As John Machlin said you can't actually sort a Python dictionary.
However, you can create an index of the keys which can be sorted in any order you like.
The preferred Python pattern (idiom) for sorting by any alternative criterium is called "decorate-sort-undecorate" (DSU). In this idiom you create a temporary list which contains tuples of your key(s) followed by your original data elements, then call the normal .sort() method on that list (or, in more recent versions of Python simply wrap your decoration in a called to the sorted() built-in function). Then you remove the "decorations."
The reason this is generally preferred over passing comparison function to the .sort() method is that Python's built-in default sorting code (compiled C in the normal C Python) is very fast and efficient in the default case, but much, much slower when it has to call Python object code many, many times in the non-default case. So it's usually far better to iterate over the data creating data structures which can be passed to the default sort routines.
In this case you should be able to use something like:
[y for y in sorted([(myDict[x], x) for x in myDict.keys()])]
... that's a list comprehension doing the undecorate from the sorted list of tuples which is being returned by the inner list comprehension. The inner comprehension is creating a set of tuples, your desired sorting key (the 3rd element of the list) and the dictionary's key corresponding to the sorting key. myDict.keys() is, of course, a method of Python dictionaries which returns a list of all valid keys in whatever order the underlying implementation chooses --- presumably a simple iteration over the hashes.
A more verbose way of doing this might be easier to read:
temp = list()
for k, v in myDict.items():
results = list()
for i in temp:
Usually you should built up such code iteratively, in the interpreter using small data samples. Build the "decorate" expression or function. Then wrap that in a call to sorted(). Then build the undecorate expression (which is usually as simple as what I've shown here).