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.