test/jalview/fts/threedbeacons/p01308_pdbfts_query_pt1_resp.txt

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   6       "q":"(5e7w OR 1t1k OR 4xc4 OR 6jr3 OR 1trz OR 2qiu OR 1g7b OR 1g7a OR 4cxl OR 3p2x OR 4cxn OR 7md4 OR 1znj OR 7md5) AND molecule_sequence:['' TO *] AND status:REL",
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  12   "response":{"numFound":32,"start":0,"docs":[
  13       {
  14         "experimental_method":["Solution NMR"],
  15         "pdb_id":"1t1k",
  16         "title":"NMR STRUCTURE OF HUMAN INSULIN MUTANT HIS-B10-ASP, VAL-B12-ALA, PRO-B28-LYS, LYS-B29-PRO, 15 STRUCTURES"},
  17       {
  18         "experimental_method":["Solution NMR"],
  19         "pdb_id":"1t1k",
  20         "title":"NMR STRUCTURE OF HUMAN INSULIN MUTANT HIS-B10-ASP, VAL-B12-ALA, PRO-B28-LYS, LYS-B29-PRO, 15 STRUCTURES"},
  21       {
  22         "experimental_method":["X-ray diffraction"],
  23         "pdb_id":"2qiu",
  24         "resolution":2.0,
  25         "title":"Structure of Human Arg-Insulin"},
  26       {
  27         "experimental_method":["Electron Microscopy"],
  28         "pdb_id":"6jr3",
  29         "resolution":14.5,
  30         "title":"Crystal structure of insulin hexamer fitted into cryo EM density map where each dimer was kept as rigid body"},
  31       {
  32         "experimental_method":["X-ray diffraction"],
  33         "pdb_id":"2qiu",
  34         "resolution":2.0,
  35         "title":"Structure of Human Arg-Insulin"},
  36       {
  37         "experimental_method":["Electron Microscopy"],
  38         "pdb_id":"6jr3",
  39         "resolution":14.5,
  40         "title":"Crystal structure of insulin hexamer fitted into cryo EM density map where each dimer was kept as rigid body"},
  41       {
  42         "experimental_method":["X-ray diffraction"],
  43         "pdb_id":"4cxn",
  44         "resolution":1.7,
  45         "title":"Crystal structure of human insulin analogue (NMe-AlaB8)-insulin crystal form I"},
  46       {
  47         "experimental_method":["X-ray diffraction"],
  48         "pdb_id":"4cxn",
  49         "resolution":1.7,
  50         "title":"Crystal structure of human insulin analogue (NMe-AlaB8)-insulin crystal form I"},
  51       {
  52         "experimental_method":["X-ray diffraction"],
  53         "pdb_id":"4cxl",
  54         "resolution":1.5,
  55         "title":"Human insulin analogue (D-ProB8)-insulin"},
  56       {
  57         "experimental_method":["X-ray diffraction"],
  58         "pdb_id":"4cxl",
  59         "resolution":1.5,
  60         "title":"Human insulin analogue (D-ProB8)-insulin"},
  61       {
  62         "experimental_method":["X-ray diffraction"],
  63         "pdb_id":"1trz",
  64         "resolution":1.6,
  65         "title":"CRYSTALLOGRAPHIC EVIDENCE FOR DUAL COORDINATION AROUND ZINC IN THE T3R3 HUMAN INSULIN HEXAMER"},
  66       {
  67         "experimental_method":["X-ray diffraction"],
  68         "pdb_id":"1trz",
  69         "resolution":1.6,
  70         "title":"CRYSTALLOGRAPHIC EVIDENCE FOR DUAL COORDINATION AROUND ZINC IN THE T3R3 HUMAN INSULIN HEXAMER"},
  71       {
  72         "experimental_method":["X-ray diffraction"],
  73         "pdb_id":"1znj",
  74         "resolution":2.0,
  75         "title":"INSULIN, MONOCLINIC CRYSTAL FORM"},
  76       {
  77         "experimental_method":["X-ray diffraction"],
  78         "pdb_id":"1znj",
  79         "resolution":2.0,
  80         "title":"INSULIN, MONOCLINIC CRYSTAL FORM"},
  81       {
  82         "experimental_method":["X-ray diffraction"],
  83         "pdb_id":"1g7b",
  84         "resolution":1.3,
  85         "title":"1.3 A STRUCTURE OF T3R3 HUMAN INSULIN AT 100 K"},
  86       {
  87         "experimental_method":["X-ray diffraction"],
  88         "pdb_id":"1g7b",
  89         "resolution":1.3,
  90         "title":"1.3 A STRUCTURE OF T3R3 HUMAN INSULIN AT 100 K"},
  91       {
  92         "experimental_method":["X-ray diffraction"],
  93         "pdb_id":"1g7a",
  94         "resolution":1.2,
  95         "title":"1.2 A structure of T3R3 human insulin at 100 K"},
  96       {
  97         "experimental_method":["X-ray diffraction"],
  98         "pdb_id":"1g7a",
  99         "resolution":1.2,
 100         "title":"1.2 A structure of T3R3 human insulin at 100 K"},
 101       {
 102         "experimental_method":["X-ray diffraction"],
 103         "pdb_id":"4xc4",
 104         "resolution":1.499,
 105         "title":"Insulin co-crystallizes in the presence of it beta-cell chaperone sulfatide"},
 106       {
 107         "experimental_method":["X-ray diffraction"],
 108         "pdb_id":"4xc4",
 109         "resolution":1.499,
 110         "title":"Insulin co-crystallizes in the presence of it beta-cell chaperone sulfatide"},
 111       {
 112         "experimental_method":["X-ray diffraction"],
 113         "pdb_id":"3p2x",
 114         "resolution":2.0,
 115         "title":"Insulin fibrillation is the Janus face of induced fit. A chiaral clamp stabilizes the native state at the expense of activity"},
 116       {
 117         "experimental_method":["X-ray diffraction"],
 118         "pdb_id":"3p2x",
 119         "resolution":2.0,
 120         "title":"Insulin fibrillation is the Janus face of induced fit. A chiaral clamp stabilizes the native state at the expense of activity"},
 121       {
 122         "experimental_method":["Electron Microscopy"],
 123         "pdb_id":"7md4",
 124         "resolution":4.5,
 125         "title":"Insulin receptor ectodomain dimer complexed with two IRPA-3 partial agonists"},
 126       {
 127         "experimental_method":["Electron Microscopy"],
 128         "pdb_id":"7md4",
 129         "resolution":4.5,
 130         "title":"Insulin receptor ectodomain dimer complexed with two IRPA-3 partial agonists"},
 131       {
 132         "experimental_method":["Electron Microscopy"],
 133         "pdb_id":"7md4",
 134         "resolution":4.5,
 135         "title":"Insulin receptor ectodomain dimer complexed with two IRPA-3 partial agonists"},
 136       {
 137         "experimental_method":["Electron Microscopy"],
 138         "pdb_id":"7md4",
 139         "resolution":4.5,
 140         "title":"Insulin receptor ectodomain dimer complexed with two IRPA-3 partial agonists"},
 141       {
 142         "experimental_method":["Electron Microscopy"],
 143         "pdb_id":"7md5",
 144         "resolution":5.2,
 145         "title":"Insulin receptor ectodomain dimer complexed with two IRPA-9 partial agonists"},
 146       {
 147         "experimental_method":["Electron Microscopy"],
 148         "pdb_id":"7md5",
 149         "resolution":5.2,
 150         "title":"Insulin receptor ectodomain dimer complexed with two IRPA-9 partial agonists"},
 151       {
 152         "experimental_method":["Electron Microscopy"],
 153         "pdb_id":"7md5",
 154         "resolution":5.2,
 155         "title":"Insulin receptor ectodomain dimer complexed with two IRPA-9 partial agonists"},
 156       {
 157         "experimental_method":["X-ray diffraction"],
 158         "pdb_id":"5e7w",
 159         "resolution":0.9519,
 160         "title":"X-ray Structure of Human Recombinant 2Zn insulin at 0.92 Angstrom"},
 161       {
 162         "experimental_method":["X-ray diffraction"],
 163         "pdb_id":"5e7w",
 164         "resolution":0.9519,
 165         "title":"X-ray Structure of Human Recombinant 2Zn insulin at 0.92 Angstrom"},
 166       {
 167         "experimental_method":["Electron Microscopy"],
 168         "pdb_id":"7md5",
 169         "resolution":5.2,
 170         "title":"Insulin receptor ectodomain dimer complexed with two IRPA-9 partial agonists"}]
 171   }}