Population dynamics of GC-changing mutations in humans and great apes.

IF 3.3 3区 生物学
Genetics Pub Date : 2021-07-14 DOI:10.1093/genetics/iyab083
Juraj Bergman, Mikkel Heide Schierup
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引用次数: 2

Abstract

The nucleotide composition of the genome is a balance between the origin and fixation rates of different mutations. For example, it is well-known that transitions occur more frequently than transversions, particularly at CpG sites. Differences in fixation rates of mutation types are less explored. Specifically, recombination-associated GC-biased gene conversion (gBGC) may differentially impact GC-changing mutations, due to differences in their genomic distributions and efficiency of mismatch repair mechanisms. Given that recombination evolves rapidly across species, we explore gBGC of different mutation types across human populations and great ape species. We report a stronger correlation between segregating GC frequency and recombination for transitions than for transversions. Notably, CpG transitions are most strongly affected by gBGC in humans and chimpanzees. We show that the overall strength of gBGC is generally correlated with effective population sizes in humans, with some notable exceptions, such as a stronger effect of gBGC on non-CpG transitions in populations of European descent. Furthermore, species of the Gorilla and Pongo genus have a greatly reduced gBGC effect on CpG sites. We also study the dependence of gBGC dynamics on flanking nucleotides and show that some mutation types evolve in opposition to the gBGC expectation, likely due to the hypermutability of specific nucleotide contexts. Our results highlight the importance of different gBGC dynamics experienced by GC-changing mutations and their impact on nucleotide composition evolution.

Abstract Image

人类和类人猿中gc改变突变的种群动态。
基因组的核苷酸组成是不同突变的起源和固定率之间的平衡。例如,众所周知,过渡比易位发生得更频繁,特别是在CpG位点。突变类型固定率的差异研究较少。具体来说,由于基因组分布和错配修复机制效率的差异,重组相关gc偏向基因转换(gBGC)可能会对gc改变突变产生不同的影响。考虑到重组在物种间的快速进化,我们在人类种群和类人猿物种中探索了不同突变类型的gBGC。我们报告了分离GC频率与转换重组之间比转换重组之间更强的相关性。值得注意的是,人类和黑猩猩的CpG转变受gBGC的影响最为强烈。我们发现,gBGC的总体强度通常与人类的有效种群规模相关,但也有一些明显的例外,例如gBGC对欧洲后裔种群中非cpg转变的影响更强。此外,大猩猩和蓬戈属的物种对CpG位点的gBGC效应大大降低。我们还研究了gBGC动力学对侧翼核苷酸的依赖性,并表明一些突变类型的进化与gBGC预期相反,可能是由于特定核苷酸上下文的超易变性。我们的研究结果强调了gc改变突变所经历的不同gBGC动力学的重要性及其对核苷酸组成进化的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Genetics
Genetics 生物-遗传学
CiteScore
6.20
自引率
6.10%
发文量
177
期刊介绍: GENETICS is published by the Genetics Society of America, a scholarly society that seeks to deepen our understanding of the living world by advancing our understanding of genetics. Since 1916, GENETICS has published high-quality, original research presenting novel findings bearing on genetics and genomics. The journal publishes empirical studies of organisms ranging from microbes to humans, as well as theoretical work. While it has an illustrious history, GENETICS has changed along with the communities it serves: it is not your mentor''s journal. The editors make decisions quickly – in around 30 days – without sacrificing the excellence and scholarship for which the journal has long been known. GENETICS is a peer reviewed, peer-edited journal, with an international reach and increasing visibility and impact. All editorial decisions are made through collaboration of at least two editors who are practicing scientists. GENETICS is constantly innovating: expanded types of content include Reviews, Commentary (current issues of interest to geneticists), Perspectives (historical), Primers (to introduce primary literature into the classroom), Toolbox Reviews, plus YeastBook, FlyBook, and WormBook (coming spring 2016). For particularly time-sensitive results, we publish Communications. As part of our mission to serve our communities, we''ve published thematic collections, including Genomic Selection, Multiparental Populations, Mouse Collaborative Cross, and the Genetics of Sex.
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