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061_ITWV.py
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061_ITWV.py
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#!/usr/bin/env python
'''
A solution to a ROSALIND bioinformatics problem.
Problem Title: Finding Disjoint Motifs in a Gene
Rosalind ID: ITWV
Rosalind #: 061
URL: http://rosalind.info/problems/itwv/
'''
def check_interweave(dna1, dna2, superstr):
'''Checks if two dna stands can be interwoven into a superstring.'''
if len(superstr) == 0:
return True
elif dna1[0] == dna2[0] == superstr[0]:
return check_interweave(dna1[1:], dna2, superstr[1:]) or check_interweave(dna1, dna2[1:], superstr[1:])
elif dna1[0] == superstr[0]:
return check_interweave(dna1[1:], dna2, superstr[1:])
elif dna2[0] == superstr[0]:
return check_interweave(dna1, dna2[1:], superstr[1:])
else:
return False
if __name__ == '__main__':
from numpy import zeros
# Read the input data.
with open('data/rosalind_itwv.txt') as input_data:
superstr = input_data.readline()
dna = [line.strip() for line in input_data.readlines()]
# Initialize the zero matrix.
M = zeros((len(dna), len(dna)), dtype=int)
# Run through all combinations of dna strings.
for i in xrange(len(dna)):
for j in xrange(len(dna)):
if i <= j:
# Count the combined number of each type of nucleotide in given dna strands.
current_profile = [(dna[i]+dna[j]).count(nucleotide) for nucleotide in 'ACGT']
# Compare the current profile to each substring of the same length in the superstring.
for index in xrange(len(superstr)-len(dna[i])-len(dna[j])+1):
# Having an identical profile is a necessary condition in order to be interweavable, but less computationally intensive.
if current_profile == [superstr[index:index+len(dna[i])+len(dna[j])].count(nucleotide) for nucleotide in 'ACGT']:
# Check interweavability if the profiles match, add an extra character outside the alphabet to avoid index out of range errors.
if check_interweave(dna[i]+'$', dna[j]+'$', superstr[index:index+len(dna[i])+len(dna[j])]):
M[i][j] = 1
break
# The comparison are symmetric, so we've already done these computations.
else:
M[i][j] = M[j][i]
# Print and save the answer.
print '\n'.join([' '.join(map(str, M[i])) for i in xrange(len(dna))])
with open('output/061_ITWV.txt', 'w') as output_data:
output_data.write('\n'.join([' '.join(map(str, M[i])) for i in xrange(len(dna))]))