A possible role of exon-shuffling in the evolution of signal peptides of human proteins

It was recently shown that there is a predominance of phase 1 introns near the cleavage site of signal peptides encoded by human genes [Tordai, H. and Patthy, L. (2004) Insertion of spliceosomal introns in proto-splice sites: the case of secretory signal peptides. FEBS Lett. 575, 109–111]. It was suggested that this biased distribution was due to intron insertion at AG∣G proto-splice sites. However, we found that there is no disproportional excess of AG∣G that would support insertion at proto-splice sites. In fact, all nG∣G sites are enriched in the vicinity of the cleavage site. Additional analyses support an alternative scenario in which exon-shuffling is largely responsible for such excess of phase 1 introns.