No, this is not possible. It's mainly caused by the differences between C++ templates and C# generics:
When you compile C++ template, the resulting code has types like
vector<string>. This means the compiler has to know all the possible type parameters, but it also means it can check them for correctness.
When you compile C# generic type, you are actually creating just one generic type:
List<T>. Because of this, the C# compiler doesn't have to know all the possible types at compile type, which means you can have generic types in binary libraries, which is not possible with C++. But this also means that you can't check all the types. To be able to do something like that, there are constraints, but they can't do several things C++'s compile time checking can, like checking the presence of certain methods (without using interface or some base class) or the presence of suitable operators.
In C# 4, you can achieve effect somewhat similar to this kind of templates using
dynamic, but this does no compile-time checking, which means you lose safety – you can put in a type that doesn't have the appropriate members and you won't find out until you reach that line of code at runtime.