Exemplo n.º 1
0
 def __init__(self):
     """Define some initial content of the corpus."""
     corpus = KamiCorpus("test")
     protoform = Protoform("A")
     gene_id = corpus.add_protoform(protoform)
     identifier = EntityIdentifier(
         corpus.action_graph,
         corpus.get_action_graph_typing())
     self.generator = Generator(identifier)
     self.default_ag_gene = gene_id
Exemplo n.º 2
0
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
nugget1_id = TEST_CORPUS.add_interaction(interaction1)

# Manually add a new protoform
new_protoform_node = TEST_CORPUS.add_protoform(Protoform("P62993"))

# Manually add a new components to an arbitrary protoform
TEST_CORPUS.add_site(Site("New site"), new_protoform_node)

grb2 = Protoform("P62993",
                 hgnc_symbol="GRB2",
                 states=[State("activity", True)])
grb2_sh2 = RegionActor(protoform=grb2, region=Region(name="SH2"))

shc1 = Protoform("P29353", hgnc_symbol="SHC1")
shc1_pY = SiteActor(
    protoform=shc1,
    site=Site(name="pY",
              residues=[Residue("Y", 317, State("phosphorylation", True))]))
interaction1 = Binding(grb2_sh2, shc1)
Exemplo n.º 3
0
class TestIdentifiers(object):
    """Test identifiers of entities in the action graph."""
    def __init__(self):
        """Initialize with common hierarchy."""
        self.hierarchy = KamiCorpus("test")

        protoform = Protoform("A")
        self.gene_id = self.hierarchy.add_protoform(protoform)

        named_region = Region("Kinase")
        interval_region = Region(start=100, end=200)
        named_ordered_region1 = Region("SH2", order=1)
        named_ordered_region2 = Region("SH2", order=2)
        self.named_region = self.hierarchy.add_region(named_region,
                                                      self.gene_id)
        self.interval_region = self.hierarchy.add_region(
            interval_region, self.gene_id)
        self.named_ordered_region1 = self.hierarchy.add_region(
            named_ordered_region1, self.gene_id)
        self.named_ordered_region2 = self.hierarchy.add_region(
            named_ordered_region2, self.gene_id)

        named_site = Site("ATP binding")
        interval_site = Site(start=100, end=200)
        named_ordered_site1 = Site("pY", order=1)
        named_ordered_site2 = Site("pY", order=2)
        self.named_site = self.hierarchy.add_site(named_site, self.gene_id)
        self.interval_site = self.hierarchy.add_site(interval_site,
                                                     self.gene_id)
        self.named_ordered_site1 = self.hierarchy.add_site(
            named_ordered_site1, self.gene_id)
        self.named_ordered_site2 = self.hierarchy.add_site(
            named_ordered_site2, self.gene_id)

        residue = Residue("Y", 150)
        residue_no_loc = Residue("T")
        self.residue = self.hierarchy.add_residue(residue, self.gene_id)
        self.residue_no_loc = self.hierarchy.add_residue(
            residue_no_loc, self.gene_id)

        residue_state = State("activity", True)
        site_state = State("activity", True)
        region_state = State("activity", True)
        gene_state = State("activity", True)

        self.residue_state = self.hierarchy.add_state(residue_state,
                                                      self.residue)
        self.site_state = self.hierarchy.add_state(site_state, self.named_site)
        self.region_state = self.hierarchy.add_state(region_state,
                                                     self.named_region)
        self.gene_state = self.hierarchy.add_state(gene_state, self.gene_id)

    def test_identify_protoform(self):
        """Test protoform identification."""
        gene1 = Protoform("A")
        gene2 = Protoform("B")
        identifier = EntityIdentifier(self.hierarchy.action_graph,
                                      self.hierarchy.get_action_graph_typing())
        result1 = identifier.identify_protoform(gene1)
        result2 = identifier.identify_protoform(gene2)
        assert (result1 == self.gene_id)
        assert (result2 is None)

    def test_identify_region(self):
        """Test region identification."""
        identifier = EntityIdentifier(self.hierarchy.action_graph,
                                      self.hierarchy.get_action_graph_typing())
        res = identifier.identify_region(Region("Protein kinase"),
                                         self.gene_id)
        assert (res == self.named_region)
        res = identifier.identify_region(Region(start=101, end=199),
                                         self.gene_id)
        assert (res == self.interval_region)
        res = identifier.identify_region(Region("SH2"), self.gene_id)
        assert (res is None)
        res = identifier.identify_region(Region("SH2", order=1), self.gene_id)
        assert (res == self.named_ordered_region1)
        res = identifier.identify_region(Region("SH2", order=5), self.gene_id)
        assert (res is None)
        res = identifier.identify_region(
            Region("SH2", start=101, end=185, order=2), self.gene_id)
        assert (res == self.interval_region)

    def test_identify_site(self):
        """Test site identification."""
        identifier = EntityIdentifier(self.hierarchy.action_graph,
                                      self.hierarchy.get_action_graph_typing())
        res = identifier.identify_site(Site("ATP bind"), self.gene_id)
        assert (res == self.named_site)
        res = identifier.identify_site(Site("ATP binding site"), self.gene_id)
        assert (res == self.named_site)

        res = identifier.identify_site(Site(start=101, end=199), self.gene_id)
        assert (res == self.interval_site)
        res = identifier.identify_site(Site("pY"), self.gene_id)
        assert (res is None)
        res = identifier.identify_site(Site("pY", order=1), self.gene_id)
        assert (res == self.named_ordered_site1)
        res = identifier.identify_site(Site("pY", order=5), self.gene_id)
        assert (res is None)
        res = identifier.identify_site(Site("pY", start=101, end=185, order=2),
                                       self.gene_id)
        assert (res == self.interval_site)

    def test_identify_residue(self):
        """Test residue identification."""
        identifier = EntityIdentifier(self.hierarchy.action_graph,
                                      self.hierarchy.get_action_graph_typing())
        res = identifier.identify_residue(Residue("S", 150), self.gene_id)
        assert (res == self.residue)
        res = identifier.identify_residue(Residue("T"), self.gene_id)
        assert (res == self.residue_no_loc)
        res = identifier.identify_residue(Residue("S"), self.gene_id)
        assert (res is None)

    def test_identify_state(self):
        """Test state identification."""
        identifier = EntityIdentifier(self.hierarchy.action_graph,
                                      self.hierarchy.get_action_graph_typing())
        res = identifier.identify_state(State("activity", False), self.residue)
        assert (res == self.residue_state)
        res = identifier.identify_state(State("activity", False),
                                        self.named_site)
        assert (res == self.site_state)
        res = identifier.identify_state(State("activity", False),
                                        self.named_region)
        assert (res == self.region_state)
        res = identifier.identify_state(State("activity", False), self.gene_id)
        assert (res == self.gene_state)