Being Turing complete is really a pretty low bar for real-world languages. According to Wikipedia (emphasis mine):

To show that something is Turing complete, it is enough to show that
it can be used to simulate some Turing complete system. For example,
an imperative language is Turing complete if it has **conditional**
**branching** (e.g., "if" and "goto" statements, or a "branch if zero"
instruction. See OISC) and the **ability to change arbitrary memory**
**locations** (e.g., the ability to maintain an arbitrary number of
variables). Since this is almost always the case, most if not all
imperative languages are Turing complete if we ignore any limitations
of finite memory.

Beyond that, MATLAB has many of the features you would expect from a relatively modern 3GL/4GL. It is complete with a VM, I/O, user interface constructs, mathematical operators (obviously), datatypes, user-defined-functions, etc. You can even deliver Matlab programs outside the Matlab environment.

Note that whether or not it's a **good** language is an entirely different question.