非同源区亲本基因组差异对棉花异质性的影响。

Chujun Huang, Yu Cheng, Yan Hu, Xuemei Zhang, Jinwen Chen, Ting Zhao, Zhanfeng Si, Yiwen Cao, Yiqian Li, Lei Fang, Xueying Guan, Tianzhen Zhang
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引用次数: 0

摘要

引言杂交给作物育种带来了革命性的变化,提高了全球农业产量。然而,杂交的内在机制仍然模糊不清。湘杂棉 2#(XZM2)是以高产异交为特征的超级杂交陆地棉(Gossypium hirsutum L.),已在中国开发并广泛种植:我们对 XZM2 的两个亲本 CRI12 和 J8891 进行了系统分析。目的:我们对 XZM2 的两个亲本 CRI12 和 J8891 进行了系统分析,旨在揭示其精确的遗传信息以及非亲本差异在形成异交性中的作用,为加深对异交性的理解奠定基础:方法:我们从头组装了 CRI12 和 J8891 的高质量基因组,并进一步发现了亲本之间丰富的遗传变异和非同源区。通过全基因组比较、关联分析、转录组分析和相对同源性(rIBD)估算,确定了非同源区块内的结构变异(SV)和内向变异,并分析了它们对促进异质性的影响:结果:非亲本遗传差异在非亲本区域有所增加。此外,这些仅占总基因组 16.71% 的区域含有更多的基因位点,其杂合效应显著提高,远远超过同源背景。SV覆盖了97.26%的非同源序列,并在这些区域造成了广泛的基因表达差异,推动了杂交种中基因表达的动态互补。一组 SV 对性状改良负有责任,并对异质性有积极影响,其遗传力大于短变异。我们鉴定了许多来自 G. barbadense 的亲本特异性引种。具体而言,非亲本区块中的一个功能性引种片段引入了一个精英单倍型,该单倍型显著提高了皮棉产量并增强了异质性:我们的研究明确了非亲缘区蕴藏着更多具有较高异交效应的基因位点,揭示了它们在促进异交中的重要性,并支持了遗传互补在异交中的关键作用。研究发现,父本和母本之间的非亲缘性差异主要是由 SVs 和导入因子造成的。它们对基因表达和性状改良有重要影响,积极促进了杂交。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Impacts of parental genomic divergence in non-syntenic regions on cotton heterosis.

Introduction: Heterosis has revolutionized crop breeding, enhancing global agricultural production. However, the mechanisms underlying heterosis remain obscure. Xiangzamian 2# (XZM2), a super hybrid upland cotton (Gossypium hirsutum L.) characterized by high-yield heterosis, has been developed and extensively planted in China.

Objectives: We conducted a systematic analysis of CRI12 and J8891, two parents of XZM2. We aimed to reveal the precise genetic information and the role of non-syntenic divergence in shaping heterosis, laying a foundation for advancing understanding of heterosis.

Methods: We de novo assembled high-quality genomes of CRI12 and J8891, and further uncovered abundant genetic variations and non-syntenic regions between the parents. Whole-genome comparison, association analysis, transcriptomic analysis and relative identity-by-descent (rIBD) estimation were conducted to identify structural variations (SVs) and introgressions within non-syntenic blocks and to analyze their impacts on promoting heterosis.

Results: Parental genetic divergence increased in non-syntenic regions. Furthermore, these regions, accounting for only 16.71% of the total genome, contained more loci with significantly higher heterotic effects, far exceeding the syntenic background. SVs covered 97.26% of non-syntenic sequences and caused widespread gene expression differences in these regions, driving dynamic complementation of gene expression in the hybrid. A set of SVs were responsible for trait improvement and had positive effects on heterosis, contributing larger heritability than short variations. We characterized numerous parental-specific introgressions from G. barbadense. Specifically, a functional introgression segment within non-syntenic blocks introduced an elite haplotype, which significantly increased lint yield and enhanced heterosis.

Conclusion: Our study clarified non-syntenic regions to harbor more loci with higher heterotic effects, revealed their importance in promoting heterosis and supported the crucial role of genetic complementation in heterosis. SVs and introgressions were identified as key factors responsible for non-syntenic divergence between the parents. They had important effects on gene expression and trait improvement, positively contributing to heterosis.

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