Mutational Bias Affects Protein Evolution in Flowering Plants

doi:10.1093/molbev/msh003

MBE Advance Access originally published online on October 31, 2003

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Mol. Biol. Evol. 21(1):90-96. 2004
DOI: 10.1093/molbev/msh003
© 2004 by the Society for Molecular Biology and Evolution. ISSN: 0737-4038

Mutational Bias Affects Protein Evolution in Flowering Plants

Huai-chun Wang, Gregory A. C. Singer and Donal A. Hickey

Department of Biology, University of Ottawa, Ottawa, Ontario, Canada

E-mail: dhickey{at}uottawa.ca.

Amino acid sequences from several thousand homologous gene pairswere compared for two plant genomes, Oryza sativa and Arabidopsisthaliana. The Arabidopsis genes all have similar G+C (guanineplus cytosine) contents, whereas their homologs in rice spana wide range of G+C levels. The results show that those ricegenes that display increased divergence in their nucleotidecomposition (specifically, increased G+C content) showed a corresponding,predictable change in the amino acid compositions of the encodedproteins relative to their Arabidopsis homologs. This trendwas not seen in a "control" set of rice genes that had nucleotidecontents closer to their Arabidopsis homologs. In addition toshowing an overall difference in the amino acid compositionof the homologous proteins, we were also able to investigatethe biased patterns of amino acid substitution since the divergenceof these two species. We found that the amino acid exchangematrix was highly asymmetric when comparing the High G+C ricegenes with their Arabidopsis homologs. Finally, we investigatedthe possible causes of this biased pattern of sequence evolution.Our results indicate that the biased pattern of protein evolutionis the consequence, rather than the cause, of the correspondingchanges in nucleotide content. In fact, there is an even moremarked asymmetry in the patterns of substitution at synonymousnucleotide sites. Surprisingly, there is a very strong negativecorrelation between the level of nucleotide bias and the lengthof the coding sequences within the rice genome. This differencein gene length may provide important clues about the underlyingmechanisms.

Key Words: comparative genomics • angiosperm • nucleotide • amino acid

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