124 lines
3.1 KiB
Python
124 lines
3.1 KiB
Python
# find instances of a promoter consensus sequence in e-coli genome
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# https://open.oregonstate.education/appliedbioinformatics/chapter/chapter-2-sequence-motifs/
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# https://en.wikipedia.org/wiki/Sequence_motif
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import textwrap
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from Bio import SeqIO, SeqUtils, motifs
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from Bio.Seq import Seq
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import math
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print("""
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-----------------------------------------------------------------
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Demo: Calculate sequence complexity
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-----------------------------------------------------------------
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""")
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def sequence_complexity(sequence: Seq) -> float:
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"""
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Complexity is defined as:
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1 / N * log_D( N! / (n_A! * n_C! * n_T! * n_G! ) )
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Where:
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D = 4 (alphabet size),
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N = Total length of sequence,
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n_X = number of nucleotide X in sequence
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AAAAAAAA -> less complex
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ATCGATCG -> more complex
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"""
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n_A = sequence.count("A")
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n_T = sequence.count("T")
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n_C = sequence.count("C")
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n_G = sequence.count("G")
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return 1 / len(sequence) * math.log(
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(
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math.factorial(len(sequence)) / (
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math.factorial(n_A) *
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math.factorial(n_T) *
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math.factorial(n_C) *
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math.factorial(n_G)
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)
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),
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4 # base
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)
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# print(textwrap.dedent(sequence_complexity.__doc__))
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print(f'Sequence\tComplexity')
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print(f'--------\t----------')
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for i in [
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'AAAAAAAA',
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'AAAAAAAAAAAA',
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'ATCGATCG',
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'ATCGATCGATCG',
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'ATATATAT',
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'ACTACTAA',
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'AAAAAATA',
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]:
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print(f'{i}\t{sequence_complexity(i)}')
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print("""
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-----------------------------------------------------------------
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Demo: Generate a consensus sequence based on a collection
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of variations
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-----------------------------------------------------------------
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""")
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variations = [
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Seq("CAGTT"),
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Seq("CATTT"),
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Seq("CAGTA"),
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Seq("CAGTT"),
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Seq("CAGTA")
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]
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motif = motifs.create(variations)
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print("value counts:\n", motif.counts)
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print("consensus: ", motif.degenerate_consensus)
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print("""Get more common consensus sequences from JASPAR, e.g.:
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https://jaspar.genereg.net/matrix/MA0447.1/""")
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print("""
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-----------------------------------------------------------------
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Demo: find a common promoter motif in the E. Coli Genome
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-----------------------------------------------------------------
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""")
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# Using promoters from:
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# https://en.wikipedia.org/wiki/Promoter_(genetics)#Bacterial
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promoter_consensus = Seq('AAAAAARNR')
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# define genome sequence
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genome: Seq = None
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# load e-coli genome
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with open('./data/e-coli.gb', "r") as file:
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gb_file = SeqIO.parse(file, 'genbank')
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# genome we want is first item in the genbank file
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data = next(gb_file)
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print('Genome Data')
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print('-----------')
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print(f'id: {data.id}')
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print(f'len: {len(data.seq)} bp\n')
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genome = data.seq
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# search for promoter seq
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result = SeqUtils.nt_search(str(genome), promoter_consensus)
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print('Search Results')
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print('----------------')
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print(f'''original search sequence: {str(promoter_consensus)}
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translated sequence: {result[0]}
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indices of first 4 instances: {result[1:5]}
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contents of first 4 instances:
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{[str(genome[result[i]:result[i]+len(promoter_consensus)]) for i in range(1,5)]}
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''')
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