If you plan to use the memory engine of MySQL, there are a few gotchas:
by default, indexes are implemented using hash tables rather than btrees. If you need to sort the data, or range support, using btrees may be more interesting.
locking granularity is the table. There is a R/W lock to protect against concurrent DML operations. While raw performance is not bad, scalability is not very good when you have many writers at the same time.
all rows have a fixed width (beware if you need to store varchars ...)
Furthermore, like most others RDBMS, MySQL protocol is synchronous. Each time the clients will write into the database, they will wait for a reply. If you have a lot of data, batching writes operations is almost mandatory to get good performance.
It really depends on the volume, number of clients, and throughput. If the requirements are low, then any storage solution (including MySQL) will work fine. Now if more performance or more scalability are required, then other solutions will likely be better.
What you want to write is probably a DIRT application (data intensive real time). Good storage solutions for this are MongoDB (upserts support, oneway protocol for write operations, etc ...) and Redis (in-memory, O(1) operations, pipelining, etc ...).
Depending on your needs, data modeling and processing will be arguably easier with MongoDB due to btree indexes and map/reduce support. It will probably be a bit more complex with Redis, but if you choose the correct data structure, you will end up with more deterministic performance.
Finally, you might also want to avoid storing the data by processing them on the fly. You can achieve this with a streaming engine such as the ones used on high-speed trading platforms. For instance if you are ready to code in Java, ESPER is an excellent CEP solution to process data streams and/or establish correlations between streams using a SQL-like language.