减数分裂驱动机制:来自果蝇的启示

C. Courret, Ching-ho Chang, K. Wei, C. Montchamp-Moreau, A. Larracuente
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引用次数: 60

摘要

减数分裂驱动因子是自私的遗传因素,它们偏向于将减数分裂传递到配子中,通常会损害基因组的其余部分。减数分裂驱动引发的基因组内冲突产生了进化军备竞赛,并形成了基因组进化。减数分裂驱动现象在整个分类群中广泛存在,但在果蝇属中尤为突出。最近对果蝇的研究为驱动因子的遗传起源及其分子机制提供了见解。在这里,我们回顾了目前关于驱动机制的文献,重点是果蝇物种的精子杀手。在这些系统中,减数分裂驱动因素通常从基因复制进化而来,靶标通常与异染色质有关。虽然重复元素密集,难以使用传统的遗传和基因组方法进行研究,但最近在果蝇基因组的异色室方面的工作取得了进展。尽管我们对精确的驱动机制仍然知之甚少,但对男性驱动系统的研究正集中在异染色质调节、小RNA途径和核运输途径等共同主题上。因此,减数分裂驱动系统是发现配子发生基本特征的有希望的模型。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Meiotic drive mechanisms: lessons from Drosophila
Meiotic drivers are selfish genetic elements that bias their transmission into gametes, often to the detriment of the rest of the genome. The resulting intragenomic conflicts triggered by meiotic drive create evolutionary arms races and shape genome evolution. The phenomenon of meiotic drive is widespread across taxa but is particularly prominent in the Drosophila genus. Recent studies in Drosophila have provided insights into the genetic origins of drivers and their molecular mechanisms. Here, we review the current literature on mechanisms of drive with an emphasis on sperm killers in Drosophila species. In these systems, meiotic drivers often evolve from gene duplications and targets are generally linked to heterochromatin. While dense in repetitive elements and difficult to study using traditional genetic and genomic approaches, recent work in Drosophila has made progress on the heterochromatic compartment of the genome. Although we still understand little about precise drive mechanisms, studies of male drive systems are converging on common themes such as heterochromatin regulation, small RNA pathways, and nuclear transport pathways. Meiotic drive systems are therefore promising models for discovering fundamental features of gametogenesis.
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