Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I want to find all the possible gametes of a specific cross.

For example: 'AABB' x 'aabb' would be split into ['AA', 'BB'] and ['aa', 'bb']. I have that part done. After this, it should return: [['Aa', 'Aa', 'Aa', 'Aa'], ['Bb', 'Bb', 'Bb', 'Bb']] (for every allele in parent 'A', it matches with an allele in parent 'B'; this is a simplified Punnett Square).

This is what I have so far:

def punnett(a, b):
    n = int(len(a)/2)
    x = int(float(len(a)) / n)
    partsA, partsB, gametes = [a[i * x : i * x + x] for i in range(n)], [b[i * x : i * x + x] for i in range(n)], []
    for y in range(1, n):
        g = []
        for index in range(0, n/2 + y):
            for i in partsA[index]:
                for j in partsB[index]:
    return gametes

It doesn't result in what I expected it would, though:

>>> punnett('AaBb', 'AaBb')
[['AA', 'Aa', 'aA', 'aa', 'BB', 'Bb', 'bB', 'bb']]

Also, a trihybrid cross does not give the results I expected, either:

>>> punnett('AaBbCc', 'AaBbCc')
[['AA', 'Aa', 'aA', 'aa', 'BB', 'Bb', 'bB', 'bb'], ['AA', 'Aa', 'aA', 'aa', 'BB', 'Bb', 'bB', 'bb', 'CC', 'Cc', 'cC', 'cc']]

If I could get input on what I'm doing wrong and how I could improve it, that would be great. Thanks!

share|improve this question
@JBernardo Can you please expand on this? I'm not very familiar with those functions (I've only used itertools.permutations before). –  Rushy Panchal Mar 2 '13 at 4:16

1 Answer 1

up vote 1 down vote accepted

OK, I just read some materials on what you might want to achieve, and here is the changes

>>> from itertools import product, izip

If I understand correctly, an allele is consecutive characters ignoring case. In case of "AaBb" its ['Aa', and 'Bb']

>>> def allele(e):
    return [list(v) for _, v in groupby(e, key = str.lower)]

A Cross is defined as all possible crossover of the allele between the material and the parent

Followed by selection of the new genome from the crossover

>>> def punnett(a, b):
    return [''.join(e)
        for e in product(*([''.join(e) for e in product(*e)]
                    for e in izip(allele(a), allele(b))))]

>>> punnett('AaBbCc', 'AaBbCc')
['AABBCC', 'AABBCc', 'AABBcC', 'AABBcc', 'AABbCC', 'AABbCc', 'AABbcC', 'AABbcc', 'AAbBCC', 'AAbBCc', 'AAbBcC', 'AAbBcc', 'AAbbCC', 'AAbbCc', 'AAbbcC', 'AAbbcc', 'AaBBCC', 'AaBBCc', 'AaBBcC', 'AaBBcc', 'AaBbCC', 'AaBbCc', 'AaBbcC', 'AaBbcc', 'AabBCC', 'AabBCc', 'AabBcC', 'AabBcc', 'AabbCC', 'AabbCc', 'AabbcC', 'Aabbcc', 'aABBCC', 'aABBCc', 'aABBcC', 'aABBcc', 'aABbCC', 'aABbCc', 'aABbcC', 'aABbcc', 'aAbBCC', 'aAbBCc', 'aAbBcC', 'aAbBcc', 'aAbbCC', 'aAbbCc', 'aAbbcC', 'aAbbcc', 'aaBBCC', 'aaBBCc', 'aaBBcC', 'aaBBcc', 'aaBbCC', 'aaBbCc', 'aaBbcC', 'aaBbcc', 'aabBCC', 'aabBCc', 'aabBcC', 'aabBcc', 'aabbCC', 'aabbCc', 'aabbcC', 'aabbcc']
>>> punnett('AaBb', 'AaBb')
['AABB', 'AABb', 'AAbB', 'AAbb', 'AaBB', 'AaBb', 'AabB', 'Aabb', 'aABB', 'aABb', 'aAbB', 'aAbb', 'aaBB', 'aaBb', 'aabB', 'aabb']
share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.