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W2079186703 abstract "Protein interaction networks are an important part of the post-genomic effort to integrate a part-list view of the cell into system-level understanding. Using a set of 11 yeast genomes we show that combining comparative genomics and secondary structure information greatly increases consensus-based prediction of SH3 targets. Benchmarking of our method against positive and negative standards gave 83% accuracy with 26% coverage. The concept of an optimal divergence time for effective comparative genomics studies was analyzed, demonstrating that genomes of species that diverged very recently from Saccharomyces cerevisiae(S. mikatae, S. bayanus, and S. paradoxus), or a long time ago (Neurospora crassa and Schizosaccharomyces pombe), contain less information for accurate prediction of SH3 targets than species within the optimal divergence time proposed. We also show here that intrinsically disordered SH3 domain targets are more probable sites of interaction than equivalent sites within ordered regions. Our findings highlight several novel S. cerevisiae SH3 protein interactions, the value of selection of optimal divergence times in comparative genomics studies, and the importance of intrinsic disorder for protein interactions. Based on our results we propose novel roles for the S. cerevisiae proteins Abp1p in endocytosis and Hse1p in endosome protein sorting." @default.
W2079186703 created "2016-06-24" @default.
W2079186703 creator A5050058340 @default.
W2079186703 creator A5080707475 @default.
W2079186703 date "2005-08-12" @default.
W2079186703 modified "2023-10-14" @default.
W2079186703 title "Comparative Genomics and Disorder Prediction Identify Biologically Relevant SH3 Protein Interactions" @default.
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W2079186703 doi "https://doi.org/10.1371/journal.pcbi.0010026" @default.
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