Rapid evolution of primate ESX1, an X-linked placenta- and testis-expressed homeobox gene

doi:10.1093/hmg/ddm153

Human Molecular Genetics Advance Access originally published online on June 22, 2007
Human Molecular Genetics 2007 16(17):2053-2060; doi:10.1093/hmg/ddm153

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Rapid evolution of primate ESX1, an X-linked placenta- and testis-expressed homeobox gene

Xiaoxia Wang and Jianzhi Zhang^*

Department of Ecology and Evolutionary Biology, University of Michigan, Ann Arbor, MI, USA

^* To whom correspondence should be addressed at: Department of Ecology and Evolutionary Biology, University of Michigan, 1075 Natural Science Building, 830 North University Avenue, Ann Arbor, MI 48109, USA. Tel: +1 7347630527; Fax: +1 7347630544; Email: jianzhi{at}umich.edu

Received April 13, 2007; Revised June 1, 2007; Accepted June 14, 2007

Homeobox genes encode transcription factors that play importantroles in various developmental processes and are usually evolutionarilyconserved. Here we report a case of rapid evolution of a homeoboxgene in humans and non-human primates. ESX1 is an X-linked homeoboxgene primarily expressed in the placenta and testis, with physiologicalfunctions in placenta/fetus development and spermatogenesis.ESX1 is paternally imprinted in mice, but is not imprinted inhumans. We provide evidence for a significantly higher non-synonymoussubstitution rate than synonymous rate in ESX1 between humansand chimps as well as among a total of 15 primate species. Populationgenetic data also show signals of recent selective sweeps withinhumans. Positive selection appears to be concentrated in theC-terminal non-homeodomain region, which has been implicatedin regulating human male germ cell division by prohibiting thedegradation of cyclins. In contrast, mouse Esx1 has a substantivelydifferent C-terminal region subject to strong purifying selection.These and other results suggest that even the fundamental processof spermatogenesis has been targeted by positive selection inprimate and human evolution and that mouse may not be a suitablemodel for studying human reproduction.

DNA sequences reported in this paper have been submitted toGenBank (accession nos EF650070–EF650084 and EF695414–EF695445)

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