Yang Yuan scite author profile

Mutation rates vary within genomes, but the causes of this remain unclear. As many prior inferences rely on methods that assume an absence of selection, potentially leading to artefactual results, we call mutation events directly using a parent-offspring sequencing strategy focusing on Arabidopsis and using rice and honey bee for replication. Here we show that mutation rates are higher in heterozygotes and in proximity to crossover events. A correlation between recombination rate and intraspecific diversity is in part owing to a higher mutation rate in domains of high recombination/diversity. Implicating diversity per se as a cause, we find an ∼3.5-fold higher mutation rate in heterozygotes than in homozygotes, with mutations occurring in closer proximity to heterozygous sites than expected by chance. In a genome that is a patchwork of heterozygous and homozygous domains, mutations occur disproportionately more often in the heterozygous domains. If segregating mutations predispose to a higher local mutation rate, clusters of genes dominantly under purifying selection (more commonly homozygous) and under balancing selection (more commonly heterozygous), might have low and high mutation rates, respectively. Our results are consistent with this, there being a ten times higher mutation rate in pathogen resistance genes, expected to be under positive or balancing selection. Consequently, we do not necessarily need to evoke extremely weak selection on the mutation rate to explain why mutational hot and cold spots might correspond to regions under positive/balancing and purifying selection, respectively.

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Mutation of a histidine-rich calcium-binding-protein gene in wheat confers resistance to Fusarium head blight

Zhou

et al. 2019

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Germplasms, genetics and genomics for better control of disastrous wheat Fusarium head blight

et al. 2020

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Altered baseline brain activity in type 2 diabetes: A resting-state fMRI study

Xia

Wang

Sun

et al. 2013

Psychoneuroendocrinology

117

111

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Great majority of recombination events in Arabidopsis are gene conversion events

Yang

Yuan

Wang

et al. 2012

Proc. Natl. Acad. Sci. U.S.A.

105

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The evolutionary importance of meiosis may not solely be associated with allelic shuffling caused by crossing-over but also have to do with its more immediate effects such as gene conversion. Although estimates of the crossing-over rate are often well resolved, the gene conversion rate is much less clear. In Arabidopsis, for example, nextgeneration sequencing approaches suggest that the two rates are about the same, which contrasts with indirect measures, these suggesting an excess of gene conversion. Here, we provide analysis of this problem by sequencing 40 F 2 Arabidopsis plants and their parents. Small gene conversion tracts, with biased gene conversion content, represent over 90% (probably nearer 99%) of all recombination events. The rate of alteration of protein sequence caused by gene conversion is over 600 times that caused by mutation. Finally, our analysis reveals recombination hot spots and unexpectedly high recombination rates near centromeres. This may be responsible for the previously unexplained pattern of high genetic diversity near Arabidopsis centromeres.W hen considering the population genetic impact of recombination, classical theories predominantly concentrate on the impact of allelic shuffling, mediated by crossing-over, and the effect this has on linkage disequilibrium and, in turn, the effect the fate of one allele has on its genomic neighbors (1). However, when programmed double-strand breaks (DSBs) are introduced into chromosomes to initiate meiotic recombination, both crossover (CO) and noncrossover (non-CO) recombination events can occur.

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Yang Yuan

Parent–progeny sequencing indicates higher mutation rates in heterozygotes

Mutation of a histidine-rich calcium-binding-protein gene in wheat confers resistance to Fusarium head blight

Germplasms, genetics and genomics for better control of disastrous wheat Fusarium head blight

Altered baseline brain activity in type 2 diabetes: A resting-state fMRI study

Great majority of recombination events in Arabidopsis are gene conversion events

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