Meiotic Drive and Speciation.

IF 8.7 1区生物学 Q1 GENETICS & HEREDITY

Annual review of genetics Pub Date : 2024-11-01 DOI:10.1146/annurev-genet-111523-102603

Jeremy B Searle, Fernando Pardo-Manuel de Villena

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Abstract

Meiotic drive is the biased transmission of alleles from heterozygotes, contrary to Mendel's laws, and reflects intragenomic conflict rather than organism-level Darwinian selection. Theory has been developed as to how centromeric properties can promote female meiotic drive and how conflict between the X and Y chromosomes in males can promote male meiotic drive. There are empirical data that fit both the centromere drive and sex chromosome drive models. Sex chromosome drive may have relevance to speciation through the buildup of Dobzhansky-Muller incompatibilities involving drive and suppressor systems, studied particularly in Drosophila. Centromere drive may promote fixation of chromosomal rearrangements involving the centromere, and those fixed rearrangements may contribute to reproductive isolation, studied particularly in the house mouse. Genome-wide tests suggest that meiotic drive promotes allele fixation with regularity, and those studying the genomics of speciation need to be aware of the potential impact of such fixations on reproductive isolation. New species can originate in many different ways (including multiple factors acting together), and a substantial body of work on meiotic drive point to it being one of the processes involved.

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减数分裂驱动与物种繁衍

减数分裂驱动是杂合子等位基因的偏向传递，与孟德尔定律相反，反映了基因组内的冲突，而不是生物体层面的达尔文选择。关于中心粒特性如何促进雌性减数分裂驱动力，以及雄性 X 染色体和 Y 染色体之间的冲突如何促进雄性减数分裂驱动力的理论已经形成。一些经验数据同时符合中心体驱动和性染色体驱动模型。性染色体驱动可能通过涉及驱动和抑制系统的多布占斯基-穆勒不兼容性的积累而与物种形成有关，这一点在果蝇中的研究尤为突出。中心粒驱动可能会促进涉及中心粒的染色体重排的固定，而这些固定的重排可能会导致生殖隔离，这一点在家鼠中的研究尤为突出。全基因组测试表明，减数分裂驱动会有规律地促进等位基因的固定，研究物种灭绝基因组学的人需要意识到这种固定对生殖隔离的潜在影响。新物种的起源有多种不同方式（包括多种因素共同作用），大量关于减数分裂驱动的研究表明，减数分裂驱动是其中的一个过程。

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来源期刊

Annual review of genetics 生物-遗传学

CiteScore

18.30

自引率

0.90%

发文量

期刊介绍： The Annual Review of Genetics, published since 1967, comprehensively covers significant advancements in genetics. It encompasses various areas such as biochemical, behavioral, cell, and developmental genetics, evolutionary and population genetics, chromosome structure and transmission, gene function and expression, mutation and repair, genomics, immunogenetics, and other topics related to the genetics of viruses, bacteria, fungi, plants, animals, and humans.