I am looking for studies on how many protein isoforms have different functions, preferably in human. We know that a great many, if not most, of human genes are alternatively spliced and that many produce different protein isoforms. Has anyone looked at how many of these isoforms have different cellular functions? If someone could point me to a published paper, that would be great.

If no such study has been made, can anyone recommend a database from which this information could be extracted? GeneOntology is gene based so the information cannot be found there. Genes will be annotated to specific terms, not their protein isoforms. Also, I would need to be able to do this in a high throughput manner, I am not interested in specific proteins but in what percentage of all isoforms have different functions.

Ideally, I would like to be able to extract, for every human gene, the list of the different protein isoforms it encodes and whether their functions differ, or at least what those functions are.

You might find the information you seek for a few well characterized genes but in general there's still a lot of genes without a well-established function. For most organisms, except perhaps human and mouse, there is not even a good (or any) description of different isoforms.

I would be very interested in such data but right now I think is science fiction since establish the function of only one gene (and isoforms) might take years of experiments.

UPDATE The only thing you could do in well annotated species, like human or mouse, is studying the expression of different ratios of isoforms in different conditions/species. Such information can be extracted from RNAseq experiments with Flux capacitor http://flux.sammeth.net/capacitor.html

I think the simple answer is that this hasn't been done yet for the whole proteome (to the best of my knowledge). There have been a few attempts for different tissue types, looking at which exons are expressed in different tissues.

There were a couple of articles highlighted in Nature Reviews Genetics last year about this topic.

If you just want the list of isoforms of each protein then UniProt will have that information. Unfortunately I don't think the information about the function of alternative transcripts is all that well characterised. At best I'd imagine you'd get tissue specificity but even then its not complete.

Huh. I've never seen that addressed specifically. An interesting challenge.

But I guess I'd also ask: which protein isoforms don't change function? And why bother making different ones then?

Another issue would be alterations in non-coding regions like 3' UTRs. There seemed to be tissue-specific reasons for some that I've seen, and that might not affect the protein sequence but might affect function still. Or maybe not. So those could be splicing variants that don't change function.