Rates and Patterns of Molecular Evolution in Inbred and Outbred Arabidopsis

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Molecular Biology and Evolution 19:1407-1420 (2002)
© 2002 Society for Molecular Biology and Evolution

Rates and Patterns of Molecular Evolution in Inbred and Outbred Arabidopsis

Stephen I. Wright, Beatrice Lauga¹ and Deborah Charlesworth

Institute of Cell, Animal, and Population Biology, Ashworth Laboratories, University of Edinburgh

The evolution of self-fertilization is associated with a largereduction in the effective rate of recombination and a correspondingdecline in effective population size. If many spontaneous mutationsare slightly deleterious, this shift in the breeding systemis expected to lead to a reduced efficacy of natural selectionand genome-wide changes in the rates of molecular evolution.Here, we investigate the effects of the breeding system on molecularevolution in the highly self-fertilizing plant Arabidopsis thalianaby comparing its coding and noncoding genomic regions with thoseof its close outcrossing relative, the self-incompatible A.lyrata. More distantly related species in the Brassicaceae areused as outgroups to polarize the substitutions along each lineage.In contrast to expectations, no significant difference in therates of protein evolution is observed between selfing and outcrossingArabidopsis species. Similarly, no consistent overall differencein codon bias is observed between the species, although forlow-biased genes A. lyrata shows significantly higher majorcodon usage. There is also evidence of intron size evolutionin A. thaliana, which has consistently smaller introns thanits outcrossing congener, potentially reflecting directionalselection on intron size. The results are discussed in the contextof heterogeneity in selection coefficients across loci and theeffects of life history and population structure on rates ofmolecular evolution. Using estimates of substitution rates incoding regions and approximate estimates of divergence and generationtimes, the genomic deleterious mutation rate (U) for amino acidsubstitutions in Arabidopsis is estimated to be approximately0.2–0.6 per generation.

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