As explained in the comments, you can forget about building a list of all primes between 10^300 and 10^301 and picking one randomly - there's orders of magnitudes too many primes in that range for that to work.
The only practical approach, as far as I can see, is to randomly pick a number from the range, then test if it is prime. Repeat until you find a prime.
For the primality testing, that's a whole subject by itself (libraries [in the book sense] have been written about it). Basically you first do a few quick tests to discard numbers that are obviously not prime, then you bring out the big guns and use one of the common primality tests (Miller-Rabin (iterated), AKS, ...). I don't know enough to recommend one, but that's really a topic for research-level maths, so you should probably head over to http://math.stackexchange.com/ .
See e.g. this question for a starting point and some simple recipes:
How do you determine if a number is prime or composite?
About your code:
The code you post basically does just what I described, however it uses an extremely naive primality test (trial division by all numbers 1...sqrt(n)). That's why it's so slow. If you use a better primatlity test, it will be orders of magnitude faster.