Molecular Evolution and Population Genetic Analysis of Candidate Female Reproductive Genes in Drosophila

Tami M. Panhuis¹ and Willie J. Swanson

Department of Genome Sciences, University of Washington, Seattle, Washington 98195

^¹ Corresponding author: Department of Biology, University of California, Riverside, CA 92521.
E-mail: tpanhuis{at}jsd.claremont.edu

Molecular analyses in several taxa have consistently shown thatgenes involved in reproduction are rapidly evolving and subjectedto positive selection. The mechanism behind this evolution isnot clear, but several proposed hypotheses involve the coevolutionbetween males and females. In Drosophila, several male reproductiveproteins (Acps) involved in male–male and male–femaleinteractions show evidence of rapid adaptive evolution. Whathas been missing from the Drosophila literature is the identificationand analysis of female reproductive genes. Recently, an evolutionaryexpressed sequence tag analysis of Drosophila female reproductivetract genes identified 169 candidate female reproductive genes.Many of these candidate genes still await further molecularanalysis and independent verification of positive selection.Our goal was to expand our understanding of the molecular evolutionof Drosophila female reproductive genes with a detailed polymorphismand divergence study on seven additional candidate female reproductivegenes and a reanalysis of two genes from the above study. Wedemonstrate that 6 candidate female genes of the 9 genes surveyedshow evidence of positive selection using both polymorphismand divergence data. One of these proteins (CG17012) is modeledto reveal that the sites under selection fall around and withinthe active site of this protease, suggesting potential differencesbetween species. We discuss our results in light of potentialfunction as well as interaction with male reproductive proteins.

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