I think this is an interesting way of going about it.
If we ignore the type signature for the moment and look at the function:
numberList a b = [x | x <- a !! n, n <- b]
we see that n is called in the first condition of the list-comprehension:
x <- a !! n
but n is only defined after that, in the second condition:
n <- b
This leads to an error: Not in scope: `n'
So the first thing to do might be to switch the first and second conditions:
numberList a b = [x | n <- b, x <- a !! n]
Now asking GHCi about the type, we get:
Prelude> :t numberList
numberList :: [[t]] -> [Int] -> [t]
GHC expects parameter a to be a list of lists and parameter b to be a list of ints. This is because n is drawn from b and anything on the right side of <- in a list comprehension must be a list. Since n is used as a parameter for !!, GHC assumes that n is an int and b is a list of ints.
Now GHC assumes that x is also coming from some kind of list. So we know that GHC assumes a !! n is a list. But since by definition, a !! n is the element of list a at position n, we see why GHC assumes a is a list of lists -- because GHC assumes the element of list a at position n is the list from which x is drawn.
Here's a working example:
Prelude> numberList [[1,2,3,4,5,6]] 
Here GHC indeed shows us the element of list a at position 0, which is the list [1..6]. Unfortunately, this does not allow us to conveniently get at the positions inside the list, as we would like. An alternate way to still use a list comprehension may be to define a new list 'c' that contains the element we are after (a !! n) and draw x from this new list, like so:
Prelude> let numberList a b = [x | n <- b, let c = [a !! n], x <- c]
Prelude> numberList [1,2,3,4,5,6,3] 
It seems a bit convoluted, though, since we can simply use !! to get the element of a at position b directly:
Prelude> let numberList a b = a !! b
Prelude> numberList [1,2,3,4,5,6] 2