Frequencies of house fly proto-Y chromosomes across populations are predicted by temperature heterogeneity within populations.

IF 3 2区 生物学 Q2 EVOLUTIONARY BIOLOGY
Patrick D Foy, Sara R Loetzerich, David Boxler, Edwin R Burgess, R T Trout Fryxell, Alec C Gerry, Nancy C Hinkle, Erika T Machtinger, Cassandra Olds, Aaron M Tarone, Wes Watson, Jeffrey G Scott, Richard P Meisel
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Abstract

Sex chromosomes often differ between closely related species and can even be polymorphic within populations. Species with multifactorial sex determination segregate for multiple different sex determining loci within populations, making them uniquely informative of the selection pressures that drive the evolution of sex chromosomes. The house fly (Musca domestica) is a model species for studying multifactorial sex determination because male determining genes have been identified on all six of the chromosomes, which means that any chromosome can be a "proto-Y". Natural populations of house fly also segregate for a recently derived female-determining locus, meaning house flies also have a proto-W chromosome. The different proto-Y chromosomes are distributed along latitudinal clines on multiple continents, their distributions can be explained by seasonality in temperature, and they have temperature-dependent effects on physiological and behavioral traits. It is not clear, however, how the clinal distributions interact with the effect of seasonality on the frequencies of house fly proto-Y and proto-W chromosomes across populations. To address this question, we measured the frequencies of house fly proto-Y and proto-W chromosomes across nine populations in the United States of America. We confirmed the clinal distribution along the eastern coast of North America, but it is limited to the eastern coast. In contrast, annual mean daily temperature range predicts proto-Y chromosome frequencies across the entire continent. Our results therefore suggest that temperature heterogeneity can explain the distributions of house fly proto-Y chromosomes in a way that does not depend on the cline.

家蝇原 Y 染色体在不同种群中的频率是由种群内的温度异质性预测的。
近缘物种之间的性染色体往往不同,甚至在种群内部也可能存在多态性。具有多因素性别决定的物种在种群内会因多个不同的性别决定基因座而发生分离,这使它们能够独特地反映出驱动性染色体进化的选择压力。家蝇(Musca domestica)是研究多因素性别决定的模式物种,因为在其所有六条染色体上都发现了雄性决定基因,这意味着任何染色体都可能是 "原Y"。家蝇的自然种群中也有一个最近得到的决定雌性的基因座,这意味着家蝇也有一个原 W 染色体。不同的原 Y 染色体沿纬度脉络分布在多个大洲,它们的分布可以用温度的季节性来解释,而且它们对生理和行为特征的影响与温度有关。然而,目前还不清楚这种支系分布与季节性对不同种群中家蝇原Y染色体和原W染色体频率的影响之间是如何相互作用的。为了解决这个问题,我们测量了美国九个种群中家蝇原Y染色体和原W染色体的频率。我们证实了北美东海岸的宗族分布,但仅限于东海岸。与此相反,年平均日温差预测了整个大陆的原Y染色体频率。因此,我们的研究结果表明,温度异质性可以解释家蝇原Y染色体的分布,而不依赖于克隆。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Heredity
Journal of Heredity 生物-遗传学
CiteScore
5.20
自引率
6.50%
发文量
63
审稿时长
6-12 weeks
期刊介绍: Over the last 100 years, the Journal of Heredity has established and maintained a tradition of scholarly excellence in the publication of genetics research. Virtually every major figure in the field has contributed to the journal. Established in 1903, Journal of Heredity covers organismal genetics across a wide range of disciplines and taxa. Articles include such rapidly advancing fields as conservation genetics of endangered species, population structure and phylogeography, molecular evolution and speciation, molecular genetics of disease resistance in plants and animals, genetic biodiversity and relevant computer programs.
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