Frequent and Widespread Parallel Evolution of Protein Sequences

doi:10.1093/molbev/msn143

MBE Advance Access originally published online on June 25, 2008
Molecular Biology and Evolution 2008 25(9):1943-1953; doi:10.1093/molbev/msn143

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© The Author 2008. Published by Oxford University Press on behalf of the Society for Molecular Biology and Evolution. All rights reserved. For permissions, please e-mail: journals.permissions@oxfordjournals.org

Research Articles

Frequent and Widespread Parallel Evolution of Protein Sequences

Antonis Rokas^* and Sean B. Carroll

^* Department of Biological Sciences, Vanderbilt University
Howard Hughes Medical Institute, R. M. Bock Laboratories, University of Wisconsin–Madison

E-mail: sbcarrol{at}wisc.edu.

Accepted for publication June 19, 2008.

Understanding the patterns and causes of protein sequence evolutionis a major challenge in evolutionary biology. One of the criticalunresolved issues is the relative contribution of selectionand genetic drift to the fixation of amino acid sequence differencesbetween species. Molecular homoplasy, the independent evolutionof the same amino acids at orthologous sites in different taxa,is one potential signature of selection; however, relativelylittle is known about its prevalence in eukaryotic proteomes.To quantify the extent and type of homoplasy among evolvingproteins, we used phylogenetic methodology to analyze 8 genome-scaledata matrices from clades of different evolutionary depths thatspan the eukaryotic tree of life. We found that the frequencyof homoplastic amino acid substitutions in eukaryotic proteinswas more than 2-fold higher than expected under neutral modelsof protein evolution. The overwhelming majority of homoplasticsubstitutions were parallelisms that involved the most frequentlyexchanged amino acids with similar physicochemical propertiesand that could be reached by a single-mutational step. We concludethat the role of homoplasy in shaping the protein record ismuch larger than generally assumed, and we suggest that itshigh frequency can be explained by both weak positive selectionfor certain substitutions and purifying selection that constrainssubstitutions to a small number of functionally equivalent aminoacids.

Key Words: homoplasy • positive selection • selective constraint • protein • independent evolution

Kenneth Wolfe, Associate Editor

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