def test_complicated_site_actor(self): m = Modification(enzyme=SiteActor(protoform=Protoform( "P00519", sites=[Site(name="bob", start=120, end=150)], regions=[Region(name="alice", start=100, end=200)], residues=[Residue("Y", 122)]), site=Site(name="jack", start=550, end=600, residues=[Residue("T")]), region=Region( name="Pkinase", start=500, end=800, sites=[Site(name="billy")])), substrate=SiteActor(protoform=Protoform("P00533"), site=Site(name="target"), region=Region(name="bla")), target=Residue("Y", 100, State("phosphorylation", False)), value=True) corpus = KamiCorpus("test") corpus.add_interactions([m], anatomize=True) print_graph(corpus.get_nugget("test_nugget_1")) print(ag_to_edge_list(corpus))
def test_multiple_bnd_templates(self): dummy_partner = SiteActor( protoform=Protoform("C"), region=Region(name="C_RegionActor"), site=Site(name="C_SiteActor")) enzyme = SiteActor( protoform=Protoform("A", bound_to=[dummy_partner]), region=Region(name="A_RegionActor", bound_to=[dummy_partner]), site=Site(name="A_SiteActor", bound_to=[dummy_partner])) substrate = SiteActor( protoform=Protoform("B", bound_to=[dummy_partner]), region=Region(name="B_RegionActor", bound_to=[dummy_partner]), site=Site(name="B_SiteActor", bound_to=[dummy_partner])) mod = Modification( enzyme, substrate, target=Residue("Y", 100, State("phosphorylation", False)), value=True) corpus = KamiCorpus("test") identifier = EntityIdentifier( corpus.action_graph, corpus.get_action_graph_typing()) generator = ModGenerator(identifier) n, _, _, _ = generator.generate(mod)
def test_mod_generator(self): """Test generation of a modification nugget graph.""" enzyme_gene = Protoform("A") enzyme_region_actor = RegionActor( protoform=enzyme_gene, region=Region("Pkinase")) enzyme_site_actor = SiteActor( protoform=enzyme_gene, region=Region("Pkinase"), site=Site("tail")) substrate_gene = Protoform("B") substrate_region_actor = RegionActor( protoform=substrate_gene, region=Region("SH2")) substrate_site_actor = SiteActor( protoform=substrate_gene, region=Region("SH2"), site=Site("finger")) residue_mod_target = Residue("Y", 100, State("activity", False)) state_mod_target = State("activity", False) mod1 = Modification( enzyme=enzyme_gene, substrate=substrate_gene, target=state_mod_target ) mod2 = Modification( enzyme=enzyme_region_actor, substrate=substrate_gene, target=state_mod_target ) mod3 = Modification( enzyme=enzyme_site_actor, substrate=substrate_gene, target=state_mod_target ) mod4 = Modification( enzyme=enzyme_site_actor, substrate=substrate_region_actor, target=state_mod_target ) mod5 = Modification( enzyme=enzyme_site_actor, substrate=substrate_site_actor, target=residue_mod_target ) corpus = KamiCorpus("test") identifier = EntityIdentifier( corpus.action_graph, corpus.get_action_graph_typing()) generator = ModGenerator(identifier) n, _, _, _ = generator.generate(mod5) print_graph(n.graph)
def test_siteactor(self): """Generate sh2 pY bnd interactions.""" # General phosphorylation state. phos = State("phosphorylation", True) unphos = State("phosphorylation", False) # General SH2 regions. sh2 = Region(name="SH2") sh2n = Region(name="SH2", order=1) sh2c = Region(name="SH2", order=2) inters = [] enz_uniprot = 'P00519' sub_uniprot = 'P00533' rsd = 'Y1092' location = int(rsd[1:]) strt = location - 4 stop = location + 4 site_name = 'b%i' % location m = Modification(enzyme=Protoform(enz_uniprot), substrate=SiteActor(protoform=Protoform(sub_uniprot), site=Site(name=site_name, start=strt, end=stop)), target=Residue(aa="Y", loc=location, state=unphos), value=True) inters.append(m) corpus = KamiCorpus("test") corpus.add_interactions(inters, anatomize=True)
def test_advanced_site_actor(self): # General phosphorylation state. phos = State("phosphorylation", True) unphos = State("phosphorylation", False) # General SH2 regions. sh2 = Region(name="SH2") sh2n = Region(name="SH2", order=1) sh2c = Region(name="SH2", order=2) # Test site. s1 = Site(name="test_site") inters = [] # Modification using SiteActor. m = Modification(enzyme=Protoform("P00519", hgnc_symbol="ABL1"), substrate=SiteActor(protoform=Protoform( "P00519", hgnc_symbol="ABL1"), site=Site(name="site800", start=796, end=804)), target=Residue("Y", 800, State("phosphorylation", False)), value=True) inters.append(m) m = Modification(enzyme=Protoform("P00519", hgnc_symbol="ABL1"), substrate=SiteActor(protoform=Protoform( "P00533", hgnc_symbol="EGFR"), site=Site(name="site800", start=796, end=804)), target=Residue("Y", 800, State("phosphorylation", False)), value=True) inters.append(m) # Binding using SiteActor. b = Binding( SiteActor(protoform=Protoform("P00533", hgnc_symbol="EGFR"), site=Site(name="site800", start=796, end=804)), RegionActor(protoform=Protoform("P62993", hgnc_symbol="GRB2"), region=sh2)) inters.append(b) corpus = KamiCorpus("test") corpus.add_interactions(inters, anatomize=True)
def __init__(self): uniprotid = "P00533" simple_region = Region("SH2") regions = [simple_region] sites = [Site("pY")] residues = [ Residue("Y", 100), Residue("S", 155, State("phosphorylation", True)) ] states = [State("activity", True), State("phosphorylation", True)] bounds = [ SiteActor(protoform=Protoform("Q07890"), site=Site("binding_site")), Protoform("P00519") ] self.protoform = Protoform( uniprotid, regions=regions, residues=residues, sites=sites, states=states, bound_to=bounds, hgnc_symbol="EGFR", synonyms=["EGFR", "Epidermal growth factor receptor"]) self.enzyme_gene = Protoform("Q07890") self.enzyme_site_actor = SiteActor(protoform=self.enzyme_gene, region=Region("Pkinase"), site=Site("tail")) self.substrate_gene = Protoform("P00519") self.substrate_region_actor = RegionActor( protoform=self.substrate_gene, region=Region("SH2")) self.residue_mod_target = Residue("Y", 100, State("activity", False))
def test_bnd_generation(self): """Test generation of a binding nugget graph.""" left = SiteActor(Protoform("A"), Site("pY"), Region("Reg")) right = Protoform("B") bnd = Binding(left, right) corpus = KamiCorpus("test") identifier = EntityIdentifier( corpus.action_graph, corpus.get_action_graph_typing()) generator = BndGenerator(identifier) n, _, _, _ = generator.generate(bnd) print_graph(n.graph)
def test_site_actor_generator(self): """Test generation of graph components for a SiteActor object.""" # no region site_actor = SiteActor( protoform=Protoform("B"), site=Site("pY")) nugget = KamiGraph() nugget.reference_typing[self.default_ag_gene] = self.default_ag_gene (gene_id, site_id, region_id, _) =\ self.generator.generate_site_actor(nugget, site_actor) assert((site_id, gene_id) in nugget.edges()) # with a region in the middle site_actor_with_region = SiteActor( protoform=Protoform("B"), site=Site("pY"), region=Region("kinase")) (gene_id, site_id, region_id, _) =\ self.generator.generate_site_actor(nugget, site_actor_with_region) assert((site_id, region_id) in nugget.edges()) assert((region_id, gene_id) in nugget.edges())
def test_ligandmod_generation(self): """Test generation of a transmodification nugget graph.""" enzyme_gene = Protoform("A") enzyme_region_actor = RegionActor( protoform=enzyme_gene, region=Region("Pkinase")) substrate = Protoform("B") automod = LigandModification( enzyme_region_actor, substrate, Residue("Y", 100, State("phosphorylation", True)), value=True, enzyme_bnd_region=Region("EbndRegion"), substrate_bnd_region=Region("SbndRegion"), substrate_bnd_site=Site("SbndSite")) corpus = KamiCorpus("test") identifier = EntityIdentifier( corpus.action_graph, corpus.get_action_graph_typing()) generator = LigandModGenerator(identifier) n, _, _, _ = generator.generate(automod) print_graph(n.graph) inter = LigandModification( enzyme=RegionActor(protoform=Protoform(uniprotid="P30530", hgnc_symbol="AXL"), region=Region(name="Tyr_kinase", interproid="IPR020635", start=536, end=807)), substrate=SiteActor(protoform=Protoform(uniprotid="P06239", hgnc_symbol="LCK"), site=Site(name="pY394", start=391, end=397)), target=Residue(aa="Y", loc=394, state=State("phosphorylation", False)), value=True, rate=10, enzyme_bnd_region=Region(name="Tyr_kinase", interproid="IPR020635", start=536, end=807), substrate_bnd_site=Site(name='pY394', start=391, end=397) ) corpus = KamiCorpus("test") corpus.add_interaction(inter, anatomize=False) print_graph(corpus.get_nugget('test_nugget_1'))
def test_site_residue_reconnect(self): sh2 = Region(name="SH2") b = Binding( SiteActor(protoform=Protoform(uniprotid="P00533", hgnc_symbol="EGFR", residues=[ Residue("Y", 1092, state=State( "phosphorylation", True)) ]), site=Site(name="motif1092", start=1088, end=1096)), RegionActor(protoform=Protoform("P62993", hgnc_symbol="GRB2"), region=sh2)) corpus = KamiCorpus("test") corpus.add_interaction(b)
def test_sites(self): # Create genes. egfr = Protoform("P00533") grb2 = Protoform("P62993") # Create a RegionActor and a SiteActor fo GRB2. grb2_sh2 = RegionActor(protoform=grb2, region=Region(name="SH2")) grb2_site = SiteActor(protoform=grb2, site=Site(name="pY")) inters = [] # This works (RegionActor). # inters.append(BinaryBinding([egfr], [grb2_sh2])) # This does not work (SiteActor) inters.append(Binding(egfr, grb2_site)) corpus = KamiCorpus("test") corpus.add_interactions(inters, anatomize=True) print_graph(corpus.get_nugget("test_nugget_1"))
def __init__(self): """Initialize test class with a model.""" self.model = KamiCorpus("test") egfr = Protoform("P00533") fgfr1 = Protoform("P11362") fgfr1_pysite = SiteActor( Protoform("P11362"), Site("pY", residues=[Residue("Y", 463, State("phosphorylation", True))])) abl1_sh2 = RegionActor(Protoform("P00519"), Region("SH2")) target = Residue("Y", 463, State("phosphorylation", False)) modification = Modification(enzyme=egfr, substrate=fgfr1, target=target) binding = Binding(abl1_sh2, fgfr1_pysite) self.model.add_interactions([modification, binding])
def test_bookkeeping(self): interactions = [] i1 = LigandModification( RegionActor(Protoform("P00533"), Region(start=712, end=979)), Protoform("P00533"), Residue("Y", 1092, state=State("phosphorylation", False))) interactions.append(i1) i2 = Modification( Protoform("P00519"), Protoform("P00533"), Residue("S", 800, state=State("phosphorylation", False))) interactions.append(i2) i3 = Binding(Protoform("P00424"), SiteActor(Protoform("P00533"), Site(start=799, end=900))) interactions.append(i3) corpus = KamiCorpus("test") corpus.add_interactions(interactions)
def test_is_bnd_generator(self): """Test generation of graph components for a bound condition.""" protoform = Protoform("A") site_actor = SiteActor(protoform=Protoform("A"), site=Site("pY")) region_actor = RegionActor( protoform=Protoform("A"), region=Region("Pkinase")) nugget = KamiGraph() nugget.reference_typing[self.default_ag_gene] = self.default_ag_gene site = Site( "lala", bound_to=[protoform, protoform] ) site_id, _ =\ self.generator.generate_site( nugget, site, self.default_ag_gene, self.default_ag_gene) nugget = KamiGraph() nugget.reference_typing[self.default_ag_gene] = self.default_ag_gene site = Site( "lala", bound_to=[site_actor] ) site_id, _ =\ self.generator.generate_site( nugget, site, self.default_ag_gene, self.default_ag_gene) nugget = KamiGraph() nugget.reference_typing[self.default_ag_gene] = self.default_ag_gene site = Site( "lala", bound_to=[region_actor] ) self.generator.generate_site( nugget, site, self.default_ag_gene, self.default_ag_gene)
def __init__(self): """Initialize tests.""" # Create an empty KAMI corpus self.nxcorpus = KamiCorpus("EGFR_signalling") try: h = Neo4jHierarchy(uri="bolt://localhost:7687", user="******", password="******") h._clear() self.neo4jcorpus = KamiCorpus("egfr", backend="neo4j", uri="bolt://localhost:7687", user="******", password="******") except: warnings.warn("Neo4j is down, skipping Neo4j-related tests") self.neo4jcorpus = None # Create an interaction object egfr = Protoform("P00533") egf = Protoform("P01133") kinase = Region(name="Protein kinase", start=712, end=979, states=[State("activity", True)]) egfr_kinase = RegionActor(protoform=egfr, region=kinase) interaction1 = LigandModification( enzyme=egfr_kinase, substrate=egfr, target=Residue("Y", 1092, state=State("phosphorylation", False)), value=True, rate=1, desc="Phosphorylation of EGFR homodimer") # Aggregate the interaction object to the corpus self.nxcorpus.add_interaction(interaction1) self.neo4jcorpus.add_interaction(interaction1) grb2 = Protoform("P62993", states=[State("activity", True)]) grb2_sh2 = RegionActor(protoform=grb2, region=Region(name="SH2")) shc1 = Protoform("P29353") shc1_pY = SiteActor( protoform=shc1, site=Site( name="pY", residues=[Residue("Y", 317, State("phosphorylation", True))])) interaction1 = Binding(grb2_sh2, shc1_pY) grb2_sh2_with_residues = RegionActor(protoform=grb2, region=Region( name="SH2", residues=[ Residue("S", 90, test=True), Residue("D", 90, test=False) ])) egfr_pY = SiteActor( protoform=egfr, site=Site( name="pY", residues=[Residue("Y", 1092, State("phosphorylation", True))])) interaction2 = Binding(grb2_sh2_with_residues, egfr_pY) axl_PK = RegionActor(protoform=Protoform("P30530", hgnc_symbol="AXL"), region=Region("Protein kinase", start=536, end=807)) interaction3 = SelfModification(axl_PK, target=Residue( "Y", 821, State("phosphorylation", False)), value=True) interaction4 = AnonymousModification(RegionActor(protoform=Protoform( "P30530", hgnc_symbol="AXL", residues=[ Residue("Y", 703, state=State("phosphorylation", True)), Residue("Y", 779, state=State("phosphorylation", True)) ]), region=Region( "Protein kinase", start=536, end=807)), target=State("activity", False), value=True) egf_egfr = Protoform(egfr.uniprotid, bound_to=[egf]) interaction5 = Binding(egf_egfr, egf_egfr) interaction6 = Unbinding(egf_egfr, egf_egfr) interaction7 = LigandModification( egfr_kinase, shc1, target=Residue("Y", 317, State("phosphorylation", False)), value=True, enzyme_bnd_region=Region("egfr_BND"), enzyme_bnd_site=Site("egfr_BND"), substrate_bnd_region=Region("shc1_BND"), substrate_bnd_site=Site("sch1_BND")) interactions = [ interaction1, interaction2, interaction3, interaction4, interaction5, interaction6, interaction7 ] self.nxcorpus.add_interactions(interactions) self.neo4jcorpus.add_interactions(interactions) # Create a protein definition for GRB2 # protoform = Protoform( # "P62993", # regions=[Region( # name="SH2", # residues=[ # Residue("S", 90, test=True), # Residue("D", 90, test=False)])]) # ashl = Product("Ash-L", residues=[Residue("S", 90)]) # s90d = Product("S90D", residues=[Residue("D", 90)]) # grb3 = Product("Grb3", removed_components={"regions": [Region("SH2")]}) # self.grb2_definition = Definition(protoform, [ashl, s90d, grb3]) # self.model = self.nxcorpus.instantiate( # "EGFR_signalling_GRB2", [self.grb2_definition], # default_bnd_rate=0.1, # default_brk_rate=0.1, # default_mod_rate=0.1) self.query1 = (""" MATCH (:protoform)<--(r1:REGION)-->(i:interaction)-*-(n4:protoform) RETURN p1, i, p2; """)
def test_advanced_ligand_mod_generator(self): """Test generation with advanced usage of LigandModification.""" corpus = KamiCorpus("test") identifier = EntityIdentifier( corpus.action_graph, corpus.get_action_graph_typing()) generator = LigandModGenerator(identifier) enzyme = SiteActor( protoform=Protoform("A"), region=Region(name="RegionActor"), site=Site(name="SiteActor")) substrate = SiteActor( protoform=Protoform("B"), region=Region(name="RegionActor"), site=Site(name="SiteActor")) # simple subactors switching subactors = ["protoform", "region", "site"] for ea in subactors: for sa in subactors: mod = LigandModification( enzyme=enzyme, substrate=substrate, target=Residue("Y", 100, State("phosphorylation", True)), value=False, enzyme_bnd_subactor=ea, substrate_bnd_subactor=sa) n, _, _, _ = generator.generate(mod) mod = LigandModification( enzyme=enzyme, substrate=substrate, target=Residue("Y", 100, State("phosphorylation", True)), value=False, enzyme_bnd_region=Region(name="SpecialBindingRegion"), substrate_bnd_region=Region(name="SpecialBindingRegion")) n, _, _, _ = generator.generate(mod) mod = LigandModification( enzyme=enzyme, substrate=substrate, target=Residue("Y", 100, State("phosphorylation", True)), value=False, enzyme_bnd_subactor="region", substrate_bnd_subactor="region", enzyme_bnd_site=Site(name="SpecialBindingSite"), substrate_bnd_site=Site(name="SpecialBindingSite")) n, _, _, _ = generator.generate(mod) mod = LigandModification( enzyme=enzyme, substrate=substrate, target=Residue("Y", 100, State("phosphorylation", True)), value=False, enzyme_bnd_region=Region(name="SpecialBindingRegion"), substrate_bnd_region=Region(name="SpecialBindingRegion"), enzyme_bnd_site=Site(name="SpecialBindingSite"), substrate_bnd_site=Site(name="SpecialBindingSite")) n, _, _, _ = generator.generate(mod) print_graph(n.graph)
def test_sh2_py_semantics(self): """.""" phos = State("phosphorylation", True) dok1_py398 = Protoform("Q99704", synonyms=["DOK1", "p62DOK1"], residues=[Residue("Y", 398, phos)]) abl2 = Protoform("P42684", synonyms=["ABL2"]) sh2 = Region(name="SH2") abl2_sh2 = RegionActor(abl2, sh2) bnd = Binding(dok1_py398, abl2_sh2) corpus = KamiCorpus("test") nugget_id = corpus.add_interaction(bnd) semantic_entities = [ "sh2_domain", "sh2_domain_pY_bnd", "pY_site", "pY_residue", "phosphorylation" ] print(corpus.get_nugget(nugget_id).nodes()) assert ("pY_site" in corpus.get_nugget(nugget_id).nodes()) assert ("pY_residue" in corpus.get_nugget(nugget_id).nodes()) assert ("pY_residue_phospho" in corpus.get_nugget(nugget_id).nodes()) assert ((nugget_id, "sh2_pY_binding_semantic_nugget") in corpus.nugget_relations()) for entity in semantic_entities: assert (entity in corpus._hierarchy.get_relation( "sh2_pY_binding_semantic_nugget", nugget_id).keys()) site_actor_no_residue = SiteActor(Protoform("A"), Site("pY-site", start=100, end=150)) bnd = Binding(abl2_sh2, site_actor_no_residue) nugget_id = corpus.add_interaction(bnd) assert (len(corpus.get_nugget(nugget_id).nodes()) == 7) binding_nodes = [] for n in corpus.action_graph.nodes(): if corpus.get_action_graph_typing()[n] == "bnd": binding_nodes.append(n) assert (len(binding_nodes) == 1) assert ((nugget_id, "sh2_pY_binding_semantic_nugget") in corpus.nugget_relations()) for entity in semantic_entities: assert (entity in corpus._hierarchy.get_relation( "sh2_pY_binding_semantic_nugget", nugget_id).keys()) site_actor_no_phospho = SiteActor( Protoform("A"), Site("pY-site", start=100, end=150, residues=[Residue("Y")])) bnd = Binding(abl2_sh2, site_actor_no_phospho) nugget_id = corpus.add_interaction(bnd) assert (len(corpus.get_nugget(nugget_id).nodes()) == 8) binding_nodes = [] for n in corpus.action_graph.nodes(): if corpus.get_action_graph_typing()[n] == "bnd": binding_nodes.append(n) assert (len(binding_nodes) == 1) assert ((nugget_id, "sh2_pY_binding_semantic_nugget") in corpus.nugget_relations()) for entity in semantic_entities: assert (entity in corpus._hierarchy.get_relation( "sh2_pY_binding_semantic_nugget", nugget_id).keys()) site_actor_with_residue = SiteActor( Protoform("A"), Site("pY-site", start=100, end=150, residues=[ Residue("Y", loc=145, state=State("phosphorylation")) ])) bnd = Binding(abl2_sh2, site_actor_with_residue) nugget_id = corpus.add_interaction(bnd) assert (len(corpus.get_nugget(nugget_id).nodes()) == 7) binding_nodes = [] for n in corpus.action_graph.nodes(): if corpus.get_action_graph_typing()[n] == "bnd": binding_nodes.append(n) assert (len(binding_nodes) == 1) assert ((nugget_id, "sh2_pY_binding_semantic_nugget") in corpus.nugget_relations()) for entity in semantic_entities: assert (entity in corpus._hierarchy.get_relation( "sh2_pY_binding_semantic_nugget", nugget_id).keys()) site_actor_with_residue1 = SiteActor( Protoform("B"), Site("pY-site", residues=[ Residue("Y", loc=145, state=State("phosphorylation")) ])) site_actor_with_residue2 = SiteActor( Protoform("B"), Site("some site", residues=[ Residue("Y", loc=145, state=State("phosphorylation")) ])) bnd1 = Binding(abl2_sh2, site_actor_with_residue1) bnd2 = Binding(abl2_sh2, site_actor_with_residue2) corpus.add_interactions([bnd1, bnd2]) print_graph(corpus.action_graph)