It depends a bit on which implementation you are using, and what you are doing.
First, in the de facto standard implementation of python ("cpython"), only one thread is allowed to run at a time since some internals of the python interpreter aren't thread-safe. This is controlled by the Global Interpreter Lock (aka "GIL"). So in cpython, you don't really need extra locks at all; the GIL makes sure that only one thread at a time is running python code and possibly changing variables. This is a feature of the implementation, not of the language.
Second, if only one thread writes to a simple variable and others only read it you don't need a lock either, for obvious reasons. It is however up to you as the programmer to make sure that this is the case, and it is easy to make mistakes with that.
Even assinging to a simple variable might not need a lock. In python variables are more like labels used to refer to an object, rather than boxes where you can put something in. So simple assignments are atomic (in the sense that they cannot be interrupted halfway), as you can see when you look at the generated python bytecode:
In : import dis
In : x = 7
In : def setx():
x = 12
In : dis.dis(setx)
3 0 LOAD_CONST 1 (12)
3 STORE_GLOBAL 0 (x)
6 LOAD_CONST 0 (None)
The only code that changes x is the single
STORE_GLOBAL opcode. So the variable is either changed or it isn't; there is no inconsistent state inbetween.
But if you e.g. want to test a variable for a certain value, and perform an action while that test still holds true, you do need a lock. Because another thread could have changed the variable just after you tested it.
Things like appending to a list or swapping variables are not atomic. But again in cpython these would be protected by the GIL. In other implementations you'd need a lock around such operations to protect against possible inconsistencies.