Alternating between even and odd ploidy levels switches on and off the recombination control, even near the centromeres.

IF 11.6 1区生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY Plant Cell Pub Date : 2024-10-03 DOI:10.1093/plcell/koae208

Franz Boideau, Virginie Huteau, Loeiz Maillet, Anael Brunet, Olivier Coriton, Gwenaëlle Deniot, Gwenn Trotoux, Maryse Taburel-Lodé, Frédérique Eber, Marie Gilet, Cécile Baron, Julien Boutte, Gautier Richard, Jean-Marc Aury, Caroline Belser, Karine Labadie, Jérôme Morice, Cyril Falentin, Olivier Martin, Matthieu Falque, Anne-Marie Chèvre, Mathieu Rousseau-Gueutin

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Abstract

Meiotic recombination is a key biological process in plant evolution and breeding, as it generates genetic diversity in each generation through the formation of crossovers (COs). However, due to their importance in genome stability, COs are highly regulated in frequency and distribution. We previously demonstrated that this strict regulation of COs can be modified, both in terms of CO frequency and distribution, in allotriploid Brassica hybrids (2n = 3x = 29; AAC) resulting from a cross between Brassica napus (2n = 4x = 38; AACC) and Brassica rapa (2n = 2x = 20; AA). Using the recently updated B. napus genome now including pericentromeres, we demonstrated that COs occur in these cold regions in allotriploids, as close as 375 kb from the centromere. Reverse transcription quantitative PCR (RT-qPCR) of various meiotic genes indicated that Class I COs are likely involved in the increased recombination frequency observed in allotriploids. We also demonstrated that this modified recombination landscape can be maintained via successive generations of allotriploidy (odd ploidy level). This deregulated meiotic behavior reverts to strict regulation in allotetraploid (even ploidy level) progeny in the second generation. Overall, we provide an easy way to manipulate tight recombination control in a polyploid crop.

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偶数倍性水平和奇数倍性水平交替出现时，重组控制就会开启或关闭，甚至在中心粒附近也是如此。

减数分裂重组是植物进化和育种中的一个关键生物过程，因为它通过形成交叉（COs）在每一代中产生遗传多样性。然而，由于 COs 在基因组稳定性中的重要性，它们的频率和分布受到了严格的调控。我们之前证明，在由甘蓝（2n = 4x = 38; AACC）和芸苔（2n = 2x = 20; AA）杂交产生的异源三倍体芸苔杂交种（2n = 3x = 29; AAC）中，COs 的这种严格调控可以在 CO 频率和分布方面得到改变。我们利用最近更新的油菜基因组（现在包括中心粒）证明，在异源三倍体的这些冷区，离中心粒最接近的地方有 375 kb 的 CO。各种减数分裂基因的反转录定量 PCR（RT-qPCR）表明，异源三倍体中观察到的重组频率增加可能与 I 类 COs 有关。我们还证明，通过连续几代的异源三倍体（奇数倍性水平），可以维持这种改变了的重组景观。这种失调的减数分裂行为在第二代异源四倍体（偶倍性水平）后代中恢复到严格的调节状态。总之，我们提供了一种在多倍体作物中进行严格重组控制的简便方法。

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

Plant Cell 生物-生化与分子生物学

CiteScore

16.90

自引率

5.20%

发文量

337

审稿时长

2.4 months

期刊介绍： Title: Plant Cell Publisher: Published monthly by the American Society of Plant Biologists (ASPB) Produced by Sheridan Journal Services, Waterbury, VT History and Impact: Established in 1989 Within three years of publication, ranked first in impact among journals in plant sciences Maintains high standard of excellence Scope: Publishes novel research of special significance in plant biology Focus areas include cellular biology, molecular biology, biochemistry, genetics, development, and evolution Primary criteria: articles provide new insight of broad interest to plant biologists and are suitable for a wide audience Tenets: Publish the most exciting, cutting-edge research in plant cellular and molecular biology Provide rapid turnaround time for reviewing and publishing research papers Ensure highest quality reproduction of data Feature interactive format for commentaries, opinion pieces, and exchange of information in review articles, meeting reports, and insightful overviews.