# Copyright (C) 2013 by Zheng Ruan (zruan1991@gmail.com) # This code is part of the Biopython distribution and governed by its # license. Please see the LICENSE file that should have been included # as part of this package. """Unit tests for the Bio.codonalign modules. """ import warnings import tempfile import unittest from Bio import BiopythonWarning, BiopythonExperimentalWarning from Bio import SeqIO from Bio import AlignIO from Bio.Seq import Seq from Bio.SeqRecord import SeqRecord from Bio.Alphabet import IUPAC from Bio.Align import MultipleSeqAlignment from Bio.Data import CodonTable with warnings.catch_warnings(): warnings.simplefilter('ignore', BiopythonExperimentalWarning) from Bio import codonalign TEST_ALIGN_FILE1 = [('codonalign/nucl1.fa', 'codonalign/pro1.aln'), 'parse'] TEST_ALIGN_FILE2 = [('codonalign/nucl2.fa', 'codonalign/pro2.aln'), 'parse'] TEST_ALIGN_FILE3 = [('codonalign/nucl3.fa', 'codonalign/pro3.aln'), 'index'] TEST_ALIGN_FILE4 = [('codonalign/nucl4.fa', 'codonalign/pro4.aln'), 'index'] TEST_ALIGN_FILE5 = [('codonalign/nucl5.fa', 'codonalign/pro5.aln'), 'parse'] TEST_ALIGN_FILE6 = [('codonalign/egfr_nucl.fa', 'codonalign/egfr_pro.aln', 'codonalign/egfr_id'), 'id'] TEST_ALIGN_FILE7 = [('codonalign/drosophilla.fasta', 'codonalign/adh.aln'), 'index'] temp_dir = tempfile.mkdtemp() class TestCodonSeq(unittest.TestCase): def test_seq(self): codonseq1 = codonalign.CodonSeq('AAATTT---TTTGGACCC', rf_table=[0, 3, 6, 9, 12]) self.assertEqual(len(codonseq1), 18) self.assertEqual(codonseq1.get_codon_num(), 5) self.assertEqual(str(codonseq1.get_codon(0)), 'AAA') self.assertEqual(str(codonseq1.get_codon(-1)), 'CCC') self.assertEqual(str(codonseq1.get_codon(slice(1, 3))), 'TTT---') self.assertEqual(str(codonseq1.get_codon(slice(None, None, -1))), 'CCCGGATTT---TTTAAA') self.assertRaises(ValueError, codonalign.CodonSeq, 'AAA-TT') self.assertRaises(AssertionError, codonalign.CodonSeq, 'AAA-T') self.assertRaises(ValueError, codonalign.CodonSeq, 'YVVRRDQQQ') self.assertTrue(isinstance(codonseq1.toSeq(), Seq)) class TestCodonAlignment(unittest.TestCase): def setUp(self): codonseq1 = codonalign.CodonSeq('AAATTT---TTTGGACCC', codonalign.default_codon_alphabet) codonseq2 = codonalign.CodonSeq('AAGTTT---TTTGGGCCC', codonalign.default_codon_alphabet) codonseq3 = codonalign.CodonSeq('AAGTAT---TTTGGACCC', codonalign.default_codon_alphabet) codonseq4 = codonalign.CodonSeq('AACTTT---TTTGGACGC', codonalign.default_codon_alphabet) self.seqrec = [SeqRecord(codonseq1, id="alpha"), SeqRecord(codonseq2, id="beta"), SeqRecord(codonseq3, id="gamma"), SeqRecord(codonseq4, id="delta")] def test_align(self): codonAlign = codonalign.CodonAlignment(self.seqrec) self.assertEqual(codonAlign.get_aln_length(), 6) self.assertTrue(isinstance(codonAlign.toMultipleSeqAlignment(), MultipleSeqAlignment)) class TestBuildAndIO(unittest.TestCase): def setUp(self): self.aln_file = [TEST_ALIGN_FILE1, TEST_ALIGN_FILE2, TEST_ALIGN_FILE3, TEST_ALIGN_FILE4, TEST_ALIGN_FILE5, TEST_ALIGN_FILE6] alns = [] for i in self.aln_file: if i[1] == 'parse': nucl = SeqIO.parse(i[0][0], 'fasta', alphabet=IUPAC.IUPACUnambiguousDNA()) prot = AlignIO.read(i[0][1], 'clustal', alphabet=IUPAC.protein) with warnings.catch_warnings(): warnings.simplefilter('ignore') caln = codonalign.build(prot, nucl, alphabet=codonalign.default_codon_alphabet) elif i[1] == 'index': nucl = SeqIO.index(i[0][0], 'fasta', alphabet=IUPAC.IUPACUnambiguousDNA()) prot = AlignIO.read(i[0][1], 'clustal', alphabet=IUPAC.protein) with warnings.catch_warnings(): warnings.simplefilter('ignore') caln = codonalign.build(prot, nucl, alphabet=codonalign.default_codon_alphabet, max_score=20) elif i[1] == 'id': nucl = SeqIO.parse(i[0][0], 'fasta', alphabet=IUPAC.IUPACUnambiguousDNA()) prot = AlignIO.read(i[0][1], 'clustal', alphabet=IUPAC.protein) with open(i[0][2]) as handle: id = dict((i.split()[0], i.split()[1]) for i in handle) with warnings.catch_warnings(): warnings.simplefilter('ignore') caln = codonalign.build(prot, nucl, corr_dict=id, alphabet=codonalign.default_codon_alphabet) alns.append(caln) nucl.close() # Close the indexed FASTA file self.alns = alns def test_IO(self): self.assertEqual(len(self.alns), 6) # print temp_dir for n, i in enumerate(self.alns): aln = i.toMultipleSeqAlignment() AlignIO.write(aln, temp_dir + '/aln' + str(n) + '.clw', 'clustal') class Test_build(unittest.TestCase): def setUp(self): # Test set 1 seq1 = SeqRecord(Seq('TCAGGGACTGCGAGAACCAAGCTACTGCTGCTGCTGGCTGCGCTCTGCGCCGCAGGTGGGGCGCTGGAG', alphabet=IUPAC.IUPACUnambiguousDNA()), id='pro1') seq2 = SeqRecord(Seq('TCAGGGACTTCGAGAACCAAGCGCTCCTGCTGCTGGCTGCGCTCGGCGCCGCAGGTGGAGCACTGGAG', alphabet=IUPAC.IUPACUnambiguousDNA()), id='pro2') pro1 = SeqRecord(Seq('SGTARTKLLLLLAALCAAGGALE', alphabet=IUPAC.protein), id='pro1') pro2 = SeqRecord(Seq('SGTSRTKRLLLLAALGAAGGALE', alphabet=IUPAC.protein), id='pro2') aln1 = MultipleSeqAlignment([pro1, pro2]) self.aln1 = aln1 self.seqlist1 = [seq1, seq2] # Test set 2 # M K K H E L(F)L C Q G T S N K L T Q(L)L G T F E D H F L S L Q R M F N N C E V V seq3 = SeqRecord(Seq('ATGAAAAAGCACGAGTTACTTTGCCAAGGGACAAGTAACAAGCTCACCCAGTTGGGCACTTTTGAAGACCACTTTCTGAGCCTACAGAGGATGTTCAACAACTGTGAGGTGGTCCTTGGGAATTTGGAAATTACCTACATGCAGAGTAGTTACAACCTTTCTTTTCTCAAGACCATCCAGGAGGTTGCCGGCTATGTACTCATTGCCCTC', alphabet=IUPAC.IUPACUnambiguousDNA()), id='pro1') # seq4 =SeqRecord(Seq('ATGAAAAAGCACGAGTT CTTTGCCAAGGGACAAGTAACAAGCTCACCCAGTTGGGCACTTTTGAAGACCACTTTCTGAGCCTACAGAGGATGTTCAACAA TGTGAGGTGGTCCTTGGGAATTTGGAAATTACCTACATGCAGAGTAGTTACAACCTTTCTTTTCTCAAGACCATCCAGGAGGTTGCCGGCTATGTACTCATTGCCCTC', alphabet=IUPAC.IUPACUnambiguousDNA()), id='pro2') seq4 = SeqRecord(Seq('ATGAAAAAGCACGAGTTCTTTGCCAAGGGACAAGTAACAAGCTCACCCAGTTGGGCACTTTTGAAGACCACTTTCTGAGCCTACAGAGGATGTTCAACAATGTGAGGTGGTCCTTGGGAATTTGGAAATTACCTACATGCAGAGTAGTTACAACCTTTCTTTTCTCAAGACCATCCAGGAGGTTGCCGGCTATGTACTCATTGCCCTC', alphabet=IUPAC.IUPACUnambiguousDNA()), id='pro2') # seq5 =SeqRecord(Seq('ATGAAAAAGCACGAGTT CTTTGCCAAGGGACAAGTAACAAGCTCACCC TTGGGCACTTTTGAAGACCACTTTCTGAGCCTACAGAGGATGTTCAACAACTGTGAGGTGGTCCTTGGGAATTTGGAAATTACCTACATGCAGAGTAGTTACAACCTTTCTTTTCTCAAGACCATCCAGGAGGTTGCCGGCTATGTACTCATTGCCCTC', alphabet=IUPAC.IUPACUnambiguousDNA()), id='pro3') seq5 = SeqRecord(Seq('ATGAAAAAGCACGAGTTACTTTGCCAAGGGACAAGTAACAAGCTCACCCTTGGGCACTTTTGAAGACCACTTTCTGAGCCTACAGAGGATGTTCAACAACTGTGAGGTGGTCCTTGGGAATTTGGAAATTACCTACATGCAGAGTAGTTACAACCTTTCTTTTCTCAAGACCATCCAGGAGGTTGCCGGCTATGTACTCATTGCCCTC', alphabet=IUPAC.IUPACUnambiguousDNA()), id='pro3') pro3 = SeqRecord(Seq('MKKHELLCQGTSNKLTQLGTFEDHFLSLQRMFNNCEVVLGNLEITYMQSSYNLSFLKTIQEVAGYVLIAL', alphabet=IUPAC.protein), id='pro1') pro4 = SeqRecord(Seq('MKKHEFLCQGTSNKLTQLGTFEDHFLSLQRMFNNCEVVLGNLEITYMQSSYNLSFLKTIQEVAGYVLIAL', alphabet=IUPAC.protein), id='pro2') pro5 = SeqRecord(Seq('MKKHELLCQGTSNKLTLLGTFEDHFLSLQRMFNNCEVVLGNLEITYMQSSYNLSFLKTIQEVAGYVLIAL', alphabet=IUPAC.protein), id='pro3') aln2 = MultipleSeqAlignment([pro3, pro4, pro5]) self.aln2 = aln2 self.seqlist2 = [seq3, seq4, seq5] # Test set 3 # use Yeast mitochondrial codon table seq6 = SeqRecord(Seq('ATGGCAAGGGACCACCCAGTTGGGCACTGATATGATCGGGTGTATTTGCAGAGTAGTAACCTTTCTTTTCTCAAGACCATCCAG', alphabet=IUPAC.IUPACUnambiguousDNA()), id='pro6') seq7 = SeqRecord(Seq('ATGGCAAGGCACCATCCAGTTGAGCACTGATATGATCGGGTGTATTTGCAGAGTAGTAACGTGTCTCTGCTCAAGACCATCCAG', alphabet=IUPAC.IUPACUnambiguousDNA()), id='pro7') seq8 = SeqRecord(Seq('ATGGCAGGGGACCACCCAGTTGGGCACTGATATGATCGTGTGTATCTGCAGAGTAGTAACCACTCTTTTCTCATGACCATCCAG', alphabet=IUPAC.IUPACUnambiguousDNA()), id='pro8') pro6 = SeqRecord(Seq('MARDHPVGHWYDRVYLQSSNTSFTKTIQ', alphabet=IUPAC.protein), id='pro6') pro7 = SeqRecord(Seq('MARHHPVEHWYDRVYLQSSNVSTTKTIQ', alphabet=IUPAC.protein), id='pro7') pro8 = SeqRecord(Seq('MAGDHPVGHWYDRVYTQSSNHSFTMTIQ', alphabet=IUPAC.protein), id='pro8') aln3 = MultipleSeqAlignment([pro6, pro7, pro8]) self.aln3 = aln3 self.seqlist3 = [seq6, seq7, seq8] self.codontable3 = CodonTable.unambiguous_dna_by_id[3] def test_build(self): codon_aln1 = codonalign.build(self.aln1, self.seqlist1) codon_aln2 = codonalign.build(self.aln2, self.seqlist2) codon_aln3 = codonalign.build(self.aln3, self.seqlist3, codon_table=self.codontable3) class Test_dn_ds(unittest.TestCase): def setUp(self): nucl = SeqIO.parse(TEST_ALIGN_FILE6[0][0], 'fasta', alphabet=IUPAC.IUPACUnambiguousDNA()) prot = AlignIO.read(TEST_ALIGN_FILE6[0][1], 'clustal', alphabet=IUPAC.protein) with open(TEST_ALIGN_FILE6[0][2]) as handle: id_corr = dict((i.split()[0], i.split()[1]) for i in handle) with warnings.catch_warnings(): warnings.simplefilter('ignore', BiopythonWarning) aln = codonalign.build(prot, nucl, corr_dict=id_corr, alphabet=codonalign.default_codon_alphabet) self.aln = aln def test_dn_ds(self): from Bio.codonalign.codonseq import cal_dn_ds codon_seq1 = self.aln[0] codon_seq2 = self.aln[1] dN, dS = cal_dn_ds(codon_seq1, codon_seq2, method='NG86') self.assertAlmostEqual(round(dN, 4), 0.0209, places=4) self.assertAlmostEqual(round(dS, 4), 0.0178, places=4) dN, dS = cal_dn_ds(codon_seq1, codon_seq2, method='LWL85') self.assertAlmostEqual(round(dN, 4), 0.0203, places=4) self.assertAlmostEqual(round(dS, 4), 0.0164, places=4) try: import scipy except ImportError: # Silently skip the rest of the test return # This should be present: from scipy.linalg import expm dN, dS = cal_dn_ds(codon_seq1, codon_seq2, method='YN00') self.assertAlmostEqual(round(dN, 4), 0.0198, places=4) self.assertAlmostEqual(round(dS, 4), 0.0222, places=4) try: # New in scipy v0.11 from scipy.optimize import minimize dN, dS = cal_dn_ds(codon_seq1, codon_seq2, method='ML') self.assertAlmostEqual(round(dN, 4), 0.0194, places=4) self.assertAlmostEqual(round(dS, 4), 0.0217, places=4) except ImportError: # TODO - Show a warning? pass from run_tests import is_numpy try: from math import lgamma # New in Python 2.7 except ImportError: lgamma = None if is_numpy() and lgamma: class Test_MK(unittest.TestCase): def test_mk(self): p = SeqIO.index(TEST_ALIGN_FILE7[0][0], 'fasta', alphabet=IUPAC.IUPACUnambiguousDNA()) pro_aln = AlignIO.read(TEST_ALIGN_FILE7[0][1], 'clustal', alphabet=IUPAC.protein) codon_aln = codonalign.build(pro_aln, p) p.close() # Close indexed FASTA file self.assertAlmostEqual(round(codonalign.mktest([codon_aln[1:12], codon_aln[12:16], codon_aln[16:]]), 4), 0.0021, places=4) if __name__ == "__main__": runner = unittest.TextTestRunner(verbosity=2) unittest.main(testRunner=runner)