Without further context, I would say that the maximum number of bytes for a character in UTF-8 is
answer: 6 bytes
The author of the accepted answer correctly pointed this out as the "original specification", but I think this misleads the reader, because as far as I know, this is still the current and correct specification, per wikipedia, and per a Google book on UTF-8 in Java.
The RFC referenced in the accepted answer states that only four bytes are relevant to a UTF-16 encoding, so that is correct only if we add context
answer if translating only characters from UTF-16 to UTF-8: 4 bytes
Now, are all of the characters which can be represented by UTF-16 useful? According to wikipedia again, unicode can represent up to x10FFFF code points. So, including 0, that means we can do it with these bytes: F FF FF, i.e. two-and-a-half bytes, or 20 bits. Looking back at the UTF-8 spec, we see that we can represent 20 bits with up to four UTF-8-encoded bytes. So
answer if covering all unicode: 4 bytes
But, in Java <= v7, they talk about a 3-byte maximum for representing unicode with UTF-8? That's because the original unicode specification only defined the basic multi-lingual plane (BMP), i.e. it is an older version of unicode, or subset of modern unicode. So
answer if representing only original unicode, the BMP: 3 bytes
But, the OP talks about going the other way. Not from characters to UTF-8 bytes, but from UTF-8 bytes to a "String" of bytes representation. Perhaps the author of the accepted answer got that from the context of the question, but this is not necessarily obvious, so may confuse the casual reader of this question.
Going from UTF-8 to native encoding, we have to look at how the "String" is implemented. Some languages, like Python >= 3 will represent each character with integer code points, which allows for 4 bytes per character = 32 bits to cover the 20 we need for unicode, with some waste. Why not exactly 20 bits? Because things are faster when they are byte-aligned. Some languages like Python <= 2 and Java represent characters using a UTF-16 encoding, which means that they have to use surrogate pairs to represent extended unicode (not BMP). Either way that's still 4 bytes maximum.
answer if going UTF-8 -> native encoding: 4 bytes
So, final conclusion, 4 is the most common right answer, so we got it right. But, in certain contexts you should be careful. E.g., don't expect that you can represent whatever you read from a UTF-8 stream in a maximum of 4 bytes. If it's not unicode, you may need up to 6 bytes.