コード例 #1
0
    def test_metabolite_networks_neighbors(self):
        qc = {'$text': {'$search': 'glycerol'}}
        mn = qry.get_metabolite_network(qc, limit=1440)
        assert "Glycerol" in mn.nodes
        assert len(mn.edges) == 3219
        assert len(mn.nodes) == 906

        qc = {'$text': {'$search': 'glycerol'}, 'is_transport': True}
        mn = qry.get_metabolite_network(qc)
        assert "Glycerol" in mn.nodes
        assert len(mn.edges) == 228
        assert len(mn.nodes) == 64

        qc = {"_id": "rxn36327"}
        mn = qry.get_metabolite_network(qc)
        assert "(S)-Propane-1,2-diol" in mn.nodes

        qc = {"status": "OK", "reversibility": "<"}
        mn = qry.get_metabolite_network(qc)
        self.assertAlmostEqual(len(mn.edges), 2027, delta=100)
        self.assertAlmostEqual(len(mn.nodes), 961, delta=100)
        assert 'Phosphate' in mn.nodes
        r = neighbors_graph(mn, "Phosphate", beamwidth=8, maxnodes=100)
        assert r.number_of_nodes() == 95
        r = neighbors_graph(mn, "Phosphate", beamwidth=6, maxnodes=20)
        assert r.number_of_nodes() == 20
        r = neighbors_graph(mn, "Phosphate", beamwidth=4, maxnodes=20)
        assert r.number_of_nodes() == 20
コード例 #2
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    def test_metabolite_network_bigg(self):
        qc = {"$or": [{"source.lib": 'bigg'}, {"xrefs.lib": 'bigg'}]}
        mn = qrymtntx.get_metabolite_network(qc, max_degree=1400)
        cmpnds = {
            'carboxyacetyl-[acyl-carrier protein]', 'acetate', 'hexadecanoate',
            'xylitol', "L-xylulose", "L-arabinitol"
        }
        assert len(cmpnds.intersection(mn.nodes())) == 6
        assert mn.degree("L-arabinitol") >= 2
        assert mn.degree("L-xylulose") >= 5
        r = neighbors_graph(mn, "L-arabinitol", beamwidth=5, maxnodes=160)
        assert len(r) == 0  # L-arabinitol is product, not reactant
        paths = shortest_paths(mn, 'alpha-L-arabinan', 'L-arabinitol', 10)
        assert len(paths) == 10
        assert paths[0][1] == 'aldehydo-L-arabinose'
        set_degree_as_weight(mn)
        paths = shortest_paths(mn,
                               'alpha-L-arabinan',
                               'L-arabinitol',
                               10,
                               weight='weight')
        assert len(paths) == 1
        assert paths[0][1] == 'aldehydo-L-arabinose'

        qc = {"source.lib": "bigg", "xrefs.lib": 'bigg', "balance": "true"}
        mn = qrymtntx.get_metabolite_network(qc)
        self.assertAlmostEqual(2815, len(mn.nodes()), delta=200)
        self.assertAlmostEqual(3741, len(mn.edges()), delta=200)
        assert 'L-xylulose' not in mn.nodes()
        assert "Zymosterol ester (yeast specific)" in mn.nodes()
        assert len(cmpnds.intersection(mn.nodes())) == 2
        assert mn.degree("Zymosterol ester (yeast specific)") == 8
        r = neighbors_graph(mn, "L-ascorbate", beamwidth=5, maxnodes=100)
        self.assertAlmostEqual(7, r.number_of_nodes(), delta=4)
コード例 #3
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    def test_metabolite_network_rhea(self):
        qc = {"source.lib": "rhea", "balance": "true"}
        mn = qrymtntx.get_metabolite_network(qc, max_degree=660)

        paths = shortest_paths(mn, 'L-serine', 'acetyl-CoA', 1600, cutoff=5)
        assert 225 == len(paths)
        assert ['L-serine', 'phosphate', 'acetyl-CoA'] in paths
        set_degree_as_weight(mn)
        paths = shortest_paths(mn,
                               'L-serine',
                               'acetyl-CoA',
                               1600,
                               cutoff=5,
                               weight='weight')
        assert 2 == len(paths)
        assert [
            'L-serine', '3-(pyrazol-1-yl)-L-alanine', 'O-acetyl-L-serine',
            'acetyl-CoA'
        ] in paths

        self.assertAlmostEqual(7806, len(mn.nodes()), delta=400)
        self.assertAlmostEqual(17698, len(mn.edges()), delta=1200)

        r = neighbors_graph(mn, "L-ascorbate", beamwidth=5, maxnodes=100)
        self.assertAlmostEqual(100, r.number_of_nodes(), delta=12)
        assert 5 == mn.in_degree('L-ascorbate')
        cofactors = [
            'FMNH2', 'L-ascorbate', 'Cu(+)', 'Cu(2+)', 'Fe(3+)', 'FMN',
            '5,10-methenyltetrahydrofolate', 'NH4(+)', 'Fe(2+)', 'Mn(2+)',
            "riboflavin", "heme b", "Zn(2+)", "Mg(2+)"
        ]
        for i in cofactors:
            assert i in mn.nodes(), i
コード例 #4
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 def test_example_graph(self):
     qc = {'$text': {'$search': 'methicillin'}}
     g1 = self.qry.get_connections_graph(qc, "targets")
     self.assertAlmostEqual(82, g1.number_of_edges(), delta=10)
     self.assertAlmostEqual(73, g1.number_of_nodes(), delta=10)
     g2 = self.qry.get_connections_graph(qc, "enzymes")
     self.assertAlmostEqual(16, g2.number_of_edges(), delta=4)
     self.assertAlmostEqual(12, g2.number_of_nodes(), delta=4)
     g3 = self.qry.get_connections_graph(qc, "transporters")
     self.assertAlmostEqual(30, g3.number_of_edges(), delta=14)
     self.assertAlmostEqual(22, g3.number_of_nodes(), delta=4)
     g4 = self.qry.get_connections_graph(qc, "carriers")
     self.assertAlmostEqual(7, g4.number_of_edges(), delta=4)
     self.assertAlmostEqual(8, g4.number_of_nodes(), delta=4)
     r = nx.compose_all([g1, g2, g3, g4])
     self.assertAlmostEqual(125, r.number_of_edges(), delta=20)
     self.assertAlmostEqual(94, r.number_of_nodes(), delta=14)
     remove_small_subgraphs(r)
     save_graph(r, EX_GRAPHS + 'drugbank-methicillin.json')
     r = neighbors_graph(r, "Ticarcillin", beamwidth=8, maxnodes=100)
     assert 2 == r.number_of_nodes()
コード例 #5
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    def test_metabolite_network_reactome(self):
        qc = {"source.lib": "reactome", "balance": "true"}
        mn = qrymtntx.get_metabolite_network(qc, max_degree=400)
        self.assertAlmostEqual(430, len(mn.nodes()), delta=60)
        self.assertAlmostEqual(1157, len(mn.edges()), delta=120)
        assert "L-serine" in mn.nodes()
        r = neighbors_graph(mn, "acetyl-CoA", beamwidth=20, maxnodes=200)
        # number of nodes differ based on selected search branches
        self.assertAlmostEqual(143, r.number_of_nodes(), delta=30)
        paths = shortest_paths(mn, 'L-serine', 'acetyl-CoA', 30)
        assert 30 == len(paths)
        assert ['L-serine', 'glycine', 'CoA', 'acetyl-CoA'] in paths[:4]

        set_degree_as_weight(mn)
        paths = shortest_paths(mn,
                               'L-serine',
                               'acetyl-CoA',
                               30,
                               weight='weight')
        assert 30 == len(paths)
        assert ['L-serine', 'glycine', 'CoA', 'acetyl-CoA'] == paths[0]
コード例 #6
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    def test_drug_targets_graph(self):
        qc = {'$text': {'$search': '\"side effects\"'}}
        g = self.qry.get_connections_graph(qc, "targets")
        self.assertAlmostEqual(g.number_of_edges(), 580, delta=30)
        self.assertAlmostEqual(g.number_of_nodes(), 342, delta=20)
        assert "Olanzapine" in g.nodes
        assert "CCX915" in g.nodes
        r = neighbors_graph(g, "Olanzapine", max_iter=10, tol=1e-2)
        assert 5 == r.number_of_nodes()

        qc = {'$text': {'$search': 'defensin'}}
        gfile = "./docs/example-graphs/defensin-targets.json"
        g = self.qry.get_connections_graph(qc, "targets", gfile)
        assert g.number_of_edges() == 38
        self.assertAlmostEqual(g.number_of_nodes(), 33, 10)
        g = self.qry.get_connections_graph(qc, "enzymes")
        assert g.number_of_edges() == 1
        assert g.number_of_nodes() == 2
        g = self.qry.get_connections_graph(qc, "transporters")
        assert g.number_of_edges() == 0
        assert g.number_of_nodes() == 0
        g = self.qry.get_connections_graph(qc, "carriers")
        assert g.number_of_edges() == 0
        assert g.number_of_nodes() == 0