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Y染色体进化的适应性假说。

An adaptive hypothesis for the evolution of the Y chromosome.

作者信息

Orr H A, Kim Y

机构信息

Department of Biology, University of Rochester, Rochester, New York 14627, USA. urhep.pas.rochester.edu

出版信息

Genetics. 1998 Dec;150(4):1693-8. doi: 10.1093/genetics/150.4.1693.

DOI:10.1093/genetics/150.4.1693
PMID:9832543
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1460413/
Abstract

Population geneticists remain unsure of the forces driving the evolution of Y chromosomes. Here we consider the possibility that the degeneration of the Y reflects its inability to evolve adaptively. Because the overwhelming majority of favorable mutations on a nonrecombining proto-Y suffer a zero probability of fixation, the fitness of the Y must lag far behind that of the recombining X. At some point, this disparity will grow so large that selection favors an increase in the expression of (fit) X-linked alleles and a decrease in the expression of (unfit) Y-linked alleles. Our calculations suggest that this process acts far more rapidly than hitchhiking-induced erosion of the Y and at least as rapidly as the fixation of deleterious alleles on the Y by background selection. Most important, this hypothesis can explain the evolution of Y chromosomes in taxa such as Drosophila that have very large population sizes.

摘要

群体遗传学家仍不确定驱动Y染色体进化的力量。在这里,我们考虑Y染色体退化反映其无法进行适应性进化的可能性。由于在非重组原始Y染色体上绝大多数有利突变的固定概率为零,Y染色体的适应性必然远远落后于重组的X染色体。在某个时候,这种差异会变得如此之大,以至于选择有利于增加(适应性强的)X连锁等位基因的表达,并减少(适应性差的)Y连锁等位基因的表达。我们的计算表明,这个过程的作用速度比搭便车导致的Y染色体侵蚀要快得多,至少与背景选择导致有害等位基因在Y染色体上固定的速度一样快。最重要的是,这个假设可以解释果蝇等种群规模非常大的类群中Y染色体的进化。

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本文引用的文献

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