You have to be aware that type variables in type signatures carry an implicit `forall`

.

So the signature

```
x :: a
```

means that `x`

can have any type, while in

```
x `asTypeOf` (undefined :: a)
```

it's `undefined`

that is polymorphic, and its type is coerced to `x`

's type by the use of `asTypeOf`

.

So these two do entirely different things.

In the case of the linked question,

```
f `asTypeOf` (undefined :: Maybe a)
```

involves two coercions, on the one hand, the type variable `a`

is coerced by `f`

's type, and on the other, the monad in `f`

's type is coerced to `Maybe`

.

In response to the edit: A signature

```
x :: Maybe a
```

still promises that `x`

can have *every* `Maybe`

type. If somebody wants to use it as a `Maybe Bool`

, that's possible. As a `Maybe (Either (IO [Int]) (Double, (), Rational))`

too.

But in

```
x `asTypeOf` (undefined :: Maybe a)
```

the forall'ed type variable `a`

can be refined by `x`

's static type. If that is `Monad m => m SomeComplicatedType`

, the expression type signature on `undefined`

coerces the type variable `m`

in `x`

's type, and the type parameter of `m`

refines the type variable `a`

from `undefined`

's expression type signature.

If an expression type signature `x :: a`

had the semantics of `x `asTypeOf` (undefined :: a)`

, the current semantics of `x :: a`

wouldn't be expressible by expression type signatures anymore.