They act like that because the spec says so (and it's pretty nice) :
1.28 Value types
A value type is either a struct type or an enumeration type. C# provides a set of predefined struct types called the simple types.
The simple types are identified through reserved words.
1.28.4 Simple types
C# provides a set of predefined struct types called the simple types.
The simple types are identified through reserved words, but these
reserved words are simply aliases for predefined struct types in the
System namespace, as described in the table below.
Because a simple type aliases a struct type, every simple type has
members. For example, int has the members declared in System.Int32 and
the members inherited from System.Object, and the following statements
int i = int.MaxValue; // System.Int32.MaxValue constant
string s = i.ToString(); // System.Int32.ToString() instance method
string t = 123.ToString(); // System.Int32.ToString() instance method
The simple types differ from other struct types in that they permit
certain additional operations:
Most simple types permit values to be created by writing literals
(§1.16.4). For example, 123 is a literal of type int and 'a' is a
literal of type char. C# makes no provision for literals of struct
types in general, and nondefault values of other struct types are
ultimately always created through instance constructors of those
As the spec explains simple types have some super powers like the ability to be
const, a special literal syntax that could be used instead of new, and the capacity to be computed at compilation time (2+2 is actually written as 4 in the final MSIL stream)
But methods (as well as operators) aren't a special super powers and all structs could have them.
The specification (for C# 4.0, my copy paste is from an earlier version) could be downloaded from the microsoft website : C# Language Specification 4.0