Since `f[#]&`

is shorthand for `Function[f[#]]`

you should always complete your anonymous function with a trailing `&`

to get a working function.
In your example:

```
userlist={#1, Name[#1], Age[#1]}&
ParallelMap[userlist, IDnumbers]
```

**More thorough explanation:**

By just using something like `f[#]`

you get (in `FullForm[]`

)

```
In[15] := f[#] // FullForm
Out[15]//FullForm = f[Slot[1]]
```

whereas this gets transformed to a Function by the trailing `&`

operator:

```
In[16] := f[#]& // FullForm
Out[16]//FullForm = Function[f[Slot[1]]]
```

If you do this in two steps, `&`

doesn't evaluate the intermediate variable `expr`

:

```
In[25]:= expr = f[#]//FullForm
In[26]:= expr &
Out[25]//FullForm = f[Slot[1]]
Out[26] = expr &
```

You can force the evaluation of `expr`

before it gets wrapped in the `Function[]`

by using `Evaluate[]`

:

```
In[27]:= expr=f[#]//FullForm
In[28]:= Evaluate[expr]&
Out[27]//FullForm = f[Slot[1]]
Out[28] = f[Slot[1]]&
```

Another way is to supply the `Function[]`

wrapper yourself:

```
userlist={#1, Name[#1], Age[#1]}
ParallelMap[Function[userlist], IDnumbers]
```

Personally, i would consider this bad coding style. Just get used to always finishing an anonymous function with a trailing `&`

like you would supply a closing paranthesis `)`

to a corresponding opening one `(`

.

**Edit**
Ok, in your case of a dynamically generated anonymous function i can see why you couldn't supply the `&`

directly. Just wrap the expression with the `Slot[]`

s in a `Function[]`

instead.