what you mean by cDNA?

I haven't dealt with RNA Seq data before... but isn't the difference just the non-coding portions of the mRNAs? I.e. 5' and 3' UTRs.

Mapping to coding sequences only would not include UTRs, whereas cDNA would.

It's just as Jeremy37 says. cDNA contains in addition to the coding parts also the UTRs.

Maybe there's just a huge bias towards UTRs when doing 454 sequencing.
For now i will be checking this phenomenon on different datasets.

A bias toward UTRs might arise from the protocol used to prepare your samples. For example, if you amplified your material using oligo-dT primers, you'll have a bias toward the 3'UTRs.

Sisch, I still don't understand the problem. Why do you think it's wrong that a 0.4 fraction of reads maps to CDS and 0.6 maps to cDNA? You don't think the UTRs could be that long?

I don't know what the average is, but some UTRs are very long. You could calculate the expected fraction by comparing the same genes in CCDS vs. Refseq. To match your numbers you would expect the UTRs to comprise about half as much sequence as the CDS (since 0.6 is 50% more than 0.4).

@Eric: I just checked the library protocol again. It was a random primed amplification.
@Jeremy37: It's pretty much, that I didn't really understand, why I had a so much better mapping to cDNA than to cds. Now on second thought, the mapping to UTRs could make up for the 20%. Maybe I got a bit distracted, that less than 40% mapped, so I looked for a flaw in either sequencing or processing.

Thank you all for your contributions. I consider this thread as solved with the following conclusion for future readers:

A better mapping to cDNA in contrast to cds has no further implications on the sequencing, as long as the better mapping can be explained by sequence information derived from the UTRs (which won't map on cds obviously)