Significant Impact of Protein Dispensability on the Instantaneous Rate of Protein Evolution

doi:10.1093/molbev/msi101

MBE Advance Access originally published online on February 2, 2005
Molecular Biology and Evolution 2005 22(4):1147-1155; doi:10.1093/molbev/msi101

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Molecular Biology and Evolution vol. 22 no. 4 © Society for Molecular Biology and Evolution 2005; all rights reserved.

Research Article

Significant Impact of Protein Dispensability on the Instantaneous Rate of Protein Evolution

Jianzhi Zhang and Xionglei He

Department of Ecology and Evolutionary Biology, University of Michigan

E-mail:jianzhi{at}umich.edu.

The neutral theory of molecular evolution predicts that importantproteins evolve more slowly than unimportant ones. High-throughputgene-knockout experiments in model organisms have provided informationon the dispensability, and therefore importance, of thousandsof proteins in a genome. However, previous studies of the correlationbetween protein dispensability and evolutionary rate were equivocal,and it has been proposed that the observed correlation is dueto the covariation with the level of gene expression or is limitedto duplicate genes. We here analyzed the gene dispensabilitydata of the yeast Saccharomyces cerevisiae and estimated proteinevolutionary rates by comparing S. cerevisiae with nine speciesof varying degrees of divergence from S. cerevisiae. The correlationbetween gene dispensability and evolutionary rate, althoughlow, is highly significant, even when the gene expression levelis controlled for or when duplicate genes are excluded. Ourresults thus support the hypothesis of lower evolution ratesfor more important proteins, a widely used principle in thedaily practice of molecular biology. When the evolutionary rateis estimated from closely related species, the ratio betweenthe mean rate of nonessential proteins to that of essentialproteins is 1.4. This ratio declines to 1.1 when the evolutionaryrate is estimated from distantly related species, suggestingthat the importance of a protein may change in evolution, sothe dispensability data obtained from a model organism onlypredicts a short-term rate of protein evolution. A comparisonof the fitness contributions of orthologous genes in yeast andnematode supports this conclusion.

Key Words: evolutionary rate • dispensability • yeast • fitness • gene expression

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