Exemple #1
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    def test_FSM_end_diff(self):
        """ Example where the transcript is an FSM but has a difference on
            the ends large enough to be novel.
        """
        conn, cursor = get_db_cursor()
        build = "toy_build"
        talon.make_temp_novel_gene_table(cursor, build)
        edge_dict = talon.make_edge_dict(cursor)
        location_dict = talon.make_location_dict(build, cursor)
        run_info = talon.init_run_info(cursor, build)
        transcript_dict = talon.make_transcript_dict(cursor, build)
        vertex_2_gene = talon.make_vertex_2_gene_dict(cursor)
        gene_starts, gene_ends = talon.make_gene_start_and_end_dict(
            cursor, build)

        chrom = "chr2"
        strand = "+"
        positions = [1, 100, 500, 600, 900, 1500]

        annotation = talon.identify_transcript(chrom, positions, strand,
                                               cursor, location_dict,
                                               edge_dict, transcript_dict,
                                               vertex_2_gene, gene_starts,
                                               gene_ends, run_info)

        correct_gene_ID = fetch_correct_ID("TG2", "gene", cursor)
        novelty_types = [x[-2] for x in annotation['transcript_novelty']]
        assert annotation['gene_ID'] == correct_gene_ID
        assert annotation['end_delta'] == None
        conn.close()
Exemple #2
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    def test_NIC_instead_of_ISM(self):
        """ Test case where the transcript looks like an ISM, but is NIC on
            account of having known starts and ends """
        conn, cursor = get_db_cursor()
        build = "toy_build"
        talon.make_temp_novel_gene_table(cursor, build)
        edge_dict = talon.make_edge_dict(cursor)
        location_dict = talon.make_location_dict(build, cursor)
        run_info = talon.init_run_info(cursor, build)
        transcript_dict = talon.make_transcript_dict(cursor, build)
        vertex_2_gene = talon.make_vertex_2_gene_dict(cursor)
        gene_starts, gene_ends = talon.make_gene_start_and_end_dict(
            cursor, build)

        chrom = "chr3"
        strand = "+"
        positions = (800, 1000, 1200, 1400, 1600, 1800, 2000, 2200)

        annotation = talon.identify_transcript(chrom, positions, strand,
                                               cursor, location_dict,
                                               edge_dict, transcript_dict,
                                               vertex_2_gene, gene_starts,
                                               gene_ends, run_info)

        correct_gene_ID = fetch_correct_ID("TG5", "gene", cursor)
        novelty_types = [x[-2] for x in annotation['transcript_novelty']]
        assert annotation['gene_ID'] == correct_gene_ID
        assert "NIC_transcript" in novelty_types
        conn.close()
Exemple #3
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    def test_spliced_antisense(self):
        """ Example where the transcript matches known vertices but is antisense
        """
        conn, cursor = get_db_cursor()
        build = "toy_build"
        talon.make_temp_novel_gene_table(cursor, build)
        edge_dict = talon.make_edge_dict(cursor)
        location_dict = talon.make_location_dict(build, cursor)
        run_info = talon.init_run_info(cursor, build)
        transcript_dict = talon.make_transcript_dict(cursor, build)
        vertex_2_gene = talon.make_vertex_2_gene_dict(cursor)
        gene_starts, gene_ends = talon.make_gene_start_and_end_dict(
            cursor, build)

        chrom = "chr2"
        strand = "-"
        positions = [1000, 900, 600, 500, 100, 1]

        annotation = talon.identify_transcript(chrom, positions, strand,
                                               cursor, location_dict,
                                               edge_dict, transcript_dict,
                                               vertex_2_gene, gene_starts,
                                               gene_ends, run_info)

        anti_gene_ID = fetch_correct_ID("TG2", "gene", cursor)
        gene_novelty_types = [x[-2] for x in annotation['gene_novelty']]
        t_novelty_types = [x[-2] for x in annotation['transcript_novelty']]
        assert annotation['gene_novelty'][0][-1] == "TRUE"
        assert "antisense_gene" in gene_novelty_types
        assert "antisense_transcript" in t_novelty_types
        assert annotation['start_delta'] == annotation['end_delta'] == 0
        conn.close()
Exemple #4
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    def test_NNC(self):
        """ Example where the transcript skips an exon and has a novel splice
            donor
        """
        conn, cursor = get_db_cursor()
        build = "toy_build"
        talon.make_temp_novel_gene_table(cursor, build)
        edge_dict = talon.make_edge_dict(cursor)
        location_dict = talon.make_location_dict(build, cursor)
        run_info = talon.init_run_info(cursor, build)
        transcript_dict = talon.make_transcript_dict(cursor, build)
        vertex_2_gene = talon.make_vertex_2_gene_dict(cursor)
        gene_starts, gene_ends = talon.make_gene_start_and_end_dict(
            cursor, build)

        chrom = "chr1"
        strand = "+"
        positions = [1, 50, 900, 1000]

        annotation = talon.identify_transcript(chrom, positions, strand,
                                               cursor, location_dict,
                                               edge_dict, transcript_dict,
                                               vertex_2_gene, gene_starts,
                                               gene_ends, run_info)

        correct_gene_ID = fetch_correct_ID("TG1", "gene", cursor)
        novelty_types = [x[-2] for x in annotation['transcript_novelty']]
        assert annotation['gene_ID'] == correct_gene_ID
        assert "NNC_transcript" in novelty_types
        assert annotation['start_delta'] == annotation['end_delta'] == 0
        conn.close()
Exemple #5
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    def test_ISM_prefix(self):
        """ Example where the transcript is a prefix ISM
        """
        conn, cursor = get_db_cursor()
        build = "toy_build"
        talon.make_temp_novel_gene_table(cursor, build)
        edge_dict = talon.make_edge_dict(cursor)
        location_dict = talon.make_location_dict(build, cursor)
        run_info = talon.init_run_info(cursor, build)
        transcript_dict = talon.make_transcript_dict(cursor, build)
        vertex_2_gene = talon.make_vertex_2_gene_dict(cursor)
        gene_starts, gene_ends = talon.make_gene_start_and_end_dict(
            cursor, build)

        chrom = "chr1"
        strand = "+"
        positions = (1, 100, 500, 620)

        annotation = talon.identify_transcript(chrom, positions, strand,
                                               cursor, location_dict,
                                               edge_dict, transcript_dict,
                                               vertex_2_gene, gene_starts,
                                               gene_ends, run_info)

        correct_gene_ID = fetch_correct_ID("TG1", "gene", cursor)
        novelty_types = [x[-2] for x in annotation['transcript_novelty']]
        assert annotation['gene_ID'] == correct_gene_ID
        assert "ISM-prefix_transcript" in novelty_types
        assert annotation['start_delta'] == 0
        assert annotation['end_delta'] == 20
        conn.close()
Exemple #6
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    def test_FSM_perfect(self):
        """ Example where the transcript is a perfect full splice match.
        """
        conn, cursor = get_db_cursor()
        build = "toy_build"
        talon.make_temp_novel_gene_table(cursor, build)
        edge_dict = talon.make_edge_dict(cursor)
        location_dict = talon.make_location_dict(build, cursor)
        run_info = talon.init_run_info(cursor, build)
        transcript_dict = talon.make_transcript_dict(cursor, build)
        vertex_2_gene = talon.make_vertex_2_gene_dict(cursor)
        gene_starts, gene_ends = talon.make_gene_start_and_end_dict(
            cursor, build)

        chrom = "chr1"
        strand = "+"
        positions = [1, 100, 500, 600, 900, 1000]

        annotation = talon.identify_transcript(chrom, positions, strand,
                                               cursor, location_dict,
                                               edge_dict, transcript_dict,
                                               vertex_2_gene, gene_starts,
                                               gene_ends, run_info)

        correct_gene_ID = fetch_correct_ID("TG1", "gene", cursor)
        correct_transcript_ID = fetch_correct_ID("TG1-001", "transcript",
                                                 cursor)
        assert annotation['gene_ID'] == correct_gene_ID
        assert annotation['transcript_ID'] == correct_transcript_ID
        assert annotation['transcript_novelty'] == []
        conn.close()
Exemple #7
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    def test_NIC_with_all_known_edges(self):
        """ Test case derived from a real mouse Map2k4 read. All of edges are
            known (except 3'), yet the read is NIC not FSM/ISM """

        conn = sqlite3.connect("scratch/Map2k4.db")
        conn.row_factory = sqlite3.Row
        cursor = conn.cursor()
        build = "mm10"
        talon.make_temp_novel_gene_table(cursor, build)
        edge_dict = talon.make_edge_dict(cursor)
        location_dict = talon.make_location_dict(build, cursor)
        run_info = talon.init_run_info(cursor, build)
        transcript_dict = talon.make_transcript_dict(cursor, build)
        vertex_2_gene = talon.make_vertex_2_gene_dict(cursor)
        gene_starts, gene_ends = talon.make_gene_start_and_end_dict(
            cursor, build)

        chrom = "chr11"
        strand = "-"
        positions = [
            65788254, 65788136, 65775765, 65775733, 65756371, 65756269,
            65735366, 65735192, 65719603, 65719484, 65712297, 65712178,
            65709983, 65709932, 65707111, 65706984, 65696365, 65696288,
            65693570, 65693422, 65691773, 65691728, 65690804, 65689322
        ]

        annotation = talon.identify_transcript(chrom, positions, strand,
                                               cursor, location_dict,
                                               edge_dict, transcript_dict,
                                               vertex_2_gene, gene_starts,
                                               gene_ends, run_info)

        assert annotation['gene_ID'] == 1
        assert annotation['transcript_ID'] == 8
        novelty_types = [x[-2] for x in annotation['transcript_novelty']]
        assert "NIC_transcript" in novelty_types

        conn.close()