Python lists are implemented using a resizeable array of references to other objects. This provides O(1) lookup compared to O(n) lookup for a linked list implementation.
See How are lists implemented?
As you mentioned, this implementation makes insertions into the beginning or middle of a Python list slow because every element in the array to the right of the insertion point has to be shifted over one element. Also, sometimes the array will have to be resized to accommodate more elements. For inserting into a linked list, you'll still need O(n) time to find the location where you will insert, but the actual insertion itself will be O(1), since you only need to change the references in the nodes immediately before and after your insertion point (assuming a doubly-linked list).
So the decision to make Python lists use dynamic arrays rather than linked lists has nothing to do with the "maturity" of the language implementation. There are simply trade-offs between different data structures and the designers of Python decided that dynamic arrays were the best option overall. They may have assumed indexing a list is more common than inserting data into it, thus making dynamic arrays a better choice in this case.
See the following table in the Dynamic Array wikipedia article for a comparison of various data structure performance characteristics: