Evidence for de Novo Evolution of Testis-Expressed Genes in the Drosophila yakuba/Drosophila erecta Clade

David J. Begun^*^,1, Heather A. Lindfors^*, Andrew D. Kern^* and Corbin D. Jones

^* Section of Evolution and Ecology, University of California, Davis, California 95616 and Department of Biology and Genome Sciences Center, University of North Carolina, Chapel Hill, North Carolina 27599

^¹ Corresponding author: Section of Evolution and Ecology, University of California, Davis, CA 95616.
E-mail: djbegun{at}ucdavis.edu

The mutational origin and subsequent evolution of de novo genes,which are hypothesized to be genes of recent origin that arenot obviously related to ancestral coding sequence, are poorlyunderstood. However, accumulating evidence suggests that suchgenes may often function in male reproduction. Here we use testis-derivedexpressed sequence tags (ESTs) from Drosophila yakuba to identifygenes that have likely arisen either in D. yakuba or in theD. yakuba/D. erecta ancestor. We found several such genes, whichshow testis-biased expression and are often X-linked. Comparativedata indicate that three of these genes have very short openreading frames, which suggests the possibility that a significantnumber of testis-biased de novo genes in the D. yakuba/D. erectaclade may be noncoding RNA genes. These data, along with previouslypublished data from D. melanogaster, support the idea that manyde novo Drosophila genes function in male reproduction and thata small region of the X chromosome in the melanogaster subgroupmay be a hotspot for the evolution of novel testis-biased genes.

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ISSUE HIGHLIGHTS: Genetics 2007 176: 0. [Full Text]