Adaptive Evolution of Fertilization Proteins within a Genus: Variation in ZP2 and ZP3 in Deer Mice (Peromyscus)

doi:10.1093/molbev/msl035

MBE Advance Access originally published online on June 14, 2006
Molecular Biology and Evolution 2006 23(9):1656-1669; doi:10.1093/molbev/msl035

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© The Author 2006. 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 Article

Adaptive Evolution of Fertilization Proteins within a Genus: Variation in ZP2 and ZP3 in Deer Mice (Peromyscus)

Leslie M. Turner and Hopi E. Hoekstra

Division of Biological Sciences, University of California, San Diego

E-mail: lturner{at}biomail.ucsd.edu.

Rapid evolution of reproductive proteins has been documentedin a wide variety of taxa. In internally fertilized species,knowledge about the evolutionary dynamics of these proteinsbetween closely related taxa is primarily limited to accessorygland proteins in the semen of Drosophila. Investigation ofadditional taxa and functional classes of proteins is necessaryin order to determine if there is a general pattern of adaptiveevolution of reproductive proteins between recently divergedspecies. We performed an evolutionary analysis of 2 egg coatproteins, ZP2 and ZP3, in 15 species of deer mice (genus Peromyscus).Both of these proteins are involved in egg–sperm binding,a critical step in maintaining species-specific fertilization.Here, we show that Zp2 and Zp3 gene trees are not consistentwith trees based on nonreproductive genes, Mc1r and Lcat, wherespecies formed monophyletic clades. In fact, for both of thereproductive genes, intraspecific amino acid variation was extensiveand alleles were sometimes shared across species. We documentpositive selection acting on ZP2 and ZP3 and identify specificamino acid sites that are likely targets of selection usingboth maximum likelihood approaches and patterns of parallelamino acid change. In ZP3, positively selected sites are clusteredin and around the region implicated in sperm binding in Mus,suggesting changes may impact egg–sperm binding and fertilizationpotential. Finally, we identify lineages with significantlyelevated rates of amino acid substitution using a Bayesian mappingapproach. These findings demonstrate that the pattern of adaptivereproductive protein evolution found at higher taxonomic levelscan be documented between closely related mammalian species,where reproductive isolation has evolved recently.

Key Words: adaptive evolution • fertilization • Peromyscus • positive selection • reproductive isolation • reproductive proteins

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