I am anxious about @Templar's explanation, though the technical details are correct, I worry about getting the terminology right.
There is no assigning going on here. There is only unification. What we're asking Prolog to do here is unify
[_, X, _, Y|_] with
[, dead(z), [2, [b, c]], , Z]. It is of no consequence on which side there are values or variables. Rather than imagine Prolog walking down the left side and then the right when it can't go on, it might be safer to imagine the lists being zipped together.
First, Prolog tries to unify _ with . This trivially succeeds, because the _ means "I don't care". No bindings are established by this unification.
Next, Prolog tries to unify X with
dead(z). This trivially succeeds, because X was unbound, and this establishes a binding,
X = dead(z). Because this variable does not start with the underscore, Prolog figures you'd be interested in this binding, so it reports it to you.
Next, Prolog tries to unify _ with
[2, [b, c]]. Again, this trivially succeeds without establishing a binding.
Next, Prolog tries to unify Y with , again trivially succeeding, but this time establishing the binding Y =  which it reported to you.
Before the next step, you have to get a notational change. In Prolog,
[X|T] is the list that starts with X and continues with T. So,
[X|_] unifies X with the first element of a list and discards the tail. So in this case the
|_] essentially says, there may be more to this list, but I don't care especially to know what it is. (By the way, the empty list would match.)
Next, Prolog tries to unify the anonymous tail
|_ with Z. This, again, trivially succeeds because Z is not bound. Prolog created an anonymous variable and bound it to Z, so this establishes a binding.
So, the same information as @Templar gave, but with slightly different vocabulary, here for your amusement.