The new website CoSMoS.c. – Conserved Sequence Motif in Saccharomyces cerevisiae – may be of interest to investigators who study protein modifications in budding yeast. The new web-based search algorithm scores conservation of amino acid sequences based on whole-genome sequencing of 1000+ wild and domesticated yeast isolates.
In the recent publication describing the method, Li and Dohlman examined each of the 550 pairs of duplicated genes in S. cerevisiae , integrating 38,000+ documented post-translational modifications (PTMs), and 30,000+ reported interactions between protein kinases and substrates (all obtained from SGD!). More than 3,500 instances were identified where only one of two paralogous proteins undergoes a PTM despite having retained the same amino acid residue in both. Li and Dohlman found that the most common modifications – phosphorylation, ubiquitylation and acylation, but not N-glycosylation – occur in regions of high sequence conservation. The analysis indicates that differences in PTMs may be an important source of protein neo- or sub-functionalization, and that such differences likely account for the retention of closely related enzymes throughout evolution.
You can find links to CoSMoS.c. at the bottom of your favorite protein page at SGD, in the Resources section under Post-translational Modifications.