性别在重组景观中的差异。

Sex Differences in the Recombination Landscape.

出版信息

Am Nat. 2020 Feb;195(2):361-379. doi: 10.1086/704943. Epub 2019 Dec 9.

PMID:32017625

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7537610/

Abstract

Sex differences in overall recombination rates are well known, but little theoretical or empirical attention has been given to how and why sexes differ in their recombination landscapes: the patterns of recombination along chromosomes. In the first scientific review of this phenomenon, we find that recombination is biased toward telomeres in males and more uniformly distributed in females in most vertebrates and many other eukaryotes. Notable exceptions to this pattern exist, however. Fine-scale recombination patterns also frequently differ between males and females. The molecular mechanisms responsible for sex differences remain unclear, but chromatin landscapes play a role. Why these sex differences evolve also is unclear. Hypotheses suggest that they may result from sexually antagonistic selection acting on coding genes and their regulatory elements, meiotic drive in females, selection during the haploid phase of the life cycle, selection against aneuploidy, or mechanistic constraints. No single hypothesis, however, can adequately explain the evolution of sex differences in all cases. Sex-specific recombination landscapes have important consequences for population differentiation and sex chromosome evolution.

摘要

性别的整体重组率差异是众所周知的，但很少有理论或实证研究关注性别在重组景观（即染色体上的重组模式）上的差异是如何产生的以及为什么会产生差异。在对这一现象的首次科学综述中，我们发现，在大多数脊椎动物和许多其他真核生物中，雄性的重组偏向于端粒，而雌性的重组则更为均匀分布。然而，这种模式也存在显著的例外。在精细的重组模式上，雄性和雌性之间也经常存在差异。导致性别差异的分子机制尚不清楚，但染色质景观发挥了作用。这些性别差异为何进化也不清楚。假说表明，它们可能是由于性拮抗选择作用于编码基因及其调控元件、雌性中的减数分裂驱动、生命周期的单倍体阶段的选择、对非整倍体的选择或机械限制。然而，没有一个单一的假说能够充分解释所有情况下性别差异的进化。特异性重组景观对群体分化和性染色体进化有重要影响。

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