莫哈韦果蝇和亚利桑那果蝇中附属腺蛋白基因与睾丸表达基因的分子群体遗传学

Molecular population genetics of accessory gland protein genes and testis-expressed genes in Drosophila mojavensis and D. arizonae.

作者信息

Wagstaff Bradley J, Begun David J

机构信息

Section of Integrative Biology, University of Texas, Austin, Texas 78712, USA.

出版信息

Genetics. 2005 Nov;171(3):1083-101. doi: 10.1534/genetics.105.043372. Epub 2005 Aug 5.

DOI:10.1534/genetics.105.043372

PMID:16085702

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1456813/

Abstract

Molecular population genetic investigation of Drosophila male reproductive genes has focused primarily on melanogaster subgroup accessory gland protein genes (Acp's). Consistent with observations from male reproductive genes of numerous taxa, Acp's evolve more rapidly than nonreproductive genes. However, within the Drosophila genus, large data sets from additional types of male reproductive genes and from different species groups are lacking. Here we report findings from a molecular population genetics analysis of male reproductive genes of the repleta group species, Drosophila arizonae and D. mojavensis. We find that Acp's have dramatically higher average pairwise Ka/Ks (0.93) than testis-enriched genes (0.19) and previously reported melanogaster subgroup Acp's (0.42). Overall, 10 of 19 Acp's have Ka/Ks > 1 either in nonpolarized analyses or in at least one lineage of polarized analyses. Of the nine Acp's for which outgroup data were available, average Ka/Ks was considerably higher in D. mojavensis (2.08) than in D. arizonae (0.87). Contrasts of polymorphism and divergence suggest that adaptive protein evolution at Acp's is more common in D. mojavensis than in D. arizonae.

摘要

对果蝇雄性生殖基因的分子群体遗传学研究主要集中在黑腹果蝇亚组的附属腺蛋白基因（Acp's）上。与众多分类群的雄性生殖基因的观察结果一致，Acp's的进化速度比非生殖基因更快。然而，在果蝇属内，缺乏来自其他类型雄性生殖基因和不同物种组的大数据集。在这里，我们报告了对果蝇属repleta组物种亚利桑那果蝇和莫哈韦果蝇雄性生殖基因的分子群体遗传学分析结果。我们发现，Acp's的平均成对Ka/Ks（0.93）显著高于睾丸富集基因（0.19）和先前报道的黑腹果蝇亚组Acp's（0.42）。总体而言，在非极化分析中或在至少一个极化分析谱系中，19个Acp's中有10个的Ka/Ks > 1。在有外群数据的9个Acp's中，莫哈韦果蝇的平均Ka/Ks（2.08）比亚利桑那果蝇（0.87）高得多。多态性和分化的对比表明，Acp's的适应性蛋白质进化在莫哈韦果蝇中比在亚利桑那果蝇中更常见。

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