Linux uses advisory locks, so nothing actually prevents you from modifying a file that's being read/written by another process. If your programs lock the files they are working on, one of the two will complain about the file being opened by some other program.
What usually happens when a file is concurrently modified is data corruption.
Anyhow, this is quite rare, because files are seldom modified. What most commonly happens is that the original file is removed/truncated, and a new one is added in its place.
When a file is removed, Linux assigns a new inode to the new file, so, the old file remains accessible by its previous inode.
When a file is truncated, it should keep the same inode (I'm unsure, though). Anyway, if some other process was accessing the file, it will get an I/O error, because it was at location X, and when it tries to read location X+1 it gets an error, because the file has now a 0 length, a X+1 is out of range. By examining the situation, a program can determine that the size of the file has changed, which means it's being concurrently modified.
To summarize, on Linux, synchronization of I/O operations is responsibility of the single processes, which can ask the OS for a help, but they are not forced to.