Impact of structural variations and genome partitioning on bread wheat hybrid performance

IF 3.9 4区生物学 Q1 GENETICS & HEREDITY

Functional & Integrative Genomics Pub Date : 2025-01-09 DOI:10.1007/s10142-024-01512-x

Kevin Gimenez, Pierre Blanc, Odile Argillier, Jonathan Kitt, Jean-Baptiste Pierre, Jacques Le Gouis, Etienne Paux

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引用次数: 0

Abstract

The agronomical interest of hybrid wheat has long been a matter of debate. Compared to maize where hybrids have been successfully grown for decades, the mixed results obtained in wheat have been attributed at least partially to the lack of heterotic groups. The wheat genome is known to be strongly partitioned and characterized by numerous presence/absence variations and alien introgressions which have not been thoroughly considered in hybrid breeding. The objective was to investigate the relationships between hybrid performance and genomic diversity. For this, we characterized a set of 124 hybrids as well as their 19 female and 16 male parents. Phenotyping for yield and yield components was conducted during two years in three locations. Parental lines were genotyped using a 410 K SNP array as well as through sequence capture of roughly 200,000 loci. This led to the identification of 180 structural variations including presence-absence variations and alien introgressions. Twenty-six of them were associated to hybrid performance through either additivity or dominance effects. While no correlation was observed at the whole genome level, the genetic distance for 25 genomic regions resulting from the structural and functional partitioning of the chromosomes shown positive or negative correlation with agronomic traits including yield. Large introgressions, like the Aegilops ventricosa 2NS-2AS translocation, can correspond to entire chromosomal regions, such as the R1 region, with an impact on yield. Our results suggest hybrid breeding should consider both structural variations and chromosome partitioning rather than maximizing whole-genome genetic distance, and according to genomic regions to combine homozygosity and heterozygosity.

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结构变异和基因组分配对面包小麦杂交性能的影响

杂交小麦的农艺学利益长期以来一直是一个有争议的问题。与杂交玉米已经成功种植了几十年相比，小麦获得的混合结果至少部分归因于缺乏杂种优势群体。小麦基因组被认为是强烈分割的，并以大量的存在/缺失变异和外来基因渗入为特征，这些在杂交育种中尚未得到充分考虑。目的是研究杂交性能与基因组多样性之间的关系。为此，我们对124个杂交种及其19个母本和16个父本进行了表征。在两年的时间里，在三个地点对产量和产量成分进行了表型分析。亲本系使用410 K SNP阵列以及通过序列捕获大约200,000个位点进行基因分型。这导致了180个结构变异的鉴定，包括存在-缺失变异和外来基因渗入。其中26个基因通过可加性或显性效应与杂交表现相关。虽然在全基因组水平上没有观察到相关性，但由染色体结构和功能划分导致的25个基因组区域的遗传距离与包括产量在内的农艺性状呈正相关或负相关。大的基因渗入，如心室猪2NS-2AS易位，可以对应整个染色体区域，如R1区域，对产量有影响。杂种育种不应追求全基因组遗传距离最大化，而应同时考虑结构变异和染色体分配，并根据基因组区域将纯合性和杂合性结合起来。

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

Functional & Integrative Genomics 生物-遗传学

CiteScore

3.50

自引率

3.40%

发文量

审稿时长

2 months

期刊介绍： Functional & Integrative Genomics is devoted to large-scale studies of genomes and their functions, including systems analyses of biological processes. The journal will provide the research community an integrated platform where researchers can share, review and discuss their findings on important biological questions that will ultimately enable us to answer the fundamental question: How do genomes work?