A Program Transformation System is a tool that parses source text, builds ASTs, allows you to modify them using source-to-source transformations ("if you see this pattern, replace it by that pattern"). Such tools are ideal for doing mutation of existing source codes, which are just "if you see this pattern, replace by a pattern variant".
Of course, you need a program transformation engine that can parse the language of interest to you, and still do the pattern-directed transformations. Our DMS Software Reengineering Toolkit is a system that can do that, and handles Python, and a variety of other languages.
See this SO answer for an example of a DMS-parsed AST for Python capturing comments accurately. DMS can make changes to the AST, and regenerate valid text, including the comments. You can ask it to prettyprint the AST, using its own formatting conventions (you can changes these), or do "fidelity printing", which uses the original line and column information to maximally preserve the original layout (some change in layout where new code is inserted is unavoidable).
To implement a "mutation" rule for Python with DMS, you could write the following:
rule mutate_addition(s:sum, p:product):sum->sum =
" \s + \p " -> " \s - \p"
This rule replace "+" with "-" in a syntactically correct way; it operates on the AST and thus won't touch strings or comments that happen to look right. The extra condition on "mutate_this_place" is to let you control how often this occurs; you don't want to mutate every place in the program.
You'd obviously want a bunch more rules like this that detect various code structures, and replace them by the mutated versions. DMS is happy to apply a set of rules. The mutated AST is then prettyprinted.