Evolution of DMY, a Newly Emergent Male Sex-Determination Gene of Medaka Fish

doi:10.1534/genetics.166.4.1887

Evolution of DMY, a Newly Emergent Male Sex-Determination Gene of Medaka Fish

Jianzhi Zhang^a
^a Department of Ecology and Evolutionary Biology, University of Michigan, Ann Arbor, Michigan 48109

Corresponding author: Jianzhi Zhang, University of Michigan, 3003 Natural Science Bldg., 830 North University Ave., Ann Arbor, MI 48109., jianzhi{at}umich.edu (E-mail)

Communicating editor: S. YOKOYAMA

The Japanese medaka fish Oryzias latipes has an XX/XY sex-determinationsystem. The Y-linked sex-determination gene DMY is a duplicateof the autosomal gene DMRT1, which encodes a DM-domain-containingtranscriptional factor. DMY appears to have originated recentlywithin Oryzias, allowing a detailed evolutionary study of theinitial steps that led to the new gene and new sex-determinationsystem. Here I analyze the publicly available DMRT1 and DMYgene sequences of Oryzias species and report the following findings.First, the synonymous substitution rate in DMY is 1.73 timesthat in DMRT1, consistent with the male-driven evolution hypothesis.Second, the ratio of the rate of nonsynonymous nucleotide substitution(d_N) to that of synonymous substitution (d_S) is significantlyhigher in DMY than in DMRT1. Third, in DMRT1, the d_N/d_S ratiofor the DM domain is lower than that for non-DM regions, asexpected from the functional importance of the DM domain. Butin DMY, the opposite is observed and the DM domain is likelyunder positive Darwinian selection. Fourth, only one characteristicamino acid distinguishes all DMY sequences from all DMRT1 sequences,suggesting that a single amino acid change may be largely responsiblefor the establishment of DMY as the male sex-determination genein medaka fish.

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