六倍体普通小麦重组景观分析揭示了控制重组和基因转换频率的基因。

Analysis of the recombination landscape of hexaploid bread wheat reveals genes controlling recombination and gene conversion frequency.

机构信息

Earlham Institute, Norwich, NR4 7UZ, UK.

IBM Research, Warrington, UK.

出版信息

Genome Biol. 2019 Apr 15;20(1):69. doi: 10.1186/s13059-019-1675-6.

DOI:10.1186/s13059-019-1675-6

PMID:30982471

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6463664/

Abstract

BACKGROUND

Sequence exchange between homologous chromosomes through crossing over and gene conversion is highly conserved among eukaryotes, contributing to genome stability and genetic diversity. A lack of recombination limits breeding efforts in crops; therefore, increasing recombination rates can reduce linkage drag and generate new genetic combinations.

RESULTS

We use computational analysis of 13 recombinant inbred mapping populations to assess crossover and gene conversion frequency in the hexaploid genome of wheat (Triticum aestivum). We observe that high-frequency crossover sites are shared between populations and that closely related parents lead to populations with more similar crossover patterns. We demonstrate that gene conversion is more prevalent and covers more of the genome in wheat than in other plants, making it a critical process in the generation of new haplotypes, particularly in centromeric regions where crossovers are rare. We identify quantitative trait loci for altered gene conversion and crossover frequency and confirm functionality for a novel RecQ helicase gene that belongs to an ancient clade that is missing in some plant lineages including Arabidopsis.

CONCLUSIONS

This is the first gene to be demonstrated to be involved in gene conversion in wheat. Harnessing the RecQ helicase has the potential to break linkage drag utilizing widespread gene conversions.

摘要

背景

同源染色体之间通过交叉互换和基因转换进行序列交换在真核生物中高度保守，有助于基因组稳定性和遗传多样性。缺乏重组限制了作物的繁殖工作；因此，增加重组率可以减少连锁拖曳并产生新的遗传组合。

结果

我们使用 13 个重组自交系作图群体的计算分析来评估小麦（Triticum aestivum）六倍体基因组中的交叉互换和基因转换频率。我们观察到高频率的交叉互换位点在群体之间共享，并且亲缘关系较近的亲本导致群体具有更相似的交叉互换模式。我们证明基因转换在小麦中比在其他植物中更为普遍，并且覆盖了更多的基因组，使其成为新单倍型产生的关键过程，特别是在着丝粒区域，那里的交叉互换很少。我们确定了改变基因转换和交叉互换频率的数量性状位点，并证实了一种新型 RecQ 解旋酶基因的功能，该基因属于一个古老的分支，在包括拟南芥在内的一些植物谱系中缺失。

结论

这是第一个被证明参与小麦基因转换的基因。利用 RecQ 解旋酶有可能利用广泛的基因转换打破连锁拖曳。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fd74/6463664/d6f60b956383/13059_2019_1675_Fig1_HTML.jpg

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六倍体普通小麦重组景观分析揭示了控制重组和基因转换频率的基因。

Analysis of the recombination landscape of hexaploid bread wheat reveals genes controlling recombination and gene conversion frequency.

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

背景

结果

结论

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