@Test
public final void testNormalize2() {
Model model = BioPAXLevel.L3.getDefaultFactory().createModel();
Xref ref = model.addNew(UnificationXref.class, "Xref1");
ref.setDb("uniprotkb"); // will be converted to 'uniprot'
ref.setId("Q0VCL1");
Xref uniprotX = ref;
ProteinReference pr = model.addNew(ProteinReference.class, "ProteinReference");
pr.setDisplayName("ProteinReference");
pr.addXref(uniprotX);
ref = model.addNew(RelationshipXref.class, "Xref2");
ref.setDb("refseq");
ref.setId("NP_001734");
pr.addXref(ref);
// normalizer won't merge diff. types of xref with the same db:id
ref = model.addNew(PublicationXref.class, "Xref3");
ref.setDb("pubmed");
ref.setId("2549346"); // the same id
pr.addXref(ref);
ref = model.addNew(RelationshipXref.class, "Xref4");
ref.setDb("pubmed");
ref.setId("2549346"); // the same id
pr.addXref(ref);
Normalizer normalizer = new Normalizer();
normalizer.normalize(model);
ProteinReference e = (ProteinReference) model.getByID("http://identifiers.org/uniprot/Q0VCL1");
assertNotNull(e);
assertEquals(4, e.getXref().size());
// print(e, model);
}
private void print(XReferrable xr, Model m) {
System.out.println();
System.out.println(
"model="
+ m.contains(xr)
+ ":\t"
+ xr.getUri()
+ " is "
+ xr.getModelInterface().getSimpleName()
+ " and has xrefs: ");
for (Xref x : xr.getXref()) {
System.out.println(
"model="
+ m.contains(x)
+ ":\t"
+ " "
+ x
+ " is "
+ x.getModelInterface().getSimpleName()
+ " - "
+ x.getUri()
+ ", db="
+ x.getDb()
+ ", id="
+ x.getId()
+ ", idVer="
+ x.getIdVersion());
for (XReferrable rx : x.getXrefOf()) {
System.out.println("model=" + m.contains(rx) + ":\t" + " xrefOf: " + rx);
}
}
}
@Test
public final void testNormalize3() {
Model model = BioPAXLevel.L3.getDefaultFactory().createModel();
Xref ref = model.addNew(UnificationXref.class, "Xref1");
ref.setDb("uniprotkb"); // will be converted to 'uniprot'
ref.setId("Q0VCL1");
ProteinReference pr = model.addNew(ProteinReference.class, "ProteinReference1");
pr.setDisplayName("A ProteinReference");
pr.addXref(ref);
assertEquals(1, ref.getXrefOf().size());
// System.out.println("Before the model is normalized - ");
// print(pr, model);
// go normalize!
Normalizer normalizer = new Normalizer();
normalizer.normalize(model);
// System.out.println("After the model is normalized - ");
// print(pr, model);
assertFalse(model.contains(pr)); // replaced by new norm. PR in the model
assertFalse(model.contains(ref)); // replaced by new norm. xref in the model
// now xrefOf is consistent with xref for all objects inn the model (since after some paxtools
// 4.1.3 snapshot)
assertEquals(0, pr.getXref().size()); // old PR has xref removed!
assertEquals(
0, ref.getXrefOf().size()); // because the old xref was replaced in all parent elements!
ProteinReference e = (ProteinReference) model.getByID("http://identifiers.org/uniprot/Q0VCL1");
assertNotNull(e);
assertEquals(1, e.getXref().size());
String normUri = Normalizer.uri(model.getXmlBase(), "UNIPROT", "Q0VCL1", UnificationXref.class);
ref = (UnificationXref) model.getByID(normUri);
assertNotNull(ref);
assertEquals(1, ref.getXrefOf().size());
// print(e, model);
}
@Test
public final void testNormalize() throws UnsupportedEncodingException {
// Note: a UniProt AC version (e.g. P68250.1 .. P68250.94) is not the same thing as isoform ID!
Model model = BioPAXLevel.L3.getDefaultFactory().createModel();
Xref ref = model.addNew(UnificationXref.class, "Xref1");
ref.setDb("uniprotkb");
ref.setId("P68250");
ProteinReference pr = model.addNew(ProteinReference.class, "ProteinReference1");
pr.setDisplayName("ProteinReference1");
pr.addXref(ref);
ref = model.addNew(RelationshipXref.class, "Xref2");
ref.setDb("refseq");
ref.setId("NP_001734");
ref.setIdVersion(
"1"); // this xref won't be removed by norm. (version matters in xrefs comparing!)
pr.addXref(ref);
ref = model.addNew(UnificationXref.class, "Xref3");
ref.setDb("uniprotkb"); // will be converted to 'uniprot knowledgebase'
/* The following ID is the secondary accession of P68250,
* but Normalizer won't complain (it's Validator's and - later - Merger's job)!
* However, if it were P68250, the normalize(model) would throw exception
* (because ProteinReference1 becomes ProteinReference2, both get RDFId= urn:miriam:uniprot:P68250!)
*/
ref.setId("Q0VCL1");
Xref uniprotX = ref;
pr = model.addNew(ProteinReference.class, "ProteinReference2");
pr.setDisplayName("ProteinReference2");
pr.addXref(uniprotX);
ref = model.addNew(RelationshipXref.class, "Xref4");
ref.setDb("refseq");
ref.setId("NP_001734");
pr.addXref(ref);
// this ER is duplicate (same uniprot xref as ProteinReference2's) and must be removed by
// normalizer
pr = model.addNew(ProteinReference.class, "ProteinReference3");
pr.setDisplayName("ProteinReference3");
pr.addXref(uniprotX);
ref = model.addNew(RelationshipXref.class, "Xref5");
ref.setDb("refseq");
ref.setId("NP_001734");
pr.addXref(ref);
// normalizer won't merge diff. types of xref with the same db:id
ref = model.addNew(PublicationXref.class, "Xref6");
ref.setDb("pubmed");
ref.setId("2549346"); // the same id
pr.addXref(ref);
ref = model.addNew(RelationshipXref.class, "Xref7");
ref.setDb("pubmed");
ref.setId("2549346"); // the same id
pr.addXref(ref);
// add biosource
ref = model.addNew(UnificationXref.class, "Xref8");
ref.setDb("taxonomy");
ref.setId("10090"); // the same id
BioSource bioSource = model.addNew(BioSource.class, "BioSource_Mouse_Tissue");
bioSource.addXref((UnificationXref) ref);
// Provenance (must set ID and standard names from a name)
Provenance pro1 = model.addNew(Provenance.class, "pid");
pro1.addName("nci_nature"); // must be case insensitive (recognized)
pro1.setStandardName("foo"); // must be replaced
// Provenance (must create names from urn)
Provenance pro2 = model.addNew(Provenance.class, "http://identifiers.org/signaling-gateway/");
// add some entities with props
Pathway pw1 = model.addNew(Pathway.class, "pathway");
pw1.addDataSource(pro1);
pw1.setStandardName("Pathway");
Pathway pw2 = model.addNew(Pathway.class, "sub_pathway");
pw2.setStandardName("Sub-Pathway");
pw2.addDataSource(pro2);
pw1.addPathwayComponent(pw2);
// add data to test uniprot isoform xref and PR normalization
ref = model.addNew(UnificationXref.class, "Xref9");
ref.setDb("UniProt"); // normalizer will change it to "uniprot isoform"
ref.setId("P68250-2");
pr = model.addNew(ProteinReference.class, "ProteinReference4");
pr.setDisplayName("ProteinReference1isoformA");
pr.addXref(ref);
// next ones are to test normalizer can auto-fix 'uniprot' to 'uniprot isoform' xref,
// and also merge xrefs #9,#10 and PRs #4,#5 into one PR with one xref
// below, uniprot xref's idVersion='2' will be moved back to the id value, and db set to
// "UniProt Isoform" -
ref = model.addNew(UnificationXref.class, "Xref10");
ref.setDb(
"UniProtKb"); // NOT to be replaced with "UniProt Isoform" (version and isoform # are not
// the same thing)
ref.setId("P68250");
ref.setIdVersion("2"); // may be lost after merging with two other P68250 xrefs
// (version is not the same as isoform, unless db name is 'uniprot isoform')
pr = model.addNew(ProteinReference.class, "ProteinReference5");
pr.setDisplayName("ProteinReference1isoformB");
pr.addXref(ref);
// Following three Xrefs and PRs will be normalized to uniprot.isoform:P68250-1 and merged into
// one
ref = model.addNew(UnificationXref.class, "Xref11");
ref.setDb("UniProtKb"); // will be replaced with "uniprot isoform"
ref.setId("P68250-1");
pr = model.addNew(ProteinReference.class, "ProteinReference6");
pr.addXref(ref);
ref = model.addNew(UnificationXref.class, "Xref12");
ref.setDb("UniProt Isoform"); // because this is standard (isoform) db name (special case) ->
ref.setId("P68250"); // - this id will set to "P68250-1",
ref.setIdVersion("1"); // - and idVersion will be cleared!
pr = model.addNew(ProteinReference.class, "ProteinReference7");
pr.addXref(ref);
ref = model.addNew(UnificationXref.class, "Xref13");
ref.setDb("UniProt Isoform");
ref.setId("P68250-1");
pr = model.addNew(ProteinReference.class, "ProteinReference8");
pr.addXref(ref);
// special dangling UXs to test/catch a weird bug that accidentally makes db='uniprot
// isoform'...
UnificationXref ux = model.addNew(UnificationXref.class, "UniprotUX1");
ux.setDb("uniprot");
ux.setId("W0C7J9");
ux = model.addNew(UnificationXref.class, "UniprotUX2");
ux.setDb("uniprot");
ux.setId("W0C7J9.1"); // NOT to be changed to 'uniprot isoform'
ux = model.addNew(UnificationXref.class, "UniprotUX3");
ux.setDb("uniprot");
ux.setId("W0C7J9"); // NOT to be changed to 'uniprot isoform'
ux.setIdVersion("1");
ux = model.addNew(UnificationXref.class, "UniprotUX4");
ux.setDb("uniprot"); // will be changed to 'uniprot isoform'
ux.setId("W0C7J9-1");
ux = model.addNew(UnificationXref.class, "UniprotUX5");
ux.setDb("uniprot"); // will be changed to 'uniprot isoform'
ux.setId("P68250-3");
// go normalize!
Normalizer normalizer = new Normalizer();
normalizer.normalize(model);
// //tmp test print
// ByteArrayOutputStream out = new ByteArrayOutputStream();
// simpleIO.convertToOWL(model, out);
// System.out.println(out.toString());
// test for a bug that causes db='uniprot' become 'uniprot isoform' (the id matches both
// patterns)
assertTrue(model.containsID("UnificationXref_uniprot_knowledgebase_W0C7J9"));
assertFalse(model.containsID("UnificationXref_uniprot_isoform_W0C7J9"));
assertTrue(model.containsID("UnificationXref_uniprot_knowledgebase_W0C7J9_1"));
assertTrue(model.containsID("UnificationXref_uniprot_isoform_W0C7J9-1"));
assertTrue(model.containsID("UnificationXref_uniprot_isoform_P68250-3"));
assertTrue(model.containsID("UnificationXref_uniprot_knowledgebase_W0C7J9"));
// check Xref
String normUri = Normalizer.uri(model.getXmlBase(), "uniprot", "P68250", UnificationXref.class);
BioPAXElement bpe = model.getByID(normUri);
assertTrue(bpe instanceof UnificationXref);
// check PR
bpe = model.getByID("http://identifiers.org/uniprot/Q0VCL1");
assertTrue(bpe instanceof ProteinReference);
assertTrue(
model.containsID(
"Xref7")); // RX is not normalized unless (by mistake) it has identifiers.org uri
// test BioSource
assertFalse(model.containsID("BioSource_Mouse_Tissue"));
bpe =
model.getByID(
Normalizer.uri(
model.getXmlBase(),
"taxonomy",
"10090",
BioSource.class)); // "taxonomy" - capitalization can be any
assertTrue(bpe instanceof BioSource);
normUri = Normalizer.uri(model.getXmlBase(), "taxonomy", "10090", UnificationXref.class);
bpe = model.getByID(normUri);
assertTrue(bpe instanceof UnificationXref);
// test that one of each pair ProteinReference, 2nd,3rd and 4th,5th is removed/merged:
assertEquals(4, model.getObjects(ProteinReference.class).size());
// Provenance is no more normalized (Miriam is not enough for this task)!
assertEquals(2, model.getObjects(Provenance.class).size());
// dataSource property is not inferred/inherited from pw1 anymore (prop. inference feature was
// removed)
pw2 = (Pathway) model.getByID("sub_pathway");
assertEquals(1, pw2.getDataSource().size());
pw1 = (Pathway) model.getByID("pathway");
assertEquals(1, pw1.getDataSource().size());
// test uniprot isoform xrefs are detected and normalized the same way
// get the expected xref URI first
normUri =
Normalizer.uri(model.getXmlBase(), "uniprot isoform", "P68250-2", UnificationXref.class);
bpe = model.getByID(normUri);
assertNotNull(bpe);
assertEquals(1, ((Xref) bpe).getXrefOf().size());
}