This "trick" is just a particular instance of applying a slice operation to a sequence. You can use it to produce a reversed copy of a list or a tuple as well. Another "trick" from the same family:
[:] is often used to produce a (shallow) copy of a list.
"What's new in Python 2.3" is an unexpected entry point into the maze. Let's start at a more obvious(?) place, the current 2.X documentation for sequence objects.
In the table of sequence operations, you'll see a row with Operation = s[i:j:k], Result = "slice of s from i to j with step k", and Notes = "(3)(5)".
Note 3 says "If i or j is negative, the index is relative to the end of the string: len(s) + i or len(s) + j is substituted. But note that -0 is still 0."
Note 5 says "The slice of s from i to j with step k is defined as the sequence of items with index x = i + n*k such that 0 <= n < (j-i)/k. In other words, the indices are i, i+k, i+2*k, i+3*k and so on, stopping when j is reached (but never including j). If i or j is greater than len(s), use len(s). If i or j are omitted or None, they become “end” values (which end depends on the sign of k). Note, k cannot be zero. If k is None, it is treated like 1."
We have k == -1, so the indices used are i, i-1, i-2, i-3 and so on, stopping when j is reached (but never including j). To obtain the observed effect, the "end" value used for i must be
len(s)-1, and the "end" value used for j must be -1. Thus the indices used are last, last-1, ..., 2, 1.
Another entry point is to consider how we might produce such a result for any sequence if
[::-1] didn't exist in the language:
for x in range(len(s) - 1, -1, -1):