{2GzPaT7GX(q>OrY!#0JTJ;&?E1`i< z_v<>_Qj9=69WA2=o0+wh_H-${g;)RFs3f8Mb&- zk|ip&;$Yo?+(IH7-De2(f%m;|gjlyDN{pN}78bN81$c)Ks)|+}SSrod+5Z;u=HhrC zgT`Iw*}%|#fY18{hMCKU+gfS6zUhlwi?7>y-JL$?{{;V1$Z>RII!wq>79!&e+HM-U zRfnMB!C=GU0uh9|h=1LYK&WA?&OgR&&o4^024#+Eum>^xu^&f2ZQ($!E)_N7f51d) z0qJ((%)#vAvh9(k8S-4cQ!!luC|31Q0Wgpdu~ud?uJ%(kJ|F^5oH9kk|5iP$rcYT2 z^-0XAwMHPQA>JNjBdaTE&Dpk3{Bwi6*DT(hWPaXoWoN)9{snEFx39f-wl%efJ{pZ1 zfk5u3fxVNPor6{FA%v!+Tzi~LG;So9F1ZyW&4^66!#f}rhsfAU5y+;&E~8=MO;{y) zy5r@os#|H|H*Ka5oE3adwj|Eh-*S`O9Z7@b5rBTa9q~B*d;OCAH@%h$+6|}$SL6UaukL+UQ(DujQ*p(CwSWqF@&H3rdIFU z(5jGmQE+{;0~a#I>n^JY@mLX|t`V(b7Z|mG82JSGSY5|8M^yF9roK$WGV&fb{hI9i z*6zm7j0+j0D#C)DE%#^q^lbL~#{$nT5)~6Kx-JyR&PL6+4BGK0A9N?9dOl5rclW00 z2!UAw{)~V9+MBbiiev?2o`R5-Ym%eZYLITZvNYJK1zqil5(}aGckkdPe%KCxH}2tp zbL@EV?H8vaCVM|W#L;laBhGrn;nO^Bk9qQ~CGS-%vQuF`H>X5t-fO3I%N&wjKzhXJ zZT5jtq-B~a3ntF=Ujd63s?MraeT+^${W}W^3_%fr+h`)U$RMa;v)c?=E#3TNw+8V!#rw4mfxEXQrf0I#lp!#i%Ya6Nf}@3Ddo7=E|b-2$p8F z-()nEl?ChO|J)4M`b5Td%Mz$6ix@^ojV-TmR)9?38SlxKbt_2)|3{MkG!up?NMr-Q z?xX`uEFI$PS)p;-7;KQ^Ew?r+7W8)lLW&fOUcMm#*&RXYqBfv&W7r|Ng$|* zg`2V!a|nBm64>|as_++BbHOz$zCRvNC1`C)udL)R&8fcBbxK$5WKts5);A@Y#s=X` zY73iviyGF@!(mouTvuQcDAjtIE_Cxu;BxL@M6;%SM33a| z4{Pm_r0wcb!WImnPR#0csVJ1#uf4;`pCLp1&GWh1qi-wZxY6kO!jpjTpUw!x)D9as z6y}2s)eNQj6A-nxft}Pp&-yS0gB@VlG=4PxYCC1fqpcg|5Cq4tuiE?47Y5mqL`VIN z8`BOKvW=gC3W7P*APFTD)nYpAdQpatcpwm32nq}=X@7033aK&sM}Z19-17z+!CR)j$1^#+^%O!LaYCl-oOm$m7kGQ+5gdU176g`3NUzQ}B^ zm^*eD2IZ3mi)K4@{sj3NFPMf&ApGb5Zv&gDV0D-WhROXp@Cclkk5aJ}Q7V_aHHV-+ zx76Hv8X3H_GD-H71W0zSM*kVr{Hd0J@IOdM*NAbEdMI7BF#HsE7)ZY1Ql7HZ)-CcX zibptDLZkemSA}d$rtL4h=xgrf}sN zI-dPEwq;OKRlymR?<=ywfKca23nY2*aIG$crp2A7R+7zJol=mB=moT5<qbA<6aGf37kAOI0ex@$~#dZ-xAquaU`p)YsPhU5w zPY_Sx*a7%BF}9V-`yyqAzfL<(EE!{8(~*WPX@voWp(u+Wpqmb`lrl|OnvD-)2*d}8 z(bpT*Pcq$nqG4RJ))3E$MWD$e2Uv!|x*+A7dSZU^vuoPV5Cw{?dlg@y1R69=&f2Sh zv;!$B+(OJF6Kxng$B z+)6~asbC4zbWp|*w?KpirC*(98LmKC4*O=N6m7_j(yQ0kr;^O{HzFDYjfM|2po&qC zt3ClU6K4jfBW+CiX6Dv8nVCb9nM}M)k`|JzcrL8%vW+>sH3wslvUWA8w$obsrWOOv zFl#C!I?POtne+COgb;6+$56Q@!E@qy3p1$4#&5(e@}csDWaf$7;x_YGsFbMUl;6y> zLc`1~@{KtoHtH2K)6AZqr($L&nL{t_F9Fd` z=;7kEb@6y!R3hhVi`UcA!n(Cr*_Nd_+S&RTW}dI3u5B`$p{f2iBqApikAKhtgH#8= zzsdcXQDs1SnYS0%UKN5Q`UR4=w$dM`2w-ON!gMh9$qm|W^6XeJHbTBwUeaQJWeR5I zA2Tx(29hx|6)c#UB>*Ba*=d1~mP&fo}{EEN-RC z=l*7995WX!Wz@czsdUJ-*Wz#*xZ*n`nK@%-&M?C(1%GyvodntW$iJDXfzY1u{;|d> zCXuG+l!qF3t#dg(&GXFo*>1Pf){k#Z#msEaX)G}Yn392+sra^QD_@R~2D(&R^I9pH z+3lUCA82oQKFQ4AX#`_T(y!cz68`8V!VTSTGk3{MKW2W$H#0RC{BM|-%tr_5!w37CzqQ6@KaC%sMqzFXT15_kF*6rhT4&+MK0Kv^PA~oR)}}Et zoA$ypyj;*4wD+Vw@v5QqumAe5zr?`Cv89F7oK#Pn!uVd*P%-QY8>6E@=obKg#9jBr z?5G}p{-1S^Hl#E8D9RARe=0=SNT;p?%wCO-GEV4a_(1qiKvfng1_L@BAgP75c51Pi zuN5flF!lI081byug zDC0Dt%!hKV_}XyGyt%ZPR~ojI>LXZoJ6o>>X>OR6Xn8ytMf7l!XXdS!J+)Zxf@M^R;wE8%`~xnrMP>f6Q&> zY%FER&6FnGV8#-RB+*fT#|a))fXy_Uzzy|x`sO&AC5}2fdIkN1w0&T4-Sfnp zWZ=q$kCY0`en>k|yqx@j(3K*TNSAPniEuWQ-KF|EN)Vib%?&yu#rJdW% z?FHR}$2F;Vr8g}iDRh*QXw=n3W$>`Tt^DCH-PVVyTZNzMHuDqBX$KG8&gN9(rV%nv z>E=Gjg!!0GKY(tYlv*k`x0w^oen$~BdAV_j6p7lCMlmwXX;!!z|)lS@!@ILIY;&!YHj2QQI$ZkzlsOhLCWM?U!GuIn#Gap@Pd(Fe5A&!>7_wMVaKFG@N) zM~JuCdf7nwYPZp+J3rs(8WY(6uor*{$_x0F*Efc~F&~IHyzsxfdn7WiNNcG>6TIu+U^pPoq+Iw=Qjrz0EwpZRY*Gdy3Mw ze4O?W))C756yYPT&2468ucUR$>eVzCx0zdrQCN5-d+^n6I^NZOjk!%uHb>I`nA?bK ziyy*z9&jQa{jMik*y%moX3ph`)81yjqdAq&9&nR+#k>@a+&he9Bok(6GOwWk^CENG zt@UN=i-5k0?@YZK>OUe(G7|%x6~)`4?qSEiq1o3U8UuuNHH?G~y)@TRhAq+LHU{Je z`tcxzxvujU%uGwahAKRS3)+#!R4DTu<|e%!u0$EOj&bgd@IfQW#RiT6gSO-C*~;~e zw0M?erUt?j4QjU7&cscEMal-LA|9}~8jOY{GrRqCRg>fNl9`>f-?^8%++-?x1ZO^0 zHcYqnslnP-1GBxolDA7{E~SmdTiP7BUsD;;2gl5rEPN2f9l~B>(jP{+jpk&$dlRaB zzIpfN=CU7S$muj8{GJ?rk&e5nV|6+v^e9#)BMiGlJkLk?T_A$Akr~d*F#U_q zOPQ5{?sT}i;|!{FwE(B-&netmfE}(XCdp)dA)s0yE7kr{@VL=$6m_utwzGU zG(3lDISbw9a8?acc-a^%;;g4FP1&Dx`sw=mVtV^oBs1kYcs7Rh0QOe$&xo9y z9%)a!m@X~7rH$OE^j~SOE&xI@Q*Or{HcrFg>maLm*Y&zzX|4nJn6t>wsU5|ePi*_% zp7u8L`yb1$O%Rfq9>SPOzcNBgR8&u#BC*@dZ~fS!k|6je zjbvu{q0jJYBidC<^0$a#@&dC_0=(8${h z!yqdI+PO|lpE55I*BGR{m|N1`gl|_0{UeQ2JiL*1BaPG4IYBa0^91`Tt?|#2%!GOL zUR^R%W0Kz>t$_8c<1ei)naOR%KX`3D-JJF|^X^W%`{X^P1*1#jp#1z2qv5!vJ9?7$wfSb|`6V;`)@_6(a^Q?ehj=4Jucbc;5f;5N!*pl;fWS<9A^ppnH`0yGGj20~ za69$C{zIBuTE|0k%#rQGlEh|03<(d1AMjvtv5tbFIhf zSLW|+UZF@2UO`85H};Usy!Ov;O#jWyM+fOoA(_eiEu3gxDCH=8Yt1AxXLvqn{ru-Y|7ARw=pmtrluPgM#5zCy%y{|oCyf1-x<=HIztTOz zPVq;_79rQ6n{`mS8DlED`Fc?{-bOTlutc=*d1NGb=wlV>5~kE~ue*hN=%Mg0Rm9QH zkQr5)83J|$EPkzClpr=HHzYI5H!U8=6*$pEycd$0HlSKeOUuo}aZJgL5MIOH zK1k0nS+2JI1JUMF#wiqFbJ{uCRaQ9~m)nZ6MC#JKETj|4?M^+vH9Ku-VDt$l-rm(| zk&a1bb~Wh2DHS+A5RzW{$+QNlOygNq&_TDx)=GJEZLj&Q*w zwicE1;^pOviG+%9r2{UV}&DcxLn--ZHY(N~%|lSvjBP zV`+{maNK>8>>GE4%fDW0;o{-kB(wdyUoa-j@i{6_)$5RaGUir!wjk)Gxr#c*t!{rh z70)BO_i0)6@mWu+#)^Hl?UG4p@|;^;2<0;m>VC{$EscRlX!bPD zvABBffSfg!*@n^Nc7dSm)-R=(bz#qtjBdYxI%q=BLZ_W_UetNAoATr?1LQW3d=tQ= z2h8pZ-GwzIGY1k9=%E1p=IgzDsht$_p!FxlU72INweL&o4?A&r&SE^l?^xr}n&z|3 znq+24Z&)QQ%na~?JTI%P1F4ykPS|%24oy0f z8{Ww@OgAVx&|P^P*LeZdq=#w>AL)b&e}EZDtEjWf%S-8!6z(3*!wlJ()AsMX-R3l; zy5&y|&?hik-&I)Cz3CM8TAMLCoPeG#)G!n;oYr9MrPD!Vf`BAI!q zklG45r3!aTE2lS8udV{+99H)W^TH}GJLb~Cy*-oC#Es|9KIqC;6(f%=K@p9y@*5)ReX=9~1i!KRf zO9|rZkD(;i#Jn6Ny)E@AP9D^0)fMRW4%7beR}ixF$S(+gv}~-*;WwYyStvZP;klHYWvdu4}94`!x?!&?^+!(Y(goW{gmBtiwe5|KB|Fs_{XFQ*)J&aUou>Z}J%&RtrSe~900000NkvXX Hu0mjfh-lfT literal 0 HcmV?d00001 diff --git a/utils/jalviewjs/site-resources/jalview_bin_JalviewJS_embedded.html b/utils/jalviewjs/site-resources/jalview_bin_JalviewJS_embedded.html deleted file mode 100644 index d3e0c81..0000000 --- a/utils/jalviewjs/site-resources/jalview_bin_JalviewJS_embedded.html +++ /dev/null @@ -1,68 +0,0 @@ - - - -SwingJS test JalviewJS2 - - - - - - - - - -
    - -
    desktop here
    -
    -
    -The alignment frame will appear here momentarily... -
    -
    -
    -jalview-structureviewer-div -
    -    		 -
    -jalview-tree-div -
    -    		 -
    -jalview-pca-div -
    -
    - - - - - -     - - diff --git a/utils/jalviewjs/site-resources/jalview_bin_JalviewJS_embedded_core.html b/utils/jalviewjs/site-resources/jalview_bin_JalviewJS_embedded_core.html deleted file mode 100644 index 3df0d21..0000000 --- a/utils/jalviewjs/site-resources/jalview_bin_JalviewJS_embedded_core.html +++ /dev/null @@ -1,69 +0,0 @@ - - - -SwingJS test JalviewJS2 - - - - - - - - - -
    - -
    desktop here
    -
    -
    -The alignment frame will appear here momentarily... -
    -
    -
    -jalview-structureviewer-div -
    -    		 -
    -jalview-tree-div -
    -    		 -
    -jalview-pca-div -
    -
    - - - - - -
    -
    -This is System.out. clear it
    Add ?j2snocore to URL to see full class list; ?j2sdebug to use uncompressed j2s/core files
    get _j2sClassList.txt -
    - - diff --git a/utils/jalviewjs/site-resources/jalview_embedded_example1.html b/utils/jalviewjs/site-resources/jalview_embedded_example1.html new file mode 100644 index 0000000..0e0c418 --- /dev/null +++ b/utils/jalviewjs/site-resources/jalview_embedded_example1.html @@ -0,0 +1,137 @@ + + + +Embedded JalviewJS Example 1 + + + + + + + + + + + + + + + + + + + + + + + +
    Demonstration of embedded JalviewJS components
    +
    +
    +This simple page illustrates how one can embed the JalviewJS desktop into a web page. +The basic idea is that we have something interesting to say — some sort of scientific context — something we want to get +across to our visitors with more than just text and images. The idea is to have a dynamic page that will involve user interaction. +

    +We start with a Jalview desktop. You can't see it, because I have placed it in a div tag with style width:0px;height:0px just after the period that ends this sentence. +
    +
    +The idea is NOT to teach visitors how to use Jalview. The idea is to seamlessly integrate components of Jalview that can be used to enrich a discussion. +Like JSmol in Proteopedia. +For example, in the space to the right, after a few seconds, you will see an alignment frame. This alignment is for 15 genes that code for one of the domains in the ferredoxin family (NIR_SIR_ferr (PF03460)). +

    +What you see initially is just the first few residues. Doesn't look like much of an alignment, does it? But scroll to the right. +See the big block of red color? That's the Ferredoxin folddomain. + +
    +    		 +
    +

    +The alignment frame will appear here momentarily. When it does, you can go ahead and manipulate the alignment with your mouse. +
    +
    +
    +Select a few alignments by left-dragging across a few rows of the alignment to make a selection box. +Then click one of the buttons below to see more information about your selected subset of the alignment. +
      +
      • +
      • +
    + + + + +    		 +
    +
    +



    +jalview-tree-div +
    +    		 +
    +



    +jalview-pca-div +
    +
    + +
    + + +
    + +
    +jalview-strucddtureviewer-div +
    +    		 +One more thing. Let's take a look at the 3D structure of one these proteins. Ferredoxins are important, because they have +iron-sulfur clusters that can accept and deliver electrons in metabolic processes. Let's see if we can find it. +
    +
    + + + + +
    +
    +This is System.out. clear it
    Add ?j2snocore to URL to see full class list; ?j2sdebug to use uncompressed j2s/core files
    get _j2sClassList.txt +
    + + + diff --git a/utils/jalviewjs/site-resources/javascript/deployJava.js b/utils/jalviewjs/site-resources/javascript/deployJava.js new file mode 100644 index 0000000..8aa7a65 --- /dev/null +++ b/utils/jalviewjs/site-resources/javascript/deployJava.js @@ -0,0 +1 @@ +var deployJava=function(){var l={core:["id","class","title","style"],i18n:["lang","dir"],events:["onclick","ondblclick","onmousedown","onmouseup","onmouseover","onmousemove","onmouseout","onkeypress","onkeydown","onkeyup"],applet:["codebase","code","name","archive","object","width","height","alt","align","hspace","vspace"],object:["classid","codebase","codetype","data","type","archive","declare","standby","height","width","usemap","name","tabindex","align","border","hspace","vspace"]};var b=l.object.concat(l.core,l.i18n,l.events);var m=l.applet.concat(l.core);function g(o){if(!d.debug){return}if(console.log){console.log(o)}else{alert(o)}}function k(p,o){if(p==null||p.length==0){return true}var r=p.charAt(p.length-1);if(r!="+"&&r!="*"&&(p.indexOf("_")!=-1&&r!="_")){p=p+"*";r="*"}p=p.substring(0,p.length-1);if(p.length>0){var q=p.charAt(p.length-1);if(q=="."||q=="_"){p=p.substring(0,p.length-1)}}if(r=="*"){return(o.indexOf(p)==0)}else{if(r=="+"){return p<=o}}return false}function e(){var o="//java.com/js/webstart.png";try{return document.location.protocol.indexOf("http")!=-1?o:"http:"+o}catch(p){return"http:"+o}}function n(p){var o="http://java.com/dt-redirect";if(p==null||p.length==0){return o}if(p.charAt(0)=="&"){p=p.substring(1,p.length)}return o+"?"+p}function j(q,p){var o=q.length;for(var r=0;r";var x=true;if(null==w||typeof w!="object"){w=new Object()}for(var p in r){if(!c(p)){w[p]=r[p]}else{o+=(" "+p+'="'+r[p]+'"');if(p=="code"){x=false}}}var v=false;for(var u in w){if(u=="codebase_lookup"){v=true}if(u=="object"||u=="java_object"||u=="java_code"){x=false}q+=''}if(!v){q+=''}if(x){o+=(' code="dummy"')}o+=">";document.write(o+"\n"+q+"\n"+t)},versionCheck:function(p){var v=0;var x="^(\\d+)(?:\\.(\\d+)(?:\\.(\\d+)(?:_(\\d+))?)?)?(\\*|\\+)?$";var y=p.match(x);if(y!=null){var r=false;var u=false;var q=new Array();for(var t=1;t'+"<"+'PARAM name="launchjnlp" value="'+r+'"'+">"+"<"+'PARAM name="docbase" value="'+u+'"'+">"+"<"+"/"+"object"+">"}else{if(p=="Netscape Family"){q="<"+'embed type="application/x-java-applet;jpi-version='+this.firefoxJavaVersion+'" '+'width="0" height="0" '+'launchjnlp="'+r+'"'+'docbase="'+u+'"'+" />"}}if(document.body=="undefined"||document.body==null){document.write(q);document.location=u}else{var t=document.createElement("div");t.id="div1";t.style.position="relative";t.style.left="-10000px";t.style.margin="0px auto";t.className="dynamicDiv";t.innerHTML=q;document.body.appendChild(t)}},createWebStartLaunchButtonEx:function(q,p){if(this.returnPage==null){this.returnPage=q}var o="javascript:deployJava.launchWebStartApplication('"+q+"');";document.write("<"+'a href="'+o+"\" onMouseOver=\"window.status=''; "+'return true;"><'+"img "+'src="'+this.launchButtonPNG+'" '+'border="0" /><'+"/"+"a"+">")},createWebStartLaunchButton:function(q,p){if(this.returnPage==null){this.returnPage=q}var o="javascript:"+"if (!deployJava.isWebStartInstalled(""+p+"")) {"+"if (deployJava.installLatestJRE()) {"+"if (deployJava.launch(""+q+"")) {}"+"}"+"} else {"+"if (deployJava.launch(""+q+"")) {}"+"}";document.write("<"+'a href="'+o+"\" onMouseOver=\"window.status=''; "+'return true;"><'+"img "+'src="'+this.launchButtonPNG+'" '+'border="0" /><'+"/"+"a"+">")},launch:function(o){document.location=o;return true},isPluginInstalled:function(){var o=this.getPlugin();if(o&&o.jvms){return true}else{return false}},isAutoUpdateEnabled:function(){if(this.isPluginInstalled()){return this.getPlugin().isAutoUpdateEnabled()}return false},setAutoUpdateEnabled:function(){if(this.isPluginInstalled()){return this.getPlugin().setAutoUpdateEnabled()}return false},setInstallerType:function(o){this.installType=o;if(this.isPluginInstalled()){return this.getPlugin().setInstallerType(o)}return false},setAdditionalPackages:function(o){if(this.isPluginInstalled()){return this.getPlugin().setAdditionalPackages(o)}return false},setEarlyAccess:function(o){this.EAInstallEnabled=o},isPlugin2:function(){if(this.isPluginInstalled()){if(this.versionCheck("1.6.0_10+")){try{return this.getPlugin().isPlugin2()}catch(o){}}}return false},allowPlugin:function(){this.getBrowser();var o=("Safari"!=this.browserName2&&"Opera"!=this.browserName2);return o},getPlugin:function(){this.refresh();var o=null;if(this.allowPlugin()){o=document.getElementById("deployJavaPlugin")}return o},compareVersionToPattern:function(v,p,r,t){if(v==undefined||p==undefined){return false}var w="^(\\d+)(?:\\.(\\d+)(?:\\.(\\d+)(?:_(\\d+))?)?)?$";var x=v.match(w);if(x!=null){var u=0;var y=new Array();for(var q=1;qp[q]){return true}}}return true}else{for(var q=0;q "+o);if((o.indexOf("msie")!=-1)&&(o.indexOf("opera")==-1)){this.browserName="MSIE";this.browserName2="MSIE"}else{if(o.indexOf("trident")!=-1||o.indexOf("Trident")!=-1){this.browserName="MSIE";this.browserName2="MSIE"}else{if(o.indexOf("iphone")!=-1){this.browserName="Netscape Family";this.browserName2="iPhone"}else{if((o.indexOf("firefox")!=-1)&&(o.indexOf("opera")==-1)){this.browserName="Netscape Family";this.browserName2="Firefox"}else{if(o.indexOf("chrome")!=-1){this.browserName="Netscape Family";this.browserName2="Chrome"}else{if(o.indexOf("safari")!=-1){this.browserName="Netscape Family";this.browserName2="Safari"}else{if((o.indexOf("mozilla")!=-1)&&(o.indexOf("opera")==-1)){this.browserName="Netscape Family";this.browserName2="Other"}else{if(o.indexOf("opera")!=-1){this.browserName="Netscape Family";this.browserName2="Opera"}else{this.browserName="?";this.browserName2="unknown"}}}}}}}}g("[getBrowser()] Detected browser name:"+this.browserName+", "+this.browserName2)}return this.browserName},testUsingActiveX:function(o){var q="JavaWebStart.isInstalled."+o+".0";if(typeof ActiveXObject=="undefined"||!ActiveXObject){g("[testUsingActiveX()] Browser claims to be IE, but no ActiveXObject object?");return false}try{return(new ActiveXObject(q)!=null)}catch(p){return false}},testForMSVM:function(){var p="{08B0E5C0-4FCB-11CF-AAA5-00401C608500}";if(typeof oClientCaps!="undefined"){var o=oClientCaps.getComponentVersion(p,"ComponentID");if((o=="")||(o=="5,0,5000,0")){return false}else{return true}}else{return false}},testUsingMimeTypes:function(p){if(!navigator.mimeTypes){g("[testUsingMimeTypes()] Browser claims to be Netscape family, but no mimeTypes[] array?");return false}for(var q=0;qo[0]){return true}if(p[0]o[1]){return true}if(p[1]o[2]){return true}if(p[2]'+"<"+"/"+"object"+">")}else{if(o=="Netscape Family"&&this.allowPlugin()){this.writeEmbedTag()}}},refresh:function(){navigator.plugins.refresh(false);var o=this.getBrowser();if(o=="Netscape Family"&&this.allowPlugin()){var p=document.getElementById("deployJavaPlugin");if(p==null){this.writeEmbedTag()}}},writeEmbedTag:function(){var o=false;if(navigator.mimeTypes!=null){for(var p=0;p
    -
    -This is System.out.     clear it
    Add ?j2snocore to URL to see full class list; ?j2sdebug to use uncompressed j2s/core files
    get _j2sClassList.txt -

hDrUjOfMgQKuMYm|_M2Hey zwcfUwP+o|BhaHnS;&`%xJh+l=;L6zi%}*9x5r*WeUILBBJ?sQE58~38W3OE~*+(Xl zN@w-7doPw9LyN?_PJ^NmyzhINJ{M|gPXY5?v@xDsp5s6uoDSo}4FXl}71JI*geRdR zeo969`7~9mCWfGZsZf#y42`2408kOb)2PAdhX*C|8{0$oqy5O^?hBZ*Boq5#9Tztv zk)&NBW5HjW6P-05G4w-yY3?7a9)Wy7t~wSEwntw&SKz~`HHolpVKJWR>$qdRA()6B z6*sYgZf`?-DC3nI&3Jm8HxjgOUg(KjZ_cG}RYE@{k_-&;XwzM#c|tqI zc<_U}Q#;2&W^qRJe^R%38k}r4w05~h5Q;_DdOp>l-H{S3-LinAQ#wmDv$(=X@eOx5fQCBD z%A$oMh`wf(e5p)KyexKPK!leSc6G}w(dy&h%Q1Z|1-8t8GCTEP2P9{A|=v6OcVh5V*aOHA_L%Ivd?T@9{@m z?}Y(1K>;%*HW8Ku$Dxie*fIt&bN=E((3%k@uk7-)xknfZiGMZ1i;f`t<645j$nGK{ zBp9JgLq)Gt5$`l5g+;`{1!QyPl}?J@b1ECWbfLCjVD>1&?HzH2bapn#ow z&D>W18iLQ|4s2|GtV3*DHwzZ1JsNhTAxE#bVQr6DnYN9_!y$^w*P#sgFu~1ko7`Dq zj-0As`}t8t^S@>HR+^WAO#|L$Hkb|KIN%WQ1_{d{g`4B3j*Ns$#7m4<#dq5qbo7Xbunyh!c1@5=iJ+fIjF zL~{jHtMG%lR2?LJdkS|x-Ao&Lew$D}#$|_eBzj%z8ack1)9O}MJ$n1y9$mB0;$!(J z+w*&o-Tw`ihCLLwiNNRcsaQwzp!<-YH!pK*cJmKlm@w*Hfa%pWh%|yfbJq3r9$+mI zvBmp~f^nW|^a~iNH+L2bk=VP4BAZ5Dt`@_JE zwazMKu4OT;283uG(IX3vy9;}$<_(`e8)qsH;kSO8b)UJ^8Ash<4!q5IF^tP#baRoi z{Cfb74ltEJH+uC5NfYl^X;D;%**LeUc(Ckkj zKLB8-{}6~5Kp%|6nMxP%_!W~+i0)i<@Mq1Mc9>KpKlu8)-1Q*xCQu=uE)cU(IkQ8? z6(=+nf89;i5^Goch0P6^sI3%Rh7RKigs$y}1jq)%NnYs4C9LipP|)3|KnlMi9DlPh zL_b?{#dHr&IhphXgNN`7wpKssx2ZD{1`=@u5Yn#zx85~g6(v{Grc z)kmRX1%7p5SXqGyDJPfV$3_`_!S#$`bobS@pqvZAK4QpwZQ(RKZI-50g+z44H?93l z%lw2si1-&cAZmt;6E~|B-RtQAyFe>hG0X#kpN(B}RHL>nUcLFw16HA3_xieYU8&n_ z!9!e!(@K9zvd8VAui>~>!@GtK_Fx?VR(2^NaRmRWbAuSYHFF9YM8;ygc=4fv@@@Fs zi>_m7azba;CWr=5_Phjm<9}t(4HSx`SYf0?1JubA@WU#53L`sVC=}o^7s#o76{@=D z>PBCLJD%}sZGqR;-+?rrR#DEG#F@6E+V(@D?F#d>vO zy)nJRWv@7Ff4^i|6BVwP#aN%c*6a=v7wEul%>ao~boK=efiF zIq)uoiErc?lm({3*axeNiuAC+_~N2X&SGXW9m*=6^!8@f>FgV~r~In(owB>aJ5>ba zf%Mp3*ZVnK_o-2CpOG%rf|iHt>Esq%GU9pt;`dNCKu5Pcu1dbV0L=y9G<$vM5&Vp~ z&Y)Z>uI^ro>}6l0kaWmd-!KX zjNpz)x+eXBebv0hP!2q+pxbkl#F^OBS%zM=#Cn_byTl_bEhcYBb(NISx?ikq4dZ%w;6bahGl$seh6HFYn8h%b3v8MvEa@)Lr+hTm6hFaQOe z!%^o-g}9aVkhQ-@F^g~W=?3V~=h}t+aKFhDa2u~@ zv5ns{?TA110tXlrlZSu5`ux+FYY94SXuf)%UX_b;cCt+?;z?*ir?6ru7$y{LJK@nb zsJ;<#0{tqHKQ!gzQFq`A26wKUtD=k;c|(#Op}CP#x4@aRKU!=B)jGHj%t^q!WAK@E z`pF%{ofqA#sE06Dbg{NX4_<%Vpc;26d7NCoV9?6r00zI!o4_n8!(nVaA2YqNFK>I$ zE<(LOtJLmLT=f(Sk;|iF-r)vjEVQt5K}yPuX!tN_gC5VZes4wl?0Z&PxzyB%bVvO* z^O*boCt>IN-PKs7;JW~vNwoUfSmgn2gBC=+fM(lrmiIoIFjziTRqQJ$EaFJeA#F*u zFAFQB357JbH{8oJnK&);rtCk`k;xBPL2BM7n0(BSHD`%PDCE!qZ9bA8%I-}L5g zl|pN==5%?QI`(SvDo>{Gopl8J$1nD{YJ$6z%Y2)qjsKC23? z?QmhWIvHZM-t^IG=p;XD$J$`4Wm@3%fG@*uVd{bU~)QEE3b)ByzWo zM!!dTEY+ZcEcLNsOU_z9fkV(=zfTY#@h9e?uokvb#4Xpr|K;&MaSS4gSQ?93EL2!z zHU1@SCvqSDCcb7U#i2=Ob0*}y+uFD+j3m*we>(X=fT&IKB2R`&xgKPL=ENZu8r=dU z$-Z36SoNgfnDrXa6aMUkTC02V`_peu2+P z{Xs(M(7u?m#)O*nlsEXxW{m?04|R>MdkFtDOz?@O{{YhUhfy`Aak!R2^7$WIB54Vf z=wT~n3VmpCAy4PB!_YhVyjINqM9n%>%|gS_L-Uo~>j?ZMQDu2CP3+a-8|P_rU*~tS zP*(3(HN*Dl?==0pB?qHrIi7=OaRbQ0d-`?d#3!R!A7cA+*SFyS}FBAcK}^3r90L=MS4@E zXnd}wR%6~YJdK%*agE!JQh+#`1L9zZ_i19gPoKdDai_zOvQ|~PSUg?>;CdpsXCq#h z>#=9cgwcp&RF9fs*Vu3JZiuGcTXf-e*h#-bGikjLgl+g!%hknjjzIB-H+jm*b~&dKh`sC7ky8z*47y^<{nJ$ zWhDnN?};oMjtsZ$ShL}_`EAlLyA6XqVPS!I!{EqBd>fz9{=6*`D-qP2NBY^h2}cDd zRee}%C;pA&*Vc)Ky=Xm{cZ8sFceG4TDdi@&Tk~x6Ns310yGzbQVbvvCyAyvgbzq;zxb-T~Ab8S!dTPc!GMUp>gk2W^p;&m6F?8`k5U$GAopA0Z^b21$q zV5Jne`i>?#8WK)(g_3&LOC&tiy~q>DxQ%fGcb&UudwkY#U+XY zPqvuAvhainTXwPC?X(<^Uxr^3`6G(tEUDos*6F40sr1JF=u!>SdV1oO$i!Ry2=#31 zz$qU0^LWJrafiocKka0SoJpRCdZ>Ntob?KPj%fQeO;0007J4~eD&ZbHXwH-#u%hOP zS6>N-pXG3euEU<0De*5y!igG8Ql`#YA%t5v4d?|o3NMTZcC3GD)IYf*e^7zY(hGvd z7eoK@-ou9Rhf>-DF@en5;q%4Uy;Vd z^^8R+rjDmL1^Px~+npuYfz{%i19?u9Cr z>r0%bC|5x2Lj)Rr^NPVyX2*C;Um}iX7q@dCA&bmz$xkA1K=CDbSxqA^nn{zym>yC$ zOEf&t_^3shqRAde+p-Sup2D_y@1O8~Vfr)Nt9ZV z8jC@vjr(?Qikx+}pvxxwOE3N$=cp>ycnfyZw?LJ>s7^HB{xZD%GJI}~rqlfVswNj! zLY2(_05UjqgBFUj=2210^HwwZ->;i z6^m(i8VnPC$6^|uZ}Y^pS zZXNR~9DkYU6rw6LVfH>4BQ%6{{&+s5-@B9^4I|N+cM^upqt zWZ`+~C)n?=?)jHeeLRKbW=R%vzMUE+mR|5&pS9&CsHbigd0VoDyND?25L)*?pA^e= z?~#wK;)(kr{>F4T>lk@{eNAl>L$D}lRMZM~<^WUc_Z?tqrrEYBd+gq$X9FWZW_n9i zTibCct9Xjv0e;n3Bm({F?R0~-Jk4#LMq`@K2|qEZdWf2Bzz^$`e(>&c zlM6H9SBRIX(zea0J(mZ*w7Mj?CzT!x%huF#>B^CC%p{Z1|=jNb&g!%U3$MUJ|u} zMrQ|$ok_k=_h23jnTJo;c7VJnZDVWQvmc73`UAb+|C}PuOg9>rtQf!Ua{@S=z%Mmp z(%IoZ%q#}CMX<40Nn=BF?FG>rU$OJNh^^*+R}G0NWp5kYs$+fKSKqVl`-qRJn~vO* z5o?*}Sg@w^?Ihk}PQ8xQ%3nGf-=eoqi|3WmJTTrp@%IynN}hT;r1qOh9hD;5HxQLr zJ!yoMQofA(z_sq(#K$jGQ1(=*#rP@L;@Qv3G|l$Ai0ZrmRwCu}jcOVblHxntmWg## zEQ6HA(}%5Cg5ou16Z<+n0{arTkqP<;S*h1A8`mK7D6*tBDDP3|`H&k?@UfBUMhh5wgCU@DIqh)B}eH~SAxtuav_UHP^Xc@9xkz?<3 zRifd~yzli^=-cHlai*?F?4e4c%L|6f25~UfS{kv3LG^ARFSc#{MN)VD`g9t?B+Lh z@pIBxp+1nuu2R0CU~rc8QY9b~<*Nf&Lgddw8ZbKK?CfvuHJ=ps*{{{}t;#DZ9MRoB zF$f-8@x^C-i!q27JJ%ofY$?Ghy-!4LPc>jC{_1owdWpJIQH{3c#rf)PEIJ+(Kp#|r zoYkG5M%?8(JPsYJ*oHp@1L*BSf((4LDK|${*zd27u?ciOQ=HE}J?Tij$`yr|kcOf@ z=@%Yd_$^{{iXkh7s$O$y6ux%ZdbTn(mSN{nW{I2-`Rt!ckyCI4qI^JZ)Gz3_$xsGX_(?Ijul9p!ek)>wJav9k6fQUds|#vzcCrPz+qcVV3=YP)8}DIjT1wD1FF zj>^|b()kJsI^Eba&go==N(Y21WMb*#2u{kQntT#N9CQk|-u-~^IAsS>g+0*rd@}pT zqgubkm2nwO`PB9K4NL{apO>}(`pP~FuwJKqK%-@X3>Pq%{EUB}^o`82Lz4m3&_B$> zo%H?x)43F7Co?{7ZXyjT#MtrFi)e_r)#Gc56LZ<|cS$EYD zpc^1cu(hT!?E(Ir=3E6moz|rrUvj(X%k{Fj5!eGq9Dh-eu8YBfxWwVIvoIJWjs1o_ zw+o=YzXCF`YASHMX@XWO0^wLh2~INFj@lgM2jf4gZa?pgsb~Dkd0;-_^r!@#M#6^S z!$R)6zD+Zk2%S+?Rl|vNvUZ^uLcI zrHG}&M(V2CU-u*aIA%$rD9Q-OO^?N<@#?KFmIV%*(}sr~Kf9#+nYrVS=N#$=wyK=C zIy!uCS}yhg4k^Db-V0H*9^y_k{wQc7w~QRU=hwm%l0F1Q58?Y3en~-z8g-qzr-n5> zL55_>;b3GC2809ZeFD5`>hM>V3muMF!VewvVJy+skGP^Kn#SKgL4UNU@~+cQlrU(W zU>KA4zH>kuZ$+}4c8Qx-eRib{{(nD*a+dgTD#wYX7-uD*VukC|YFM@;$XK%tAFh)=47p1R7l5J zo3{hL%H`zEosxp`)?$8Fb$Mu?pU?d=xCla^!nmsP@Q9FJv{LFGvcVb?^*w67Lm+-& zhaN1AU)Jb{l;{Nd!;5P^b~?~!HzVBXmfmVvFc|1hH-FDmGvi^);iRuWHZKj8>iFn( z$A9YP`$%z>I;%(bUaMffjynYiRaEt$1A2JJ&7*LGA0lJH@~pWKP%3e6I-RQoVGryx z(Cphna~jp~!QCWJSi;w`@}A#$iSJTW8k*_xWw_lD^0g$)Re>mcDebTZsz$Qjb34rissL1y4HT+`K8#HbrG88i7u}@wS(j_U{5O@- zJb9evIL*txXVP+3pa}m+|5abYlj2NByF`Z-sA=4@xG%pDc+qoAbTN3As$Yk7GT6dX z>L*Q2h_e)3)BS&6&JkFCCd)dg*0vtUM?ZZ}zZH9BJa)5bIG;7gkjP;Fd_sTrjSVw< zAI;b9Jc(6}pYUCD1m8w-%=}7_#F04Y(sQMQG3?u=CVfa(;Lqh&@36ZLOW>&R`45~c z^8t@L9>HOqPP43P%=ht-nSSXkNV7wlq1}=_=A6KfKMjuxp#A;b<+3K?u;byPf~r z=zV%qw-0M_xWi+G55Q1Y6kgo7{3iL#B=>W^SZ~ zoZQkv3hDAqE9cej{;?*664=Z0sjt4XMhk`=B72bda~rls`RUNrje$0`9`*sR?#j8hK1qgF(MqsoRE5Y(_YcaO z{79^(uZ^!|&(G#!-a~vfe_I3p<$ny-c5~Fe+DFztX_9G^r|<6oRI;kdUTX(E>Ss3} z?V<4OCSUMr#Rt(pP2CL2V@OJY%@Y*v7Z7Ori@#r;md+jF47WgW61?+*+80F`Uj&>SbY#iS{jCsqt`ju-)m{Wz21w0&@tPSAc}2< zRh!P^(vOG-7St`2?WoOfCq%A_UbOaP##W!db1NbzCPx-bs9ej2ZhBizH z@mhb`E0h=me$23Z%9$8YQZC+mL`ilyF?~)!krs&10+y2rWp`@uTiI76jw@7I?Skd= z+5bdolO3g@M3N&?Kt%v)Iiv=^Ix+a0b7))J%a!Rbxjpt&yO92??uXi>?&2i&j&4US zUs8?^2g^)2tGoY_sPFIpu>_Do8Gw(@-}VymT7*2;x9jF=+ZGoSYYFo_?DuPWxk(pyxtS*# zoHKMFp1r)6Bju7#T+x~cVy&TSj(ov1q}ruNYM`2~_>!GE42B}-OfXs$o6md)aAjCA z3BJLFRl))QJ;Y=h@;eqINs$HbK*e1`!p^l8Wj9hNNNYdg;mX`qnt#;ycHw$Zy&zlC z=?2P1WR!Mti0#W4F~?o&KQ{|(L6kjRb)stICaUD?acpCX#3a!l69c4oMb>~_Xhiyc zu7vo#`kbRU1H08PkC?Qo9DKQcJFZ_kg{;IQw3}W6WE^*H8WV zuWWYE-+fem0K%9wButDpbR|IEH`e_)N2G`hc>4%aIu;AKuve)!NV0>!eDVt z#ePs&O{MU*t*uC-^Tck%`~_}ik~~lP=CPVx;|7OW49D81S_uH=)Ti)1fI=sft#LbS z1iBTBXk778pDsr*_ep?1rXETNgGEh`U%^Yf%7);(*{MpC0jVw=a-!+S@$}@gZ^|C^ zWBf_gWuUuX31w@K$5tGu%fcg)K}7uX5`LB0w>y<>J8t_3QtKmLgNeNE2KUyXxs{;z zv8kBJzQiQsZ!hZlszA4fc)9OR>#h}e*^7;B-RTH)y!G3Wf0Y*`mftob(c59L{PgYM zv9ZE#pk8n;$-Cz*o%C>jkI3(<9ZN=5Ls7=g@Y?bM312Ei4c_VG(JX+-_*RxAFEvMh ztG-G~A-QC~J<3fN_uRI23AMytc2i3jIMVtBKb7r7e9hH!gv=d@;@L&6{W%gZ0Ti-) zCH<+t(Z4*QC!q~0Z1W3q?qo4KcB&ivde4qhUh<*6o$)2#5`l;f7=9nGRY1a*w=5?<)Egp;yAKW0Vk(H%;_# z@57A}vch%tIB$Qo+%I-COHlqzbMe`ru<}%%_}l4D5z8$h>2;UPa3gYs zt6%)l5wvwgpgfhb<8@ZIqf1`<@6U>R=RSf!pkByZpf_7E_HjISb4Myr{|0FMf_Dx`J zR<|1ti_${W&9k7%_M?|WqLXy{cMf!2f#!jc;YO3R>4mGu+J|o$2)-UJW5I)HG;QD~ zUH8?U+1Bh$tdWS-<5C<}g08tzCoh_P7 zLstzati>iVcL~yIydCo-Cz11syPr-pQwk_8ZRyUW%Zx@+jzEceE}m!$DMT=PAau!N+AZd$hAh18Nlp21P4MDtRrCv7#%*^GyEkZdy0 zZre@^_*ZE1lq3JutQFOV3R?=y7oDHg--_J3gkKhW%y?H5;U&h$Tcf&sEVKRW>gHk7 zwBht);Y6te^0)BHA)Kj4L~b79*WzI8fnpr?;rl+XNu$H?k{OGPzZr-u)!Nz?>KT~} z!G})q2M`-B5Nv&Rl@UEIRG&8$Hs^VpZnNzB4FyPt{nJSD68d`r{{lkt?^ zzhB!;{>(bcKzKj=*&R5{K^FL)WFSg1c#kDb9N(<|n0u49auzssKwUBU&Y>Y_nWtTC zw6ECDvasW?8Fv|wI{8iTbr;CUu zdkb6`n7*06^GskOEnr=*xr8zjtcT5g<9apfB#_T^#k(vLI^Mc@;HitQT23<%cFb2Z zzpmY&3v|2>7Y}!SchW!tZPz0Oeyn*_9&EW50%{X)U#rDBZ0KiY$uH`P|xUO<~M5ggG~1c^+1dH^LPc8 z(aAe6X){d)=oy#kmx8*ot**ZqS|(M=4$yZR0XD_DKN^KA_A->e`K@N@B^KO*@@?a9 zpZ1hpM@Q3a-jr1VOT1E6GntqO_XMBFDO+Rw8r?2zx3naF3vF4^jYgyd&RiNL$lgM* zd&xt&wZeT6_fhmxX$$#5oO_aVEKG|5wQYHV9yVE#crms$OG{g(9JRE)KDfPkTK#k3 zWMuQ@<_=4=)MNvd_Sm%HW9K%N30|3|`3>cqK_=-guTllqma4FS!RLIPsh)hFJV8H4`a0ciQwU4PLl*Bbxz_d$Z)4@ap# zh8YO!z3d0DwL*S?(jTyO(VD7WEV(KW^rl3E5encF~*qE-PtUj)pQ}=4@Z&ynVB;CKWmCsI1%5Zz**W;R5Ug=<+c}K(b zCxl+Ssv>OdABlFAt|M{rX+N)h+?G!}X^Mjd)r-vwmrH^+!`yQJ1g^6u=20>Y0qW!n z%-XjS*O9GtJ}ZBpwkdL(xZ3b>b(oGDO~d-qa8NEd-1g>_`Eo0*sz+aGrPbd0di1bCM0rkp=Vy0A^%Rer%#JX~}!-RZ=ug9Zj~NF8w2bgX+X zGjDp*b=q~LvuWV?5s4Znat1mD+Xf$kam zuDklgiZXIT_C()4m9C;hq?68le?U-xmdU-yd2}ZR@vNCNvisdZWm``>TUGc`Wdxbs z#ByBw2IAwYlABxC52x|Qr5)YrPu;Z~W2JE@p<@l}=XbN%1BtPrr>5~sMPpDBl*Q!r zn3;N~pI_b3P-*09MC{gHgKhXCW1XpqNzI(kb1qwhPdA_Z>0V{!o2*Z81?FN=S1k@f1DQVEJV~tB2rm z1o)5DMFswZDKIDUWqlR&x=u4iNw=ZyYD4ng8VafM_3vP+ESsWxI>d8f4VGk}H)JM6 z%5g5%M=la9Sdwx1iaA&t!D(x1BktgA5it}5~h9- zpbkQ_vyT*{-8fuZW_)>1Bl5+ySw_98nry1M>cOGwqFP1s{yzV5tAi+*)z|*0DKg~d z9dOhbqZqi7dVQGv_(ARyH(z;bo32LOYzYrIn8;3gn)P#M9pA;r^?RSC1<&x z<;E%`(UgnEv-wb5fM65ddymu@`^(8nGenTXX*8bI!YAYqDZmkSwk84W@1NWV!WvD# zjo(~v102kjI(RBJs*S82q2vU)-2&(wzGlj(Qy%t1Xua&p}j=D>=LC3w#4YvdMV;D_GY3-J7@}E|q{0HS}jmpL^ zaL5l;1JCuabBM$*bBu_W`&9Sq`jxX8Z(>WL+10gh&uQvm(7gioS#BZxu+4s@nCpPXa%9k~~TNJt$mo`-`v)91s3ElQtA!pOf$R8D1p@b?z&DVa_wrBvk-AvX5{ z7+<)ZnDrs22idSt8~gC0a5q&RC(og=_W1VLF|0=&7Wzc&T#LpURwu3UN`lR8`otT$`@lN`LkH zr5KQx{Q<=%fjn7C8x~l*e?knH$s@kkI@jR!q{1B0yRbdCgrx3bOsfGlMj!#`Pg->=xr27R3 zW{k#Cw>_6M2d>ywRBr)^&2P#APEpbCT(!jUo>8IZ2JDMS7Wh~4=i>AdCZhe@fJ4N( z1)zOY0-S8-bL3*QZZYdCIRmUT*$9}HNFf_Ho6=F+zFcOX@h%$WOImLj5Y}(&ZHj+< zRp;p8vB0R7gO$+Vtj$ztPMq$!L)e^uZKJvHK~>tRpLy^wWxX7P7Ox4wTOO7iE0zx{L_ttr z;akdj7W>^!G*RjMrd|yVTnDLsC3ZvZ5H}-2i?5+2L$*kl8AA!Xhfk%^)o{N$&RP^; zo?l-R zMlEn2w)brM3CYZ7NBxB2X#zJ2rX&eAsb;~;+>r7v z1rk3tp1oNW->coVQOvYamRE>98+XfE!$|r9_PBHme^)){}XBR_$?(2ie#?`HDe%VGCi~ z*It0wLkW{)K2%f=v_UTTdejTtNIe`Y=ue5>oMd@|bu%ZTR^UHzb#$M=IsT0#A^&SI z?Zn6GIfn+;2@8#5?#JKN8f^An7s7kxnnhen@cV*AIq1@&@3<9$yq@&^H+{F#5MH~l z6l@FN|Ba{>@~>amHVt;E2EJXy-X*!WRq(0V2dei*j30hmSr;oKls?th5`0y2pnEEf z8+^w2V^^P;d(~3%?+dD{_mciT%J3ngoQy}v?bn9oPT>wyx0L3hJikiEKbB;u**1tx zz_-55R+i6852U{O8qOI!q^bJC=&&jbb)2 z6d#r~FP`5w=H1;oPPvia)%dDIRPKNro&dt;8=|b^$vkA;6{xBcBz`X&2tR)Ia4@J2 zkt)jG358{NJK6r_KB+_qkHzdSwjdA|1*c=#1%LUXzjgbV0#5iS@?}JzL_TPe#3iTd zC_D|}+=E=IZp08A)nI2_+N1_U1aR$_kCMf0)3jEf9THX_im1S;|G?p1*q^+c?%j;g z&N>FsbB#t+g411}s21h9>j&bQ&i>4tshiHO5&j5yZ7B@pVS+<;KC|$`=)TrMguVTv z`R&@CGOzkLi1nx5^m#<-P$-!&{heHIP*vfsMovaxCc@b1bT4{5&H;%gg8jmLY;yYv zHlc2onO{I|4+jz8nrLQT7fq_~e6~DJqeLp_Oe79u_J?=YwG#|p_DAKwt$jdK$}iB% z#4VFv> zXtW~XGLO?H^Ck+aW{xtES+-82QvnKL^fO7MkG(TO`4Y{$hrBViDsw& z7YEdqVxi!ChMcsAW|EBVQUN564&d^=o=rZJyrqOd0gKFTPnlx-QLoNYe)qdVTGpCO z_02SHkh4|q``2+`LOlMdu|DBQrOb?|OMOiln)kPszX02@$N?>oJsTxPwJ1SL`~F=o z?57$seUg>UGWI1q^}S>XNkm6PNIogK2Pc*{?w#s_u2cnvLlAGaS{ z1M|kFQ@-S|iM81+f2yO1b={eLMQa(&==82;l3-U|W=OzlCt5MxO5C#dMO=b95NR;D ztJbH2fl4U1xG6ka+s}ZRi4QI_NcSL9icGP6EjN05Z$2PhW-IQnWv&u|_8#SUN@8K{ z4;Py+G6_hv&FsTc`9BSqQi27cw*O>1`#?{3p znYq;^M*mHiAL>B-RM7chlIl)zH*z4e)BQLk4M9IZ&nb;|%m{A5dncf`sXw(jPG9;* zf~G{?6roIAt~c8vX~Ms`^l6vN4yt6}S@@}EisO%h$!xN3Ge9{!3C|pK&<^`!*SVdn zodPrHB0}?s8;+2F?4?O-#4hlqaJ7fS>D#&$2=V0`h51;pAgHbDD24LMCB`0hSzeghkRY}utUZfSXUvRdxel6*p zM^^ElKK&VHep6V72H<{jKc6{BBvQm3JF+ zS!%PhKI7X`-rw9+Tp13U&sxXi6zZQKR6iw_S)@IiOX5|Z)*EjmXil85wd9E#^t{f1 z8S`7VjCTLZtqLMev+=rI?gCs^29!6mySL>nL7pXm=A_U^Y1rsv7mE++>tkHl#MTs$ z62rsr-qam0tQKWG=Y44-GHlBz`ss}yS`(uaAI*bdB_X2=i$uHW_g5_f%ZAki(pLin zgCa*^YWf^`s|tLR(biO_w5BLC{)t5@dkTy&Ys@7E)W0AJAWZ@UiVbnJ`-KZDA*`2) zgy?$^6=A4~yc9Rvf0Owo2Eod+V{!U@AFF^WN4}zhlfFbC{_Os$cJdY*46V$1%S>`( zw7#$J-%BurH?ewYtbjN!^6a`wwF9oEjpm={`CYfQdI@ya@FsclzG;HOdM6s=C}?Lu zpOEHuN`*&9?>ef=`#k;*s%Or1q#C3M>Xt7RTfhFlbAZgGF<{=-aI?cM>MaUc5_TXi zlCN1-SH%BCX0&1L*!kn*IElDHHST;}?%<Q=8cK-*i>|igkXh;<&5tR%C%7E3qK2 zO-_s5fP5Nok%Q4cKa&KV>);)H&aCphAvs}oz_`2w9>hE�T7YT`_@(R zfs`Rt*q`pf*hXuMSVPAuw@ySPlP*%1Pn{oiMi{UvydF}%tffMx(z`b?> z$JNWMfJj(2@$6R3=01o9+?jfF%anC(u;MH9n(p_0ixl@m+#npBv3xla3;zRzBtQ>b zQRIxgB9%X45J=I{ZN11G1dHIhuZ&!rvx?OfZtLx}!SNMSSl` zvbk2({1G@eJG4?z&H6;*B+IXWfPpZb7J0_bX>C0F*=MaO$$r1rRvqXC;J)(R8)VsG z&8Wo*O`(37W75jYk<|w!v*fU{z|{l#{8m^EI@@%VQ>1EyJMl|jb*Rx z==#{GqgR(iuni9!Xu!w#+Kxtu3=8{QnYu#%knx<%18^my!MpNRv(9Iq(kORd4Hlp_VY&CccC}?>=hgG^_kJrjx|i&y4txP5i)TxdGU|*C zPoL1qx%G8ZVO@P{2EKkMOTV#E+bR0oZ#ze;#l40*J~yH0H?>W(NyQLFt$yMeb2Nf0 zY|am$jZOB(!T@#2F2e>x`c)s%oX_p(nm40@QP;CFfs*0&fcc7{6w8_fHo!ATSiCEV zOr@$OD`Q@=yw`u9$SCY(q@Xo6V?5$c55ntFU!5N1z(zo#5tQhOYlz(>O|dsN*hUP^ zi7-sPrssqPe z=xrRDd&RT*JEy`Y8I$mn{{Slh%nUMxfk!Bk^?Rw<)3=xMtx#|8g!ko6AJ$uzjE@c5 zMx3LcgRiY?Nb8ermD0+VX!I1Yo9>V?=sW$7U%-sgr%sHj!W^bWv@Y% zUIns`lhop#1j5phwe+vx?tR`ig`dZscb-ZK+#$~p;)^v^Hk{cXZE1AHlo*9*NPx1; zwCj@=1J&xmqeDheK?i7qD#GURFv1!eZfB_pT*`-Hv+C&narT}1iPs<$ zo>P0zrkPR&!7sCT$5P1RCupg@)@Vx(X6@%4uk^?cuBbXQ3GhIy(pnRV0cSqN8^%zWxtX&?$5>j5L ztQze6S+qT(Kthqkp<(={^rM3XM}*0i*OxZ|GKS*io0OgRC$v^|=}a3(ydO|s3JN@H zK~MeE$E0*Z$eW@b3PM&%Pye7ri2#rR4vlfG1+Z8Dv@9aiA?XpvXC6klx0u=WWYrRc zbl@2!rqj)4v188onHNQ(iNM+Nx!ITs3>i2p(QHe!qHpy;sz;__fA!ZY?M%bp4&Ss| z&kbLo0vBse5k->Q^vRBa&nM)=l9FGFQR)A?hk~?*CJB+i1(cSe0_&uaR)WR*f1c6` z+%5(RQeS)JgwiTaqq{wH(_h`hSEwGJgS8iJQPq{+#AhtKP+z46n1*tBP}9Lz{x^`_(S+lZ!`j@JPfc-nW1;gg&UlgjEo z33N`PNpaZ``x~AV^?tTo zK)kmEboU#?fUbvNh~umPa{keyhE?fflxvJt+z8mC-$m3*7cm1d;)}lfM9C0;4cX%6KkCIQ#EvRn)Xcb1s{qG|* z1g_O^63Oxx8aQs$t!fP^j)eUJP9y74)wNIV6ez%dM$57d=hq~twWfjSlEjG(9_x4) z0ylM>9Yc_p-*1|q*RdetpSKaRg*;yh!g@l|)=qhXj}dHN6=w?MIL$Z&ar^Rq!$!v6 zJdAINe@k`dTnSyA*q+Z*>iS{qmW7^L23vMYhqbB;rYStk@4fuT)c&HVAaMeG05qiM zl_ahR_i~TXKNd#c)T_TQ$KIl5thqLv7p2&U1+sJG+^jrqNK9`Ac#||y2OGpvRC7CS zu!$`t6#oZ@y0Nqrn|U>I`zQVTum(r|yyW?ye}c+~EUMJpuYr^VV9QtPL;&2)5Pbku zrsp5__YIr-pYvauJn~qHZ~Yrp<{jX76jHG$@0VBN(B5|$EGJagV~xxX#Arpl0i@2r zJ#e>Q^~awYk3o$@@={gOf!5y#u})gqhhEXl=DrgeG{C5?g36P=pdxA+u47)?6t>Ki z3CPLJtx3!V3?&BgpLjLy=7-E!N7R~&KYi~pi2HHuPB&WlqxwjFGVRImR;$oq2hO-MihKzjkBe5F zcD5~2b@PdCvs;mzF^iR@%0BRZc)UZ_u{WR)+2rQ0^g-o`C|EORuUQUICIAlMsU^$Knc#aau;VFZkxg){%&#Z`L}5_{ z)F&2fX-2KbQl`{Gs5R{gNRDdBq*@dW=UFe`M?>S6B%d5Q4B_8x5mZf5y3-bN?vdc} zA}}k>@Akru{M9Ieh2PJ(U}l;01ADH#fwsX(XKZqf{tAFhXZRG$UZU{n_gcIz16Cn! zK(tOjk)Q$a3{~MVGsW}bdTGw(B3*CW9^_u!8st=!-8%Uid77Xf|JS{FRA3j=L2XF$UdiUDC6>wKj;uiMzYM)cflU_^(RJeg+lIyjt_r^x00jfASj;(zj9tF-WQ z1U3dyJ}@R;4Jv_vna{W^`O>5@*`du{2%8w*|ja$LKRmVMdnngHuG;}{<_3T?! zg#6#>FJr^&BV)IJN4UI39#gTKKFS;k=4Tu$zBQ4!qe62)rHE`nhE-1 z(X)1!qh6yR)=u{(PEl$9O2MUsbJS?4Pwqv<%Y5h)KY$IVLXmNJ+Ta>9a4rM9$H4L? z&hnD2x4K`k=f&9b&%`SevfcNu{OK^iP1dvHb9t09e3i9s(@&=YR8rOS)_pO<;0ZnF z8FY6K1C|Z!K%HzOKfq!bT-7`*9*HR4k zJ7KLOrByY;eLA|+h&X}$Wf)o`A{SQGq&zrkEbpa&ABQC-|0$?J2R8Er{VyTZ7@c&DOOgVHVz}^>`{{jq^rWKEQ+hinHDQD3yoUET-|}V7F;&)K7S;}i zzOj00D;q1EoM(!$-oc@lsy<}0WDj4`B@=h$el5dxs|~iu+j6cHK-Y>?zxPCFLl?P) z?ggvZZ&sdtZm?xJi4TzxS_ZZ~aCT z3VOARzjPP}6U0pVKv8`S3SO!f<~^?qNH1#`k{$rpW5(!c~)Nf}VaVu`9Bjtq|Q~ z))$!Ty0?S{t?oW}J24$)gy+iW>|KD6C)owl%u3={d<#pM!-XC7}#E=;0nZq5*8}1Os#;RlWh7ui>#d0_`CjMQo zH-ayGxb~PKnks`_K=4@odp?;KNFRM@Kf!63)}}-*jJl{49P&<8Rz#!{U&B#IrNLXp z-A^qXp+*4SJvJ;@j+1(reKVK4;duFKY)k8vIQD6n1z;2fjvzvuOG1LC(PJE8yvm6F zRhCV_8Bea6fD?BC#~=POCU-hqs}g)3&%ePR z-Pg6>UhATrK@_s1i@oz}zJ?%p;>EsG*EY9;lNN9kxVAXQsgYyEjo5NV41QbA1g~}8 z-L#Zk^=4sq`D*)3NM$|9KV4*Ab~11k&dCw%aNi0{5h1ShJCVnE9kHN)0|NAXR~cDk zE(RYD`2eNn3L4X{*7=ui9PkR`n@(9dr}6n!;jQam?_8*Cr`8lEt?sj-N1LKxkn=S0 zkRKge$fKqM?X4)d+_xk$)-dl2<~3Sxx2Jv)H>i~G<5*9kr||`iU__s`dA)5w&#k8= z7t_R6w^9m8N$Zr7B#2UDh;r{!I~ctF^F9rW)BR23q{clU@`8yRor{8(T2ra6hG~pT z`FF+S4W|uEgLchd=5w z>;QwG?F_I64AY?i6yQheKi|^)6<=#%B9ofZ`}4s|eaE=8`{OFY zcH8R2xNbAT--!e=$(J{J`;PV>Q^qTvQ>ZzScQMyYQpO4@U%=!k$Tu)&+t*w2hLHM8kHYU+vC|}e z06qEc#q82A=fB!vB0oSgRlh29L)ypQ0SOY^OxCB_YY!KCn?O|ICd5HEA34TS@e~Sx=Y8eUNXka;QDjhXW6$* z-*Vr)??&h1h??sL_>Nl9&;)7Wyl(|dsrr z-N~p4b`Pgc;!s7PKc4`9Uo>?Z=V3t8k$Y=)(5q3>)NbxC`GYRTK<_05^j=q&G0^M0 zo1fRk_oi_m?d>qh46t$;&zFahhLcuun2ep%WKv-?blkWP3@6d)zt@!WR-gozzs4hE zc3?O8+|C|p$^KqIEf&}=nR`%ZsjsmHGnW6_1WXSO<6GdZZd#gp+Ew{Cv#=3lp_Cxz zLE$hzmc2feNg=SF<=S_UlC%*85+<@!fd0cU8cH=@+70)&oF9D6*!yJK8crQhq2_w9 zav4`DIBt|#`E<8*lrd-Sw8oC-!4O(#hKL9Z}A%^VxfY@Kb@`vNE;cIwKRI; z^&rNglG2maFgcuiu$E+0(LqaOzEY)njI%k)-^|=HEYe z(?c4TmKLhy6B}YZ75UX+FC5Kyuq8c$|p&&9MQ@eCY_}5jqf%cr_MW=xc#b7%Iakrmg83- z13eWb%PXlTb(PN(|I$%Ga`dy$m&usJRe6)Qab`ksxi;1u2?^RD2ecNsXQNy zLru4+0T0*Tdf?9-{2TrqvE4a|HNtDX{FcTp@UyPt67f~MiBl{d{d42XrTNK8_>)!6s!PqmSTIx%vTCmJcY3n29K?j%&|QTb5)m(~5wlT}eNG018{dQhPHXD{Zd$wCXWQ zc2W0`4Sl~g;b}==A^+*rDzTaT&Rw5`LFk9pHmbcaO=g{>r=tzI!ay+Ya z>*+r?i|lByK|)^h$JgCsq^6Z^_U&{bpN!CipMmUFu14T&Z;%orwYu*H)f#E1bH+#G zSlS=xV1O=qboh7;Z)xiVkr~?e2UPktKsXjEF-W-dXNMd8X0Sc^AnHOP^Avg@S##(Z zH#6puGq?Pp^;FuT8pfU&uFx#(1}XU-yuaMdN93;EH^I&8?gj+O^kgssgD1=6_d-s{ zL8R0bJ1ZV3?l}d-qy+@5P+=k+5V#vhi*sm#mGzaW6Tka8AW(!M`~!ohOE)(bqdW6kkp%Ub{>b?MH@V%insP}C}`6qjG5^W&Y~6Ou}QCP$!v4|44AG4B~LpZwnh3?@5Bg~l0Zp@&^+}H zLI*19se>Qhndh*@ZL)&avX z##x-K(ce-6d@6REQwx{7&^@W^;BmFqNpH4(?cg=UR!>k|7z8s`W#s0$W0&ZUq|eu* zn2^q=PgL6Q(Yhe+26?dxm=keT*73B~7D1p` zBE-e-$1@*6w5N6#wIbBK!2FdD+v968gU~fDp^G0w75F%Hz)C%X!wv8DA+YFshdlqu`Fy9=;lOzz3s_{=IxWZ>Jj@tcpgMo&>5r?>Bf(yBNwIf4-5P2{lXFEF2-Th*W-Y zLfRLmz_Dne(Qy^$p5jO#3k=CDJD~6XTmv3dGFaMK`lHkK@-Oh7fTDshOetQK ziPtf82P_jRV6J&?B6{&Qeuv}|Q0ZLx_}=*WOrk&Ckuz!;7!oRiSK}=9;K54KfVBqt zv&|pZKxE7@K8>4n?^oS77z42_Td|IjhmEK*#?LXWNZK{xs#L!&%rh{XC*N2!n2N8y zd!KcVEqm0I|Nit4L$IZBEhVR0lq)RVwG^1(yghXdXK5c+&H}13#k+}DfxvIQJ7GIB ztU80^sMS!urM|G$W5TrlO=8A=1A1_zf7t-Dwf6nD{&g1iGV2!okv99%Y^~*a*(<@! zsf2u*KEf&-ya?x$JUm+9^%%j|_&PQd`PrSvO|WsMiD_Dt{oKy06gdXJ0%(Xh7Q#5y zzw!#Cne8MM-z%FYQS)l+hdvD{M6l+Sp&A68tnOWFJ6vBSt%#5+;pXn!X1|m5A=7}| z!(cO$xtH%w=?Pn!JlfvmRPU9BJ7gss`^I4C@vatvmD<&=2VU+1dGB1Be-z52M zrlf~ReF*Jwh`Dbw;It*`Q|RI-on>=vx|i)Z~_Q#vLsmIHr7}T88}J z92d!PC2A;cqRjQer>Sg}yqt)`i4^vJdpcO&Ncx!?aaO;c7$gqZO%6E)z?Q;O{@vLD zyGMdRIoNive3hD@Tv-8_@mlAK)}6eolEF#s5E^}8WdjS@Z2gr9tt54jv(FtIUM|0b ztpGLkbYoamJg%ArO|LHdN2fUa$(7DWz{`tL(E1&~NBa+;I9Rs#AHa`s?E})j5}ej- z{7vgt%(ZEX>OnI3s0Ik*?$d<~2y%8Hnm?W)Z6sILg_YIY<(a23n@&QQKgh5?hu%aT z{c$%aXinEd9bMW^ySIHhN<#N&eIEmEo=zvR{|n<1rysfDnJT>lUg2_;DnQ$@%vWNw zY841NZgBG5ZEU(Y_~f~?-5itF3CgmP7ss$)#fUKP3&H z!Y9!E&~7WO=qMe|8E;U*`VtnB$%E04J{OC{6LBK$apV#q=_aEo)DL!h8EyT7jZQN| zCHh+mFo)dMykwVGmdgahaFw zlkFbUWw%BRK&mCG+FKr_LT_LY`!DRLh5XDVLhLKJy{P5n^{2*hjMwroHKN*csrTjv z8xavrGz0}XIl@LXzydVr=!1gA;8!11oBRm^nZ3meQ9Q}brD*_+-t-+f+kuS&Z8Wqg zGclKI-K-QB|Et+=g3;EU%W88Y3B`_2+#kNx0uDN#W9rs=kakzH6p>coRqX(3WdxaT z*o-CbMJ9CN3)gqb#wC}&#-$&i$v>I4+BZ|Q#PaC5RT~l)mMpwln#UZCmFAJEY5l4> zAr!BpS&52&6EvZ72eg|3mK(3xlgB7rHu9=Z`rqRV{EFJr^%xTP$7%?`)i84)$ z_fcgpvIhXy$pD^XPQ^E6kYnxT1AyE17#pM2N(G*=hr_X4ikUm6%ec=4-J1XYT4Pis z9VVVr69&?5YClH@Z7$Vtc@gx#hhp(?GJ=@AWsSz*Br*QdfX&HFYgz(gNmAy{^q^H* zAKLoTRoA`VDa1#hX3M;7V@MpJXly_G@Q&Z9Wiyih3ivM>$JDyYCfs6?(>W>2ei@_V zVi%w!0PJ;BrQY(LH;(}5ZZo+e&KKriiRHwfz9VMBDHZuceoMLW6X10TvwK{N3H)at zhx*}EeN|j+E!tXoVWf zI%Fu`!9P@0BG~p+=ck#>pCr8Am#>|>a3&f1zp|5tFgSR3yBpEHspujq7w%mc7{Wx? z%NV$T$SEldNx3gF3;lIMiB3D4y)oPqeImvxBC^{ya;U!dlI4*9f;sZ?c~FavxR|z_ z(HfD7R(p(fE6pXrMl5Y)McN(0UK8atMr#pshAZe$vm`HZYa)-fP3whKi;sl60hXze zO^=9($fu3D2mN@a>GsHw<|2i3AZy6m)Juz2V7$dAe`BlO*N@q)8{et3>kD*}waIAR zJN`Z0wd7-6f}w-_FYo;jkX@a*HVLE?AB&1liSAL_;ndxTj5a`Mo%f#3q*- zX%bM-CMW08CTzkdtG-Z$qD3S5m_Sh&Jp+f~>mY zx~54HoODk&H!mE>kz_#EON9#mFe+GDox@oiwB>*LbS*($>PwKT16n|A=7Zm9rfi$` zB>5lqZSI@5-Md$$xBccn1|Cx4799k7E`Qbe*GS$Ny9b^YN+svJDW@mUkcCB166`x% zzY~!NIAeY<-cvjtIbewSRP-3|8zLZEz--2oVX%1$23OMHT~A?4WM7?)gCd!5%tr!C z*b<#|2X2k}24xcITi7E`7B4}_=H=LPNG=D%g^1e)A|{SGA7rhbb~L=UGem8X&(jzw zm4%?97p-Dq@ZF$rNqrsQXK@YLDq3b+$(*hcl(3}rEo4+OQ2Z^U@yUF|Z%)nI>>jcO z{y#;8vUNTV`k0h!c8VlD56{ZNH|EbDv2CCRyow!F#~|c!X~5kC^w51vbp?=-eefda zzJ;1Py}k^v6i zC-C159*r?|6op7D@!!8Ch&1e(dEwv7Mqnayh>H(1Ej9 zF8B^iGWBS1g+)(!PRd&c(KJHdm3}9#T9+s9dRt_uY3GdN(*Hh&zL!l|81eh1N}d;M z7tO0FbEYx`7Fx=L0nuLAOzf#D4_nwZt@s`Q5xIhXbUs6C^38{DCNH&dm#F|kL&LnK zvnr{2)St|B^1*u+v{A`1Z0KoB)!r^)sbgN^h{xA0U3Y{;kzo4b`| zRfx{W3B4GbfZF3IoqB9A4vhjtpxYX>;w=2`>7L}%GfwLP%n_%||Mm>KUc^pfPC#bv zwI&G%$&Y6~?_L+YAU5VWDo<+)IHnzX^UQHiwoTHnH?Fh|<}{vPc^h?|$g&3zIzvu2O%6#0;1w*Okts`3hpuj+=QG;OJ9Q=0`E*O*Awb0(6O z605?r)rjqIDM-{jJzgU-^8z`E1PUgw=hbRGSOQ;L~ zwTQfz^(tPmaCIOVsuwVy!=fgnp00`U$r4e=c>0b6w8+@ckE!>h3Wx27q$RCGG4f4g zefOul^*!dczBv}XLIsng z*#;o|Vz2P>`t+|P%Etfgo1G^JQJR7|KIOOffTAsW78?IIBJ2Li)IGtaHZTKm?dd_m z@@QyP)BA7OXGft^&|6bhL?-w)4j2Uo8CNwmtycR!qSEs^<^(8Jf&7lqi4c#C{mr{{ zD1$;%&B{J+%;{`yZURusbWURJ?t1Vvmph}MsOzLKm?&$kT_?C+7mEGfx;zco<+-Ap z&Ny!2dsa*;5tjJMK5=P7@&fBKFkr5UwY&5fjCH;%H7YDkyU&ZI1C@xmxT!b~U?0n} zagTD#?zo=**rbfVMSie_Q~BzrY|s93qkb~v{Z&+Lad4`c*YB>Q)22twFSOXG@X4uC zIMuY;f&Gs==|PD}Kzegj0ZCr}rbrt`YTR|OVd0rv>UNLy`4`duZ41iiPzrvKNOdsn zqz44g*1ah8mzd}WC%NQap-WM`x6U5~vKL$`fM1px>%a66Vee_)yQ@Nfjx%fH!^=i{o|gG7z{;PNVCCK8u`^3k2aM|Ea3 zTdv|_tLAjn#Tb$y5a5UEdPd3fcA}b7TMBJA4S4mTf}N^&KdT*kCD%_(ye< zzi)!rS$V0T&{B3o3tOcQ-kH1HF_$5NK6^2k4`tyasw^bXCqlVMc9m-|s{DbnRodha zr(c}Cd-X{2aOJfgjMLAHC;MAZxo+|<l;tE5D*iZcU=nj|y1|Yme#nd(b*(JKiFxc%REMPz4d4He3w6K5@h3spa5zt98 z_uvm-mTF{=u2-n={;JzrY@r;>wf4N&8_!pWe}=InZWp`NI2)Ln2~{Q=bsoX>%y_=d ztKJ5^E_Z)}QQqpexm%a*C|CE2ZC`Oz^4gLGQWN6)_~az07?;%K$~S=HD5`HSY$La`!Kh6q_j4Lci^*Rb%zsn^5@O?RZE?R9{OLF zxpuPhK;IZhQ_j}ql@$Wv)N?=oqD`2IL6DyX>0jh?fxf+?03=@QLC-&&qH3nXZL>@8 zG9;!&r*)~ouEVL?hpL_*#?*HMA4)*rAthr-i?-G~axmd_deiO{>N?PW(~;3C2vv*T ziuZ3Rc6y`U#vCNL91i8Bl69tk&4)b*zi;riUSVx8XqI;6{zQY~(cn_mnKikY(!!*x90a^*9VYU=|ET@@&kSgp8GyDY4Ym%B&+nj%8eI=pVhTn z7*JS${5IvMUUn7}YgaAcqtD(}2x`Ph^FCPtgSf(Kx1Q*A7`!!iVV1w`qlh6-SPxh5 z%b(TZQdazaoDqv*5f(|0l<92k^835PR;YJ^{zZPE3mq}LC~F{3S;gN_bo7}h4-c7v z4VjG7`m{)M+ligABFcbFKqv!cY5qlU1Gg0A;s^{^NFu>B4b7E*+OY9%a7RCDzG}?x;c360N>^J$e zTr|G3z&h{Ky+ux?0}8JLhsk5VzkKn0-<+lx?=Lm}iu&KL(v^$3^**tlAfcBeUOOg> z{!3o(P0J8dHsbnpcTpA^h8PfuWxh$Ij<`l7%Cmb79=z2&(IV76kxU$m`@)cZ;~Bqz zK`2;soF5un+l`<_?A3&qj9LSiAA6od9-N36ULj&7bHP>t1Ch3+0q|lf=ff61*|bS% zn^Ag1B8DWlw6p;Bm6IrkBrkXHxdZ@+1ch*{WkbCG>o7>NzlXotxJe%3%GOf_K z*Pd8N*wZsqULZg(S1XTUa>U_i5~Zb>ekG)^D7@UBm7|xP`VV)rT5a3qOVZF@c7s5Q z5B#97T!QW1bLO$(W%xakQ*58!z0}Y7v1mK;UErgLc$EmgLq}G>lRm6Q$Zzp&1owAX z4vSNXj*GB$$pyc0sPK|;{OE_58jUn#Cp5iTuVvZC7eCjb;TidWoG{e8>we+c?6n$b zD^p$}#^qn-Vh*=D_YXUse@KeB^3iaaMG-c6^zrwZHZDQ;>L*suVPe~5GvddrTH5OA zd*N03#ta{vJFo};k|-OY^CHxaF}z&Y$cgPa{~@Q`R~jo>{{HA|o(ed6U4qS6aGx=n{|iYzcx*2r{UY@q3)DwodER?RlCW zQ~bJ4v}METD%}#hnN=pG6Nds4{7VJsA2Py56jyWxg@ z|1`b&cqg$A*&@cI@fvZIPe07{g*b?jbZIe{Z>ML;tPK6t!&Q3IMg0nQ*7*CC_!E!JY_erZ%K#vY z$lI#bjZxG5#%k>UKZ*oIp3Ky{eLUTCkpj`^7*FlrvxyBV8!AcGH6d7}F#8gCWs?&} z#{rA!$(sPcQBRt@GaWTC@(FLh9+~j$bi(I3-S^~ZPs$;VBQHrB3-btG+xw;$BTFz> zvlTCVdqM~cKt}MoK~+l}Iggxx9kT(rSRlT1ISMq%Nj-fM>=F25@}J@Alh9IIUMihp z$QJ5j`uEe%O>`K|g{JzLAByN8dg#*_L(S81^Y(Qj2_UXJpXvd9s`$x<7^wUt{^inr z>N7I?=?9lJLV4iJ%Y9aR)PLIArm zC4@kVqnmjD@IUc8plhG`1b2&a$u1G!aqt`y`H(rSKj=DIW`R9&UMK~!yA8*LUlG|H>UeHPpj3pfY- zN?)U*Y&BcuyDKI*5XehUj}C7+W>2QwDy2JGo_?k{AFewPb*hD2{WUu=Z{!PkwaLP} zSscIyWI|ca!+@MN4|Q)Ew4W)I-%o!oq&vR(&^?NN%FgvW#tQTh)TON1?;`qf}CKTxcV&i=J*>hiBTuy;7 z4Mq_*gBt|p^)dJuO4fwm51x23r}nY*I}zi_Z(`D)LpT)SyNo?&r7iNDu7ebdeNIl2 z$%M>=Y64qdI9f;zPajzR_&_AE8Z4~$CS^wtLJ*Ig_Q$K4ySI{XgwZ>%#&eh1 zV}C2n1JVSJCcfa>AhuQ_LJi8EDn<63RlbV+yv;dVTSgF{O8TU~m8Ps1ufK4hb*lgMB)55Ox;&k!F-ntnf0oqK2)A4fr^SPxVMxh&mZG|^%8|hDG{P&3_ylw5Tz|2!`c`xHXuKljK zGS?t-?T$(LJx>9v5>H0=?)Hqlf7Q)c4Vu1!JQV(WnpgMJPqzwchA!U6EdVNEjOS|K z2yJ5E*-?Bi|1U%3bMx|~gXN)yGiATaQh~m$)g28+jiZguVD&M32$@7i=JI>-vQ4`9 zTWyh1{9$qvW}1hS21bru6yte=;2qK>{G*p6u}!g@VJq0W+94@|+4KmkEcIrn(!{q# zVXx?Hc!)PZ-q5iuY`CnF6gi@G1y4Gmr4+ja*gqIlOq$XifrJsB+?7y+$Ik^W(KszN0vNDAw!J)EzfwyJsQ?vu84{;v`3e@ht2d`xE+g zIs?PbL)-p?5M(n!e^ibC+8EIxI_^J$@RjND4X_od4-EaE!9>R)FtznoZ@j3%Kdy17 zS&(v!7Zj5{73I@-)S~bAjp>OYz-yMOjS3#aXx^$6dZjtB2riHem|P5)I{_i@*eK~B zh?bX8pjstYJR_`r)xe_K`v;q6d(2(Aex+X5>DRx{OVnY2#BXY++EaYB&(m_Z{=3AU zTp19*QuTQZ`rP}It!-~H#*1i>YvsXtD{ypNN3tgZxqj zTZBNCbJEEcUvx(yDD*P$I{h_f^0T&h8-w^_^CO`bIXawJ?)sa*7G*5&G6J(qHQhJ( zOQGHScD}8TW7hbGZNS528hgnq>I?y4vx|qGn9%apfDU(Aow8z}Dmz=Nt(EBOnuSc1 zoRJc46@;lXpr40-{|a%7VFA*Ni#W}<#cDq@?;3zgdqdcD`15jRaU5+9BPw6EWVJ=| zX2eaN5N)m(Fr6Yy!^=yp zPEA;b+#z_gHRJ7_uO4wC)@hL4W*m-K^Cb=>CZWmg&ai2@KL#?ntI`?S53>M$`zKqZ z!NlqOhmdMYplE;4=cOEfMmD;bTN7w6PzvNH!WI<7TorZ`OA&Cz8hcm5hWq|^%~=)$ z2VOu}me#LjMO=0cuaIW3<=S2CXy{|qO?i6LsO_VOls!eRMO!Ec9GoE%(R`Ni&(x(V zSRz5|ZnAYpzuV(zyjY|N+4|mnHPqU#Ijz(WzZ87?gxAKvztBa^Zg?YF?8#uQ2ZZI( zqM!V$=vyuE553yoitQr5h+w~-wc|xKAs<2W92|xhySX|U&!BE{|Kg+rb~hrGApj}9 zuQqLw<~2I6X$)ZHE+v>9!gjqP!hZiRffcAP(a>eDu5=$e1urbsp*mcNaF#7?_x&Cr zgA?(tHz@xSdJ3j7&_lM!Zpw}is9#G{zx>nO90VbwB|OvSl~En78r9(TL5acw#?n`0 zm^~c^{_k;iuK|-K@`d)xK72Ku&&s0n>DMRMR>!dS8Yk|R94W_sbN28b0slQ=O3pM~ z48=5a7`PTc18S*$F@kQT79HrKI8&p=v7-#5(2T0`KyS%hyUbFB`UANT9$c>&IDOZG zmxg>TrkErxv_=5xk7TzHYukiv;Y_LVu|;$^V6iV4y36pUHc?)Q`JVzZ_sfZv(2A69 zh?~vXeq5dGgc*Ok3zri77|$r(Jg)Hjso_W~MsdewCX}EMyXE)ZQS-~i{xN`E@%L(H z;Jg&#e@qF4P+Un^6R&L;2C^Fdg;QTTSa#cZDz&A1<5Al(R`k8~f^ltp;r+Qr zVUBB@bA8ypgFj4KFCo-yZo>JE_K`js2}z#O$zk{0l0@?MjD!`71i7=$1S54@zvspp zzTTQQZU7M0+pkL$BdIdVP*Oa?Goi`6TeWl!Qz!D7Rft>tcs~ZSx7!oBbi&(nO~b;a zo~Xf+Lkc4+pb~Q@SkT8-u_=DX8j^I(8$0Fo&H84|oppU+G> zGXBgHzKRJ6@zZAllri0<|NE8C@K}oQi}~g5ZcjIL6?cj{1jT<|=CM4Sz|!24v+m}? z0P3$0&VOn1|F6dR?^#+N>S}ut4rNzK{hlR+-Ty#PuVQAv_)X_}Y(0ZQ&PXLQPJ3&? zEBQml{Y_!pJLOz>KS}B6w|(!};vE~E<>%d_4zWxvXRVyAn~8~B5b#$bz&GKk@Swq) zt>TI|kP9^M7MWV523PM`v*MtErN*ZO{i>vmCF*IzWTkhv7se8n#*Cg)eR9r&w4VbZ z)|S!>JeCjJGu*mtlE|iSz4ng}!*EjAh5QZ>=jYdxUOo&Wkz|wu>rzaivrY7QKrCVG z)$moCOVlA-hsr+8;yy%DBTu^X$LBY79LMWERQ_@PGJgmkz5mR!o3hX}d4v;GSGhwh zfn@Mp&?Lx-$v@QcQ~$n24}RwoVFpb@4}(kjc>!dpI_t)$g?q{sa7F$9-W`DNaF1L$ zu4Nthqa8vib!Zcux!^29KFGM9oOfnTKKq=gZ0Q9_^m06LF}ddP-b$^9?%Zt%zEsymql%GdHm>Cjp&+r+EC?i`+rSTl|G_} zxb-=8r+7<2bp+MZ0sd{0_I2$~viN@3xQLZ;jRp2&myNe=HlIb*SxaQ z2&Hh=8uXKRw&H(TY^7B^Gg6kk&`>9$9YSH`NyX2%ENt=8WKy)x;xP- zE<*rXDRr&d;+KhiwtRaOpE1`)K-pHRobVBKY z_W!QI0imGUeZ*#4Wdf6K_~y`|h+QGbcN|^*A2Gtsjib=mw*>@VBA|FXAnnXuJWyuH z-i`$Bl+Wt@UU8BYZfpxe5G=X7B~Kcv5Ip*^D-?~?_sM}bW5qEe!sL8ST50TC=F$7Z z{)I=AEA`}?_i`Iv%ni2}$6^+0H5I#tfk+{Z+aIMWwqZR#G^}LbiI|lBEz9{}m<&G0 zN1Q$DSMA$TQ(vUulM28}z&pkCoB&jH3Fj|^e4C)}Z*hcMw~(Fg&G^Uj_EQI9tXsRh zT)M3K-)5p-i(E0#n0;1sc_4MmA}|k^jzE?P$kWY+y{puw3Ep5qgKS}~XfsLzyfrTG zL$bM!)ick(aXmA!-?Eb~=)&XO|9e61H-a>jrWRZX!|vrziq%_O$&`iQYm4v=+#8@% zDMVb9ZF|B7Kdb7~^>s+_So*Zdy&H?IuN|bak?lA0w1n%xt35SA!h0;5FZ-H+CszYN z4w?wHqAqwRk~AD^1Zh)mOS=<88rq-M21RsIBt&fxSsY)So;_d57p83W*pcfTXRR+p z7#!c(Zthe|=U8>W^>2_mQ#&{whVwI8zJ&aVo}#;63e4@By!o&2yU+0Rhl9uTSwe-cxe8shD0%{n{g#Cx z6GKDq0Fwsmqm8IMm)d1Fkw|{Xa|<(_-0w5I2&aCsXDYXoV{dYfJr^n24TlAVWvu#a zmyV6x(wEGx81asA=M5Hh-jYalKd%)SBb=W;oo~a9D0+{sEc*IAZHSR}GiVa{<{T}5 zy{5Q#MzZ33*{NPXNK>)V7|) zy-{ozmL#feo{h@e&X4#jF|xuqtCf-cRjw0NJ1kEjH83W&f!diP%qlfV=+5 zgx0Z~wu`m3-?{4u)6Dcq%n8vh*97Rl^KV}w3-|Vz5d^;|k$NNlRL04!-d~Z$L2w5k z$f-X5^SGorjjz?`5X^)u`#a?12yEV+)SsZAG5~$47THBGC4Ng3L6$Y#?ax0@w!rS> zcIoNf=7ocsrq5Q3p-Pi|8^HpvrOc;2P3fd61gVt7P6pVT(w+R2gMhd1(OhCE4ozu7 zIlA>lAknpaSJ=N0;w~cz0FrrV#kjQ#U=yWDp*91Lj7#E&mRlXBrK}y={mnw!rCP8E z-v|(K2b!6fa*|#IIj#YjTK2CcgqwOJyqOC@>h7^fWkTPmg4##K||9Jw!Nwx4K)}5y*$vT?#Bf3L?51)epxTmJeO8t!dY~9 z4p-Dkd$TN>n?~Ol zWL=`=QfVAgAsx!rx9;psI}TM&BihGZ9Vi34`YD z$nXNbX@g68kDmV++U=6zy>koYmqYv(e0Z$KZ(?6{j7Psj*VTX4F5^}mZw!W%pV8&&D{d?Eat#CSAA=~*N@=N8QeIHM^ed*66Cakw=(?)yD# zLe)^j05(*;9g3-lz2ZdFh zz$MoIbN@oZd-cHaILjR}9s$`$a+GAt>dDyPH~2Gu$j`BO`Vddb_a&`Xku|)KYm7gp zFf3I`voXfo$W{Fe3m6GeQAvJ*E1YFoyvbsbPt_mb9FEI~$sh1zT>{zWUnV<0K;ZV^ zw`;Cm1x}M2B@W#Tx&>%}fm}gB0hZlq&j>tlo)FG@9k05&xnXB_zT275T;WZ#ccP~@ z+sN2~7fOSxUc&%8;Q-))4H7`D166U8M!E3r27ki znQQ=vAX4vmMrK__^lTJ&RnD*F+;GKa7O!Oj*!Sr)qJItOMknrn_zck}t9!p{q9yWq z__N(@5h1D=!gQ-9M zS+UDXej&!|eT?fo$XaGlEzk45Be-n{hBx=YK56BI{PgxTUl1UO$kU8BH(N$tB?y`- zJ$DqX+~>FqRdi1Q3vqVi0lp=C4@^KK zn&lhaEwV`{aS8AOWUdu8mYHc>PR3==Sb$I%FG|#5oc~VDmTmpso+<5_ME9ZDt;?n$ zK0(R-_?F~MC{{vLvUM>zarAsflg#Z$z3cxo5i@4+O7`~WmNuIVpNet>7RF*Qx3rGn zbOOF7z{A_pV*Hg!@>1MIY?HHI;z!?78eNdz5W`R56NS+6m}m#VvYw9sfmx+&cu$as zZtS1Qj_T^IMOHP}^bwjbMo-9JpYHd*;FRaR33oSX{uJji2S?MMJP@sryDclz`+Xg} ztqa-5Uxy&|kLR;H9ZfZ|0j!popQ}%h*?^LNur;*!fEf2FNj%_jLQhLkiNy6HpUA;` z__?)IR{FYw<{Wff zYT#w-2CQ#bL&!H1gYat9Wmi%@6OfTLlR$}2EJSv9Bl^^v7|7a z2-a@rU4|)bqm=FoKDVf@Ud$LAQ5BDE@ZEmdY4P5Y<)=$0dFnlOgHYkp5b$7}+53(l z_H5Gy*~sq&lx35Gr>ATCOi20G^f!jQ87wo3rYRB#E&KHzf~IpSNrD|0EVD9>$xE~L zdp9ytv_lK)zWrr~27=w4vT&l@f88Oj8HVVf(uF~z#&2Zxa9z6H6OtD^hq`ipb!C); zXNzASiCKjjJ$@1G@zNDr_5p#dN*W)-N+^H0nZ*BX ze3nF4_d*|-6m{S)3R};RXG9F_*RfN7kn__Jz%1rLxLcjy>z2e-67h6_eO`{CAtHTxm|<}APk zQ6M#;a;vZmPvwrAG$h(u-+pON zoM85P#~UJYCN@ET;$Y<;m}28XuNPy}#j_mX;Yo!0E*d|)7Ln-Otte4^{qBmv*uwB8 zVpK7^Eu-PNjE?+2&ssm~$F?tBa1{-gB%0U)wY;w-X{W@%GlOsbh!cs zWdG9Emj2ZVAM`9sdYH2?mdnD~Ib4;8&LFK&))l?tSnT=HwCLtnn0Nw%fVkv!-V8-Z ze;fTd`p<*^zOYHv_U0J;Q#owL(JTRd_~lsrXYx2?!d&r5YsCrBSlcI6u|dh1krC4< zGVs&w4aSDHuYto${vvlId(9*6Ya4icCKO-c@h~Tw>Yb$Zh0w>M2ed6cDgdx<)@w@^ z$Lal>5jwQv;F$_KXE;md*b=E0;Fl);7UeRpNcKiEa5w|=YqM}QUd1?V^1EIijNa9A z6=8VKDrrZR>CY@=t=!|q@l6rFSJfd-<3>Upxk={D41YNUz^?3eEE4$s@xK^9?F9hW z@0n*E#CyVrzd9UgGUBi$vUr-tVv2wLHg6n@3H0oK8h(9K-;uBVTU^Z-V_;$%9wbN< zWblV7e!&^@^_WGBu^W|w!3Xh2QL(liiOdecdwI&*cjQUIEK^&gS7V#|f|Q0mEYB^E zTr`V6A4q@GjraoepS^p0jh|m^#6ugAgQ8}$?2_f1T?Wd}OfEaUL&Q6eyMP3`!*NJv z-T($P>lmoq#~_rzuTP6lAS(2m-oWx)Lj#34;^}8<^ zWv7uLg1>PmK>u1CrLdANAC%v`%st8IHs;D<)`yi#I``h}r5X$HJ%^S=34BHbY$7&R zN^N($(uW3Y-Opr)Aoe{nG#2dOqE|{=v*&NQ8h1*{N`Xj^4Z0<%V7(C9mNitNY`r2d z>{QPsv0ymDyBS}pLvP{jQce%g16M2$?3GjenhrU=VCU%=rVvBhdN)|H^NXNOGstJWW?Z&sl62Cn5Gj4z3&_W3Itl4% zuXKx8sv-Un)2PcFtf(~Q%N02}kFBMkd4ttP@(uAfkx}^TTl_=Op2M#^MVXU0-=n@m z(#NAza1AqfPB{Y#-O+MMn0@`rT!?>|p3=;O;gu3PHRQ9x-bpw^H1BOG4dUflDHW2t z=;MU`71p|acy2)716(efw(5lo>j3FY(#9$?V#`4^btMmX`0BfV`A)=!hI6w$eSufv zSyLEZs_z;tLYeR~`PYd$ECrVO-3o6bcbR+->5P^V_W;+J zDOl;IQtV*&vL+St0|RM}r$;j_Xl~mJCaotZ$sAqFT!1xu_a$X_5e+UPj4RI}C?_&O zgZSPPmx)AqNv~E$=6V7PZy`43Y@K?cUzXShy^?ua>&#Nhu|Y6Xd#| zC|i^eeCuWKnkr_Xq@fvOAlB+S34K&*ADo2`sI4 z;ID1yg-(*Xec!Yzx1CNg^KVN?17ANwu*7e%7ZSBPt;#9)>DN3wN5)K_Pg-w_pGzHD zHY#ZteJS0DtfgEP>~Z#%J@FDus*>wqw=brlx;O73uIVzy_Yb`_v*Qq*Bnpa0CPeAd z!rZQA*@%w*`#=k7a0?qwghcp9+BNthuvAV{KpyTA%!k|$#qr+{wZHYax?@j07D`cI zPt1?KW#*+|Nw#if-Q&vAc+ng*IgIb*Q@X(_9sxi}x-&QLuST5-7&(FkPxNNjuwnua z_Ai|WV|cb0j0FeMeMQ=l@$#dldRH@NkAz?Bqm@mCc9(j81FXI;i1F-CYolKl@hrLk zqI+NEafX7utxgf+3{8RaXVSd$(w1}y6kloZNl)a-C~PC>aImubW2C?|=;!^arThdZ zp?1WcL{4?#m20f~wCjyaD0pl!GBjsqs=pK$PJJX7yS6Z(hF9xrT$I_EZ48w~hc~XZ zb35;fON84?gt^h+TW^hybXF6ucpgDf5;MZ5UB+e|=Sc0J7@X|Z-!GofDq^%wIS#mm zFjOZ&mkI(zUaSnvgCZD<);2|V>@H30mUk<>sd)etW?$Uu+|V|-JreP z(en*SsgU$`0G_BE#RbMMKj3%Up5 zH1ya+Bep^P5#30$yNqXo{U&JKbw~%6!QyEzzIHx>jGS=3c08&>(|EV&JU4d*QK9xtW<4eU1)?~xAxe4Xt7x5SPAi~C zDobAX42}q4nkL`FFCB8J*Jct(vTRZ7HnIZ}>AyBalZa%h-5DHwJ2`a) z>7}0Cn3MnwqTjw4qdl*RJuAry;lF-bBr&b1mC3wAT(8Wh#1;tL+G~+`SElb04XR~G z>j~gJAkzZSmzfmi5#I6HMbjfdRYb<1IND?Xh+9WBNVg{e5M~%66`O3YesNe`q#$!! zvpl#9*)?of2`&O@HTuwH*J3yj*R50Z!*G{>25=?SVE5;m1N@i$e3)s}&kqU0cy_}e z^tR79f7)-VTXl!nP6348KVnSTAs}y|FA#A;PL$v!w=!?ADw;j7m`Sw+a>so2N$Mz1 zF``iz0u!Ryln&A=0GB@y0UZ34dQ8uhfcP3&G;kA5_PIFsIYX8w51gc_RSZ%lkj^s9X;QG^ZW#$iz;h*Bew8}R}K=c-X2*<+(b>(cKPFx z)D%SAtSepil0@(LX2^^iPs2!v{BZkNK2Uy2KMnQ1d1K-_@iG(yaX4)GtCUb8B|xFThb@-kE79>!@SqD!e!!* zD0gDmC+!eW@NEDBadCWK8cp$)HN7d&VXo(f+eFfx8wj~@{_GdI5 z-fh`*jmM|=O&Ou9wQ_;H#HLX!917 z%cmKVcqjy-!tb=v;-adfeZJK%_YyK+_>5Q1f5knyXRKQ5@`cholDiM-RANbFrLA?cvzO z@0JP^Y9k>)O;)tv9}LORy^9ORvfA{;B=Ron*O0>aTMJ}Y@{YZwPF5eJkmsri^z_Bu z7bK^a6D+j*ABq88VZa;p>y9mkox+T_knh}>UiZGjDiim;dFA!JUqmIyFGFN-W+|P^ zAvKs8gr+@f{wIjRwq15hO-7vuKu8+#F7Ki2a?r_d1<-YtNbJDiIz>ZD%iU|7rBv@q zI$Yc(`#aAm$YL5C8zd%iX~3nm(W=+@(Pz{bmfMhHp@D@3AhG z->b+DNB{VgdBo+Z^A+^9Jb~NA+htBGx;|~GHP^E3LLcjc{brn~m0>`dYu1u=YVy7C zhlu8N5UH*2W@;wUtPH32N%|;1_tr)U|3_oH^N^achSJxg9v3psx<~z}-Q<(;jF!}O zv`);+bFs;-7eItL&06DDB6P|G@#l#AclS@_e&)Bb%Nr6l>O%P5KSvVo=3dvCuoY9m z0^ta`qE>T7U8^rapE$&QU8hzoC2Ssb07N#$Tg27;BhlI!F? zSC=HyXs{Mql91A*{s~YXVBVH*RQgf_Vejk_eO=I1)sRQvmE4}vw4vuyWH~2Cj0~`X z+L<+BnIRipj7Gc=F{NOHc6b|yrTbFct#SYmx47fSa=o62B1T%!5g~Ii(aQYB;~b$L z|C!VfmPtvxVKT60Tc8%ZHx$mB5qDN139AaJ{u&iT3~ZE^vQZlBFsq@+9IQoGRv%nX z1MY-O3!oPI(CJP*8ahkKcE9NI4cY&yS+OI;*cA__DrvgR9BEt+H_AlwT!e1MZ(m-I zQDG=C_G<~vLjp&HyO(kh!@3$5BS9`=Jnp%axX!x9C-|Y`)z0F}zh9}*a(Ow$kq zPP@tD`|Q{a8l{QO=4akm*T^P!6s=x8w~Y9$Ohqr&E7i)$Ucm3jg2 ztWn)3KzxukIu$jk_v0l-|QmJSq9JMZQ9B1f}uR#Ex} z_PH>Y<4{0$ev*=#2tWBg-gNg*6cm*a<}%X5EuLH?GsW}TvOAWzr0oB<-P4~knj-2) z%7-nJ*GQ4Xfvp@onC<$ndi8tz6p)#Jepd_xbq3cbLK*x~GR^X>Aa+A;=In9{5-ok~ zJB)*GvObEL&1o;nt!%Cr`uPIn^P5BJX<-n_imPea)~&m^&13b?0}Ub@%No&$0c_{4 znxq}S;kbn#0dNF~d=eB0l{yC6-ba?(kNobjlEUvQs5G2z_k=%9n4s`Te`#mqzPO{w zd8Li6;;9ZeEAjtG3>=}mZ#`J?(L+03XC;T8RGJ?OE?1d6P$hCpDy(h1>vf$P2q^ld zU=pW28m3t(F)ac@{+$gzyDAqX9RsIfrL{vMU2kt9zORX}*QkvNpP)C?)tY%55$DHS ztk38GbKCH{qzW@51u#eem3d%2`mH5k<9_!Yam8)5hzJfk!&8R&_r#%5DOga7Q4^i# zzkS_D=}g6Zf)@q(@;1vHJBr5+?ix?1{zHvC?9a)9){smfHvRzT=iWq=Ko_slwwL+Z zn@!6*{#Im|&%H}8@p+Ds%AZ^kk_3;bX?*&piP$qd#LqpA2ztuWJu#OOTyqI0R%Z;8 z7D><#Q9vDVk&)!(U)@}C12lgS=Uob;64E5C8qhGh%5VkgWz%f{)KqYUR^KGJHWAfr zcozI?tq7AVmKV$U11qBY0&%)SH9L}o6+T?pLIJ8)7LNC{0z7A-J&n-Y$nSz@Hupk_ zk<`RbFS$^zC~gb|SAsNOVy@MTIFkaMD>5MI#w!bJm~8nwSGdFKKoo!RvaQAccVP*D z-B;UzMo$=C%^FX-W@+Yje)WNSGqU4QCKSlFTU&5U6h)A9tiTt){hA3wHahrYXEd#Q z5nMgWFEgU!AGd=XDw?En^||3bSp#-jwsX_A4Bw=|0vhu|z1Cx0u9qXK%^BAxKZ$MX zQ07h2H(qh}0ChDopMljrszR@Iz^`YP!B|^r+uq^KmKR@&7|48>GQFws1gCfx54Gaq zUK5&J`*J?e%)h>+ZSL@>zD-~;gcJsTOSV;{>Xf8%1RvswWv*}yKD9oe%Fg@Mw!DAwV;%p(^VbvSuLLJ zk>(4Mpfls446?`?L4|VatKdbZqtC1PkqeIXkNhD&NPi)3_PYzNl8grLw&E)n5jXfD zjYq6w`1Z87FQ4m<7KgbD*HVvPF|mrF1IQDkMrzxp;Y{dsBbnM&$W$QSJ83$X`E0x` zK(cDSl<~)vjlJLf6kk5YV4rjD8Lk{bqrGaB8nu1R|%O=t5}V0j`-OOfqMn; ziRmN|&jJ$}LBp?m<0q02W{Za9VzWrd&@To;_~!Oe&~h ze*mwK?g#!KMT8QH?Kv+&__6+Knwip(TNc~xUi2bWl3i0(wRKK_bPRW~6{OwtK_Z96 z84@<*{QHBUYR?CGh!Vly|CYo*agZ=I-X*1J91wCD*t8bnt&BCwfTrL|f3n|qO$nrH zJg@YsVub+0VKAW89j08Jp~io2)4guFR$K$r-vOk(Yx(FAy5(}EO7L1oBnZrc$UQxn zo%#OWhXuG1U9&`sE1LxOC8FGpL-b19>Q#R{CBDJB2CSi?NYyZXz_d_L5dg4bN+_1n zksXUse4LV(GL$B9fOAA7%}nSh8Q8L%ZkF)h<}|Y6e4whA;nBQDL91^B0(bI;$im8? zf2XA!DRBahCLvx?ix;0t4b6e;XFr^>aVA4a&{2N&2M3;u*xU)ZWz&Mo{4F0J1B?+9 zpui2ouRMTmDQqJ@XTzSyCX!D3UCoPXF=cl#{rbt_d@lf;qmn1y&$nOvcHT7^q`m)y zbf%eeo>o`x?4td8>~{xH>wj&Tc_&Hb1(Z^olp={?P_9XCKCg(z+_W5AB^E(IY`Kq& z;78_^u0A{(MiWIAtP$&GxI>9?CF=`ILi$M1hPN$^;Fi%V}hk;b<0(D@CM+mgU(WBD#zZ_(!3 z5q&_F06WL2Id|Viz@`M{<;BheLxMHwrSf7aeJVChIhH`bo4nwXYaUrWvdLG*f5Nsv zB4BYrw6*rNV9lDt+vmC7u4-CU*r0NK7J8&6$FZsZUgY~2Kq!Z>(WrnH4Q`XHIb%1~ z_ullsu}J$k_duQn7aeSe&vHArbf+OW_u@n*TCq;rXrAN?Pd}GWD*GJGQ9#@oHPB<( zhD4utuXOO0luv#W@r7a0Y86P!SKv|Y%L&*}Bh7AbTmx*jv%IQz=woVi6kw&V=Cf~X z=2;$Z2W_%M9^cNNcUEx*?$5=g(yZX8%j4Io$QNDnsHE^Y%L*@s!go$hxi-G(eS};v#`sgD!5c%fdAWkQc*qEyF7l0*>BAGD?*dc*KAc3S8(P7F$m07tS zbCiwcYEvI#q{Yd>kGtmer|6GKtQOY#r#-wM5~>}+L~8LNTqWOg>LXOMJ%}fIc;m}D{8{p_;BCw(sPA8 z90k&{!VRw0Ldzy`H`R4Ilu< zjl36Z)VV&&goZl;rSpzH>c@-TjPdOQ=Mr(VypGVfIwy9?-AKH$7hDSUmAxoJ?Q9~iuQdVbl-G7g9$cWDJW&<6JTn9$u2L{v6-&8e5AkNE3!TkWBuDKb62?kjol_erqf>{XA> z%*g#4o8~E(q@x4NCZ%}83GU1lHuuLa%$M(iZEZG<>{gg0!DU$g_fUEI1tO&4r~!`1 zqdyD6)XxY0+;qCo3db!Pb6KxNHj8ItjP&V|)<5>2jrgRwX6x&^{RLCr`u(K?F8GN1 z%Ux&`;WLgZcJ~$NA9Aq0l_Nu_p4RVC05rM~Ev!Rw2)PlwQX-fgqEtX1-z+g`&im_YYCtpsKZK{0~L$;b!osX+r ze-eZZU~Ujk$Wki#!Uq9Ymv9)eargwZr+zI=i@G=VcgECR#fC-eEeu!Q(>$458aJG< z$39jbcyR9Xy>y{OgHx@1dKBfQZuO5bz^p{tc6TcD;tmz1x`xyRJQIkxaTVRUBUb66 zc1;=0it2rwX0|W(ZK{ucs9e3A9iAGl*_Akl(7(ep+4(8*sHNR4Or=B$^2|927DZD6 zuc&CM4biK&m*d2295x2GFTI`_7l~YGWtxXs7Rceh>kG!l<63|~WL6)lmrzBr6M=ms zX6Diee}8p?B(TpTUioChEIk_5dzj>C*7|Rg8SadzE^2+;s?HZ)4-_fc2sl}zhJq#$ zx=#)gSnq~%DPFnLx_evorrSdu>@(uvIGAf^~=p$BoK5zU%IGck6n8Dt(&=`Eb#5 z9w1rzRse{uDo$towQq4==hd;VB-?z!=htwb2pV-m?x*CN4*fE(j>bw8 ze*mFKX=0t~K7%B{lRQw-0ki&=cGYLK76OwUFqOvbW{5a#2h;UDz6UiIh?1i#?I#q! zPUAd%h{xkVAo?Z$D*b$DO#r-dgZBsv zAP*zu-sY!S)H-E;999rg@kD_I2DI+-z!H*gJ?>v_IppM;zU|1ISaETwE z+7qEEvhz##$O-BgUE!&tS$4KbtD{JY)r76SemWHZ`<8Wf#E5A5a+lPbv$RFpA2l+g z`^IjFKP95D(&%$8e+`>i`P4`Z@Qe78^hIgYbaC2pxQ>o(m@i*ri<=q9Ux9iG2K~0Y zZJe$NC1@R5q0rMskAX~+bcK5D|JQQ6x3L*8js7;5yE$;&1FvI6aT0iPi_sIBqnYS? zLcGr|UNn9PhqYhbR{K@zP}w8%DvS^Gt;E^u1p!G(P2`K+>;8N)G`43RSv2wD3=XVw zVrNEuGQ{EE&EO$EE49^I{dhat^O(QyfHwL11>TN1WaEbAx`C$-Ls44{mrE8t z?G-GEVrx2I=z7fIApx)5E($^CmqBfF3#4O#0${-9{!divUWXQB6L$26_UzKd)xL9~=G>duEW z`k71n==a30?;6-&2_a(_qiZb!xI!iwqidxwuUmGZtM^oUf)n760;UR++%P4)=8 zxAacCW8th#2Vf7LB~m}0(l?y5YQ+kp*bb~|b>bke+Y7dC*djL-MhTbM|9~T%hazEt z3;ARfTqqiFuB5)f14*B@SohVIL3oL;>{YXL^`ht(MU%hq$py*Dt!FW5Y*KlwBPDsE zk5XTHHB;%&Nh3C7{Gp%&g;$Yn6oQ0%MzyBW$+}rm4+T-bl71v-%Tn`NIQ|z2%y_3+4UX z_OY&`-I#`Jo9r6Pv;7?&%&?k>i#I1le^t;1sRrwgp{k->(pJqClVU4y%8+ElB+}^O zd)|-MQ#1sE7(bL$@**1Ey#`YBNYeHy_lNGb7d!&34DF7L7G57734m1|C$P;@iJ8(| z&dyESH=JxNh*TuXjh$eA_-wS$u5%Ih(v|!e(Ze^C^5T#ACxbKP#g7$>E~Kdg%4Tp@ z)Kg=nYIH^_iwT+aVkaO*UOz1L%@cjRo1R9{7u3Oj(noI~+;%8g1~b+l`HuoYtvq{; z5qIV-Mbr(l`QeDF^1S{8nH0E;cyvoQz>aIfxoUBLO;IxY7@}A0^vZuQ_K}xM*Cm794p6yCwAZFbT_vq zhQTVy?m~LPhC>Bci9;XyS*qb%qWm9)=3fK>@7^GM#D7`sxh>Fgbtj$Z*~2m+v;%>! z2QoRB@6uu5y*|!80Wi1{NMtN}wH8UCAE)R~Cy-p2gCTNgv%Qmk(S7MziO!l5K>ec< zF2!Ecn61?M>AO(tQ(<7`UvpPQje!|I;&LS(0}DB?V+v698qe?7 zOx~IcGI}n)*ppiYO!`qhvLCRuxIVoTG^P(aqj>_IJHcB;h~y-l6c2zt%mr8AEFF*T zKyuB<@|X2JmLKARkvlJ(vi$&MVZGuS?UI45#O-U^{RA(qpaH4d#K(-=*<7BP7yYWK zanIwZ7F-VgeAWY80-guACy7whe%q1{x>9^G`OBi;Kq<|siK^?|J>Dcvv%5Su3ko2c z{#6!HtSmNJRyUU^A`5y&XP}zUt#S(R92J_jwDn9*8NyM})q+S_#tw>B(k^K&Pmyjx zYk5?-)F?00f*=+x7*zxfAdyaU%JObqaKjP|D_kApIjC zF%LV;p?w?PAoBzS>p(?l8t|QJer!uk<2Cv)xW}ACqWilL2_brY8m4>?_<$@sSHz!6 z>-Y9mn<0du4sTg}WJ?n{cV^PlSNasbFIX3Ig){6W9N#=L1m5V{rfKYk%oN+9qek8r5uN8~*jT!<(|3JtikZW&KQr~!xm#NAEi){auw@S|z0A9OROPp)6Z~hJ z)3pZJCOP+=YtlITWN(+aRPrjlG}sY6DJ={z28oMvfPGM!64BKPXF`>7=ygE_8n~=4 zNj7}pBk-<_U2@(92Z>)6?pwNBcehQZBG|op#-fa3}f)U=TCh#2il#Q{LS?dm$ z1;Ya>v8e^Xg(!ZkQQa)|<=t<5f)~6(n*TBw5k0*6x2wLto)!RW^D0*eE^2+y=Jvh4 zQ2Jdch}e|)lX2T*3>%AhCbqSK_hS7u-59M{*~-$b-!DbK0p3 z*-OfRT8RJz!_xX4#JF6?=qYDTq0c`HMqXbg&Ji5Na>p9RP-#( zuZp+l^JqD&cs5e>hfw{wOOJwZxr()-@DWL+)b`{}=qz{lo^E!~Zl7s2MLA=DT3^%^ zFS{C*?P_lL@Q9;%y!q}(V+%Cc_EQVCtsUH6ptVH!fj}r>tv0jA@zd zat`T4ne-k(um%RpB$3;k6448mR!ib|^_R{BxWr$-&S9LeoktF=hq`c zt7JaMv3A1xnaPVmj=jBl52KD(a|Slsamvc1+_!S1B%_C!h(gpSesy=fpC(1so}PsZ zwEc=JS2?Fo!9@)Y-mWsZrtIYs^^JuaUMFagPxYD5&p$S2_Y4tJ0kq$=Y70-ash_rh zvf?oXweigxuU=(HD-TYa=*|dFh{NaaOOZXRh@>RGliif#@qppr58OZ|_hqQjtqe0a zrAMr)A(;@)s9*9A;ku*oa^r!s`XY?sePv_kn?c<@abi!Cbp2T}&w;Tu_KqBe){2mY zGlC~A?!XW8)Pc=?Bk*hBm9Pd#AsLeQRNByF4Y9r)s|7xO($)9hZVntBs_Ss3ng*aM&Qr^8@;Y@2t*xvIbjf8uPUG(*rWouOyaXyQ& zC2b=3kDP7{%NS&(qY<#wPQbZ$_spVTH0&n^=wjnTWf{1n{Yv5Q=y`o_wmyEiUkm7pI!nKmGT zriIJ7Gkbvt#Cb9oi27wmtPN?+Rr{0)4+IUhKtMm#`(i@xCTCr7eF7#5e}7`)c;P=G zDTbtcT!By##_-OD2Iy8%&B|Bd(-qMFSUMA>sr$O+x#f20^xrlLJ!<`#jW=P!&$aD5 zb@g|OGahOv04@i^KonYLub<||O$at9J-^h?D*%Lm`)3;)THjl6QEzs-vu4UR65gzQ zC%t?L39WR)v}bVkqO zO?b91l1%8VlndV)07txJ%S#29e?-rDVZF?93<6vm;+$3~o(Er}A1BcJ-#a!+SeA%> z?hhS=wSLg7e*$*YPY`&yyAk70wr~76+Ld839hvp#r-gnv{Flzkl4KwoD({x#;#)zx zb24{xU1?5mh!oh#Dymk#{tR-V)3On{-Qg>fQfqXs9Bf$c>XlxH4v!EcDqF61NYsNDMNC(i_E z{U67&CyBO>a0u~61~pqmpkkB7_-6VSRziKpbdf#fa)FFxUKN<~OWRqfjN3o0#36G( zyn)ZAKMZu9`E8=~3?U%}4;&in0b9>KB=y6i_2L8Vcue967LSBmy=Kixr{ zsJl2$FD+fEnXG``;lKie+CGTgr`WGb&l^VzUq;cLUs?l5vZse@P9H1b{Ptsdn39pB zW<_`B_3W@cV!&?U>ZIqx{l|Ey+h%?_TKuB#2a^Ntj|@RM*(Ohg4<2h|LqMzWR;`T2 z`emALrW0=OPnVomW=Ry>yBqsLKxaEyIV#$;+vrJ2g5)u8{N{i>9~LT6@Z8osNqP6u z9j(n~^Y^vXGf$2bo~*t=G>cHd=?ta7zj7{Fea5E)6)ZWJmK(Zyh}e@j>UIxFLq8<< zxd(DERH2F1IfuXfqsXBi5DhP{m`^k&T8VlBx$LRib3bh7frCe>fEbBvbjbBUCe(Zm z$XhRH%vXK(`_C)t4{KlU=@Ov)W$|Zgcu|xziC9keYZX!$DphQ@SRwe)#}ulp^aYMe zGtIW)%ja5RqJL$252rs>Sla1)FjxY(*kUM)+;#x$aXx!K zHjEBuL5;5{DX;S{H#hdxn$)LqGfeM*E-L_|^&mxbI0KK!4)A%1x-rh*>=~D~$4B7H zm0tBLigNAm->P`1^G8cZc(`_O5$4#-wbon&edFSzYX;D@k=ATcDV=im9`-Ia>~6oI zC``)^_!RojThb%8}vu>KS$#+5C~+r$Nj|4(uT^m;l?`w`aM;~eOmrj8M|iD zZymS-=%O@`29YZIazDr(u}UbtJ05eDITw+@B9a0(yR++g8FId*^;^8!`0V<3M0F;N zhaNvo3s#6DygyjY|4j9Am$J_6A-m>B_5Ma&+?##PSyHYx^Uf@anvUUSslt+;J_~?<>L?1(OFREg zuvqOkL_7;Ji+ve!pMShV3I+~D2!y}W9ne)sZ=$e5K-zeLm4zJX;UZ2XkqFimAj%%} zyJB{tAAXZ))yf+BR@3&&HCI>Omv)?^_?JsEV@X8@%I6ynpAT~$S;i6iwKH94cQxng zAUj+cSIb7u3HZS>$9OMg0t{s-q1qk^NcMhAGy1%X`^T#i545rhZ<=0&7n%6dj|7+$ zxB@M|1gL`aA#1i$$C4w>9*_xb$vPI6mj=W;DTFS!=ZHV1n@WMwOBqfP5bG@rJ0ECJ zzPpu`T_W46gQiGQgAt{Vy!YHB0B{C$J&#mU8-XgJ2LQ}0m)E(s#m)l2c zgW>ZmQjenYu}0Z86;G3bYIn{}l=PpY&;`5xS!kboN17ErJ(y)vxrOS)=fUq%rF*IS6`QsNME762%BRp|eka z!nvj+PDv+%rnQwlcQbSuSZT+8dqR&Va5?Jf= z?TkNaBybD;oz^`94`w85IwgeUyY0S7-uUVPxSlM^bZeZ+01le)2k-cE2Z&Bc`=ksI z9S2GJVX`=0pF`y);||!vg@xM_vr^XKKY31c6fL&o}n@l2RkRlm#^)mI#-0XnKdVUv+4NFa$x!w*gz^dS+3>I2N0ZksgA_o^B+wXZWQ)r=<$6(R+HdA{b-LJ@B--F&;+ahL)%dv0!q zfAjv`r*DRQ2iO)rTMiabu3s6QJqMClt9MO;J{-7rCH9K+1u-o?u=cCop(&h9mb-Wt zJ;;02m!SzA>T3=a3u|##hi|Eel`N8eUuWj#ZV!EqS+-!?i#ej(A@jqiS9|;q`Sf=x zIT~sgRLYsZ-iawtQm_n4(}0QT-(Y$wmk)FXfKZ7!O91h9?QZ%Ky|nDUq^?uXa@>-?Onfx{$|qL_3t-Rh;U*XyC(X08=ir@XM=TIBPa3bx;mG;+DH!&N{3%v}Aq z{ZcE&wA5|ngRX!08;h_o+zyYp!Jg&q=NE3geQD2>b?H5s!75()hfb(V>TW9Iwu%Cb z-G4`I1OGi*Bc?Npb*IUE{}<4@4?j;lRW~<9w^WF5x*Rl_&krs_Ma^Cxrg>%%7*%rV zG$(;rjw|qK>t^3Doi)(@`0y=56soVmxO(zyrKEc_p$yft?=2_9{I$9rv5#4+h~n?$ zHHFY+*}J9>C!!7XKFdD;F-x^sej}PsmRdp-WTA%#)+fS+G4s5+E93S|!Ko?}hzhspq2%0mIGGpw zbZ|Ea$F~fWaO0hN;xI1pN!86CRoF^Zh8#gSU0{ciN$)%E?$Fu@gt?E$`Q9W%tS5!^ zk7QrmR<@du5r%sjhpt&Mn@$Y+V3jlvxTS|1@%1-1psTG$(BDOHn} z4CuM0&-~3qyUQyy#NDe^TZ^QJt=Bk=hpB^Ak>$7oUusFLn08u$P`BCOKQv;=~0; zzio_QnE1vALByuJX9RCfz6^NgX{0`H_`k~plmJDzy*b?!(QyJcZ&Q~Ml|F2Te#WG6 z2DY_7&=-f8wCmF!Hyyd;rh z+CQlY{YJvJ;);K}Z{H}|%Pnx%W-7Y()$%fYo5(`7^E6zsNqm9!Y1-wwg%q6dH_hA( z%%nWWB;z^a_pQB{{~BvUy0IG3FGXM)kZvTn{7FjNBvOMsi>sZan&@c35vce4KU{rf zSX5ElE}?XabO}f*F$~=bf;0$7NH@~mAky72G}7JOImCc8N)O%LdA9HSo$or=`8j`> zVePfodY=2agQ$<*a1vSxaW!JFTjY;`+~Rb)+s%^}eya~SM?vs#c7dhfPdLuIYt+0hk*+G%CXhpUL``Q(;rh1xit@~I%ImrhU^o$yHD$3c#2CSReD|JpUbT!=aNT@v&i$5_wpYddqt#4c5N=JS!K``8xZrN6B-0`#KUp z@mG^_Zjtl87VUU+-yE^l@5N0LGAFI?>@6~ls*-};e|&I^iVaS|LrX4N-#E!m>l5^_ z({f7$mh9hK3j_@SsyW;P6A-k2g{$-4s|{a)20*C)7SEQC1uUnhO7X+ z3fP0Zq+nS=c-K*!y3SSH+;*ra%(tjL?Ko6Wg!p)ue(e$-<3GJHp+A}8K3YVKxJr=v z{_8Ty2SM|Br#A}bS3qJ1UVi1QX-4m2X#Jup*~m=MR3)7gK=VMRaJ4aF7~muaM_!N2 z>jd|nSsctM#VOyC^pIeUX5)UqYOjAZLaj<)xh0jzAn zz1Z%tV9)xxnnNuKeqxklX2o)yVB(TarLu1B78hWdn5$KtB^1Y@dHcK9F(b z>9mxcA#|3`QoHVG;O)9Z5tIftMZ!f}ChSh=*fvb>|6XiI)G1Ri5EF%+;Fn(qL}t6Z z>}B#`_R4KN1Z+kUxq0&cV&_1C>uI&=HwO@E`>wsgR+=x%3X|fGjtOB1CX)B6*XQWZ z4CIg8O-ZSvgoW2rj3pJS&C24L^aUh(kturh>s9Gk=P;0A7Z<%8DDF70}6wb;^a zMpHCh{g+g9riN!~B-2pjHl5K)oFZxhgmU<2o#LZDAzV1r^XypkLdav@!Qc>nyC%nS_q|b)U?s zr<}vD>SHK5ch=!d6cfSmkj2`i-<_rH|CqLEP0~gT`aPVxn3(X!gIr zSgG$7NlIVyR=ar%kE=U<9Qi=mz)VrM8&O=fgy#WxHXugbU&KQkwj*;Ft>J1KTaXW9 zxO!oA=yS2vgYoFQlny&XFxE|clRxs+cL&x0^Ul<)t1|M zOC*|Oo*S#{E}Ag04w7!h*)sa5GBj^!R`UBZ6Q0dRXyv4{HeMOITYllc{syQldq@+0{e5;}`EF{ZcuuMlE+!77Y|m`UZ5Z_8b@Yex%f=&Ul1WA7unPr-CAQVX zYS1bTb_)h+)43;g&h@{_X0}lP657Ty{8?>nbMS==@li9rGZ24rs&j7v9J-4PHnS z8iFfj2YM3ko=^pL?pU4$zGJ5E7^zAN)l>j`PuB(zPQEL^_F@*ZZ4$68|4&gOY{bCX z*Ck8ClE6_P%B8$@6%X;*xKw*c#E>Kd9a@X(qW(aLm?cbv#Ya7u3j#2sssy;_d6ds8b^QjVS``;!{Gq zsR5XV+%QJ(3lytN?Kk8LM6X(hLKF8apO};yg!!vlHy1W|;O#fPcz6Ht*B5LAo#PUx zeK)(wt(pue^0beu*XQ*D<1Mo&(U{bV^p_voz+fEJz>P3FTI(6s=n&M)lcV5zNOGAZ zTs1SSM*VZ6G2<&0gS&2f`WV|Uw^UU^zRIar7d<-wYdXy;GJ<9*=}jI>maorS z%U$tJ3^K>vNbPbxfuuAd@YCa&WtU_9jPup7QbCGz?g75?##v>KO2I(dfkT?owzELr z%`MV^+!OkMXoio_fdS0xR?0HPfsVT0q@;vzNCGkFp?RC`pO32^a_RGY8)##ini%B= zzQs_1W>urbsRXwn$M~KTT{9m*WS#tw?zfgRV=g z?=|dtKp)Midnp~`u*+rUChV;TFKIgEwb$`y&)Pt*L09O}{CI5nBmCeqXO85r7Ayy< z5~DY0-x(YMFDn|(B6Ak2Knh%2W7j^dM>u{58KWNj$K`h}tK2m6cTXQod1DyqXwP2# z=B}L5mFP_LNvCyoI3e_Y^%cz(Pcql8;358s<7nu0f`J-@`$Q^}hWXkHKd6#-DSq=o zjn5+0sS&vmbNS2Fkbo_ES12!Ol&$iJla;veh0tpV|0(m+&ZT$jG4|pf z_A=ukjs^%Gq}y$WDx@fnADX!yxhV z->um5N>p6JyB&vM`5iglgY*8!Fds{e$`c>XbK#1UO z#9FsoBvpqW8*w}eH6vGy1p&xyhZ84|rptHBDceRd2B`&C22FY|b7ATqyJ zBDOom2_Hipj)xSJk0)9Fy)tId*Iw1Cw1AFP{lu`7zuaYew9>Kn#(DPXOj+93N&*S9 zI~G%Z>rG)1$WP$a`MpKAP4;en?qf^w_GORo-~UiFDkcgR66UtwIC%y#f*ozuZ0rv+ z`u*)JN87%A_cqd&T=ZiEyTgQL?@%NmNc)eMA zPFd;B`K7aOy|-B>AM^E|T7E4RJYvQ6T01SW+3jK4qd_#YBHYq!H?fx>{mR6avMY} z5Q{hGzrVMX=zP8UWDe=tgf$1T-zp}`{y9#b`?F%#`g?%v5T`J$#69Df0V3PCG^NgI zn#4YU9{wuDBe(!nAzbeHw0q(7wkiq^6sjNV1CQGl*Y$GYF%>D*Q`_a|^}x_uHW2z& zxeofEww%ObTanhv)L5r@f1(SV;WCWg}}E>udg**halQtYwill_oJsBMvyA2GsRRG z!x%sH^&ZWRKA0$ckK_ES4Mtz1UCW5%&P7ioMASJ8K*RzaKl(IG`xH5euvRiPXH=+~ zWLmN^a@CWJay07A56OwP4^rIa1AKVd%ik4r**3D@t|Z^kY2MvKA0H2(>rF>5! z_328*=2%xZ{(e2v_~Dz4EfdJySsR>p+k_zNIuCc$f#D;Nb z--sF^vYd!~J+{7zcd{es7UUvc7vvJxA72bz_2?Enl+;70dlhEy&ha^8L%49cHmU}f zKm1F=Hk_IHyMm@TT%ChKwV$Np-J_n{#kW^{w|K4}oVyz(ZS+QH1pc%!=-d3Ax9&8F zLOWKBu+>&%uRLY4VFs-^9z<7(x;4d4j6Sd3A4D?NpwX7JDNp3P$e)&R)H zF!}5xM4aOrCZWZ(EbqNJw_{G~r)t%^3kqCC;G@C_vxZu^^mIK6F&-6UXyg?R_tI+9uc*9EX#+$bex2VS8Y*@r>hl8g}9R` zY3$$#Un`pe5Y_JLYnkUTaMF2J%Md7TnOXVdT`s@>Vd<+boH2R*2WUPP33Nt-RKH13 zho^t~P(!NB_`~f`WJ-Qi^wNpR?HhSp0m4(tM$Af|_0J&b^Left4%(&^%w?~bvZc?{ z29J(;iW7m?1x7#(H+BQ|JCkYu>8eHlB#YaL==OFiET(EfLiXC)y5Mj68P9c@N`3L9 zT-i%I4SU>EK{2%m1MN9A#CLO3FL^op6r;z*;j9y(D(M8GNq*^>H>niSt^KNhP^%lL zhbW`JlyqDXn3ce}hF@mc^soZ~8QP|G**Rs$|GCd?hv2LQKvD@JZhqU*#;M5B>U~aEEG*7b|kiX1AX!YgXEH)!rQG zyg}B~B!~0y&A}Fo)vLeY#=*DW>|bJzS#t8BV^+qNuOM5|Uc*7aIB6^eOLp0ZC-C~Wy~uLoj)j8x83tyreMb!E$INyd4APflQ`zWi zloA-Cq@PFw&qIjYrnquw-DZ5d9wy;hJ*1{v<*hj6@@JIW-6*X6JqW>su1Zi%cry;W zrOQdu-c2eNAm2BghMNUkGx71>`0AcfJ6?K2OdjUAa)@0gO~ zrm#_6%=p|-sT~uWj|IW_@GNV?#2a*cdcsVbj(b5cSkB7LtN@ertvwSTPxsnO<*296 ziYcn(yyTQwnENKA*8(J zDDsQ+$C*9A`OAw-=kF|=7w1#Tt4bO;DVmBmazqD zMK#wg&o*#;dI9n3mebB5u0W82^tD@DXxYUlFVoi!+(9j2 zg=iGQ7Jr`e_i=QNr*G%%w0r_smLbIg;DTj0JFPvbKdOPS?)GLm^|;AYqcF<^ z<~5K~Y!}Vgzvr*)$4wU=gu0=RUJZ&bYc|OH;|*jVlY_58rb*OpAy^V^wj7QuZ4Qo# zpPkyWWPO_HI)kZsO<)q=TX@U@_8F+^EB3#g&$pxZ%~e^E`*foL>9Fs%9~{TZFaH!> z+WJOdGcA&}NdYlKW*pO!s=<&(2bDJ+fm7bB0Z&oJFgcyZ?lRGcP$$7kK*(BO2y$#v z;H+GtdrMZ67p;=+a4yqo+rrlR*{Fa|6ybv0h{3YHhtH2cd+>!Q=OAca^=vzU!P)S> z*~^H*JKyd?`u|=0LrYkKh>9FHV=iqL#8jeAUJS=9wo`IiUc=J#r4Dl9hm~R{bV}|C z6-r8C#7dc=L%|nhm%XTcJsRC`%Epjsw!SST0*-66&zjanRvi!-UktdYzgI%`)V2!Q z&ph%&1H~3QpIP~Kd^q->eKfO?@Hvz>Q@b_0A3uy{YrHcQ`al+4EmGxSytMSQChP^R zynvuW*avY!{I3K|i*r3RT7}J&<6jz!Y#y6KpSYtvUoqf$AGrff<$?q&PoN%$q3x^f zxkUbQYx+%}`gx*z|6p>+Z7g6WYOxA&{r~RLKZN48BXElehgQ@aJ7NLUvRTJOSF}2* zDc)wY=o7D8bYw;>pSMU`2}@(gQDl2GPdA^u`M-LW94UA2XZTkJ0Iu!OMegL@Hu^|u z4Jh;Kr)<~L&79fMxOfOGCWRjVn`!U^fmi^ECHKRI>vTM%G`~pz;`-v#-J_!E7IUb4 z4eOuTKOHwpR-%x<*{mpo)Q>I|@er9~0lbErj$6=lPUM;hgtXA+jJ+F?>`MBy0fQ}B zF$I)JW&hMW3O%LF!gcDV2BJ$81q->o1xnUk;QUX28NsJg24udq`B(k!nyMHf&N^t3 z+W2Y$aR3fPpp?&)Jc3e^<@^93cOfhqrwMMx;i7TOo#dXdw(q)E7B^$zElYR9Vtd~k zL4+=)OxB;MSE!q2b<8uT6iKo7?5ie&bEL~PN6rTM=W<(I%BPNS&)yCj%pf+Vs=h+cvkhm7$bdV<02IL<{|m-Y{&&=mqTyK;0Rol<(kO5N$44 zFY(E>w$rJX_)&S!V*06ZTkouK0LH}`6_QjbP@7^W<-=*WnQ#!$&iK9O%=h z%W)Y!r}g{NXv?5%9mq>gdXyKB0N^K?4_`>r6IfnI%gta(=1}U{s?Dj_zx#CvY2cB-S^liBifcE zg=1ka`;#@mU3q9!j0N+vK~8HZDP8uMRymxp6PFx}y)BZowkOt%UW2#CpkiY9IhEzN z9WW*Z1`tyo9LaSZ&40vEUrDh2L1YByrxRAksh^;*W#QUPPGv=Om!k`cAnxBCH+j27 z9b3VSv17!_UXtQ{2naltI`>Ql0PP(BvD)0?r2Cc5MLQI$zS@T+7Vze4O~`~guW3cD zDmRPn_axrqwR8TUOdUnjr-ZDug-@nhW_p5aPU%F|al0Oxg*%KZ zZXu%y?iiaUpeMhVm}gir>s4bJO)X=15-3XqZt3h%DNj$nX=U|9;#+F4M7!_><@-zLnrYoKo4m93ZL$5^FpQ~Fxuj8f<~eB z=L1GCFO3X~(2|#4Jjk&K*ZtEYraGSqhuq(q^7z%e#pjfc;+Nu?Ydod}IXP$ui*+X4 z7W&RYJGmE&p8>08Ra5A8?*7((m&dXV>^*^Y4L&+?lEd#!Q`U(Y*`{ig14mA<&!`Zc z19s@cC$?H7+86HE>wv>8LB7YkbeZF{p|!!_FC@?~+!d||WC2^bq$X4V^Hqx>wm)$) zo7kHXkAQ68YZ5AS`oI2dK7i!eVC=TC=}^31+I*1*A|HU+HX6X3xV8QpW+-690^8{{ zeM01DDnMz&M~+{f(byhXJAA1~Mv)*xns9?Xyvv6>fVtTA2PfYO!u^$$A|T7YDj5Xk zooRIoWp}7AbL1Ih=Pl&Y!k4@Qpr8n*VgT#$W(C-mM(ak%5iQX|cXir%RjF@E1LA&P zZ1b4j8E+ME3JM5}q5kf6HY#A?cGNlTeanc{$+!CoW|=YxA8%;7xdMW7^V?L&z_N)v z4lIe>BOJqD_U%hL`Z z_9~a;$68;ooOJSV5j7G zDrd7@B$Gv$b21>D!J7Fwr6$dx%OoD6PRdB*3qhKu?tEyX0!t$)yYfFtM)PaBsl?7`4jdfbJjE>ei$wU7H@R|B}sVbhz5r6rqGTe zs4~=~y9JnLF$!D|t9;Sh3BNtEj5-OAQ6JRazvMj7ZkeF_foVE==)>vw{y294_QeXw zDzR-|`XQ{5CcBvTg@-ru(ReH62mmrn3T}VIx)oSvT#CF@K*eo5XEQ4iC>ujPa4LjMD>$~OPH!)aLdx_%Tk;3OJApg;VKbP>ICF|*{v*`^6qr!_ zXbbT#6b%1bN#(?;vYDf}CZ3m98i(sl7_Atg7P#vuW5f`mO{q7`hsw2R}h8E+3)*v^na+N;muJq#6>9xWUsg_4hWES*S!}L=3w@{dT?m_yi0*icT1~ zogtX-tiK#KaZn@;$gy_7**7hLN86zcVlG~lJi4+ls98Xd(CG1f(zVak3qg(1vm=kU@^7;yMFhTJtVzaLz}S41 zLU8=OWBrPt02?t`?p=iiwRr;cI>ljyLSR-Y=^5U_L>X{^I=S^rHKZy6V>MU=y*eut zszs`H+2Zc8mQ|(#XUy477DY8b=2->JolT(5wnD2PXpNN!WeRORYQInHI~}~md=?%Y z<+l-F7~bQf`+`3d`KvPZJUaPCQ9m}CDelmj)3Ni}O_S$5DrObfZ~wD3rZQpgGk1tL zxjVC#mO7tP_`Pn=I8|b4k_&BQsOU2;m4r;Nf>a#tFnouBc>-l2ibv8fGut*Q8ifzs zMn&rn`obZ%!742i^WpXH3yt{uyXl5^qCO2&v28|h2VT6u7c1Iw5ryz4H69u>Xd=bI zT^w5B^_~RjV;ZBD2ez&ELom=%DaIug~u8&n(?(H#iJ6@=GKWXNE^;^zq2V4M?0w zxE!m=9BI7dw!4iR!QCl9IiM7gj<#o6)BQcqxD+ zD;f{O|Gs7bBh=zS2}RDPXFOP>Rm61c-H72{Ypd9j&^a;)o?vdO&Zh?&drNXT zAM>2QdbD}DpAO5*@&EO6TkN}Fc9OKQOb>+ieR{_r3JKSCZ6FG_BNO|40ZKk<-ufUO zGD9XF+KKO$o**1}>CJ`M^!M}4H(+4~Nvoby-3#fiq z1;Hmgb&%?0s-y&Xhwf`-h?lqs_zldICKFl9BX7Tk$=~{L)~@FkL5C7V(C5_qsu?@% zb1F|?v^*(dwUD;rIbKjkOz~A{OYC582Pk~1E?~mAT#Hf~J&Yy?!(TL5T;{(?UEh%f zWUmV;#Z_V{pp$tikNXH87riFO&P#f5TR#m3(fB+lnB}HFKairvwR?C+^0GI6fwNb%WWN*WI zc9VD5a}W3hT!A;Vf+iU?cSnri6~Eyx2173^v~YM$*RBHNre3>lyzK6~jc0OS@_rVj zcWYmAres@6v0%5bhQSW1kzqYHc$?F^AyDRJW7pFrPj~NMcf1kGg1QI;D1t`_pQk{4 z!~M!6T%Uqab5U~)M8hQl_H7@O-}ng)aZ0_Tp`;FMeT8#i)7qF+y5y`yL(N>PAqiM( z^|<%i_N0(X7dI_h_XB%8s7tGBfWf!Uvm$LI*ar4Oyy?u_+Y|pc`9KurPp7_q>U)jy z5o-bG)Enqn`~X3vLTL4mutc^kaVU#W^XfOH@W0sKuPZ|8L&=%!*)HsPL#!_Q9q_)> z|4`aJu`^LT| z*mOvlI-iC{C@A*ob-pXWh3!E8Pq$h2SCACkZ00$T!i?9s@gv0zCFFD3ZZGwmxI<5_ zT={9pyF>0QSj3`?8ce!Xi4v?hyy?kvzn|#|FH`)s%>9#;-X-!y0bk$iD$hJs^|QAk zF2~Yee1y@?Q2kQG(AOw%dH0;~D@2K+nv|8i1~$c_2cvpdEBssEmA464c@(`}wbnul z@aZ611ciRrSRt9NGEeLH_RkK3%{3hpj4+T3lil$$5HM)+!vg`)C&0~YUe-Oz;n3( z(PAr)lC^B?zwAr-oIK2oePrs3sEUrkAvyX?R?`*J^X7rl`85LKF85w_-~=#!h<(5c ziNjFjT|v!&T`+&_S2Xu3kl11%( z!@`>SoBAw3t2@Ew(2Qc*T6=(Q`!?&8W+`&V!*!hI)9nT6<6cKCxo)U+KN}~xaw4%> zNF}#~+C@JfnlcjF%%aGHae=lnkL6C2B1y;_Ik~)vxn>2^FCm*l;p0M(TReN^dKS^- z>y3EGt5svgJXU*VsTRA;7vin`haI=^ki1Sk*pcsn9jD6r@pb%wK9}-3TZ66pRui12 zZPKRjkP+O;^T1{vneg{abFMOVUr+KF%Pn=U+t*;UVtci;BDptE&nYS%^32Q#CjON_ z46*drjgLEw0Nu3cqLti;)ar3x8pkS(-4T|3zul|=8erPjM050ee31Jzre*=im z5c6g{rjZM%#A0zk*i}Q+FI)WlTwXO<0`$nFMhEWif5}t~UYZP{jiGvB8!?!~@lb;q ziKgB8ZTSY|A~Nu!L$20$zS=M-ME$2rYEJ{Hc;}6tMy0XO=uweDKH3doKar`qZ2+t} z#e6K>sEm#i~$)U~oCdn^Wk;#qbH?!%1_wrqVW(>jiu zvwrflpO-~KFd~Eq@$YmN_A%0veBNS9XX`{jq8!_Sns0WBM`!QdfNa~-{%_e6`7?FY zASQXzG>B1qQ{_v|6>XKIk{fNr9UC(v(^DXU$TkA9aNRJQQmmx*Mvyi0m$9`45m6}q z=+!P8Ktgq0tyx8ge>)&|#S<()^LY5l6E-5chkyC*^fZMZV^Ekec6av^y&S*WMyb#S zeWfgq=~G`yD2<+>tK->cO^0rR=EM?`ymmc21&QX4xN|++YoNF&rx#VT#| z2#g){!Hp>x_itp9E`JP4jd5eEMUt4)!kbN6^-}e{92A8Q!=lqm8DlvD#jGrzP z-h6;hAb3Lt%~jG?cEfRUj%XL>K1W2ZjbUaxd4^!A28BIU1Q~AUOd>_6b%tSW#b1MR zm!LmKMCSrEkBp*>`Y*g%3?0Y~@wi@lEAx39FTeUhpr<07^8NcJ4$U@!voNE~U&M3A zA1)0WSG9DZ)6}HDeh+ulQEprH%jX_BOcnjA&ZU#{gGK9rXj-K9+E=;pmUnB4mkYCr z`gY$9d|M1ZjfMwaRmZXIdN@a#Sg(>8U}PB`FdbRGiHNcIk-+vb`IBE4m76SzxBk4n z3CY`Vw~X(N6arY5NFp&EJJ8jBYY$>ek8~M+LKmG7q8-eV;QAqW63F{y`l&HP|9C0u z|0FrK$h&6{_ewUadaGvqn}710a?ZOuOxM2pgIx(f`awL=ZObJc#6^w3D>^UZFDnZd z0jgSjt5sJsL5M|65-5YQp(b~~EuGhE)7W(Pn$GDt%1+wusk0E1+WQzFfg7ZbbJcu4 z3>qxW0tk%(?^fU-$7D=vrehVjK==Ngj-gI8`mW3{Mh4=*>6*Nhvgbnmh(cTUH#5fJMMFNXQ7utF6x`QBSUh05(E;Q{?aayo)iPR#Fws1{3ykQDA?;~{O1d_HQfEg|HeoNNTx zi6Z!e5axVJjT&Z3AMM1Z9J}tU09A=KCMjoBduGMtuf?%4X_ihj0?g^ii zbi1?7HZb5T+s0eNm5|c(8`Sc(0~>A{}#vBm1iM&!*DVM(U{M2?_J&{t$4)eX~Qa3o|K#iYfXyK*6doNp|q zQ^BE@>F%SgK9!@-B{fNT#bGp8etb_cW|ev*_uIlr9f~5ZOMf5_L_n&Sp=Zx2JBoMS zi5TfSrKOC;NA2%;CC%P{2jr;0zLQkN+@3LXb)T5uyCvnw3ySyncOQPZ-=#xj{>Og= zBHnHf0l9l}@Tq6C63HB`wtAT#i+y|chY*yT4H259gYz*Mm<;S~9rWSx^76OwlRDxa zr8i**VF1+yspnP;8R^}Wn`eq|Jk>3f!dmHF-qhE|E3l+RtxyZ`)a75>QTI`A=6kDh zSH;G3b~Q(|`pe0Om|bO#%fxL60!6KLgxmo`4a! zi!y^Ba6Ecj4#2XN58%hPK=Jq7ox)6;bl>i@Q@XKGfE?ia(rBx1rcWv+>@&{92bDIg zIzO>}$ysAQs%dyKGRi0Ih{U^o_P#Uf1%OX6c(~e)TOINuK|jh~j@YhFO`2AZXe`Z7 z@TGz;mNw4$8)J;^cMnaNg|dsRTT!Suf{10?D!uE0)dZ2@nCCO59l>(D$4er0zioyi z&T?^D{j_j}>(=<`2kuOqe}6HD=2UqIi9~(S4-?12Jx>)otT2(UdZmZDLSfNn(zrqUg8_d41>lr zhoKOgiu*s_RQPvffG@hN`Rd#U3qId8VfN=8pMy`Ms(duxRa&Y4ib7Y}^|98d8%`As zuc{4KLtjrYLi3Ac;bp2S>Aq+$W{xT)oMQQqc^-CDbnh7HFlPixx`nu78`gX6aC>Py zoWmMl^o%A4tZEz4*|wN+NJXYpPKdc1K6Ja-!eic3{Iwl8YF=a*W`$O-9=#W))Unnj zuv=tE?I}1J`Kd^OP0T|A?#j=}wtN|rpF@$LYb+oaxGP^rMOXGZd|9kVbx-g9r`MsY1uf?$Y&?IOs&z5S%R zA_20iD4t-zhDydPq!1{{*v!@>X!GhTYdVcU|2L#9{<8Qv8-3E%D)M04y$z-#;w7{r z^YIOE(^R&5qlSbi&MxQBcK2masYrYq{Rlwlu|xt0J^Oq#JGSM=oAERkt@q1E7lL&! z*NIf;7qE^a`CMgBxnoNv5|r2z-SHnI;*V-M4|sIGB`3LTIPY>cp?p5oBT}x^sQ8F_ z_mTZw-k@Kyz3$Ct$OTzQbskypy2-8CRY`jU-s)pf(Bp{#b=vP>SMxZN#pu9k=&Fzm zw>UfUzuBdJ6l}CNQmD?TLxM4bI6v93?JMBh2K+;_7<-|&dsr1Dx}-stI`*wb)}c}3 z#J*IesH@XU8!gRG$#Q}srcr214Yq~0GOnL>=TI+?IbuGvi8~ggwcKn|MRRSgza!VUq2)`yo_bO$MOE4nJQq+je3233krMWdzB8Yv{-|;7{7&?VkW|c zf>qkF_fB6Ilc>utxqK|5hf+tgwyj7i=u6QlMiglXH2%0-F11O!v)n0sN^v)BOXXU< z3|5R_$QRug1hb;rDsQWt^T<=`8L^ZZAqeEfA01KUonNoyK+fPHO>R{FQuS`CiXm|Q z3@;RIza$`CIe-+uU!BlJ-0nPOQ;5-ZPY;Y+y%q({-gvOAgup2P1MmtHleLQ%QN|f-tW!DTuG(M8)Z%uMs>OPh$^=tRWDknb@aU8u4i`Gqa6cXk{)~0 zOs9=I;oU{B=)4gGqZjzGt^{c{`1=e7DzGsmQ&2xDzgf<4$3$l5;MT6Fv&dm5!m?I9 zCL8Jduy;D%{Ht!5v84)#(OLgxV>G>mw8yoY@kF+_90{00exF1TE+QL1<=s`ZfjMc9 ze49S4U-*+$VDzp`luzG^dSA*<1Y4PLM!!hUo}9p%bi)R(Zt?n+cKq*V>NjE@cfill z6n7MjaKMmyq1YkE*tur-ZB5k4zB3IJPmSO)n|WV$!3=F2fuIzJD55W_ZuwM@cbq+O zDJAcpp%|I|C8mu&45TCkTD4~PwU%|jXg#<$*C0?T=1lM;10qi057Xoo1J3~v$h6=* zr`jqhT%c?JZWSd zz5AWTle}X2PEdb*c4&@lp-8Bp)DYkS{7x}(t?&rw7(CE-nl!RUtT6*(?}VMGn9I*r z=ERICi6&INWDMrbt~))^4SAiP~5mJx`>s%?Bbt*HED%sN21;=aAhl?{u^Ny z8kuPX+u4;-zeIBGU=(K-U9BnFmuWtu1HbqS570xN`0g$J4u}TbRYB8aOVRwOsgRi4 z%FB06v52|KzE&wC^#DL$Qbq-Oe!t$YOQMNj`^-n(wBf8H={1(s2KVa?J9-MD8Wq^+ z-pI`yCXmdtjs?5kQ}(A=xQP4LlC6g*tu!|e64S&&y z?fQ>(TC{Bv=LMy2Mh~xT{24qUf`~c|cT`Rkl1hQ=Tc~XOIix`ZfnRrjg)q^%Z-IiW zF;K06$>70vCEglq{r?q3q121mFRUng0dKnAMio9ezq3bvaPbFi<2wUN zCmQbwc9!@TurfF{4{UV9uHS{!zAgPi<(RSL<{vpSgjf7WRcMFaGWL{!$HMf*!Go26P|?DwS<%M*;W;Ym%|%Y1mY~eR_g*`+37yGCvWo+QqKUvkyTDSe zMHqAM=L=@itg4yU$4B@Jn0%y$Y~8o7uY<(|Y0kd8!|2#sn&jUe{0X4YNzBA~;A>Y7 zzRg5f_W4&cQ3v0?ws_(F@~4Hi(fi-jH}EWW)F-Bxt4hx&dy40aiYc0C-woDJRFUMG zX#e7K4!)1`*n~A2-_A#tk=q{qGvO`IPHv-;^CLlPPNAa>hKL=G3CX5@>^cqVwMFNb ztIZd(f87?)FS@>(PaXX9{%j6u56kd6#*sN}BrnVt1<1%gyd8r@8NET}uL$(ueiqzt zHE%ds?HmX_Q8UnSr`c)3(J*^7E-2dg`>TUFER81r`D6%&hX)Tj2=XWNCI4%06Mzy{ zff&6xcFdOpNg+e67kyd?k65f!tW34!$GJvwk7eNViLEt%98lGON=oqlYU~Gg^Rqd& zr>4VMWh{R4{UJ&{`Knaq+vn~fzc|}8>XTx`$jrZIm&{oE_B9GcBWWn_NKTpk(!lDt z>64Rg71V;<+PDgm8%A4Gmjb*+sE1GY3r5q08Dk19ks~Zf82n<>8qk6HB?kLqCtFwT9=?bXb6>joY67N$JnS zp?}hWu4@ljg0vpopTnv-2DC!^LvkXbE`pHTU#BMzSu3^uj~^}SSKiMwPTKAi$nZ{A zuQ~HIT|i-3dcMi+tR8OT&c)pjjwBh@d49XXz?-(q-4rq9@gT&Ri3xiTH~7(inwUUd zJX?mm6=(``f&8iKP3`0z0X)+9MXMDbTI0(fF9k%%i=~|IPpMy~#;u^8eIU}s4UY4s zrjq)3myG%6-WHcU65_9{oKD>!UTEn-jBj{JqGE6wjg#+-$G;-~yz_}|E{D@cW|1bF z>J}q=w|d`0|Gnp5*S1W&Y5z3E2pg40wK;GEgd{Cg-Azg2byWINwheVRe)+?l(H1gA zV>D2$X@Hf8E;0kR)UTgJHowZ)x`IKdLySzp|jY< zL+yD%@v^eN;qC4X$;VIHMJw#4;lYQDM8Y^5u>xWDcmX2N>RJn|4DxrE-Rvy^2I|)r zs=hN%L-7z4&YRLYKZf`J(fCI#n8M23$<=d{EKMw}Wag?xQ6BB(f4NuR<%(St-*rxO zKH91JKXUrK{%k~r`;sYa?TOrA|tx#j` zy-cU}nc~|Bv(b)0YyY1l7#lL|LZyqgo@8KPAC|No4#?d*X5g{kJCS^|Utu-94yUf> zscx7xiL#b6Vo;<^NJ-=z!v2@MrA1Nt}3crU?5q z+@ws&4TakD#yFx#grq1$TkGQ2ex<_iwc7x_^*2DLZvdOdu32-MBe#F|#!LL3t`iuQ ztTxFHz~(coX^x$Gc?11!^YqANdu!DYur{41*KhzEO6at#(A+a z*=-WxdDM?*LS1sVk7-cO#&M2CaMF|38-#vM@{3rj`F;ZX31{T2rk|{ui3^<=t z{v@_hFlDRfA3%Sb1pOz~wYsrdEJ4_HXMS4$>7kg6PBGR$bQU=EVa=-Q%u!S7#!gmP zjR$>@m@Q16`ynisu7G91-ldP-Y;2C2-xhv4KI8gG;xx1<#F>6PO(MXn@OR9}prrG= zFCd?ux5lq0?6q))A189?MK%IGal;NGv8voqdWvc%ZPgB=}%8r|p$I{Mqlj3Rx+00CT zF@u(k0wBzgcfjMv`yD`11%U{&P(`laPS6u*MWZa6_;??=U9vrOC$zwnOP`x?2)s8N zABSMCz>1or@onq*%A!3_zW4q-T|;?I$6G+z-n8JhkH&VCK{2Al1DZ(UEE%Zcug+&( zGs`_ib71Q?(7B9eY?l8Ws2iv6tR9EDIN7)GosM)e&!QaWH?JYcUKD)*(=FG66Z3iL z^&KX_c1oBpF%^wRC$Uv!JR$mP#xMAQ%njGs4DUsaoz5*<=w63opw6_euQb884cy21 zM!Jfi&AT_12QS; z1Z651s$SpS_+EwyPTF5^gknc_eoM)mBAfDT99`1eYD|w#$y_DwPGkxuFhA6l0BIyX z9xBOZ+KL|vfJ)i^xQ^Y%8~y430`wS71*8*OVyZC&FD$zMwTah0-{K!W;pu>@vMxF$ zzLo;Q*&lcg`JdFku~(p59V?{~dsD)H`3APg16`{vW?tVh?)qwu zx~RvtDo?!Ti!Sg1(CiiMl@ue-bl|;Cu&~H$yqwE_9Ktsv3#7AY&mit}96X3$ zbPE9>Z>_H~Wt~dAt?<~^Z8CbItevf0Io+gAPS*+k(R@X; zG&1v!$=k<_?S0Taws!8ShAZ*gTOL7hvP#%a=&R*x@{DNi?{P8<*zU6GfxmC|=U-ps z@sSa145M^F;3-3=CHTMi%=B1CWFZhbB3-`qSq$8x;E$!C%d zE*MC@-8j&>*-B^z^1&R|lWz zbcn?jeoVI=TMq-5GNfpfJ(4WZDH=v!6qWTjJ#(@?PZ3q{Yudr@-8_tH_QM2Ddy!E} z1^?oT+rLu#%4ai6B zud(B*2!dsnj)0A7-fP|<_~y;;CKY4FvFUo-q7~pIGPSDHa~2ZtMi$Hj2~anPy*O4j zta!du!hu@izt$;O3|b%}IGkqTBRh<_057sv{xQ<}sre~@5r2F-RYZqf+_0Gq4orMi z=WqX&6duM7wP@wS-gYDh5RU?iR3&jI0k9&c@6ZPT6r)10?*Cp0<%I#I^UO+Mj?2_B z_g&kpTmSi7e&YB0%*n4B9BNkhr24rX0qhFpC@^J`0PND*hQEoMS22>7L zZpsB^X$t1cblcNh|H5oYdm>1Y$b(#x%5eOWeyJ^&hpdC(>HfEhLXXtiS^JujvTZp+&J>we{zI_a~e| z9|~r02MT=z9R+u3E_;!kuwJgpUJ|@)`_KvYaJRLuMG{V?2=fZ`21m60Cv$^A4$WQJ zcC0S{M)rR2js2_E`Vj(2ST$`~hiX%|-HTBzHXy%WB4-+Ld zqV}3(>FPs>wU|DG)7Gzo`!V-6k~awYZNGFu^rI&KwlX+mq)!0eA}EZ~kbEsHk7OF)vhd$A_*mlBU}SWl@a?qet}Y^CM{ujltt4qHWB zWVMe5olgX^ch=(C*4SHzYN{35FiI*WJD#KDQ&tYm&jz+@^{01m6`<0D1Ptle9+(1M z%W5?dp7xFAi;|F&noRLYJQ_8*yksXz^a-*}|NRIAKz9&{%ELMQ7lD%EJ@=yovAYc_ ze_S2}9=m(gdq!bIi@cpoGz=~l7?B(%TRs)y?=+qvF_rF?fVSni|HYJbAnyWW z*?yA!=+j@o`g1^p29Y8^?ml|RU%LMdJntS@yQ}KH6X-XczF-d1%Pk<3TnwYe)(2R} zhB(AQJ{w-D`h_x?DmO{$AR5qSW8@hPa0(MXj1uhgG-mt*@X#QTv#zsRI^lQM*&f05 z_JED}QElTS;dcuoFTEHb8vC@-nQbp?Y6qXR>a#g`j*!fMFB{H9bt3xE1Vq=B2~B3G znB`R0#z%A14JT*6B-TlLb_V((sTSH7v*id2pO%mjgdr?`Z4l%ZwaU)Cas0^vb30jqol zH9sMH9>8hI0{O?IF};PD(r3?K(*xU zAA0^%r7`skE}gufLd*k!6wPxPDp^qoM6(t+nd*+Kv*4f!GJcWxbCj1pR?Mg0EynpgA`AG6q?!0X#kw9`aznnwf z3f33=p1@vbMEI-UZnLUMKYwqb=P^~~M z+~3PY6i~eL0;Ns*RfPZY)Hxw7H)xn2-H{H4GD6CC9%%ySHQ#+xCOQh{9*o`?NQ#%tP+FfLn1pW>Xq6|0bK0?T0mu%TbZ zjd@e9caw_1z4|?z(fmcoy#l@?_FnbP&8){p(5mv;n@vfw5z&DAAa|H zn^%aFzBIaDDrRL}Q=rp_dH@D&ZrXSS@+K*c#@?2#g%vh`gesP<;wMWVjjb~g#6$%} zq)KDx`o2XEa4^QRIArY27%FGBC5jDO=-s5TSAD^0+bT#F6f7_t4TJhNlNmF+mZZAd zABb8ge>%nE@Z>kw^-KsXs`LBM^mXJ((gmcYP`VnOt&XpOuCD#->Ac?Nb>Q~Ke!@UO zHJs##L>oN-z4K`STwpsYj;oyrgd=wQ?URD7sNX|zu(d=6W}4D29=Rrk$#hnY&wdBH zp66xoJVxOj4{-D9HXed?nau~|r@b*X=K;P91A~Y~VDIF-c`aj|av(cr{ulp~luTEC zw$7u9C|9EICQ_Ldok0P}uIbC(=Mdl^CmBi1l6~$J>@9F9dMJ{#_!6a41pws@rjxmi z(*;vZxoO@e9Oxen9%+Nvd(6AO?qxHa=f-D@gffy{_AcVgJzQ4d1Aa34Sl9S^t%RIs)mihF z@AM9E0}pKGn>pm+`4+(7Jq(h5OKk%%ny7_?EMRd$ILO;*PcvjAzymd1r_cHGAOB9$ z&V{hI!P3}%FUw&R{VSn;cls0jb&jjv&s`vs1jL+;V}fVn%N4&V_}+B`wJ<9|waXTr zvH3H;Ct=V+ZuyHy!IbtB=>hder1oJGm9~_p*?!r#gy{GIb(w4U*Osf|(7Hk@M;JM= zEQB*X``3wutahD?nPQD1>by*6j7hkYu+M-~TKk-`g>sh(lO-~Q`*uj9U7+N|2 zS(|8*Q)j|Xj~m;N8Blk8Ka&2+%YBl{+(>sVN~X7v@v~dxc=@2*Gj$^!*-RCusO7&8 z|ohCq6>JGe{Wf}6MW>P37Pl+!$*8y z(0%9xn=5;55zR{=E>n4opTFhm#?MRk@lOLxq3{wg->hE&GMr$yaR(6G!*5&dif4NO zwuedk7QbR>yuFBKAk>5EahgnaTPdV(NGy=troW(~>z+jgipg^B6PJ?N0O7ID6}7~? z*A@dOXBX63U+f8I%brB7C;diS@*Y{#!K0a$XYx_eNj6WNNnhwYOCZz)*EL$1%(p1X z_7B0z2Kk@v#n9CY3mbYW?F=pbn`9IKJ9XH&iVvJ4mf_s&o`x)j!Q?Ye4ke1Oei}<{ zW(>9+b^;Oli~k$zls%yl9>5$HDC+>5(qF*+*1-tI11Z$0xh@rJwUCM-vV0#AP8>jN zEOX?fUat_I6U;iUPxj=-jx>gCTVv z!n;Uu<-;+yuyCCqV~79td>Ww5EP@-Y60&$?L6e$k>=Bay*l6hiKiG~`p>zZ5fwEy= zq^R1jsf1YXRKxu>p){MOq}_#stn^cwpaq9xqQ50UL>P z+`eQTP_IT9z8XU%rai!G6Q`kj;K3+fkDqPVg?k=7iB7|wnT!&bOMh1mrB!yyS-;XZJTG>bNWv(>i9>jDLYBlD|PEyqmW96rRLvVwq+eC&~NtSixEt%pDh>M0he0pQ$5i zC0bV&I^6ncpfzb0J~jF4=j7O;CKyo54j4R_AwZ)KqPJ4RVv7@{Iuyu>q!s2>GF71Y zp=|@fh>?HVDD&OS_y#zj?Q5q2$ay~($fG*FltG2GdVS)3UA?kf1n0B6a}VmtTC_G# zYXD{T-0g2xY15+jUl)0uH%j056PE25C~SM0flANeep^^$ovtwhk|8MxA4y80^~l_|}v7w6LziKNgvsE+f7*R@#bHGz_>d!^tHyc^lCYow3 z?k^yedK|DS6Ln6TkUe}ZRn%;aM0qWI(whE(d{t1kCz$!g9Y=a`8xqR4>=Az&#TU89 z+An%bJD~j~IdRJa+^nb;3RX6zv{9RCtRFfoWaw`vY#lVlvjOXUAX@P2`XUnv%=(rh zM_}S0*-^@b=6uEDw*Xq`{!H@jZ%USxtY=dP37#gAr=2CR+2eM_YPwn-mxBs{lM98h zylPGdotINGFA=k|i(LV@@CCL~9l)cR9&YsQ|JObTdvLN*T9+z^mh$Z*zrNN&I!?4N zj(YATJn=LpkPpJngIONGT}aC<(!@u0Y@u4E=>FcBm6C}^WatEeqs@FVqW%$B z!RomZskgK^Zz>3W7#5Fu&8IHczx*|hm0m*G>DP}}V52~V=CZG<#fTa4@?N|DYw|Ui zQ)jQ$Z)IlfYQpB`OygH*V(rp)}=iQ?oc@T5mkRnLWYdE z@24bgxw$>jo*->Asvcw=r5z3faB;G&cSr*zCY!apBRk z#;>v8GPBo!1fXg1c~9xDGTFF7X?LG(`zGf9Dmy8$?6Fl<-C2*Ep#ZRk+<8&VRSX;# z_fQkkJ;{SBhXDijA{F*H;t)V=J8x6 z;YZ+}{+>dqC*dcS*`)9W*PC@`G4{J4LtVrq~YaZ zEoWb8N~4!4Q2+PkRK`7|COqz!616LPZyl)R+%i?mJBg&ivZta(<19eI1e6(Vu* z*MRgcT5#{rCHj4En>+g+uy1&mF~8YvXUBw3#2or4M^*2xIm@MN=9;wcA>v%I{%c?) zP%?3{)i?#|0!Xy?#Gj~kPF~10y>sn;m#;PUJrM74?Ko$x^i_oW4%Jsd>YkLQ5D~Zn z8P5yz{O@6r%#ALQ)2={|T}OJSJZh>^;Ei$oG3dDOrz$I>6Jb<$XA(Uz;tQx#$VI}@ zcYs>!2|Yo#2Q<03V1@TYP(SlzY43O^8^>HXlXp8sne?t*h>B<``zk>1r-qF=Q6TH zx!aFuo8{tOWbmETL~U3IXyY|M{eeUH82Q@k#_dt!D`#LveWMTy4|hCYabKZV84{eELoGONS084?M%P)787ns4ZRGm5_i5}@fyT;uQm-pbq#e=sV-iGKNE}HpymCImu$UK zWbhj=!7IY-1m_?GmhZf%AEkq*ARC{P>&0TwQ6z_}c=8Z@#dWH|88B%o`u~P93 zJpM}kBpu%Bc_JoFnNCfD$CE#I0N4Ac$uw*}aWYuuw(7xNL*gQC=}j0(=vw(CLBL&J z_z~HGgJE5!n{xYQWy1Q{v7Y+e+x>Ht5Rr4O?U9_Y=L*c;{c}*5%1dLHz})o5vYlS< z_t1)!rSM`J_s@@_Ph2ebJi37IZHCKpmvrC8y|N*K`fSJaV{#k6(Bq62(t7739ZM$% zCG@95Z#sMWp9J@R?vZ$aO^0)kk&@et3iegUO)jm|RmrqHZJzb&!bp81oq z8Agq*P@M6~b-1|<(}aGKp~?uj`Pu0F#=lPNoY($V@xa3SXX465l<4M=W{Fh6_EX$x zXA7g9WS&mV`6!vnigUBVf4X>Lg{%`j8br=qlkT!1Lt258p6m;t;ltz-aY%CkH#9%bJQ_phQqm~omI4hsZpHqS+@?APj&M%` zfaF9ILuAF;4Ef)Mh_5yH#Qm8Mp)4Btqbt9w?!`RTW);Huv-gO-cfozvJ8Gc{8QU$j zzgKrxSE5ehdrW97p@WvGCYV;F*!)h($8ZS$@u<2A(N7?mq3v7tlM|7gQV>P2!8@&6 zAohXQZ`ifrA@WsIvtm-Vy9ux|=WiN*D1CLTQGQAwt^vh<6Vyt4V7gV<8`*j3XU#rf zcRzLJ__>Ap!yi;D*XGapq-Y`t96ak9f5P9Heq2_xBNI`NyUIa|K$ic z5*OuOj4c-Eu`#zyPQPzcI5S23KE?VI|AR!1WR2E-S1E*jqNYoT_rFRVE1D}vF(Zh( z=dtAtwtF27yaXBSk{!Wb$h7#k!y^S*^S;;B?r=J6F`;pHf;-&epVllAD*Fw4gP%}0 zQ#yCo+9}clXt95%qw0~}CeZupTGOb+5Gqfh-_<_0BX>9w9e9KcPsKt+dm9*=xqJ%N z(ahIYzy)2-xeH4<14wePw<86S&T3s9@Bf0d-h5u!Oo#Dad{8on{#;8a;6%%qe*AWg zL=62YWJYntZJ4T!?~HxO@#TRjE)R;Xjm;94Bq+9O_U+`~LcVsxX|%&NlvZ&&y)J?4 z{qsO8Ez-n`C6Uy4^Biv*nK+JDtp0Q_h5J9%NxO6$&k?=^0##i7#~KQ0<1u*ab&>07 za%zPWgcvnL)#IHshppBoN)J~x%fJ6;$t2tP0DHLGIy!#5(rOOXnk=Ih{^{&P!sKc; z7~zMIpmy`8U~$C~&A@97s2%&V>d3_3%vLu}3Na^fS_8@W9|zG2s!uxh#Xm2jim3){ z{h}I8i|q1tL1kn*9{#IGByav8EeZ`qk1u<}_sO?pYq^q`$~Zb6EU6Vjw4jB@+&E&* zvIp2ATi^4MbJwDdWyHxd;+Nb<8d@y_D^PL*==9xeZ9+G*<*}^v=n^He;xrC_+~dDx z#eaoMJeRPs6{vm7LT*-Y9pC2ihF*`=+Mf6BJxu485LoKcrDNg7m4>%?-R1{1o;eIs zc;1Ry`+I3>zq`3p9RsQcr{}k0K(ZXL%rRCY$_GUGs1=mWzaQ(HdIzy6iu^g~u7`gO zpg)x?jh41sde2~%(py@~)ds?x*(gVx9}%=j=q23}$6#)VCcW0XRSgoHnUqlRrO3$D zYq8^rxcRQ$>(x8t8=%aP@4K_*)Bj21Yz4p@4Ty8m7maSp(V{(5d>1@NPJhpYT`^l4u8=LvO;O`jISXs+6!2A|O z&sjZLG5EL=fp}}M%h^1%^FDpEG2FQQbs+p}A>EG$|1$e%#&UI5CqB9C^D4(15@Ywq zxUB5PdTi0Cqf9lW&-x6&`V8HN*ZDt#N!h#hgp<9C&b2Ub2VVcG?wvs{pLm#{E;;Yy z_c#QP`ZM3@rz;Tb|E**AGm9}DeZB2R20Xii^_MSNUt1p43Qw3y2d*y^ljaGrGCWBa zB>6Zz*BPP-hMl*C{>TXdJRy&L2~fWc@aOhLSLSc74AAat%{G4yZEASTucMEHifTR@ zy5{MMI!a5~T)9&zzk!Zn(`UBz9tGi-_b&JIGH4KoTq1Es@hYUtHMmQPGPrC>@rkFu z@ew(oF3p9!-5zKw+_rap)P;~`E#TB8^uLrRYHTtO+V|9MqWE<^fKR%yDSMa;(cE1R zISZLY+$VlMHsQQ*2(&LpWES@znM^0g;y(m+Og6klkaI%1fwrS_d2{op)!H-wnsX)Q zpADJYVzGPTQs!<1r6H1)HGuz1Y0}yZC{w!8c|MUsDJN}yP9i4J_MOtmU{$Jos$1sE{NU2+>?==7NVk*Hhz4|Etj3u;y(Ijr2!ENf`@RoQ+6Z-% z9oxR)FO16>6X|}E4nTD! zsGc*S^-$CxeAdXB%-?b^AfGgMYZzlzQ=+XlamfmAi{pA7n2|H*y4Ho`!<>n)PKc%8 zg6B&R+`HdVx2;Gc!EHUz%55MT=aooL2Llp2*tlc;qfZ|vFB5N(ult~iz+aj`G#iCX zBC{Lx=dL~Nrg`+-_BLv%u~)3JXm105CCADqXY?G14e?WQEPDY}(+vJw-vnfp`GTFe z$p%P|G7`@pOS!$RWkQ=^y8U1*9WxB3IcTwLg8aXXgLK04p)3+Wpku(fIzM1EILOfF znLf~h_4!hJd$}3MQ6_2g^lqb0?orWMEa&j&X8q#rx<_Bl-l<6tS`-r%sxt`eJ>5=x zmxKI7u)$3AwuL}ynHX)u{@UR2;ivsMfLGj>0DfT5woSEbdyajLk)0>#F3BNV;oSa) zq;roL?R7=KzTqApJ z6P(kjlDpg6*VO+=pb3An3hvR);xyt;X~2Mk2cRgi5yj+zC;9C^lbmpgx?K4mM9P1p z3O}jQ_U$1)Iv1?G6Q0sNf3o~WO{Ggge`1G;@4ESVfd8$rd&m}w&%>}<>!Z^(0OKGS z0HW+)qs5t*S2^0Zm7;%ZCF+o9ay_(-s!c=V@xxzt#veBlyCLl=VyboevxB2~Pp)AO zh?ojq#kS-2dPuwR9k$25#;eph0x?sa`Af9=ttf>AS`sI*ugOPQTBgy9SAn#eh>O#) z^CVT5NR`Fz|J3Z;I+7fOT{=0?ApD1~{{{_PI+!a(?x|)TjcX3Timr;zlTrg$8d?ET z?u?s=L>p3iFfgByAXg?oZVvUVif=BLFX@~OPsGzfZt>l2^V%HI`heDE$k4mrjvES9 zi~qrLWr)(mIX!ym6QS;3=k>p|vwK)KuDb9|STLUOd!1=A6<5jztUd3sTl$>C<5uEk z9ptla{A$Xsl@Y0u-rRjf0g_waN)u0{PmxOSNzJ`LJ5{`EY&MB+#{#7>*nrwLbY zw(%-M0+e`)Gt@@8e7GC{qi0OW1Z_`<;3TM#QevU$?Drohj~0+W;H!x{1^+sjM;ZH$ zc@Hlq2zb#Gcm|a-1aejtYui4xj5x^HZsH|yH+DavWfJzDt(v@(20zr_|7;j?<5qJ; zpO_=8bW6)V1`J*gKjI=Mlt?JUMc$6ef9HE4rsC6gAHgV` zK+>^N@o{?hXqDp<2b%{1sLz1n`|Jm#X)@udqdm2p7xde-5NzRo$# zH@`ENpdM(4=OEwfzd0L{z7L4U?7$t~nHjuo@&Y(K5GIXCc351=YdU0eq;?q6y;G9` z%jBaFS17=F8V!YQY!wU4{J!-7$7YCaDDV;k;QnEq>r{XIhM?(;A*OHIb9SII_mug? z2#i(+XZ7%(UkONpb-l#EPa=WrKxp9`xS*wl!=dCC$x(E;oH!twcJEUb+vf3zSeM+b zF9da;p|avLs}dMXys(LH+{~H9SYmIAZ|yt1!KGDdQoKc3+*piGPd;4oQVZh_uT4A? zo1U9od!kg=3TzazF#syeHRW6Sur^M<(X4tj8pW?5miTIPAG1%}zC|zyem7RG*8-(9 zc4wAgiZ_`1`LIEAI;S~L`5Gu-(;agF#>vDNBP!n#y*X!f1<-M)dnKzbXTba^hfp**hR<$l(m@Fxeu)sV^vo&|-+ z5?4Oa()6y<6K#5&lC~M#2j5RZ2jV#AFHqQx^ERkf=8Lku4Zj1y&>*Ayu%I--v&Lbo z7vWEDY&2-k*x<^^+Fn&s`}Rp?yHr+#?Eo>krZ1y8=XFJBs;KC9W$AlP;_$cgp<3pZ z1ZA^?mT@kx4FBspi&p_1MxuB3-YV`{OqMvg?%`7xfzPNn3&bP7H?8(2eECzw(Pisy znlAD#aQikcvnnR3xMLD~pNR3)c-_6Y>x*pmYgi`_{Gx$C_BrssWB3 zSet-f*4CDr4e%kD^*{gxrC1wF&k8Rmo6~Jidf-IB7QlHa=KYO43sIDBG?5icFo)PX znf(B|m5$4R{mbwHV$Wxl>i2C;?FU)%&k^rA0Qb`Z3;7YhEqtFEo7i(Dn@N+T^6j2` z@b&uyr{o2IYR_l?LY?Br{85(&p;+;#$%kn6o?d>IYM)N>g~OFwJdqVm(daleRIftW z?pUW`!uOX~dsElKMKF?7=?z62XhX;i;n)Sxv@rt*dHkifufBKjlH6()tt0QdkdQT{ z@MSSuub$4>@n030q9WrE-YA3IG~k`;c69&e!hq~Atn0PW35WCo4F{xl!4|dK`-}In zeebDmo(5#?R^S)-FO)bjs5^T;rK*)WkKb}0-P_lLU+oEj!4g%m3-{ga1FL_Se80Ma zU@vO09b@iqKYs!b;)MZ<%+&$d;5*l6HCoqdZk5UXtIBCNmZq`JEvr($1yjuEfer=) z0*4AfMH*{{GKQeQ)det?6pgqF%~W8R2aU_;tFEM9Ih^w6S67XIU_tMn+<|w? za`;t0PBsh1X_pB!|CHXFJ{qLKIWzOkKYP<-?;aYc#fUk*e`nkY6~WgvbRuHxf3M*4 zBGEL)VfXu93G)0naO)Rh=ZUR>h7416bY+7g#4=v^TS0s6pVOpqObmuh1UZ5=9C2ub zHKE^94Cib8sUNZprB~W-9r^c3SC*Q24JqTyxrPrdwSbH>`;y+wqu2%=6J!jxyr7<= zio-mb;(-sg!?GFz2JWQu?jXE8D*wpVNvp}(t}a!|da?{8SD-#$-(Dq|_Y8Z^lX@+} z)zGpB0et(8DeEZRqDI8V-hMRMrgZTbyaZQF5hz z$^F>a%$^;FZ+8@Xsc?tc6In}$U`aV)!<>Wju7D4H zu3={0vfuTsrfSWH`OgH<-6S#_$F(cCrXWV5Y=1VFq-2g#nJOGWGbB2M-PP3<-|ems zj%wst{YOdM)QQiWqdpRI=!-y}zK*T=WF<99d`=CWw1yG$eH+uD(Vx)$!GGT$@@DLG z!^(d>XEKRPr&a^8{$bcX@LH9IZ~32Ro0oc*$!qjIYSXLN9)t;*TYmgB45rV9+*xvE zm_^oOTj_)mg-wYORAMSqvQl)yB8;X2;5xH5n};d@<@}S#fWC|!ymv#x zYvw?tookGiP)!X#tuoxz!W-cxHTpD_D;H)>Ji&VQ;t8umiYaJ4iLZYR3#oCIx1)gd zJ?2E^mW8aAPV+Vj`WtW9gifE76)qF#6?S)%d*~+H%N)!kStfY)!R#J@OgA_vWEKzw z`J#S$*nT$V0reWtOzJ8EQs(~~*ZUw~Y{-NP>iWGsPv0dG8@VTyYd(7FDH3rTQ9SsHuE0YtV-aR4P3bG;xUACV8onr0}G5T<=;U1tRV;; z1pfE4{*TM#JI0vlNa=Zxf07hGo_eeG+qy>AT{M3Lm0JBdk>tPoM1o+MSa}ZdDB{$g z0s@5oWDAm|-X8xYWjDVRc$~Y4J?$nrxnkWY+1HZ-0x20eOvD-qJqX6m0K}r}7xBRZ zkrx2^L_L`FgAH$UTwRjU&+F;)Wu%k~zI zj>pP?yHO%YmdF;Cf6fHhW`7l3yb>Ak=K@H32)VX38#=e7_aFt7`;`Fd$5BKtA}$jz zLA*{cQ1>12MZ?PvV+b}Nn%hl^k7;I_-DKw0AC;>`8|Ls@z=f&Osmz4mbnKR*SU@q~ z=6$&W_2vm=;D=ESa8%6jMM&7;&9=1xlRGb69Z{ZbfIFqtp1bD&j76bs!_Ktz(^Q?v z%T`iN>cA#|?N3HD4`e{@lIGO!u&8Ym)cAhi%H!1nm;QIK0?yAvF(3^qzz8`-TwTeJP`=)8Z#h2r%m6N_=nEO=PuKG9~_WA z(NeO~4Yt~`Lis4`;6_g~?k`zqWl0S(MVNqv# zTL5SE#>l3Dsp}Yzoj1>IZgLWKG1n77dozB}cip#PpVF@j0|0c=b*Dd%8%>XQN?J|b z)Y3+ZV-lSC2(~VG#?`DrJ*kUj>uWV|j-0$kH%B~X_*U@Htdt@#uIY}Yu@c7ni}}{P zheLHi#ImVdn5&E#zNun*Gq5!$oDX+9zK{~mjo^NC(7V!HP?Mz@kS>7KI7)`-h$~bqD`Aq0#j|l;lcpE>J=YQg!c(HyHlwVINP^_!(`Zq?oN*ME9xM1fuzL^wx2}I30cCg1X zC0m{1xXcXaf=*QV5bK0RNb*a>(n-b*1`z%RAe7So%A(a1+I0dajSK&Fv9{aamMM6- z0TJ)?qCgYseTpunhK6bJTqxGr8)c>z&QWx6xMYIB!V&S?B-Q3 zze>3CkY^_H%DL@djKb)EAkEdb$E|Pnk+{tec(~#lP72Vb|AV%?yKzHHgX}q95f-`5N2$RCB88I87%@DKK@IEM;1tbvvnK(mMsLR zcY1xiQE;knH%0fwnQJ3$idla>JGrl#(lJ!EKj`rT`kpg;)`t`B*PXXnFC%)RFY*-l zZpL-2ovtvuKe#vS?#?92&OF&+nZf*fWT5-}Uj04l*GB?h3LnQPk8rnYv+HWs0_RO%Ij*@X83``F7} zLW*pB*OR9;(KT9%6=^5U?w}_>{~=(^ROn(P zCzA`>iL`fQ@F`2s^*Z@+DX2L{t9zG(A~lOfMp{r3<88b_8*tlv`bZF*C>W`?xpL^? zftULBXhP}me?Cpi7tpIb}ChAR0!9?Z(Jz({Y_$BVO=k?0X_Pd@yWfUf4 z%xD`VS=X@&6pgAfM>OxeKh_tF+e`fJTwdu&yB=LCBeW^w%LEMZa=4M&)7+kT!d^j&WZLAY30HHSEr zYMyX|TuRClg67qT8W)_Yho%+Y8$wyUutp8Uju1`;MvmtKB+7E*^WB>;ia=YJ+*d3} zKmGNA5%CD&wAC^;5_fi!n_pKZ&kY7?CZcS9& zWz=DlMa2tH0h`j!r38YzRWEmQsmF(c00R9(6I;#?GQ3GwdOl^LobmUp;hJB`cpLS~ zj#dE5maZsQ{QQqCvCXoc)h|ud@X%GqRb?5GG1C~szTPA+S4EBBlm*ppB{TaIzoCX+i6wR zEn+QmUi{`Nb~eW>lH%ipXA6$}(dG$-Y6{aFhO#y306x9)a{u&`q~`&IYd{84$vE|L zD@)vOL9vxMt7}_a?T^7XL(nD5Pb+!VLUE`fO+z8Nv0JGng~M^iqaklrnN5^Cj2Kb8 z1b>q^=8q>Qq&=_C2Ni5Lc&m4ug#~BQ z-t(}vY$v$W75QT%&Pc>tpTHZq&LhgA$uwX+7*q3%$$f&nT5pKriXs}?%;kJ<?G5Sq!u;T0AJ+nlEhgfM0yIo3kDC}T9G@wPBv8#XY zX~1JYWgEOUhFD2LJ7Pe-Ru?H9pnq8VuO^=geUh;aq^R%r^e1}%dkAR)4IMsQE3#JY z>@q)I#SZpacS}skeiU^>?06ed2;liF>UKo(MXGfC-Xj2tbP~}wvcp09LO0v3TcZdj z65xvrH~v!lai)fb_IR%HR!+~UENrA6qCJO1$sEC+-hRAJ>}D62%;vXYTS1AUax+7i zjd20z`wRC6f9N$O;i7(sPY=}iAUpZ+T3qpUPxsoP>z}cltB1`dBLt6a!CD}y_~!hc z^r6Co;i%YSi`H4rhe3ZNRKr%OStl|yukQxEAks~N*a&5K>AswK!*lPDtn8;Ti!*eZ zg2l&(P z1SYmaQHH1V#N?u|e4%ziOo2;-1}rM|TlkI-joRPU)@h!?83#2IdM8xSq+yj_2Y z&tvr6fXG(YUPP8EoMdu(HWC{|VzKa_eRxaI-*tg$)@{^v@}~Lue3s|Q72jaB`C`Le z)4Gr-vt5gyClFkJuI-@%{y?y}@C&+~MNgz9Ki4*Cu6M<%?CsWXLuk>SB3AuvO)2|Q zyl_YceDzv3<}wj01h~PIE>zt+6I?RyG<92(B7>U&iCr}ft>NwH2^~nhr&3Y$IlJz* zl;ohV2R+s94t1DYi{C2e=d~=U8Jy*^)ifsyf75b1i+23H3k@S#h9=E4dx^f+y{UeP zHmT{puAad-bDNvXqQX?kV%eXav=W=*amiO8<0IK)KAVTa-mMQ96lY(1LdB0Qy*0M& zx$m=v9Akd{3u|Vg9Ys}z_578EtTAn~`A5lyor}46NEVK`2d{C>N^?qAC(O|-msE;H zWU%!HH@$H~@!?i$y;O7?7*Z$9D0e?Y-((K$9E1jiI1|mzK(KyQcD)n-`{{|x8i3Ig zVehekapkyTMF2*Zf1n0!!u#)09^&KQZ^` zGCbLjG;hx;*1u8c1OU109Ys+E5Kr-Z7oJ{vyCVxW6yz;`y?N_%%Zs5Du`n?i2S19R_ZxAq*bTXK{c0`|#~1(grsT82tG|&6TWK=)?QP~`>z1l4Yr{rX z{}R+0(q-|!tC`;95_v;$ys_!ss2TvR+&WC-e;7-cafa?Pui)mo8Fqnj7q7bvs-Zzp z@~JWc(Uu{T=@z-2FJ^l^pj_&wd<=%mRga6UvQA2VlY|Iy029eBqZQIfWWXk7D@=Ul2;AJbd*lG%{ zGpg)qU{)6~f*2G3tglBmqWRt9`x_q-ONJ9|kmNGN#TWt4U`u*ey2#ve7Mjh#ii;Di z^7~L+0`omgul*}A3&q@*KAVY{*WxWxWZU=p@%tEoKGGjvC_UMrB`!f`#6P@G98FDs zCY7IsAMeykjT!uUKici(`*{ENJo3N6z0IRU3V!ybWna2PT4}<%c@b~h@CnVBd915j zK2^i6kilvh>+4nze+}NqrMWD{&<@OWne;Tv(!hi_otJK=eVYg+(W5J!xN&|}kNrI; z2mEc}-p7zhy9dY$y(eD~xidAg{YB%mV?}NaeR?{vwYw+45hq^kJ;HMl>ulJkW zcx_zq%*6Wg;g${FQI5pPJ0we9>hyg-SlBOYbrPe&XBZQG) z1>~=5sYOg*zH?YgQg!#6RiiOkWUbQf(rxe8a9VHqIT*v^a;p)-i7PLfa36*55;eyz z#~Bty2m@C-$FE8+Re;$o>*NsZhlwZwqV`hUjH$yxFCew}0=K*Ga4Cep6PWrcBdYEA zh7-NkO;sb566`I}xm#`b>ZEP~E{Y>U!yx=rxWans(}mqL3DA(wmKKD>ukv8%RK%*Q zU4%fOy2HBT*j>~B+!&>@D?+f79gD+}F>mU3L>{)7IaaEW_(dMYeW4y-1a+ri`UUC! z*+q&XWaxc0@NepUQ*G+7DS?Sl$8%O&>1Xc-3)Cnkw8}XLHJlF+6R`p~oYwNlVwjGd zZu4&L%agfCgx<4|w42S8cFKJSOR&D0X z^1e9jo?IJD3JsRcOui&J{^gGFL-ebdSdu*jhQj3BbfwWxs#5y9)Zc%Ndw1j@TPp>8 zjpnM5Eyf6$U22lAnlE}n!94yJGrT*1m$3@+>GO!3T_{W0)vfb+`DHb5`rV|%tB}>7 zXkWZyeT7ff@dbZaVFA7^;-$x^h1xg1nHe}h-Vz`5H)_oX-L4F)AIH}#Q0gy#lKb?M z&?XvdQtQIsWI-Hc#I0r`*(KiN9;pfrGk9fkk4@tq;@Go;Mpuzx*{c@lxkqrZ+^u!D z^MC+v&L04F5>G)W_>WgN z4GcSuapjDH$4u@mAA0B?|NI+(h_N8n@>&vrb8ZoN_Mq* zgk0c27cb?bjRY@g7*hnb7X*}!AO{8oycQ-pf2z3NPJJ{?EBr}~oCKc>Rkn!jb}Elc zqaMNLoW7`gkWh)&PCX93ee_HPZBJLRkgx$lhN#hZSQ7U1;sT1V2qB(aTJc8#8+W(P z-Ge}4Rd?id$3ETDFoY)QBBbAeWcZ!_2Yp-CroD^^(m6UJ`@zuVdfo(C`)9XQB00ATJ5@Tz5kdWmCx*TnlO-9^{JjL znB*L_a0XTDI6Rp*Dc~E8=8Xp0%;JXdFGf)`rnOOR6*H6Wj#P!4)LNH%%&3Eh74cho zceq%Ibh3AQ=%qA0UHMErYV-(Jlh;gOYY{1iZ*@|u{=fIR4{!#6fa7K!PkO87alX%$ z_bHlB#y-~%+tahFPUZct0emN2=5PW4ob=3=-PyGyAgI9>VZi8ZpT+FeW`~LS$;GwrOqb{!lw$Uz0 ze)~*}rlXaTUBCL&<_~BZoac+IN=Iu2uS`h8OZrKP00=>rj z4VpCg!0NJ=hH&G?e`rrLZU7-LFgGLDdQOXY45PE9t+{F69C@q82VA#sb8e0_wtvuC z70dKhg2}nXH34oMiU+sZRr3vhTgO%KH`bCBy6`+*1>V@enlCd_FMOw+a+muiE!nlh zrQIS@8BzVM{Y)AC9Gte_rlWPQ_MQ3v-1A`3mqs~e|76REVCSE&u|>M|Xh1LH-(GtO zZwsy{QUyj8ieU7M;zn&eCi}P#>B*wyfS0buR#+Q*8iFMzn{xR6yzOMC<1cDsTwP%` zYFCOH-|_8K?p>t58DCoX`j3vI1|ye!!AJVm^ij$QM_Fj0^GB(MD4+4<%^25_PA@iZ zlc$E0*~>W$$|j~Fg>7%?H@--`e=uY;+!yaZx~d5V1{>A%yW}AG%blsLo!_Y&mmfPf z)}{H4RvljiH}u%`fv7Kvd}5N0ldrz3^)%v4;T)TBN^QZ+wcrE~2bs68e$Nq4+HD3s zNFUa?og(xO$`0GG4M5PHdzB++BC*r=9e#@#7mXSB3qY2pGZM}-Lr14Q0W{*hwU&3OZm--Zdw$Jq1qG(YMQT|}Hgza)xqwu>yI+ULtrYk%@ zPj~`}qgradJR$g1XVzAxs^(uu7&UJ?Gma zmGw=$akSmvFYrVXYCOJ;@!Hnvq^ZQkvBj1;c2ZiMA$vemuSrI0lH!M3bipUiDMGqA z9Fu!ksHb%B(Hm2~@zTdAJK>mttVXBc8hbcS{SzntIFn;Ro5m;2OxIUuz>GS!QG)d{ zw@nNL0$hN)?%a(At%|@Yq?CUsrxw{`{+6YS?_*!R>1gZZr@8lMU4UPGI5fOII?TG) zFCLd%SspuESEB?~v09j4g+URZtQDP^Ep;#Se+$oe6S6Uvyqf3L_M<#FeTDDjOq*sl z<}R@zu+3m0zi`#oTyJNrt}PCuzvC8`EJMM)t#|;qQ#P(6D`?jlOjZVh>S_hc<^iHU zwP*NiwGq}`wJjwFawU3@>tr09qf@zrh?98oBQnDClH2l6Fs3TB34)|nh1v*h?Y_Uj zY;U|tzS=!03tj5#RAiO=rO1RS8+L<%ED0L*K9`TZ)ch`10cakU5V_=_K6K-`qa0Lm zTfU1p7_)H1^TjLx)-?0lzl&uBF|@|WV=S|9Ee|UPV)ocWpi=N!@wwPUM;Wf0E4I2Y z#q}w)n|rpQrHL*n9Fo`r_s+o2(5~zuFlx3%_K=so?;a=hm_#8Qa2v=Acb-{QnjWAG!dF)5qi7*Q?knyFNEwtC_-K z#LoD-z&z>)=XW)}Pv5D@cz!d;Ox_(yy=-f4_CGYwKMs4^@#AG{LD^ha4rPUK>?H7e zl}qK{O|T^jJkC~5^aPp{bOTxzVt9~^hYMl|3%l;>Z)u8&6^AP~KY))SGkeLMs*R8( z`tm3W#~m{Wk8$Vce>jS(X-K532N(b|Dal&Nh)w?^te{Qso$#`{cF8i3y>pI$`}e*I z%XB)evVe(wQvWqE3!(x&hH)cF32y-K(1OKQs^L|eO4EBt- z8-+_5?CIju2A8|#I)J6(vry*#YftvUv!N9kfa!U>D{7qS;xeX!w8>jU5s<_wlNdpy zio(hPJM+e9x4tlw*2D`tUBqhm%g2}%_OZ;<&0Dsmtq;35rk%=3e{J?T%*u=eS!2%< zPbJIRFD*{oMchLfk8p@2}oJ@1y*ZL(9wCa0$XynyW>Il0K^a`~IJ2`&UW zhe6ENo4JDTm~%X;I?}Swa@iUQe~@Ul${h9sMr@*w)v0S$z))3v?2}wF00wH=BKfq; zr-T5rVE;WT)v^mfnwjt{o4lgH;GDdd#4B-i?q!lVY@s1y#GMx_@@Sr1t84x|fB1;f z0%nHDpgT<|E?AF`EwOeDN$A-scMVu#6uEnsZ5}^N(t>@lfDF z^3mzY{C^=mBjA9*=oMALJ0=e;b|zFJa6EaRe){KTN+Q6ab$VG$%4r%jszNVTK?TAT zDgDO*all2|tGuRWe!F#Yx^y~@{U4Kn|;n0-|V^58u|BR@%vm|QOl(7c8zPN60HOhnyk@z z_to3V2?u7&Kd0NnWSx9*P1}jwoG!DRz@A{A7mnL9{^QU4inF!e?vh1`pF>Y zi6QxH15R-5NL3mooa@)~4-U+K7$MX7e}owR|D%;4U80$MylZQd(Ge->ntIifi!2)y z)#7nb{gi#BzZ&I}JXH^O)c4oo$i5%g}%UP zzq!vPN!z@aXOy7Dm7p`&(a)>)GOM`fcB*~~-K2&}_80O|A-5P>t1UmfAYJQ_S?U9X z^0%g?ExUa_*Zz8YAA@!d0tew1OF^in_*~))-F~$H@@uJb zQy5C=VA<<0xi_K2D(`mxQw?cEcdwC^sWx4w2*YRio_6XE{uR)jF)MGlQdc`nc1&Gz z#VmCs9|2z+?Z(uX{BY0)*-*L7f29(rg(3CooTr364LNr{Xxt^)3}_0@scqv<4Em{b zgQgOkk~>GKRxj(1sk)r;gC!dqkoTLDbj)0}#iW%)1%N-an$Og;aPv|8yLCx#eJLvv z^5kAyF()Ro6<{ZO)CI(nZ9ZLTVFk|TZRumPt5v7!kb5ux6M}8esI4D^6i)HtB){9)Cxl^Zont^ zGm+*zt5R!(e>%R>rNv0yUp0ujcU^tg->Tc%LZG+L;9A}_3PJMMTug>OHR}Pgpc5%I zo*76y3)64vcc|_%_6cjL3v)nhOj97Y?N3tb{8z8F+x0T~$@ZtsXw>>cgIzN?^q55L zNbucA&^)i=0j4ENK66-@^~tsV?HO;q|2rl+D}28R_6O?aI6(=LUZqR~Qa3{j((Oc@ z<`$eJoNF7K!AG3(^`+oTM)%C(@e>8J-r~iht(#FZ+#6QDhc3C|74yoEvLIBMQ&0vQ&wwlaSnwcG_MuJx!dha_8VExzbZ*BTx|+(qD9&YhAh$=X-j^d@sLhlC z0E)(lxsT?G<^LX9g}sE^9Br|!SJ%^)>yNZei6)?CUI70NFJxYjb7Jv{er{m>L%?`qIGBG%UO<;7D0U!1zz%zNc$TWa84@ z1wjO`<~`1gsLA5lh62D z8R+(?-dwSQRzHMqH$JQ^CAQdJlsuky;pz7w0KnoAg-7ZEe2*96b`geSCpW-hmD<_K z-aD_oA>Su9m#pwbyYuNRU|1}bsl6>MAOb42w2w3KSH|jP39IY&-dQM)ce>Ov?+M>nzv{%@oK5^d z1@hL#?8twoaNF|{Z0eIOl%$cX_Gnc)qT;&ymekr^!)d2<+;%_OS^E=e|4cS~R%<7z zEMyjwyDi1(dSbDHEXQEJ#-MznpOOp!ahv$tI6`i%Xd+T6j=%Q$Z9WS8kWU2ySVy_5 z&%e7;8*i9qMkRguEf?$p6x^9EI#Q3cO+0HtF4cFoST0{f^4k`sJlCT97j(S;?xxd6 z!uK@l$Pk%>wD&r-!q!OSVCo3JpUC4aiGtn+JcPyJeo4dAEL{Ai=|)t6pUDI`*6v&J zM;Z@9Asa~}lyALZgCjDcCpXHTHK1*7yJ}9GvTrPRN%pNys8+GVN^+-M&X?vlduXXtws6Sa{UD@ z4ioMzaMeU%zr9d7UG81`zBr6Hdja6&=$=nEY>4~*v!IUJUMb$cDIN?1idle?Bj+XY z7YNRY?mkc5sA(c8tcsGf>j6(}u3~)}Y_t;oIbR@MTH=%tkgak-y2buXY*sTkgf$&F zvJU`?;{BC?0r+U(buXudtj8*)dOiLDj;}~zkK}9<}qTh;TuC_%%l-cwtlsRG=-;x^kUHCZX84*Nnu0t0#Fg$)k0vQnR&+vfgA zkNTN4R*QMmWydi~-m*Pw!Qq%3$EU_BoBxZddJBxdMx~n?l{j|{R~>%V!HIzX`yc#p z2k>=Fbfcg6UFh(VV}d7D*8#p9#QRXGBmZ7Zc3wE)sj3F;ln%7Z{Y#7~m+H1ar)oqd zf0Qw7yH5E=Z}P6=%kG{!F3GE3RkM$b813#z{b+spiP4xQT zd-ICLrht+Q%Z)tB<0SdI5a~IE1;wx5lf7e68Kt_CE8veU{rBPut9x zWnh0jI&s)BzS6%4O+KDlJ-JZsR)O%A>HovXEMV>jFpDN*^W2lq_ zba#GZg$d3Bsf;8c0u(O#WcI{kVcA*O9D!sIsvRi*|Hi>17$SqFfAd4DtzD@#v^QwP z13CwE`JiD5CWCyez1F-u`+U z_~?uR?uF#?unOX42r?N<|b#0UgRGqiu$|oSXMbN6n3M;2&~O-O1E>YAW(-u+Ae!VVT1}G&A8K>(k2y= z_5Nr8zsFoW+1=gKZTS6k`uTK4kZZ&!WntLu2A%7otmcS%v`$SMd26J@I)TjDN!hgF zjoz&m!E}G>bV93rXd>CgkK7_xk(#ko1&U8H)rf?xNS`pwdyN|JDDm6v%!27zI-@=( zu0hkMusPP>26R%Lyg*LCR}j#1bSlrsDOdfQS&mx@%z`}KWd&`sk(L$`xL%I6R1(x28H^qN416>hCZ_&#~6@B zA1~P367`Pq=ht#Z{bf@&`7sA@ztn(X9R+ljFq#of<8}FSz&D-Sbl~)l{Vt@AUHZ+_ zPWJTuu<4E>M9-B^&5A$j1fxl|#Agn5CSV1&cpz3YjG-D9bR$7H8Z2~N38dnbi$uk#B4Dw`(P6HYtE!Pmyvy{ z1FMZZ%|gq_<(Cg9bmQXqewbg5$%(_|*FB{^kdpTjTRNWPW<5?R$43b|Y2lf@N+bK&0 zp;}@~B3^mJ(Bc2UKR4x&(jpmPGFIoBTfh;)UIFc_}PM!>PAYQpda2eSG>`?kQxqOWH2{U=!1C;kGR?;n^=+)-b|h(#>=EFI(6 z&&;?kFNDw6w(ni0W;6XOgPXOFRGhj^LwAjc-IYh-`~AlxXpE-GGsn# zDZJgFBqa22G}*xIR9+|`W88Xw#)V>7_LW6tL6GcDy*@ zwaK9`EZf31rf%g;e8%>MPs)DirF>u{JNJvzM^)b@9afJG%87FnuHOW2*-~NrP|EcI zS`z;hcQmW|8Ioa*MN}Z%9QU>Y02@em=Cy_J&Se3mJ=xa zR40I)?M^H5ylh&O?}!iTvKnkMM)32K^g|d>!Ulb-Bj!m_Rz$~Y(L_~IfcjWJss5Xr zNhW|m7rw_~wp){}4bO;p($`0h8xkk(icq_oOiIujEz5hRA$^CS-Fl^Juk1&>o!LMu zm81<|K`ERyM3m=plZ|({Sd&M9%65J$UdR7lL~0~_JF0s74^A*tf|c}Ob8%4+I?`k^ zSQ}07px*tp`s)@=`?q*xovg|eRf9U#U9GjBUCp%aT20x_)aU1?f5<^(IOBl=@W8E` zDx7yPUMTmN8nMNfYzZSCC%-BvGQy>xk9s5wM9P@nUR(X?a`%qk00K3uD^^0Q`jPKm zLZg#QOGC8C(x7f$!e^m*VfW%8`NktURgmlAw@%kt@=#JN*+t*M^nCbvMRIV?b5H%D zp7_TA0B3!|rKFfI0i$wR_tAylKi%CN(siG)u}d68_n_IQRWrK*OvA8b%2hgCHdrFt z)qHys6^+Pq`p3L;P^bb(tM`NjMFA&qN6>USOHVIQYt>4`knw`*!qorX)1ym& z>I@9ryA=pQVJhuQ00<2c{rEZAVn2N$=G1!%P^|$|=y8tSLUzpsU|KiaSs}DmrZ?0N zVmB|^!y47?0Y;DvhIj)<2G5&j!R2#}Uwc3oQdCCBOnA5A0}GnYF9V3@zXemBlvNPUWTR4$^1dv}j|X-6VdaHQlZik^Ot63n6GP9Y(=(vPp}btJwIWrJ&I!>cy+U z>h4UNg~dVI2XK2b_AvN~Q(3{CGC~eG7pH6xGev3;h= zm0!R^t^sc?P_c1YCAa1>9qoimtTh0F_hYsom)b2N%TlX|R$VQnw_`!>dzcrdHV$q8 zbO~2mOg6aKMxv-I`pJjVaZ&QqjEt8K7*}QVRO~HbYN2PRz_nZO7GI0Q(N=w{?FCEa zwNr{;wp)!I^5wvd;MAEp%Su_F)K#=tg7OaHi#EEFYb8f3$OKJ_BW<Zla$kq@HYnrek-Y@^J-wMh;R%cdL@_`3y{3_Z!*zV4S*ADz z(a-t_us4AYdmu0LRi+s7=P2;e)e)^4Gl{_S)-kUQh?5i02#k_k0^5oHhXncJ!?tpm zV)L9;p`g`QmAabxHPThT^JDGbYaDIOv~#G$fLF*nIzPRZyZuW_Ez_Gf-hf$&30QSq z0OkC|uCOPIgt2dP##Tf^CPvAX1;#CL0ZiCGTUSb{ii3gKyE8v&@ClO83QGP>-UiU; zWLJB7o;?SaNW%eR0gUk~nTKadlSE@cE0H%ZvOBhU?j-nzkP?(FIrHf)VysTcJ=vQB zFnyIUca__=iRfre{<)OSa;%HuUSKGlxKO0*MkUZa)!#3f|9EBp51d-%i{DqhtowPS z%iur%&|c$5DBYu#boh0pm@xIfcPcM}PFpfsuxDR!2{@m#{mlIC+SNN}kedqjz9W8S ziRowb`-m0>?iy>V`|SiM2pzXv1qa=D^TfX#))6HS z82BTJ{*?OuI_GA4@fPAVcudLbK(^R-_5z}pS#6kfl_@p&M{16hf8$IvtIA;ccIj6} z8SWUBOzuZW4cq4`D+bBCaNC6AyvM6WIZ;E+0hRd8kq^(C#ysP+|Xq0u52bEAp+DxZmSPGvt*wO0&cXHw1R>yKP| zvxZCOhG!!=VamWt3u(I7ppV?FzU2u{9-L4-|6udl0aN#mvRgq*g7uMDvnhlHGAzuw zRNsq><`?S7mstOaUyETF+&Z~K8CerQl0@imJiBSm(tQlFH<;-8j^D?ho1bKdEC#gb zxYr^IU69Q+kjCD3QqfHw7=EYnCQ381dhNe9TIC?iBvN7g)c41y{66=KQoZ>x&J=Ov z95GVLtfjA{Zg2Qdvx&#wO$Yp?yxw-uLEglUQIZ!ki@9HydS&or+~vu=X3MWuruLe9q0@zhh|cZ?ZN zu|q~gt2^Q++Zz+KgG$9yr5|DT=2QEy%vb|#-1KNNL&MX%;WtNN!&x|V!o6>4gxZ%o zc`Jrw{kqxqIG#(|()vO9!>HCVcwF)e%e96S(;YA?!%%}z8)fKWeK#$;k6B)%2B+u7 z>$H~M&P`IM37rU|cbH^d+*pAxd9e1kaG&^Cc$zwm&%a4AH`b!*>W^G!Sn?uvN?UeP zuP>uHgP~utaztxVa`?P&`S+e1T^^V&DnjCXLzNIo{r`}YPoe^V1TcPZz>MD)r{=%& zYN){!fTX!o`Ha_7!igN1hV=RCM^Hd$z&J41?g{I>wDyWN2b=n?XNIKl;tCt0F9xS! z+|z0}bce}vy{GY_{JMTDGK;?Qbt6YsbK|?|(ZT(j*wxHdQ<2!z#b~VDn9&2QwE)r= z>^zG2VCi^#wMeJ2f^JPAl-=FUcfGL>cdbr(z4)wq>NyVI=cnlc*~-rs>45@s8JIg9 zC97y7skzBV)f_VA54xaSweMsZmYkYOgZVTC0E9IS|{(ODTv!2ch($Z(!b|7}3 zl2Euyq#0w!PBwY|lW6>Sn=DbV^OcNnL=pn`F@`T9m&?XrZOFO)@X_~-W!knwEMW#5 zPm%lY5@LoVf}s_*3ktZ79ou9VS`54$wQj$aX_`QV>OvCSU~h{@!a&vrtrqH)Ye+-V zc8w*QwiYH0@eq`jk2%|B7Vz^z=@gY1z$M0LF1R=7b>Kjn2Q!9S?!4bCC$x_7j6 zoYum*+CBsb?K|1ZH$Ig5ajG2#`G$sfm1970f^-pe)nnr zyWSLP9bleC{_72;s>$RprTtRu?c29?&xHc3BxB9OTwRM+nR;!ysHQ9=7^293BMhDd zg3<$IuD>3rw?ftPK~|fs=nX<0*KYJ|+>u6x7a_>SYyn>u4abw2{ma=L0psWf=ItMd z+L(YpHF$DXt+GTWR#QG%X7NFYvQ=0_TxD8kwKOqf(?tE93}V6%FU2uH+O_cT84_I> z?Lu0hbVY%3_C1fg-8W3aOW-po(+f#0wcK>|X|-9_P~tGNsGI+Ur3kV5Ah&Y#GZAXy zZ@D3m!|Au=p>^IN1&zXMMdNSou34kG!dE?RFFWV+*f?oifcJ=)$+!Us56`FEa7Chk zZa~2*DM&Ymb;Jy4jo8+Jd)uCcKBmozFNud9)SsPi11;?^50qUXV%(S`3dOT0^Dy$w z5n2%4TC47Rh2@CxhNV6}Wu!^;1+!hFGH;>*EhzJ7)kAgwUdBrGY#-1Wt$C_M!!e^% ziVpHtb0we-n{u?0anS*&vjOF+X%R(3WBK9&G#UN1wB}1oFtlj`pZFi1vc1YFh2Ttf zn1TARTl4@4qSoE@e-~g-XW1XJySgm@<@l4BPaSHXXW`_Oj|Q!5o{KsoT?Bv^tFx6E z_#@M7-B5P~KFC|y?6q9Sz>5Bo{8ss(oV5lCZP-T;4VU-R5{ht* z32%PEQuGV`aMsVqDSURKdd{Kzl~U5^50%NXys4+`ne0=+sD$NaH!h#%kIJ%#DX_>8 zIks1fjT68}rlD|Nqp$g3ybg{>jRYU+nuZKtn-n5s{I!Qy<*%epzvSa5q#hg^CnHNyOpYl?}a~`2DaBicR#e* zq%T@r_T{j*hJFCPAa^WAjgZpO)f1-M0Pe#MaU%i+*6h@rF%`16NndRg(KQTCCh*^= znkZa~4FqlZYLt+>eFUqAKA0Vn8*OJ`7p)dp;iR@UGn%Q4ik!@JN*S(ZGX042)iNm~ zJZIuZba>bBvI?A-hp$b(!)9q~rhn|}Db(PB*7qpbeeYYed(s(t*8y^=>PCdzc$hw{ z){Qhrq~FAUY{5NupC!IY8o~0B_D*N19EVuCo}qVSvV~$V*s4=e>%)O!W{ZqxZYmU+JD($e_q7XhUg_48LG5A=%xD|8$d>1(h(S=2*2c0VU;r+YT#WrEBE z!%nuJV++%!KgVp~v25_Sviy2GM5&X$CBP5d1tl84q+gpYbuH;) z!OUhVQkH3iak=tE>ECAih?*%MEy{`<;TSLkGpOY_rIExx+ZD{XT%pTq5J`P_?T0@C zt6Z5hsoMs^Oa5wUsZ(oT!>91vA9QI&>4b--UQ&&vazJ`fs!1w;Z%1C2m{IFAc(h6C zsL;AIUdFIksS2?pl!>6ql@~3s{ko%7=OF7-yl=z7wqOu6XQpe16q}Gfn?#H zf-xGbk+aV_@7t}Cw?EBR4oW@ay?v9bDL>~&imf>N6#m#y%CTx zX?n=&qJQ#hfeIY83V|cnDY23Ptwo9FW&SUv6g`XS+$0pJq})t zx*sscU~|`+Ki3YL*Tn_AYdDX-#pUPS_#$Wz6Rp}v{7vNNlfCUK0nsK;Forf>Q!6IT zUU+P&s-g#t@Mj}3Dg!Lckx4IIDT0uMTSdJrk4(~dlDx8Fn+)_*#@iPmiK&F&9=?VY z*m}L(xxhVGq7fcoe@52cg;FI`nV4m6$>o^9B!Zn3Dv@=K!+x%QBkzpxF<2At6l7*6 zP)$h@DrTB|G&!fDZL9dF68t>Bn%T1P8!M3&?S(|(q`-@b?bjoiMqZIr3)vK4w~D5M z|2|#B!>?;+@zyr?Hgsgy{fB@X0^?EbsoL)GCe5Eu(aH+(x?bS>;kk1s&0AN_`fgz! zxxaFqp~Gf0h&{lvaI?=!@2JInlL*t$a!$3XHK5~vY9DO~Bdk4lct2nFuLSuY%p0Wt z&;<;9w1D@Em%bUr=)Rjz&5{~ zj}@N;E~;9d0J#xNB6{wXZNsl~i%%&q)mC;m7MfdutDSRSOBP*+$L6d!99h)A+ul81 zNq_z7Pcz7s61dxRs%O910;USk_${2nbMDL}Rx10%LGHx0zM3Y^*RQW5E*j~nuCP_a zo?YoOZV&#|Y6NL9w5gY4ZC@QxbS~$+O%mu6+Y>Ijx13cE%mSAVKIIuwyXkNtF}!8j z1u|3n;qG;xj&7#Av3%e!qFM1;wB+X3oqvz={A9V2>Awc+ztD{ZV}&vjw$T}jhZ)8f zN*&b)A5=8k+gzw;oc|t#SwgGdTqPW=VXxfE>bGivo5cqnU%0cGz5aIm!!(zj?6O5% zz#adBRG#w(&vr2l;d$E`Gav9EA8xhCIImDGvu{qdkF6Z%!Cgio+6Og0KpNA?_FiIv zy}Qh?rrZIjqTm&zu_g*#7g>?9iINfOn%C*@hwCA6&-q$Zc^uxSiLArq822p^PTxrNo7S?hfY7#ej7re`ayxOyN5$uiDFV zquJfQ&+m_I)Iu?&4f4h9aevQx-{_u$S1|O-J|W>e6N{u`Wc<9cp+lP*R?d}fHuiXw zkA~wXW|aRUtIwZ!S3czJ+;gK0-9%$ZzgAQr7kSOYDiu`lm6ysLkescoZ{vRu&N=jg z!}vf{Mu-s0@aY>O4rh@AufdMC8Z4#e6Qwaf!P`gb5u$lA^xkm<&(>c>+~Y|A7Oc-? z{ehTVzZ>!vuc|FPe8F|bO$5ceKqLYPR>H|<_eCgM+r6tElRQ6;^ZL$n?-Z7XyIs%c zN;vef_p7|hpM(1nD)3}MNqE}=>_Pr`9E`?Q4l9?iLYaW~bX+l3(Kj%3lf zE~BS&#M2AIKm@`8r+v~XrB7Niap(d@(66M!8FC9l7=LD@_`eVQ* zdX#|>#q`nDR^63Yc?NJt8LOJ9$G6U%-K(^FcX6Qx?d1bheL5i$SY)y>=fd=U!cbHY z8)gP=(|S`XSLHp*jo-B+nS!V%hA^sf`SUa7nkhkY&_hddVL3wX%Wke7(cq4pNgB*%(=8-M_v7^m4e;klIdTmQ;@GHeC4_12(opmn98{+<6Fl+)5m1WOCsRu+}6c>5D2^w~r zMU~edB>ZG@=hZ5|2nM;CT?Ej7jDOl}1KH>s9oqQmD+kpR61!TGkfn?VwqCbpUv<@3SL` zx-*MPZxz7^UCmJzKXO}VKjsHbs(H;-sq?P09I+^z($qH}0);%iG}I0c$OYWzP3slh;cJ_Vmlz(RWefJTWcf-HM5CA3=gHx;;I~zp6*MgKuK501pSbA2zXvN_d zgFj6tt47Z2-TIk0#e25Q_E~?u2j1AdTb!}W6x;o6S%cEH)Z3^aYF!ueVQt18>RV-m z&-IyG(?}^+m2vS!cCG+9?+|_f2GIdctjOnehL~_r`vW0NMjBf(x?0zHWNij3 zr~qFabAVB8xx#V!PsY$2> z@~5U_-U_f3Ojid1IAJ$2U1>M?E5qE|a^VGzbh@Xr+KW*#OAEo1$v9LDTw85%T7?{? zl8DD^okJMOQL}-Y%LSRpm#Pre7|M{k^N#rlse(ow2+O!@<}pqbDNfY&U)vgu7kqzR zw8~XWdy}vH{kx`mT(nurs9kFhXH@hxVj^M-pI%EO@Qt!f!}x!qp9M^!NK;!K3AYj^ zEAN!*EYlxN_=(@|MK`Karx!?{NQL>T%=>4}O3=E>=}Bb<*Ke8(nm|bQLY+Updymi< z%i?gSs7I6Rx{mf#fqpyrD#OtEf1j-=T!BftG8fVEJ)=YcjddkQrq#O!0rZFg-qZlj zV9T;O%jmFctbzn`|1gA~8(%f0&6(~{$Y8*I_@!s@g_H*{%?@lL7`kPE*xdkovI$+?VXx!R~f92bLfNoM`POgN8t{kzk|-CFn%HDminwpF52ef7<+5!r8%_FF>7u0PW)gIM0e`F69-5CQ=<|>9nxKU z*ze@+RIsJDFS#e3Hnb-H<&8WR)>b`D04?2c_Uk&6rfc~x0vn6_%XMq-y>!|m%DbI0 z`lJy)_jetUaE?C(2#x6UY8O#cR0q&Sx01htI%7;P#krqoVw_a3 z+P1j*nm|~VBBm(Mf_@K=bt1Qd7Ck6UDlsGodHadu{og?6+fx`g+KdL z!}jzihFm)19uDBnE9(a(vFTo%YdECpY`;-lc79NW`;vIQfm?Z#1jtudv`7I=Q=w6v-f>Ir znJe@BNH`HWqYT|UFE`9*wc4>Ig^C@ za;J#&mpo8w6KBf=LB*YEZCO_ z@(Nd3zM;2?q#ggu25KEJMIwLyHgTu>6U}$x58I}7%x+K4W7Ca@Y}-x|6WOo*w=v_j zIQ!8${CF=Voa58t9<77WJ7VK`DYg)BgF}Ewg2l()pY1bD;7xG2HCc1wB@f+jE$!Yt zQWs~$i1vDc>Y1$5RcD^ZAY}341jhn5;othcX3iv2Ty3K{5{;{F(#tOmu!4joplMot8)ycm{7&8ha?oyMKL5YH3UjdS1q7-(6#`*&)TfGw zhfoZq8j6+b2Ox-YPIQp3 zn{vDr&~-Rp`2GUqVCOH(<~w(&xyzRxPsNVm;!0p7tO2a3<=;yMfG(c)8mQZcpfkPx zrnT@SPGQ!I@Uzt8!?r>nVQ3Tz2Zti)&D);FMPN>WA)SVdV7mx8uCi){HMyus=26z{ zjV%btjqM1X5swN`xuY<>&N=u&hNk-?68(tSRUly4c3{;3nO6tF;4Tw{ZqUX#+dG#& z`KOjn9Z~+;smUtx_WLd1OTE1!=@?@L@e!zRa%MIJuF#FFL@jZ8-UEj%O@XZBxfnO$ zgc_isC!jq@)x;R{QV4|gT_b2rvEicLdi;b@yE4V z)u8LFsXf)X86^kp(kiMpdHhi0dpS%lx`+8$ap9CqAcjE1-VpS*HX;(xcVlPS8E1dp zr&nD{Y%mZJzg!BX)|IBRQtER44Ax`v3LD#<&~0C*0u>rbvhI~`KED?$P7vG?$m-vG zd$<-X6Myvr097iCCC^y2M4KWb1g`&nng4KuelNypo^))D-z`}(CS5-seG?4h2leg& zrpHSn(<={cQ>xz(!P&y8OUUj zQuS2NfYf9?KvlMss;VJ6Nd1z{-5r|N>mV|vT~b)CFr>GG9*h;639EYt$-mxNuQ{() zVFj_%O{q{8$d)45Yk=)%;7jRlU!XfN5Ujy0xq{oemy#*3sn`a@xNxHB3j@^S@nq|z zm%sSfKD`y$Gl$wEi`AeRlw;Rkok(5AQKK_FQ8|TI!E7UzwCrad1veL|f>3CEQUqo~ z-*&T4=_tkMLMn$yeev_77^;jYVg?^kG2g#qpp23oqB`H?TEs1;x^#N zNJ^LRzziHv@T3{<3l&^*QB#e1@_Nq8>`vtO(SrYe45hvZ)J!S{7d9{c`RoZ{xy|iV zertzZn>QP%;UZr1Pd?5$w78OYvDy7UJiTQ@RPP%ttbo#ubfbjQLpPGrp>zri-Q6H5 z-7s{Abf+Kzv73-jcZBd2WB88;J zf^@H2YY~jR1TXV~gb!5at=;u!4R3Hx`fIr)@>UT7Rep1C+n!w-w0m81O2m} zpCWG(y*;y$emlmFaRK$1{lZ&$<8i_KSi>$#o#kn$u@rE%~Q({sv2-jH-&~OlGiXlLFTHS^JEi z8CD0z&0sQ)!@pZ*)gwN}3!NnNNdG7QJ+~n==mW&n=bj|v$Dg@aI{&w;Czy^`?VnkP zAZGaaJjw0$)UgiU?>zn8#gD5r*M98iUSN78dcRcb%RMV7H`}qiTte9PzRu#dH~@XRr}#u83ezm!eElQ~p^R!OqfwAu>@U zgED%hq&obPMmhQzA-mcSh>ZnNhftNhS}ye5+>VilybZ-uNXq>noF{JcTh~0>?Y|s5Ko1_e1=u{_qurEVYzL2;a^JktZ1iCW;>bDyF7<78uryLJpALF{( zta^;hV4ka*FAvbx|3D98aS&psLhcUb&Qh#+QY0!*tP{x$7{fHfz;0N5YLAECBxkT0 zBl%U~r|uB+cs;($r5X{n*a?qY1mh+px3hK25JrU?0%#e+)B;#@r*V@~(-fFx5M_>T zih}vHFoGx<06V=Fi$f-+@tWz*41odjSmkBHx`@R_%66Swh?D1WXyI~dg`mvzu#^8A z4mY&JrU=+HSK;Z{H-!_6E|~g7D-m4b^C*{__|F;IFYMj>qqj-=yEJ_=n1(^@-DPxc zk)Pmq*CQuCq%N_#N`>Mmu*RfRXyW?9W+vsr;Li$9;%OIx3HRCcAfJkR3tN&@vL?w= zoVCnxnc(N(^7{7Cx~xuXbB{maDw#OHRR(TZx@LC?LvT+;tHLe5PtL5qJgwt4hB@3b z;PYX!B4LiY2~iawx80MQG5Ez2QNL}~87|2!R1908EVOVaVm`Gc&HK(9+(AO=!8`Jo zsjQ;cYLA+Y#lNY-l0X{*z}_dU(Vt7QQn>xWWHG7BE*3+9osEYZQxjMF`pi?1m_6?_ zH!grX`B+4fd`{g1Il5)^@J=(rm}}o{*}Vp#1D@10EC8}rDkCZsDsid@M{gg@GQFpK z`|?c%xHT#BE*MY$HCO7uhEX*gZGf4ww#gTV&U16#hf$@z>~n2F(1Dz5_ zeV~drV%LfI{FYjb*1L2hVJA)AW$^)JLp`7%F0|S5DX3$z6zz}MV{gtmS~>j8O`w3l z75I1L=6%YiEvdL##Tfiru0V7;R+v-c^^e3x>VF-Bg$I*#V z?iO3{LM$r^m?Ilk7hvw$m=Hcyk*s|eXedUqW_^rlWE~_dD2sD@dE$M2c`y8&XyeuM>xSXM40le9 z*mt2Td&*A-oK`z#z)1g7E3U-j%Q~*RUeW$opFJt2L*FE7z^gEv9~G2ef2<+o&1`)N zeIB&9ps8lb1I{nn77dmjc~SLDQ|Uu8n-`|wshY30rgsPB>i5#NsxkiU2VZV<;v$RZ z>z$PuO12jx-Q}a@oN9lQD0!;BQ2KDsCQFDAr=YLZzZJ@HFryRO9aVZ^n9xnSo=OJY zj+Uq8s<1e14pD@T>c=!aaz?7w+SxFOr~(hS;@v))nvs>sR)}f8Ml4om)FEWYzh(&f zb7n7mCEqh?MMn_W(vffI9*am{#`N9FCLs^%`7LrM4*z4CalN~4moU^uEE6l+dK}DR z(Hy-q_v}qDI)YGM;YcJ3xKF zI&CmHX^Ht}&05(f`5_@0^!%C@?=G3HRYiCPamf-qF4Q^-8URW#m zk{L~^Q-jjQ=+pQAj092B-ryVwkn@y2PH*U~Zoe|%W*Z!(TZy_6c-!oYp|0`8lMe~@ zZb7Pr_L7^VUUkOOcIQ0KKY@W${JOQgpYvznt zAtF0q0IX4fxsRfci<8k+9m~DB?vH4D5%)!~L_2EijtJxddp0)#XD=^(o@au-wavif z@SWINg?{2Fx`Zjxt=BSNN{mV-KDWGkyoW%S9`)d)St9qGLmPb4oXuBljx)IH8wH{z z?nG*0I^-eAxZn@^^t;%Bcu02`Jzm|M=JxL$#eaoKt_8f0izOCFVHMxQIOD0vd~=Y} zk7{Yv6a!boFXzsT=SFrOTHN=|Beh{$os7|>+qbq;zOBA()2&s#Eq5UwXBbA^xnmb| zGfrQNhp4%0us zt3IiJ_3=(v?%z`B@6_Iklu9D(ve-KQwsDgjvZibFbllcYt@U081E@wA0~J>V=}1&h zMNPugDc(v(nkPf(t`89nShY{B=7H7Tp+xS5B13yv7hug|h0`Jtq&FJEM2jzV9T%g6`^LufjevNM(1 z7B-t?Z#gaY;RSYOqjz03>5p@#yz{1aCaNmfrN7hXiEPF1(N7FFmP)f>e1*8F0Tzom zXXAEOYXdB%T{G^-V$-%RqCYwuaD(Mbirw+@9i#r>?k01|i=Wfu7sZD)BuRIDDUQnfr7NbH)A4pd&7{JsIEemg;qI~L9Fj#+Cmp7ZxAbk?jcE2!t& zX;Sg`{zp<4yiGRMcF=HqsAp<1Nm5_08oFdIymGpQUwTe^cL1g-9zM%*01W^9%x~1- z_p!?BG`HTx-DmxAXal(W#Zm}`Ss z!OuRkc7~iT{F2&3z=5H2JUbhos8VnM=+R@Mz~9%i#|Ljq;8=m3YfC0Em!K=Pf&y`* zI}e~f)a%kS~WyDv{F{^^>W1Jk#LGC9AjI>sO09S>Dpb&Y2?H7r=sd<+ZFZXcJmXBy7f z*o$p>&v&z{;>)Ig1&t{058}%`F){4zy?S(L(edl0JNBq_|4r~#gTd4foQ^b|KC*h` zL^u?p7f~T+t@La8o)5k|cAQsM_RQzH6&w*5=>xdcb{*tU*cicl>LIG;!;RHke+v;do8YT8fu( zYcHBMeI_4(=@^UUR}+wJW=Ujo&VvKF`T6J?&mLDJXb;uln+}26wUZci_BXG5;>E|i zIt@(I#M6Q4^@%Ky^eeiXJRjB!qo-a}(Mq=66%d3r)OQ#F@K#SfzJ32rrn%nQJy77I zQe24MHKx~)^!<-bytxG0&PC%DaKioMp%iL zNf~c_!?Dq|cbJaQzp{Wn;5)zb@9q5_K$4XizG~y|Y06pYzpFFfvrAbkwaFNR+&n=i z#B8&C00J4@MvpP!tipHU*ehgAPDJnf^Fo|I3WRbnErHDgN;cPxo@y?;9RbPbF`6-E zP9}gZzS@v}GMrgSNizq*#&IP^?5;#%808^r|BY@CQ=c~YU7Vb@y|5Sn?v({HVh|Mx z$P&H00}gK*8}?djOR{B!J_B%(S8qA@X0|41iIwP z0mqDBh&-EP8V(BGc?WSP-6&Hwc@$kkzvn!f)lF;^UmyatzxKnzz48w?$ey3OH^|Ce z4pqiq-w_z~0@r-f59y;{S1T%T%H^2&2LzV5CcQFS1Ro<{&|lv4v(>XzV<+R_y5zLK zV-a$N?S}o5w*0IitvXD&%$crGu;1<3WE+JhiLHw|)t8*81AiOOEF}{8pbQ3Z#X+A|+)@k`|=ehqLk+D8&T)J^MY*8cIcJ>GRu}n2D zcaS@@_3xfLxOjP~s&q1RWyl2#2!Fg(m4B2zkfPNraPy=1b;7PBz1dN1!AEl0NB&%l z`C7pIB`b&~Axn$&-dz+3cbC@3a?Rc(B8u4Nq4~TsUW|6$?il6VbG{1*6tbX7G@46X zVWwTV;x#qS7rWB8^4%b#T9Sqr`k!N}63QEkveIy5uXngHUWyIq|5~+ez%r>Zy$evE z{PutT+mnlM*1Cb*LjP~DAfarK9(D%i^vh-Ap#|IddqYdtdOGP{Iip{ZQE=vjC5@~Y zzD_~2lwdvG_7+k-sgmK1wk%eFqjio5GvysIoa~ioqxVuRfW?@=fp@;aH7v@BF@=r! z&UN!yhdsv-Nu9R2VsCHvc$4MjwtVm74Tl<(OU~@;!>-=({Y~d>zo5FyA)Ho3>8r- zg1G??xZ;BcD5;aa%_0w-h>^%C+PhgHs$~^PT z-(1Cqn^16XCg9Fgqa<6XA8Dj%foa9d^IUdN*Rbv z(Eh%8>-fN|cJ@JU77P*-*0!D4^9xREkTxpqaiytdu1BBo77*B@vpjSow%HVggRhL1 zKPG)xx;}NxHAnpFq`>ymz3hV}ATai2mCM?e#;IpK9cthGM2^#U)$dd6Z~j20&^T1j zv%1@V60m`Eol<@^wV=JnXAdM!y-0R=#kCZTDWQ86h|E*Ko{p`b-1U#$*u01_^|6I9Tf3TtC7K#ECtx8%O2(rB@V#L z+C9IPgggT@tde@iP#kTSD=l_$!ov?+zLGojEV;; z^-Ln=f)j74{pG~I-=BW-(oS^5wm2!UQr@K7V1A#-^uh!gd*NgK*#+?da@a4$aH0Xx znfAHx6yz+Bu>-p|V7A@X8{53u7XfqXEeV)X_4UdbV+_#DT59|olePX)P`RH@us`NQ zusTixsRy+$ngU#nhLnerEf4%^>VG7!IPV$<(>VkTc6_tlCe;!1;7%5dvuYEI6uG@G zmV|}QYTXTUA6Yz`cmIB73xD)#R}Je}d3p59@ZY0FO;ponvKcVUmG)f%H?^OyIHmAr z&%{hFf>$og89QRTRqftWIQQV7QhEr11UI)O;`fo*MZKqkl~1Cd1AU)-?d)LdjWa9c zqR4Jk_gcPNILK=*&jvVOgOyEjgEyz``>ZzJzQ)CHl}hVn62hn;k;^HY4jEwF3B?m( z^l#H4DF~q4q;PhhtY^Uvip@u_9Leo-p}YDgvfW}%j1s}{#M7|w463NXY}K~jl_A_1 zD>CQVHNa~r-!+8+HqOizJ^k`X=5|V#n@%@M*{9f11{j2f31x+AezYWq^PEM~|LwDN zy9-M0Nd=!}1>FJ7yVq)JC!^-RE~u;Sdw$b;5F+Lt)a*N1xw_~uN_s_klNRJ1OSdF| z|71Am+B0csB^F9HRpwOrkaiM^=DIY{c6a5`(zZK^WZkM}zZNz!hnE-mk!ni>_8#)y zNptbH*0eT*|6TF3hvYL?p`yLB7+LR;j>eC5vG~_;D*UW>g^>^l7V`cK8x4a?rX3M#uigX#vF`=UYj&MQt?o|38KlSm|FV$>haoX-^tIt;S@Msg1KaN78N zM~0i;wbqR0_Tjit>e+AmXB@kN%`nBKT}aP7$YwUVnoM<#=ofZ+>rc7N{ghU3QqQ=YlCdZ@MeQk&f4 zd3b784PRJXbLFeYbkiU5@@~k5-Jdku^9T&`9$j2TAGXIxl(h}?vG+t(fX}y>mUrs@ zVn^hX4s=0w;n994z2WiOZ9ZBezu-9tJuPlkE?dqL5BnWnN)JRs)!5&h-k~F7*je3E z;I!yl?4u}bM!A^=Ke|kVbJsMTRJBCt8V?Phrom@Qp-vH@%U)mX`_%DMYksx%L0Gbe z23*mN(#ZW}He+dQv3<)qv8=^D_um~mHOqZ7GvOZiE*$<&l!z?5lA4i7**tD%H%g}e z>iF=w(mbv^LTCHT zb}YNbMZ|7NcDuBY+}^UYf_gHB5);`;vc0qJ==cGn`V&9=Met4Xygm^U3WbV&_Rikv z@5)O@!cV+n_+c&zbG&u#Ldch{i@SXKJ*2{i(wR^uQ953_9((EG z=}(oe{qav!T!#;W#w6IqM~LI-Bz-@{e{huDmcs||U9?{Yub>*3u{o-DLSW?fZ4l>n zwy@{swNAsw8os(7#O#9{K^;uaKU;BNwrAk_zQugnWd$4xlR1f(MZylvaiYv0F84p8 z6>_K~d>}ZBxo3f8(3T~Gs5GcY155w_e?sEztHGsCpMb>Rnh#%_Zp9k z9o9rZWL+a`)s#`{gW@S`EOkk^pd*nuq#bnG?o6ShfBisMM>6PxUw){C%7zn4W5{*} zAHcZZVHODU-PE&bPwdc1g#^S3#Y_+J#(edpuIbQ!BwleYf@-}ijwj|GmPlyd#H)gm z(d8uf4Sf)dJRK`F=UrT00zB-J5#H>p@}iyqoFj`?L^+s*vU`7dGzVS1J|5x z343Oj=hXlZcJpErm#79o0T^m}K0_}RPL&0HJgyyJZv~aJK%eTMO`vu*gHO7{zuR}K zd+0XS`Zimns-a#314f9nJ6ZY|h^4)LN`p)C5Gtv*8B-vFIf(prkw;=56}NXzp(($b zkEb6`ybyg@rs8G_7ep=BstRK+P=Sr+SZY(4InaWOCQ13 zU4wg%MX~2^c`TqhIqB4HtMLmNw@>hUOvzSMx2(+udu0J}w+^CpCdxgv2SL6=zvIsA z2c&j0EbX`2hgGwxogm#juu}YQ-AHF`nznJo0kK`QcLxBzu;1fBGV2D1_ri}*jk01H z=2S}x=k`P#1oy}?7h^lH=j@SO7x&;x4cSu$vJ@!~Mh)U$IgwEQ1dvE?HK^>Y z*o*&lBnEYun&8}^eFb;?IS*&Vmyxng5#GdeqT;`z(jrP+fc$ZEZo)SLb0w%|{hv!V z1Y}GWOf)yZkn<0-r&18S(40XWUM3|{)I;a6SqrJ{VXuuuEC+a4|GgJjJV_QIVP50O zL`O{$0uH$(Ir$hWoDHU21jlfHUNjE-Ks7E#kmmvbxR85N?b8EbE#Bbd3ys3p(mMVd zSu+`ROeqSm>#v!g`ARnRJhOsSNyV!w-S4wGRotHJX6<3fI#j~5BKE-U@Kx&E?mapp z*mIi{y9Q1-exh=pxqmm+23CCweM9c-G>ov|eSD^FwEu01M4({F)_|p{Dw?We$pSu0vr(OXFuF2tLS*r6P92B2C{ykD z9~iGYwGY9fm zKgD=<2V2KjzI4>|=O}FOBIT!~84^gp`oE?5 zIi@#&Kr_s?=3lJO)eQ`+R#?CGM7e5q5UQY7$oR0NA>vy$3N=mHxDtK?BPH#z96vzZ zk9*d8tay?}_w`Yfm_n$SPS&~l!^5p&a8r$@zI1K>{00VraoNjeP;liLF5)Ymg;i27 z8jSr>+YQgV{SpR026qn9yID?=9?E_PP}0Uq!VV)0K-UxEK1m7BR!Ek_fDwL^qR*F}m-b5C0cZ z)+D}KS+s7Mclt=9wkNIlFT|-sikk0jmwagEZE`A?&e6MSo9HpT!w$le4p4<4D?fl2 zXdA~I$Le8T-uG?Pi=7q+MzRhJcxD3FA9|-;>AEt(#gY(31yIZ$7)R3dZaGpZ*@00> zfJ{UT@oVYL5i`cccn9D$6ChQ3j)bMMX6x)|^D3l<-Q8Zd2Gin(dbFM4AL|qlNxgnH!e{|3|K+Yum4l@DN%%LmYwSo8rT+w%Q*D)`s3 z3hoNL7tJmxgSB--6nI4WBYjSc9GE!wlC@ET^UzmhKMxxYMU06$RB4Irf@-^n zn0Jqskt6wnO+)hhO%Sd58yj~V=b-j9NV&yz-o8CoP-M@Q1}!eJ)6)js;!!$M33N{~ z#V;sCPbkc+WUcf#$tqx%FS^Qus^N@4Pp3$l}y!* zqq4bL&cF;)cJ}Z#NWMWE#W-4R*H~=WAX6CAQBL-I#H%8z;eNjCCnApkKyB&+`U_j-BbGJnJ%tO2uEK%ZL1K$>w6xA7)Xs=WhFyFO zd8@kgw{`VB8`MrapbgHE3eY7H6j#e(_tDLCaMBl`d3mc$eYfwGIg6bP;~Ecket;k< z71O?vjc#F6rSsd7QSjbb;I8u9nDi>HU1Hd4FQss(pLG^!fJjV1=S)fU^3xp<7ND}; zg`wE2j_pq^n{^N;(xT=w{5bOe@tAI!HFW?sfHyHiP zbf}njwXdN~nZ*w<<797DcQJjCF2vW$u8p}iZ12K#N8v-xiq2}3tH0w<5!&|d*qNW4 zf72o^&H-Nv`ILAXrBN9T?QM!-SDt_8SUJ|!4N$g7kG>2eR)8O6lR|kKv6C9_j)xg2 zUd@mk_*-pXUrwFesIl>u7ixK+$!OyK~#oNVoYJ+cHDJBp-MF=mDXbw zAD~&w*C0UCYS+++Ym{{KcRe}LP}G`aT|JJmL-=Mc^j zug5GS`WtYjjyp593eyxz;}HCC_hdRXNn1tW#r5fDLj_KD@&giR9vqAWzN z57YU%L)iNvytO1gZ2M;=%C|2e^`y@()%9V@j-#V99UcVt%E-C&B1}Ac^#v71U)r@4 z)`m1YCI5I7p>OlF+IJEz z_@epaZ&CLKUnP4yb{Tml1I-MfEf#j)w{D{%np8NUSzTA&ED#9REmol13~cTiAetfY zumEV@J;IONtM-n?P&)l@%}d3=Wv$V*nb2+rCD%Tb^9tF;9BAA=?*{PobZ7mRNXg|K zAlU3!Tu2Be>tR%D7ygZY7IZZ2Zs4^)Y0xm0{-oj+R!;piAdcs5*ju4ZSO;||e=u0R z0jvH5OQkt7i@O`$$l+ULM3~&!WW*F2#Jx{{*X~^GE6& z^x41GR*r<|9oH2Ux8n&0fH^V^WDk)52G=^;(MNlW#d&eV9V{<09XeCeA?6-jMT-fm zO7-<0lkzgr!*^moNw& z|AV~~yCL?YDzS=o_9;T4*Rmwl!W=n083fOQbi5uJ;U+&+0VWZP2bg#j$M?+FnT0gA z{frRD|A1b}7Tn~vfbnTf1*w^4+0GmZaGyKgU0&-tCfE+od0U-pKY4jbqM>i#&ypam zK61_*R4^kK#G`Wi${?OXKo&|?`&xD=1ydY!$13c)tsQHsp9eNTR9iIT1xu&a+hi2L zsVuBXUvl35$6Q4J*muNDO+2jP2zbM+al?D+ zU*|ySbGXRI_;!^J|Mr(ogZTQ>=D_bhzg5WjGiCo6fCpCQ|B^3`9sLqw&qi&d;5X?` z%60kuNKWl(24;h?cKq{}WdbmqB@Ocy&7_uuGUqG7=b>PbX5!1mZW|NeXS5~=F-bs& zZqOrwr6Hg5)N-s|czbw1B}NRzY2$S8;F$v~^Kz~?S|3`mI=y*~;`^jQixo=xIy*fL z)yCAm#&q)2Ys_$ShR=q@h!WTDI18i@5AVx7y61_0xgB&26T@yc+Km;L1d-M@zaoVL zfxcPZ20Gf;Arcpj`&UC8SKt8^e22Dizshki4L+X=aA*t5^_Bqt?OLCUbJ+Me_{0HV zyaeW<|5(%X4{oPJC+O$uMv9w32JuEX@9$d0dbzJMo6sWMU7~D8 zCWzM#`1`o)BCDB0wD_J@j;GZ7U*3tlXO zt##@&?<7%f=Hd9_-1vqHC$&J{0P;`D+=f8DimPRc__|3&YD|7yC;7Bp+;zu`RWvj^S@UXOzVPsf0a z61&Fd4llx$-qoee4^Elh;lLXWTK{Nhxdd#4Km^?U#|myIE^8}J zm|{095r8;oA4c4M_6Lx=S%=buv7PX%0viM&t#D#8z9i8lAY*`&?Gp`#q0rVD6wJy5 zK$rG6J^hXGDGdoiDC>4VF|HI@z7w7sK7&y<@Q8n#H!ED*P*ctM$eA-n8&4sn-kj^DOhg-%7pI|_;s}yhAwypQN?8cPUk!Aw&x~4VvXMdij$yra}8_Cup_8fIIx&j_c?LP zNuJ3L6{5RfyO86p+^nzo%IJZkJVwKWE1N_o&{_SRJzir}y~2nA?$2`2w`t~$XB33G zpDQL^;73;C=%rY8mHuu#aTGy^i`x*jys$$S_O#T95$#dS=w-HCaj!udAH2Y0201>7 zLALy+nOtjKN2!BgcIC^`j&_Z;emnL(H~kL;T=B{nTeKW)!V|pK-Jjoo$B^9YcWTt% zymdrJg=gZ0XL%`4qb5bNwpVmC9W<8C{H8^pr~!>@3rR;Ss;I>D`qqkPt@NRAIKthtw9@C ztSDhY6+O})1wKdyfWs8$E@%ba9{YYmFE^M`1JDHYyzqo*MKAK5{3$-fld<*_7`C)> zzNbO5?f|ne`yn~e#65q)5Qde{VqbOq&?uAPSKkZnsA-M0{Ty4EyP@731_9nOBH8Pp zEmG-t;5fBxnnSw)m7J2?jRl~xPQijEp@?QDfhXzRjqQ2GV3D{t8-&;zbLyKljT?9> zY4-Gwy;KvXCyZOeU4VF+ME!=!yc$v2hh#&M)uc<@p8?|*%+fsb(?1^5AKQBd9aG>= z#d*0Xkc&-uizfr4P=-I5ND2zsM zl5xkwQ*WI) zxrx|Y`VDKSI+|-;#e#0$Z$?7xy4CzFqyV`kKRpHgyXx(N;3!ONt|kwRNKWa<8PF$! z4elHydr`<0mB)$_-*Fsan$ww+aY%e>b`QDfp8g#a6>$~vJ=U3IBo(^Y!p$S3J+lO( zd7cHn_s0wSY`jMBHIPR%a;oux&W;i!7mhBhvOHu8#I4z`T+BJUI@-#aKgOpsILA1c zzI(CYwPwrZn+5%2VB^c zL7U%rzjOtGPK?`+puK!}_CiE;`ZanEhh7SS?))Ui&Gv7bl)0dvG%I>94?){8O>e;6 z*laV!e$E#c+?~H+e6G1ysn17UZWp&85Z%0EMJ=Zz=FI%o6RRU2{vSgyS|hGNhjQ0d zD^6RhQ=2RD;CpD6!2WSbe#XHICRrO*`rhsm2kDG(!?_eCe*AqzUcpcKZLREEvEe9@ z_vKCHkKwgw61K(>Y>(2$b8X4EaQ)l1- zAJ2<%VNqOoZv0o9VW!aUK)lEw!PavOP)|bSSJfL;Z$)Mo-Xoo4_k)_ku}UvBD|sUl zxK)SpviJP%0@+u^fhd$Z5^?!4I zMD;C3)*z=Cu}er^gh4he=8|=%(c^4iI$gLRw~0dmIU5Audc!#!0F&+5O$W=4Phc>q z>c(vt8Z=bV(X4&^(c1&?V&UQH|FacTTN|MmTx;25YlQja4!<3t74Wuh<`v^}!YNy{2cFsknIDUqK!8e9s-x?eac|s%M5@HT!o{KR^|;ayAzu=a zRB@Qd%#6;6fPxt7-ypyFa9+>rED-A&B3V*D0U7;q1l^li@*X~?{Pbg9B}J9jwoW?L z$^sqk-GP;=W9hl8O@EfbY5Mwn8H{d6z1G`7WcHj4Sp4*>csMwlG{!Vb;1tF8@9Gbj zN`;O;V4iQe4?4^RXiwb=^C$R6H6ffgaq0rm@Fjjv(kS{<6(Wsh2i5{{D#{vpWWmU(j-Ek{5`lJiZ~drP(|Z-&ow zMKy-&TR3Bn-{HIVz*5%3Z?ZKZMQQIKrItWF+2`D}j%OB^Abmza_9TMUNVTv0FPM_m zi~~O`j2p(m(N&BC?TRqWiwq-ya^=aCv#BR3rihG_*l72|nd>N@AB#Omjw-fpsS~P} zFFxCP(UU7cj_zOX0>pjQe4dniNW0d+q2?15nHK2njd(`5Q9>W~Mn{)V8VhQY%kjv= z^<*8ae4Ki%n?3H|DtQHnnVlHo+`nc(l*a}^g98~3;8@zn;?`o5e=th7K3P{aiofGv zGX&T!yvc#!k_0eJyiIGR?7|q9!SDR`y=%X6qL%u@LKZ_b+=uXz-lW(AT5Nv_T~Fz$p8x5{ae{k6h&?FRIwT z@->qJ$|t3?6(KYX>anIXVcl}8VAgHM(P0GI;OSU;m(RH#;LZ89^PGId zW-)I({|ca$VA!xs#AV_=1__hY>VJ+|cqZ29!63X(cs8FP%q(b^*wgyfc7jih(YV}T zj1g));8oM-&TRUlwXSRT8XDe@h!lutMiUv*{(TeUdaL=n(*gJ_XZx@1dbADEZLi0J z;_71KDAU>pfitVuZzQ%?z;==bB}TmQE`}IuLZE~3hT&b8>%g80qi9!P`rIEIQVAUH zK_tvIX_^^R1|40vIZ?{F%$*VV`Rbd{jKPr~xlw<(%Gt{VZxv?Fbghfp*jJ7_C95zd zoI!W@8@ZMFrBVx>30~+^U>jVq*x9+w18yPT7Zo;9y|1V zuGI=r`8Wk_>e~y#4jj=>27J-)kzH?jF94=Abu}CQdHN^)&6H~zRBOd~397fGg%g8~ zHI1J_+g*x&IRhXo*#Vfr8(NAN5CYPq_&kMGq9{}IpvE$DalBN^I2x$Fg11&S^e&km zPV+wB;UyzhZ=rLv>rx}XFk?iz6kfsntMZ)oDFa!+-Bq66A3h~l?1$Ip|Ht+(pV~BW z^5Oh1)3}s^hY)jlIkTXw zpLcPQg~XaJf3*l_zOx^pK5&FfN*lla)hghpy^u}`);%v2xT?PGucy0K1;b^$QoR|R znbckQKGmkmj%+ytj=`LI>Bik35PM~q4e^%7@lVZL{DX^)%5DZE4BET6U6n51f1*yS z1G_iNzJAS0GxaW(;?ynbNU?7sa0O2dyR=1O1Nqp0zTZCH_Q$-ij2#iFlWDWRI5aPH zlQ}4S^%WY6;&?KoD!`_uc<4AY`Jw16#8w43lWdJ@5yXXzL-D-7NDrP2IIsI^b-yC@#ux4fo2r5t<%lUsRA4$;A$3x4D6 zH!4ReI64pnz=5beN|b{-{O3gaMwQ&{e7WK3rrp+J->?$3UcKPQAKUA69T1Yp4aT~G zpxtXLN=yLM4L5r6Vny_?fzUi~l_LO>FDY_#Y4{P3BV!hNmjm7@;YlQ(enVuL?Dqac z)1|A#f`+k3)={CGOzl)SvecmCwh)TX({9^!)=;+o!OC_5RJz&|im=Re#(8PX3#gavgCs4ooB6`jt%ZJ!r`@r4D#+N)h! zyS4Lqa=%D*jPc1+FEM3L65HT<1_mUu4L7*oAE*F-`AwhxjOZe26iLOS=|B2r5i!#w z?^LL+>7aB{CaEMq!-*qdJ(ZEK&aTS*1qQ=Awaz|w=9KUx?0;pcZX?bnC=#G7+eYHc zmRBdb0ya$bPX*?<>XLtk@eX_vA#v<&rrn}hMAP*0+t`zzcv!~e%@@MxR$#@u6s;Mx z1w8(i_Sp~dS64hG8Ja#T*1m0e*kyD_$oE%pX{GdRi;@f%moA~X(I~t z!It7q3FKmIOAv@&;kHtTv6|Kb@Qr|vI2_T64K@TMg#B)g!OC*?Ie>T}?-$pZ`40RIo} zZ_nxh63P8~ogR2z&>}7c+R+i9ZwdymF^*!flvvqo7OWmJMx89`G{2i94w=;&-dU!se%%m}j#l!P*NPD(8f4ugnKkbgNbX^*{-ik#a{E)k z1`_z0hr&YnQ~ba|1b6!`^}xNI%Tk~{qjTX6V8_b;si%_Al80ve-PeYWFu^g0K&ia| z@wiNp1{=w|v}wu}H$IRM?e*D4{yRzC+OAsiC5PXDEm6kL$|fo{(3wx`%sqf?Og+0z zyrkfYhG6XjcC=8XpJw^3Or}oc! zbbK14zC}`h^Wh&mU5b-6o^+dn>SsKw;YTv^BRQOY#d@i1X?eh^4Se-7c?fjLj`G|- z5s!G&m)INmEm1uEIW=7B+@llse1{CWmT@Es9u;lXR{x|UfGvC=fQ_a=ZT3gG8uzgX zIsu9Hfyj5F6>)lz`{QbPJgDTGgIT~lkCAVO9h;2p`tzWxvlA^Rx6K)63x%6`x5MqH z8ulg>#*voHYS?lTfA2KwCCC$gD$~u8zmr3Vx`lhtAHWpwnl(-WC7i99TbylQFNA+# zPJi9|@fChzua^}?^gxw;Vsu&mSlalZ7$G#IZDI`q;a@TQU&Iydj&_75o^sb+ACRrpv?SI&4p4LdXwlXdaa4%>3XW?z zn7#ETtdFtl3U3QRS{Lk=7h0D#84JIx!GPqFjg1x9z|WJ~(P%+SiC2{+XI>0Fk#b-Y z-Z9q+!2{+biQ7}ROjEx&%O?;u$nsqdZRR=IHyr8YKnI2z^;4HGZ`Bz@3AthdyWX;m z$o1YodS?kT!^zgvJYZgAfKOKu>1F)w`|Sru{Vl3yY+UWMt4+F6R|CHaxZVqB!@1@f zV3TTq?hZv2_ciLKn*N#`iwOMtF$!iq#cvw)xz&6#%yL=!7MC@6JA682E7Fqeoaj@v z@bt)1_yC;-x-tL3+YSbrHOI@@5sa{R2X{(D@eVKOeqKpJh~H>NK8J@@uG zh_0aBzFz#+n0Z(J3qtR&E%tIGYePq~Do?_+L-#q=>Wc%FzlOrsC;j&IjWLVR!d-+_ z0nVh`SlyjEm)I|SE?I^2W9F=F|J^JPJ=Ce;8eMnTzh}=>E3HLc~kbxUEotQDi=ykYp4&t^Y+cW_4kGup~atK z5ZGgl*C7XTwEf0Xru1y`#FlBB>$y;TAYf>{+>U@k!*ytHO9X?)Y@#&qTu;NHxsuB& z>~T*eoAE;wgd{Pz`;9wP3T|Dyrfn)$P5$o9GZ8o4tKe4}L6)Dg+OJ?IjbG{LK3#cE z)IIl+I9P-O>ur%0q>nb$ML%UMpbHafm81P&dQ~?Uin-i>XIEA<{~Sf$)qX^0vMY|% zK_)%R%Ns6j1n2*7$c2_PE;c~79eTe+h`8qM7q(*zucj7W&bsZmd1Si^3xkhDohs2j zKE=cB1SOoo>`qR`zuNwi1a@eNy}spIQZ^`A4BPLl-so#iu(FnGQ4S(Ik2z~Ll-*|= z$yd7CP6y+i+2~3}0)JiOOP}B6>ug_=I$v%qjybf#zND{Me~qz%ocs*zmw4FXF$RCB z>eDNRA#poiWIp+M%)Twyx3ruC9n_c1g(}wlS}h;kc*3`@3AXb_jX6uMwc5gV|4Z}S zZ9<{?ha8SIoICmgba+xX1$6^+==+pO*!aRl;>k> zT1H<8>zO9}L|fXQXqhlL^&25g))wjx z!zIgtfA<&3f`%(|^M*VlI{e+)V2q`G;{yU+q+Po&<;?yVZl%bA5`<+F#+#%vEL#ar zg{Qo`Iy?L>J_2YM6s>WgoSgw9^X2)1` z#YYV_>_qK+&YSvS%-XsQzYF+eKfOsrxglO^Z2v8nW!N_1Y5>ZikcQW)tp((bpX{y zYzfFWj|{>emtR6JgCr$;d!o}bOla=$a4^oIFF8OWVhtnk;_Jt`cf@-xzMB!f1U5F( z->6%C__U<%QXVmp@t#aDJY#y}|2*8v7|1&vV|30$v*C2y(uLy{tha`uOL)*(z}mYh z^TMdFwRNqqwZ#b%xR3&k<<4C66o(GVrf<6Nk&vOkg?)4H+G+iQw@aok3h1(KS(^yB zew1qP>~1S*&%2(x{a1R;3gpLZVZ+%1yt;TyGwS2nQ|xWVBY{>bng*|jTi!`T+^yMU zJL5X9nv|*!s@Fj=EP^1na{7(rP2Tz^X_rU2on2BL=Sz`{YLI8hL@^{3;R3H()D;9t zkaXMWrv30*cvCtOc{{yx^M(--=cRxIjDzWbGg6V@aDEd;#`8d^NBxL%P5KWTjZlPf zEVOTidGl&Op8tGqQ?uJjD`kWbHzpy7_1CbY?JZq~8P6Noqlz<(jRr3J0^6!};dK8# zMNaN}2jeKd&|as+G3_QsnHi@U{*ei{@wZ!>X&}Crwcb=LHzY4I&HNdsG*i=K`joHm z>7#r|kNoj+tzoALNuRqC27J}pE87LQ8i|`EVm^zJ*V%pHB^u20HS`6=By}QD^-% zG-+WA;t2ETOl^}do7gq znm7R{XX5-E&NGY!>j6~K&O=1!j`YzsVUEv`7QY{WSt4MU73f;xPT(D>{NV zaMWibVehY!J3GLTRyPuvqT2ZsWS`x9(+{85ZTLlx^uNpIQ=HO+93ohfCr!XX}-2_eoKZ#?GogO-yZ z_Myb|RSlGG!rR>W>z-chtram%4@ICdvapa6EmFWcap78y-$f@lz?N@h9@%M$1nuBZ0Q7%w54}uzdrP82-{Vq!qfEX z2dnRw^z4^GFo|38&O`+@S_U`A9rii4a6%HR zIQ}tA{Iud|43;CBEhLs`dfJ>Cj69BXTI8lC=b2Ryx#uHQ=l^I%ZGjHQcakQKtWz$_ zZRvCrvxugnzEOLM)9?fy7lNbCefQ1H6lvnRh*H_n8wci zh~R>SV#6pedefz@7~3n=6RXxZenygp=$pffEcUDK{3`aT2K0BjfboOy*l9YQUJW8C z9>jgG|Ar{2V=Y^Jts?R4WC3QS3)pX+{;a$%{kQwi@j3-c3goUtnAKh@CS*d+3CB{;>jG`M5uXemV+%%O2cXxVVr@Ui86>ILd5V4#AUfsHa)48ZA&*`uIo)`O zFsvt(gkt^-!kPQMSQWG0fBBBw)hchiZfzBRLki2laIV`=_A-3k0eGB}{*z0GwUh+v zbeC+u;1_a#9HP(V?FZC@_)_dfw&(ZP(;HEr|3jJZxmC1275%5g z=m@Gr@HPnqk&ogTj>};KNv*cMwgzZQq){V_*TVTt{*V+lF{UMm#_$=LY>)WtqX&ebJtN_>3b$8p*}UJ7iVx{q zp!N!xEK4_jl7;P2P1$^fAC468|6si3OBQ&yhEp`sPlTTykpA}N<6nyA z5t7fA;*AOz2+eNT{Q>HXqcJ&Xzv&&P6`IbhjTS+f`_(PZ3nn z+ZbMd=~F(Y9IT|bP|-&n{h{XfM*C6#27r&NG=@DxPCS*JBK0_J)=!?*F?GBEMaJ%~ zmp|K=Kj5u!;fn7SLO_jRGHc=fu%WiC@qbYZ8h_8c9Gt~jtt~knL|M6D-;WP6D;*qSIex{otPA>80@B|f^0p_w357XEt_HB`;JVkL_ zhe_if-7J3m&VDgW&_>F&6P}Gwii+Yp1#VUpweeEJBLv~w4cSif{Ql+`HRa#x=$D(F zLplCevDK|1{mfA&OGaZzlM`*-0cZBWLU3G0E9Q}j`dcJH3Cy1d)h*}fI;|{QMqn`i zMnNQ2Tt3q6FTu3ovx2zav(_o8m9VLpn&#G{G8{>pcJjtJrx&feZ2wB;m_9|7KGcf` zmA$1LaX#iSd9{$Zw96)CzW~26Ji2+l--(QoQ^Xz_8838WULhgaI8z4Gz}U3O=&d9{ zmEc_(PSKn8N0k>7UYVdA{OtsBcTa&0qU8=iHNDHNY+y#`NFpFV#iGQNJYlnju|uQk z%2+vs2b&642k90V@7LVOlT#c^fBh3(tRW?lO?ezguTHi(y0Ax-U_Q5-bYfLC=g*{G zL;79*R0(}hTp53{=VuT1JY$N7eLhd=>;a;~qMAlh7AqZgh4m%-qg_0;-2LK4)txoo zcmwI&G_cjMmE$yQN4sbE51dif`7|`}FZral5R!bEdX759Kdby}2^D2pjz4zxfv>mG#SVc&G327wlAs6&9UsD>81+6jkFF#JWAK|Hhj?m- z81v`QboU_tJEqY`%@4gJU;{K33ErVf3Cb8a+#ud*_SJ!;^IVL|>aaKD=M%u(h+=CT z5Qn=44TAYa;MGsoQ`hf>;_qub!!v-Zq+J&RFr>6bhjK( ze~nz83%+l<@e`aChPP4?y58|Xb`H|aHj5IXQg^X;L&WS)pwMn}!Smqv{ecixMKXyc z%+QSm6!@*sugY0BzMZb$V{rIm(8)WCn<;XLE#dw430%dME9y0)+ol`5DD{=nvp;>L zC;kvfW^P)ouF37OWuqFKA;Vv{;PV0jz1B%7TQC$^TcYO7_>*zys#W{mqAkucpK&Q& zcVhL))p33R1UWl@W_0dSdswKtwUz+hYEsNCL{hI zxi&CRO8y0na>m8AX5PD7GS2ns9kR5BrNBk!IXmIF@ddERNB5#3pD|!(R09>EjL6_= z4A{|XK`{j)Ce3% z+Tp(|pJa@YfxLgxxrR;6oHO*newGp|-Ug(_`%lO&4;MknyUSfQIJ)tDyS7s4&{wrZ zXz%>D1zSBoZr-__!vay|7N@AtSvvcO(JY#KynjFR;NLlptzScaAvbO2 zaIU_JXUTXD328c$TOGl$!GY&)O_`aI{dUCO@Q&10zJd{PSwRJ1)^Rfsy(*%s@Scnk zdGG*k*VBL^3_eJ|Cuef__C16>g1*>@xh4K{ zdwL@X>ge@YoF=qMireJ7{2-)92KD+Z_G9>&<_b{#Z_?*S&OEuX0E8B|8;EQ$WpCED zAxjW6tP)T$@P)It(p$OCPc_d|2)hMmIBq5|Fpo(ppm6R`IfU+Kshsd&M#KLr)k+e5 zYU5ubE`ImM|3`r}8w)m><))Zx6ZVj6YIjOF0hI%W>Y**VVnB)VX^yv&DILA|4fz94 zF`21e*YO2r*6E4>F{v7MerCDGn0l6fi>-pQfqD8e_T5E?FEtkZ)<41Sp1F~@&8c%X z&VA(|6lfYxM2VEtd$|TsF1g;l5|VzU*1*4)P3Oe1^LFK#h#*@o@((6Rl^VGegKL^& znTCiS&{tC%LK0QJvl!7{x&}f@2V>F+ z=AOOMo*HP@xc*hX^C?1|-w{9_^7!plj$=}26YrY0RA)^ZW!^ag*9@_VS=Vv;o#;nhgE+DzodSb> zh;_DS{@5i4{_yKkdNkpIK(OD&5$Eu&!i1GYgo&Se6n0q}fFFdIdD0(fr+e3HR(XR` zidC_ort?kt>_7Wx;5I6EUkttNZHkCH8g^uEt-E-ZR%`ChAXOC%E_IIf3_s&aP`Nc{ zw3+I?>6#z9gS$)~?XfNmj;c4swVh^~9ck!HStGUlZ< zIAeIOl5}U8P34kmbWISwhxLDq`^4B6G$f$TtFf4gvA?JLzKvTiZQB;;x}VEOTOuF3 zip!+nT?{Y;8ucD6wBj#bLaWGf&Y&oqBG>t{SRdV6zr{s(hfV{uDB+as&gRjMSg8AB zkMyJ6SnC9zEFWK1j)ojp!e8ApHgfvHJJ;wCgZsJ1il^-)q?B(OPsocJ!pogN0KL#{ zH$5n5pxx%^Lhgp+P+`op596|R*%_HLe&vFMgcrxEP5S=ja>f}!WA-Bbm^@iwLRZ76W2wd&Op#Q&5Ek%G#oRQ|? z0P2ET5(HX*{y4Gh3%6jR#b|wDGg1(}DnPRDoYmxie*BI%HyJ`JSey6C(79^g0lAao z`3ExJePZyt*CWvDQMGV`fIQ>)Ot+vZSu14L)NP-`ydB7=RlC%3ALvN5_GM=3qB^8e^0&s>+_QT)RmSST zpGG!&QFG{-g#p(_H9Bt09IEsU`p{V?on+`(0;o!-q~@pGrcVKoV5k0~>Sa}k7R67i-U4pr8K4=>(AUzmu6zdc3n>NkVYM;6Dt7xLNWEDjr11=)`! zp#4SmL`nh%IQ#O1Qn?R_q>H@)wqerEd*QnH$JbAvDe|!9b#o5wGs;$a}l+s)mQ~LS*$oFiq&!?8i{_ zvPQ$JZf0Rinsv^3@Sj8(kyEb|maqYTyR9&_iUYLXqLr6~AG8b_(RT zt0>Oy^Za90y~c5{b>&jlsYA04&#zklBD3Lw8^J68WB?`8GBUf<)Hs)=(l{ zG(}2a9=(p2v!hyyyy$coSO^KKC-vazSybO2#mit3Dtms}QgWJaO~&W;&w75@HNnqD z=vzl>CBVel9gh5&D?yQ%y%yH-)xwZdq$2IVGHd|_#A;0VZK%FZd6co8lFvz|2H~$i zbPQ^7m*!Scai{y-BdmgZQ9wy=i8)Pz0@vi?rK+D8Y>UtY2YxNTE(FoYjmujx2vH?& zjOE3DfA(nJ&~3Ng+4$=PohRH`N5`dzYr=#cQc$;f{=MFv(J88()B$@*+=S}vW*k~4 z*O6c_N?HAeIxE$-MNx3p&@`;bL~xa-+u`2*Jw55*#k-QmO?ljsteS6UkQ(y&XG}P{ zt5FwGFdkC_I>1D^TyQ9<@}2kSB#CNN$L3y9&-LbAollB=LH27oo@ti1(Mfw@+>e?O z1H#9HZ6?I3zvW%qx(r;~x;M;6m}nb2@=fpP;XB*3R*OJeY2~`V?C0M53KM+U0qW zYw1RD35f|=741X#|9o&hUFXsN_DbE^6_lSoESNDuBR$;NZK*@PShLyc_0}^?5t82( za#qwMTC+ubRLLhCpLn{pEIQDahmRj#=C>xVCU0X=Cz?C_c-Uwe@i8!dLEKS;#x*O| z5>=PVsl33>n3cq)4o2?gAg@wfSiR^3)%g{E1Xy?8ouPp)1^+CG#_; zBy)qE&J;8`*o|_;p-OeDW=zTIaW=~Tc{|OPt0fpffJ?iHF9&NUoF>ING6%Jg)JB!afK%rzGyf;O!c0$l9|ydze(Ak@IurV$ zWYB(*Y=v~8RV24;dh^fuRkxd$omg;@+KIUy@o*ycmE!qxXk ztSU)pqS{X zAclA-C6D(YlX(B_e^1bETTtOD2Ex?E{YTWat8>kz_-Nv$=Js1|jSg=#PCHhyu;=p6 zEt>?J4{{8+Bc#PO*}OiwVWMyu>FQVJZ4_EDcKjd@&lu|^m}uR_<86Dr zZ~~z*-0a#1`>PqdC$(ro*1pTIW=y8)D5}z{wwIo8f7V7$7~ALK!3#@4HTwQNT&n{1 zV<9QSj+Y_d$IqOEP>ie&bLD~9Px7*lsDrY6h_``IfdRnNjRZwn6iFA&790k&kw-67 z9jZE5b-8?||084aTZ*?YW#0tr^t*=a?9+%F-Z6wVobw zgy}s<-#Ws&1ch|K+Ki2VsRm^maXYev3L5PJnY!!Sz&=7qbfJGCJtbpy6KR{ecF7y{ zv0p6_1VHElOJdBpqT}G`L0)d{R^rKnJdxd){+K(Bp;9=d7m(zs7$Cz2Nny8pce11P;SPN0ljk#oK`X{~ zIrEO(JBVEa9~X89j+7*=tR({1R>U8gSKnL5Y7I!LmTp8dep&*G_sd2xG$oeKl4}Q6 zv}d*UrCnVo__wj{#l#E_z`sB|O&Wi_^^^2@$eTe33#ApJ$Pjiix;4i&Y0 zoF4tLt#?{LM%A|5hRj23ehR`0BW*U$%628yus`;IqrM)*F`3>xW^RjP@5>aJGofz4 z#(1;0ou(}Bc(gC~_f~!GXhW$Vjo>LhbABil4FcFEC??OYqY# z*V@tIZ+z~kR_}pW#lo3_(OF#`u#peyW2AKHl<)q`Mf{4iXmRTsKNHZ88Z`x_Oa`jk z#!|O!UTHW9)Zn_PUg)%rE{1nwFMn9|n%zn$EGV7Y{x#|+@yS8SA-(|yE^Sk+S`X@K z{G8q91)TJOR!I6Ni@4+7_LIatUNy_FQolI{fj-A81iuKq8%V1}F7WVY1Jp}lIXb=S z@hA}c3~aU&EY4toEh(^^l#PMV3uc1Xx5N8;3xSWd5Ptv2aiO+}nMlL+O%5^rDN|Xs$stG{xXOh|wf5#_DbBw7~1MOY)$W2>k zahZRYQ{Fn%S$Q*A0(1?Q`=#YWVb*8kt2n)oq6ZSf6`BtK$^ zUi?RLm`J*>JHUI`WSIU7O;kDZ*$5hGVHH+zXkGh{5(c-xi5?-JC3o}?!>P-5c828y zijU+3N_rlUCE&ZKoT;4^l5%B~$zRMG34$2;J@3#U^|#-wJpric68xsX#nLGAkK^#x z#$E`Ji+M3P{PzU+BS^t;R$R^U_*IWX^BjhU;r_58w_2~B%cNiWqYg4<1kNoaRCz+o zVbB4E&gi_@qzR3ErKw5xffty4HRY|IwH8_l*Aj90dT<4pE}&zUph;jpMdqg58rmqqfjnzrv_v>sov0cPmBItRhnH+IY8iSj^tK=H?D?rvfuerw@=lLk^4jP*jjgz$42{vx6hocmrz?KJo`IZ(6 z{XJa;AK_YVdfky}(!Xx6l}V-+$Mj7tg9lN3MCJ2q1RixrS{+>##41kB2lI|{j;el* z_GiAgtagjZf($_70-!8TKq<}Qv zf@hU1dgdca+*o1WEQ_;n@5tVN+IV_tB-}v@;3%@~OeuEL?ilC;s5taG( znMLF|ggfA2Ir*%d@!tEBGR$e#M3BZ&nY#27+KzEg);NN;1I=ywbHhX5VIN-bjR)8- z(EHyN1D{AFCeK;)2;c4lYRH^5^S`;BdraM`&BhJJto2k43V1?Lbq~Ij<8#RI;vUl1 zo1}q55OjYhXn^{7C} zz=RAdjFsnxf4@2r-6(BV?#Ra%tb5dex2}8V50gL>sroRI@S3j9&84F=va<(n<*hx0Z@vnOG3aZ8-0b&V7j4f^f-|F`1D1(F zub$5;2}3PQ;u^&c_&5BM*g*4)S)g1OOI3zJA;Rd}VC_Q30kPHx^$5d|$I!mmkm1xH z^~P&$hT{JS=`YuV0g}9qSYw)D`*49{F|j@b1d}!07c`}-Qkzqu=?JvWZ7KM@J+UHW zI!Pq}0nm3x7C+-GIUJJ^Cz-u2Jqpf1mJiou4G+_=4yka2h@Nkf^~D-T%?mmL-maIA zTbBO`YDD3KP`St-Qde)2cpZoNix&A=PO^!xuHTA@DA%_#{r zP4h)QILe?b%{F)*Y-|_AJ!Awt+abcOeXnAeqbkGn!!<49KGBTX#?ti9!8en_WNh@2 zzypYX@L8B4HU2dVhRG!@J=Y9`KJfLtsB91d-5(}K&1*XF1T$`CK*wUn5MSmIo-6R1 zB72A{5B96SbI~b}SG@RYSKu!xsJmxHEy&bXdt~MR8^@qRMYu#-XrfLMjZuo zxm4IOMkxsCH?%u6o6fRbcM4Zmv^V?ei$F_UHJmgqy{LxLkzBCGkq3Q3k{y;V> zr9&pIcsRvd<6DP1@h5TEFVnUHbzS9bL@O{6?arO^gEGSyy9K&TZ~F-?ZEjht-VDp- z-$i)tHxnOArx+%Jc9H{mduu+fr$>%=*Y?$Oz00SpL`;W3%ZTke8R;$cv}n_D>sObL!|n8(eauk1cK0Socc>QzrWJj z1joK%aHc-uOKf-!B4ymL_^Cwc#?8>BVtk5GafTv_~h*5T~5y(j{#Rd6eX4o(e?4^cOC+6%!0*7jd&rmo~;phme7HF)#B|2xElIK`F$-t z43zF6+0t@nv@wrdgfpfAjXt04gJcF;C>Q1n!2W6TvqY;|`eam?e!L_u<+?fke=@w|}-n0PQ#wdf}V za$)w*n1{oHrXN_{)+Vs3Wbl|ugU3caTs;l*Wt!7O$ zxFL^3sq}5~(>#kUpS}}12E>t4;MDAB}hAfL&kSjFa}2ME{$eE#X%`IEP~j$ zyS$DNPj9jHW5h!rNzddv%C45n?~=X(Nu8P>D!4CSg>}Zp!>Fjf#I*}fZ5M#kB~|bJ z$JfM6B)3AB1F21^j}!785_e?uMKvkcP;a<K&iPTK`q2_ zx$~S4`rP}ChM#n;>?(yX*yZ+opw2s*HSTe-O@&JgSfT2@7>wLQaNsV@SNslwbQ1y0 zi`TyIncZM_i7MZ)9`Uj&EXCvZu=v2>n+{08ePizgY5+yhZ9sln=09vtx>n&%CN}B* zQ;I&N$uf#c(!vv0`Y=R?u{+7}G~1RpT^ZUlaP~X{r5Z;muq}7DCcej1C<0Y(v$NYh zxzj)Xam91*l8Qg_c6PrtI$zV;jdKgd&I>fFq}Mh7TObY8o3g`d_w~^h=Cs{dH84}S z2n*hcp=p00=KoRq`9`0eQAmZYp%29z5jUh7xSP*C{p>()(PA9$8I1YC#(>EZsGg)d zQS1Rc*INWnRF~bcw1*IH`!}|SyA$Wp-4~6)+$4&2eWP43Zy{U|10!%CJ>!D>3ddMi zh(G|38j$o4WF}#bfw7CiUulGN=bTuuwws|EY;-#4Qs#NX>*_i3z5l2B$}T0naA0N>bW#8<@TlY((4NY3IQ+_5%J zQI`yS9(*HPW8+6GGM6nLGTl0lYvQ5z&U+Vam>CxMjr7gsM-LCs5iGoleXsVWm4k5_ z*hU1Y(ipt>=N(wyJEPj*qg!NEMK%Ur5TC+eTrL)IZS!bf@fj>}&iu5=?ra%>uM4u4 zSsQ@!30#K3I0es3KLmcrI;)lVcL#AR*ZTAkP+WuH6*)fj2{(%Mj-cJ;D!w(ru!Wm9 z)j!P)@13g(VuwsJ-jPMk0qALh7Gej;%m7phNS9Pyju{+Bqij4u+j<}Ww_7ZdJAHS> zc$+GzoDRF%5PSM9y)U5iDkcTGYGG*cY+zpyD{-Fpj>0W&h;a!XM<}^Y_u7il11=uJpjxM?4)|8sB){?s-g2getfw-zWjdr zQRwqZk0(?=;4%tLXF)vUR4$%}5@A=>eT zX_B1^>5>Cz?2D;pgU08-V4gol34hT8ykCY9%M9sYfHP3~M(Fh}IKu##JT?bsa{)$` zk5SJQc?g*e1Ke zze#8O!Ogh~9E(wcpuw(htRy1aG|eI1XKbLs!kLfukUJMp7O5dwu&7}h6pBAcp6XIJ zjj94hI6Z9j@eUL)9K~mQIKsxCnc)sH?b`ji!D9Fu0Fxn3^SQ|=)&#E5%YY-JIq*vg zlwiBHpUM3~{tkZGcr%?HNpatby3wl$WFLD2RBp*O_eJX7ToHf38O#kHv(BueIDW;Hq`!G77)27fszDPP5=3?thfFXXFW>>n)42i z(zZ(HXK9_RBV~%@QH?X4`2tJtbGJ9&6Lm>1GT+7W{N1FahnG+4#+?URO9Q{yNL@ z{Z7w;{vicuq(`x|bxKucd&~~|oX&O#9;=wOuG)|bO zZpnGhy}KO{xbF4^<%EMg+B=y}+POHLqfh_T+eD)5xCbk7y6j)=xH ze)@XjBSXfH`W9VW20#k_MVg}r^Zk32ot1K0bLga&)g96tfILmmf%%AGE*uVQDr+R^ zDl#TFrtS03rmTQBz9DusH617~WeNf6%@~fIYvDFvhaN0hK&T`n4~B|3KuB-}_dJ1@ zot*DxN7)iI*q*eeFP!mT2ajGs-KNcYoad8d^NCU`u;SO~vYtQduaD;UT81y}3Zkci z9EGJU)IB4>eS>h(*gwd$hCAD-|G}Nv|0Ya7YbM(cM>3xdGe5tWUijr<-xevNR(GVC z_m=3}K0#DNmA^oY>HK^ir?b&O=Kp`?N|@-r83o`y`efP=wUr1kXstpOM+dU4+;Jx+ z<(qc9BB?R7fT_PPzL8UJgZZWiSKKfkAP6u$1Fm17GE#8Y;BQF%!>#by+BT`hB-<6+;RDR-a%!>LJ2GLHytzgLihHm0 zHYn!%O?8gBaSJf-msA!{PguRi>E$KCC=1<#dfLi@ml7xM^q7X&QNXc(%YqeSIcT&# zN73Wex(H{gVQc9MvIddWP**=DYmKzrwVPhmpt>&QB@gVf%VYoC#v9!Ou$0uj6i~sR%mMr!cP} z)x!&L4##A%*!qnV)JWZe_d?VV{$4#WeCwxkr=o1&o<^tXzSm+3l!L}ws^K9u7oBXk z-V(tguE}x#()X*nY@hfW;^}lt?&jACv3Fip^;18Q>7^KFKP)5P^)Xvgj)%Cd4#cuy zeEdJ!vymx%P4_F{)c8Hpw@CV8t#Tg+$9FCTap?r#xVJOCpKt8RJ-YjKyeYT;dNx|4 zp7QhU0>dA}&9Ou<#4U-Rp@zy}^jT_DYr_)6nbi{YWzCAgV3KB z&p0U;p8=!`5X-v`-kFu`Z3ra2@)>Tp3S-5{5w1TU+H1saR;Q6By%tK1`Syx+UUJ!E zclMx;x{R=aSxdh?_+W^=-v$J-Jjx$|SBxqN2S(L=rvC5gqPkSP8Oy|QIn^LY;j>C0tMZpt3?%lBgxc43w=}3OIzk5qONtiQ2t2i0(L4xn^mN3DU_^yE z7;oC^po$%Zxe{FIwN9ikXEktD!vsxecdBl^ban!ov?%AU)!<%EdpPIteh^dsc2-S8 zKYtiiS&JE2{;Z#;tbVhbHG^#%d#I)r&9}kwH?1T#xLy3M8S+dB}TOciT3D zj=4hOrEGv|G<2tKSs~LWUfLP}poo%8n%<1;tp~ zwQ!w;K)ewKnaoCPq?P|SvZOjkUt;3@FZO3=Ueeg#vQrIrySCY@zVygED!g?;30zyn zu1YdtvBrox04z*X-b!pmG?)!bY6Mt|KV zq$`~YK_Jh!Bk^fGIiE;h$^nO`^6f;gCr zukeXP;ts&E&}uNuruMOwD|#7R0&@>VG2kFT&Eav<1X(DMfo}Q1ol88+<#5S9%1e