package jalview.datamodel.xdb.embl;
import static org.testng.AssertJUnit.assertEquals;
+import static org.testng.AssertJUnit.assertNull;
import static org.testng.AssertJUnit.assertSame;
import jalview.analysis.SequenceIdMatcher;
import jalview.datamodel.DBRefEntry;
-import jalview.datamodel.Sequence;
+import jalview.datamodel.DBRefSource;
import jalview.datamodel.SequenceI;
+import jalview.util.MapList;
import java.util.ArrayList;
import java.util.Arrays;
EmblEntry testee = new EmblEntry();
/*
- * Make a (CDS) Feature with 4 locations
+ * Make a (CDS) Feature with 5 locations
*/
EmblFeature cds = new EmblFeature();
cds.setLocation("join(10..20,complement(30..40),50..60,70..80,complement(110..120))");
public void testParseCodingFeature()
{
// not the whole sequence but enough for this test...
- SequenceI dna = new Sequence("J03321", "GGATCCGTAAGTTAGACGAAATT");
List<SequenceI> peptides = new ArrayList<SequenceI>();
SequenceIdMatcher matcher = new SequenceIdMatcher(peptides);
EmblFile ef = EmblTestHelper.getEmblFile();
+ assertEquals(1, ef.getEntries().size());
+ EmblEntry testee = ef.getEntries().get(0);
+ String sourceDb = "EMBL";
+ SequenceI dna = testee.makeSequence(sourceDb);
/*
- * parse two CDS features, one with two Uniprot cross-refs,
- * the other with one
+ * parse three CDS features, with two/one/no Uniprot cross-refs
*/
- EmblEntry testee = new EmblEntry();
for (EmblFeature feature : ef.getEntries().get(0).getFeatures())
{
if ("CDS".equals(feature.getName()))
{
- testee.parseCodingFeature(feature, "EMBL", dna, peptides, matcher);
+ testee.parseCodingFeature(feature, sourceDb, dna, peptides, matcher);
}
}
/*
* peptides should now have five entries:
* EMBL product and two Uniprot accessions for the first CDS / translation
- * EMBL product and one Uniprot accession for the second CDS / translation
+ * EMBL product and one Uniprot accession for the second CDS / "
+ * EMBL product only for the third
*/
- assertEquals(5, peptides.size());
+ assertEquals(6, peptides.size());
assertEquals("CAA30420.1", peptides.get(0).getName());
assertEquals("MLCF", peptides.get(0).getSequenceAsString());
assertEquals("UNIPROT|B0BCM4", peptides.get(1).getName());
assertEquals("MSSS", peptides.get(3).getSequenceAsString());
assertEquals("UNIPROT|B0BCM3", peptides.get(4).getName());
assertEquals("MSSS", peptides.get(4).getSequenceAsString());
+ assertEquals("CAA12345.6", peptides.get(5).getName());
+ assertEquals("MSS", peptides.get(5).getSequenceAsString());
/*
- * verify dna sequence has dbrefs with mappings to the peptide 'products'
+ * verify dna sequence has dbrefs with CDS mappings to the peptide 'products'
*/
+ MapList cds1Map = new MapList(new int[] { 57, 46 }, new int[] { 1, 4 },
+ 3, 1);
+ MapList cds2Map = new MapList(new int[] { 4, 15 }, new int[] { 1, 4 },
+ 3, 1);
+ MapList cds3Map = new MapList(new int[] { 4, 6, 10, 15 }, new int[] {
+ 1, 3 }, 3, 1);
DBRefEntry[] dbrefs = dna.getDBRefs();
- assertEquals(3, dbrefs.length);
+ assertEquals(4, dbrefs.length);
DBRefEntry dbRefEntry = dbrefs[0];
assertEquals("UNIPROT", dbRefEntry.getSource());
assertEquals("B0BCM4", dbRefEntry.getAccessionId());
assertSame(peptides.get(1), dbRefEntry.getMap().getTo());
- List<int[]> fromRanges = dbRefEntry.getMap().getMap().getFromRanges();
- assertEquals(1, fromRanges.size());
- assertEquals(57, fromRanges.get(0)[0]);
- assertEquals(46, fromRanges.get(0)[1]);
- List<int[]> toRanges = dbRefEntry.getMap().getMap().getToRanges();
- assertEquals(1, toRanges.size());
- assertEquals(1, toRanges.get(0)[0]);
- assertEquals(4, toRanges.get(0)[1]);
+ assertEquals(cds1Map, dbRefEntry.getMap().getMap());
dbRefEntry = dbrefs[1];
assertEquals("UNIPROT", dbRefEntry.getSource());
assertEquals("P0CE20", dbRefEntry.getAccessionId());
assertSame(peptides.get(2), dbRefEntry.getMap().getTo());
- fromRanges = dbRefEntry.getMap().getMap().getFromRanges();
- assertEquals(1, fromRanges.size());
- assertEquals(57, fromRanges.get(0)[0]);
- assertEquals(46, fromRanges.get(0)[1]);
- toRanges = dbRefEntry.getMap().getMap().getToRanges();
- assertEquals(1, toRanges.size());
- assertEquals(1, toRanges.get(0)[0]);
- assertEquals(4, toRanges.get(0)[1]);
+ assertEquals(cds1Map, dbRefEntry.getMap().getMap());
dbRefEntry = dbrefs[2];
assertEquals("UNIPROT", dbRefEntry.getSource());
assertEquals("B0BCM3", dbRefEntry.getAccessionId());
assertSame(peptides.get(4), dbRefEntry.getMap().getTo());
- fromRanges = dbRefEntry.getMap().getMap().getFromRanges();
- assertEquals(1, fromRanges.size());
- assertEquals(4, fromRanges.get(0)[0]);
- assertEquals(15, fromRanges.get(0)[1]);
- toRanges = dbRefEntry.getMap().getMap().getToRanges();
- assertEquals(1, toRanges.size());
- assertEquals(1, toRanges.get(0)[0]);
- assertEquals(4, toRanges.get(0)[1]);
+ assertEquals(cds2Map, dbRefEntry.getMap().getMap());
+
+ dbRefEntry = dbrefs[3];
+ assertEquals("EMBLCDSPROTEIN", dbRefEntry.getSource());
+ assertEquals("CAA12345.6", dbRefEntry.getAccessionId());
+ assertSame(peptides.get(5), dbRefEntry.getMap().getTo());
+ assertEquals(cds3Map, dbRefEntry.getMap().getMap());
+
+ /*
+ * verify peptides have dbrefs
+ * - to EMBL sequence (with inverse 1:3 cds mapping)
+ * - to EMBLCDS (with 1:3 mapping)
+ * - direct (no mapping) to other protein accessions
+ */
+ MapList proteinToCdsMap1 = new MapList(new int[] { 1, 4 }, new int[] {
+ 1, 12 }, 1, 3);
+ MapList proteinToCdsMap2 = new MapList(new int[] { 1, 3 }, new int[] {
+ 1, 9 }, 1, 3);
+
+ // dbrefs for first CDS EMBL product CAA30420.1
+ dbrefs = peptides.get(0).getDBRefs();
+ assertEquals(5, dbrefs.length);
+ assertEquals(DBRefSource.EMBL, dbrefs[0].getSource());
+ assertEquals("CAA30420.1", dbrefs[0].getAccessionId());
+ assertEquals(cds1Map.getInverse(), dbrefs[0].getMap().getMap());
+ assertEquals(DBRefSource.EMBLCDS, dbrefs[1].getSource());
+ assertEquals("CAA30420.1", dbrefs[1].getAccessionId());
+ assertEquals(proteinToCdsMap1, dbrefs[1].getMap().getMap());
+ assertEquals(DBRefSource.EMBLCDSProduct, dbrefs[2].getSource());
+ assertEquals("CAA30420.1", dbrefs[2].getAccessionId());
+ assertNull(dbrefs[2].getMap());
+ assertEquals(new DBRefEntry(DBRefSource.UNIPROT, "2.1", "B0BCM4"),
+ dbrefs[3]);
+ assertNull(dbrefs[3].getMap());
+ assertEquals(new DBRefEntry(DBRefSource.UNIPROT, "0", "P0CE20"),
+ dbrefs[4]);
+ assertNull(dbrefs[4].getMap());
+
+ // dbrefs for first CDS first Uniprot xref
+ dbrefs = peptides.get(1).getDBRefs();
+ assertEquals(2, dbrefs.length);
+ assertEquals(new DBRefEntry(DBRefSource.UNIPROT, "2.1", "B0BCM4"),
+ dbrefs[0]);
+ assertNull(dbrefs[0].getMap());
+ assertEquals(DBRefSource.EMBL, dbrefs[1].getSource());
+ assertEquals("X07547", dbrefs[1].getAccessionId());
+ assertEquals(cds1Map.getInverse(), dbrefs[1].getMap().getMap());
+
+ // dbrefs for first CDS second Uniprot xref
+ dbrefs = peptides.get(2).getDBRefs();
+ assertEquals(2, dbrefs.length);
+ assertEquals(new DBRefEntry(DBRefSource.UNIPROT, "0", "P0CE20"),
+ dbrefs[0]);
+ assertNull(dbrefs[0].getMap());
+ assertEquals(DBRefSource.EMBL, dbrefs[1].getSource());
+ assertEquals("X07547", dbrefs[1].getAccessionId());
+ assertEquals(cds1Map.getInverse(), dbrefs[1].getMap().getMap());
+
+ // dbrefs for second CDS EMBL product CAA30421.1
+ dbrefs = peptides.get(3).getDBRefs();
+ assertEquals(4, dbrefs.length);
+ assertEquals(DBRefSource.EMBL, dbrefs[0].getSource());
+ assertEquals("CAA30421.1", dbrefs[0].getAccessionId());
+ assertEquals(cds2Map.getInverse(), dbrefs[0].getMap().getMap());
+ assertEquals(DBRefSource.EMBLCDS, dbrefs[1].getSource());
+ assertEquals("CAA30421.1", dbrefs[1].getAccessionId());
+ assertEquals(proteinToCdsMap1, dbrefs[1].getMap().getMap());
+ assertEquals(DBRefSource.EMBLCDSProduct, dbrefs[2].getSource());
+ assertEquals("CAA30421.1", dbrefs[2].getAccessionId());
+ assertNull(dbrefs[2].getMap());
+ assertEquals(new DBRefEntry(DBRefSource.UNIPROT, "0", "B0BCM3"),
+ dbrefs[3]);
+ assertNull(dbrefs[3].getMap());
+
+ // dbrefs for second CDS second Uniprot xref
+ dbrefs = peptides.get(4).getDBRefs();
+ assertEquals(2, dbrefs.length);
+ assertEquals(new DBRefEntry(DBRefSource.UNIPROT, "0", "B0BCM3"),
+ dbrefs[0]);
+ assertNull(dbrefs[0].getMap());
+ assertEquals(DBRefSource.EMBL, dbrefs[1].getSource());
+ assertEquals("X07547", dbrefs[1].getAccessionId());
+ assertEquals(cds2Map.getInverse(), dbrefs[1].getMap().getMap());
+
+ // dbrefs for third CDS inferred EMBL product CAA12345.6
+ dbrefs = peptides.get(5).getDBRefs();
+ assertEquals(3, dbrefs.length);
+ assertEquals(DBRefSource.EMBL, dbrefs[0].getSource());
+ assertEquals("CAA12345.6", dbrefs[0].getAccessionId());
+ assertEquals(cds3Map.getInverse(), dbrefs[0].getMap().getMap());
+ assertEquals(DBRefSource.EMBLCDS, dbrefs[1].getSource());
+ assertEquals("CAA12345.6", dbrefs[1].getAccessionId());
+ assertEquals(proteinToCdsMap2, dbrefs[1].getMap().getMap());
+ assertEquals(DBRefSource.EMBLCDSProduct, dbrefs[2].getSource());
+ assertEquals("CAA12345.6", dbrefs[2].getAccessionId());
+ assertNull(dbrefs[2].getMap());
+ }
+
+ @Test(groups = "Functional")
+ public void testAdjustForProteinLength()
+ {
+ int[] exons = new int[] { 11, 15, 21, 25, 31, 38 }; // 18 bp
+
+ // exact length match:
+ assertSame(exons, EmblEntry.adjustForProteinLength(6, exons));
+
+ // match if we assume exons include stop codon not in protein:
+ assertSame(exons, EmblEntry.adjustForProteinLength(5, exons));
+
+ // truncate last exon by 6bp
+ int[] truncated = EmblEntry.adjustForProteinLength(4, exons);
+ assertEquals("[11, 15, 21, 25, 31, 32]",
+ Arrays.toString(truncated));
+
+ // remove last exon and truncate preceding by 1bp
+ truncated = EmblEntry.adjustForProteinLength(3, exons);
+ assertEquals("[11, 15, 21, 24]", Arrays.toString(truncated));
+
+ // exact removal of exon case:
+ exons = new int[] { 11, 15, 21, 27, 33, 38 }; // 18 bp
+ truncated = EmblEntry.adjustForProteinLength(4, exons);
+ assertEquals("[11, 15, 21, 27]", Arrays.toString(truncated));
+
+ // what if exons are too short for protein?
+ truncated = EmblEntry.adjustForProteinLength(7, exons);
+ assertSame(exons, truncated);
}
}