# How to generate subpeptides (special combinations) from a string representing a cyclic peptide?

Here is my problem: I have a sequence representing a cyclic peptide and I'm trying to create a function that generate all possible subpeptides. A subpeptide is created when bonds between 2 aminoacids are broken. For example: for the peptide 'ABCD', its subpeptides would be 'A', 'B', 'C', 'D', 'AB', 'BC', 'CD', 'DA', 'ABC', 'BCD', 'CDA', DAB'. Thus, the amount of possible subpeptides from a peptide of length n will always be n*(n-1). Note that not all of them are substrings from peptide ('DA', 'CDA'...).

I've written a code that generate combinations. However, there are some excessive elements, such as not linked aminoacids ('AC', 'BD'...). Does anyone have a hint of how could I eliminate those, since peptide may have a different length each time the function is called? Here's what I have so far:

``````def Subpeptides(peptide):
subpeptides = []
from itertools import combinations
for n in range(1, len(peptide)):
subpeptides.extend(
[''.join(comb) for comb in combinations(peptide, n)]
)
return subpeptides
``````

Here are the results for peptide 'ABCD':

``````['A', 'B', 'C', 'D', 'AB', 'AC', 'AD', 'BC', 'BD', 'CD', 'ABC', 'ABD', 'ACD', 'BCD']
``````

The order of aminoacids is not important, if they represent a real sequence of the peptide. For example, 'ABD' is a valid form of 'DAB', since D and A have a bond in the cyclic peptide.

I'm using Python.

-
Would 'DAB' and 'ABD' not be considered the same peptide? –  Cody Piersall Nov 1 '13 at 0:55
They are considered the same because the broken bonds are still C-D and C-B. The order is not the same, but since I'm working with their masses, it's not important. Good observation, though. –  Vinícius Rodovalho Nov 7 '13 at 5:39

it's probably easier to just generate them all:

``````def subpeptides(peptide):
l = len(peptide)
looped = peptide + peptide
for start in range(0, l):
for length in range(1, l):
print(looped[start:start+length])
``````

which gives:

``````>>> subpeptides("ABCD")
A
AB
ABC
B
BC
BCD
C
CD
CDA
D
DA
DAB
``````

(if you want a list instead of printing, just change `print(...)` to `yield ...` and you have a generator).

all the above does is enumerate the different places the first bond could be broken, and then the different products you would get if the next bond broke after one, two, or three (in this case) acids. `looped` is just an easy way to avoid having the logic of going "round the loop".

-
Plus 1 for the `looped` variable. –  Cody Piersall Nov 1 '13 at 0:42
Thanks a lot! Such a simple, elegant solution! –  Vinícius Rodovalho Nov 7 '13 at 5:32
@ViníciusRodovalho no problem. if you click the "tick" by the side of the voting buttons (top left of my answer) this will be marked correct and your question closed (which will give me points and encourage people to answer your questions in future). –  andrew cooke Nov 7 '13 at 12:11

Last term is missed you can use below code

``````def subpeptides(peptide):
l = len(peptide)
ls=[]
looped = peptide + peptide
for start in range(0, l):
for length in range(1, l):
ls.append( (looped[start:start+length]))
ls.append(peptide)
return ls
``````
-

you can use this one

``````>>>aa='ABCD'
>>> F=[]
>>> B=[]
>>> for j in range(1,len(aa)+1,1):
for i in range(0,len(aa),1):
A=str.split(((aa*j)[i:i+j]))
B=B+A
C=(B[0:len(aa)*len(aa)-len(aa)+1])
``````

it gives you:

C=['A', 'B', 'C', 'D', 'AB', 'BC', 'CD', 'DA', 'ABC', 'BCD', 'CDA', 'DAB', 'ABCD']

i hope this helps , btw im doing the coursera course too if it would be of interest joining up forces , let me know

-