家鼠物种形成早期杂种雄性不育的不对称性和多态性。

Asymmetry and polymorphism of hybrid male sterility during the early stages of speciation in house mice.

作者信息

Good Jeffrey M, Handel Mary Ann, Nachman Michael W

机构信息

Department of Ecology and Evolutionary Biology, University of Arizona, Tucson, AZ 85721, USA.

出版信息

Evolution. 2008 Jan;62(1):50-65. doi: 10.1111/j.1558-5646.2007.00257.x. Epub 2007 Nov 12.

DOI:10.1111/j.1558-5646.2007.00257.x

PMID:18005156

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2907743/

Abstract

House mice offer a powerful system for dissecting the genetic basis of phenotypes that isolate species in the early stages of speciation. We used a series of reciprocal crosses between wild-derived strains of Mus musculus and M. domesticus to examine F(1) hybrid male sterility, one of the primary phenotypes thought to isolate these species. We report four main results. First, we found significantly smaller testes and fewer sperm in hybrid male progeny of most crosses. Second, in some crosses hybrid male sterility was asymmetric and depended on the species origin of the X chromosome. These observations confirm and extend previous findings, underscoring the central role that the M. musculus X chromosome plays in reproductive isolation. Third, comparisons among reciprocal crosses revealed polymorphism at one or more hybrid incompatibilities within M. musculus. Fourth, the spermatogenic phenotype of this polymorphic interaction appears distinct from previously described hybrid incompatibilities between these species. These data build on previous studies of speciation in house mice and show that the genetic basis of hybrid male sterility is fairly complex, even at this early stage of divergence.

摘要

家鼠为剖析物种形成早期隔离物种的表型遗传基础提供了一个强大的系统。我们利用小家鼠（Mus musculus）和家鼠（M. domesticus）野生衍生品系之间的一系列正反交来研究杂种雄性不育，这是被认为隔离这些物种的主要表型之一。我们报告了四个主要结果。第一，我们发现大多数杂交组合的杂种雄性后代的睾丸明显更小，精子数量更少。第二，在一些杂交组合中，杂种雄性不育是不对称的，并且取决于X染色体的物种来源。这些观察结果证实并扩展了先前的发现，强调了小家鼠X染色体在生殖隔离中所起的核心作用。第三，正反交之间的比较揭示了小家鼠内一个或多个杂种不相容性的多态性。第四，这种多态性相互作用的生精表型似乎与先前描述的这些物种之间的杂种不相容性不同。这些数据建立在先前对家鼠物种形成的研究基础上，表明即使在分化的这个早期阶段，杂种雄性不育的遗传基础也相当复杂。

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本文引用的文献

Histological studies on male sterility of hybrids between laboratory and wild mouse strains: (hybrid sterility/Hst-1 locus/spermatogenesis/chimera/Sertoli cell).实验室小鼠品系与野生小鼠品系杂交后代雄性不育的组织学研究：（杂种不育/Hst-1基因座/精子发生/嵌合体/支持细胞）

Dev Growth Differ. 1993 Jun;35(3):271-281. doi: 10.1111/j.1440-169X.1993.00271.x.

A NOTE ON HALDANE'S RULE: HYBRID INVIABILITY VERSUS HYBRID STERILITY.关于霍尔丹法则的一则注释：杂种 inviability 与杂种不育性。注：这里“inviability”可能是“ inviability”拼写错误，正确的可能是“ inviability” ，意思是“不存活、无生活力” 。整体翻译为“关于霍尔丹法则的一则注释：杂种无生活力与杂种不育性” 。

Evolution. 1992 Oct;46(5):1584-1587. doi: 10.1111/j.1558-5646.1992.tb01152.x.

"PATTERNS OF SPECIATION IN DROSOPHILA" REVISITED.《再探〈果蝇的物种形成模式〉》

Evolution. 1997 Feb;51(1):295-303. doi: 10.1111/j.1558-5646.1997.tb02412.x.

PATTERNS OF SPECIATION IN DROSOPHILA.果蝇的物种形成模式

Evolution. 1989 Mar;43(2):362-381. doi: 10.1111/j.1558-5646.1989.tb04233.x.

CLINES FOR HYBRID DYSFUNCTION IN A GRASSHOPPER HYBRID ZONE.一个蚱蜢杂交带中杂种不育的渐变群

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WAITING FOR SPECIATION: THE EFFECT OF POPULATION SUBDIVISION ON THE TIME TO SPECIATION.等待物种形成：种群细分对物种形成时间的影响。

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Evolution. 1987 May;41(3):571-578. doi: 10.1111/j.1558-5646.1987.tb05827.x.

Haldane's rule and its legacy: Why are there so many sterile males?哈尔丹定律及其遗产：为什么会有这么多不育的男性？

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