High-quality genome of a modern soybean cultivar and resequencing of 547 accessions provide insights into the role of structural variation

IF 31.7 1区 生物学 Q1 GENETICS & HEREDITY
Caiying Zhang, Zhenqi Shao, Youbin Kong, Hui Du, Wenlong Li, Zhanwu Yang, Xiangkong Li, Huifeng Ke, Zhengwen Sun, Jiabiao Shao, Shiliang Chen, Hua Zhang, Jiahao Chu, Xinzhu Xing, Rui Tian, Ning Qin, Junru Li, Meihong Huang, Yaqian Sun, Xiaobo Huo, Chengsheng Meng, Guoning Wang, Yuan Liu, Zhiying Ma, Shilin Tian, Xihuan Li
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Abstract

Soybean provides protein, oil and multiple health-related compounds. Understanding the effects of structural variations (SVs) on economic traits in modern breeding is important for soybean improvement. Here we assembled the high-quality genome of modern cultivar Nongdadou2 (NDD2) and identified 25,814 SV–gene pairs compared to 29 reported genomes, with 13 NDD2-private SVs validated in 547 deep-resequencing (average = 18.05-fold) accessions, which advances our understanding of genomic variation biology. We found some insertions/deletions involved in seed protein and weight formation, an inversion related to adaptation to drought and a large intertranslocation implicated in a key divergence event in soybean. Of 749,714 SVs from 547 accessions, 6,013 were significantly associated with 22 yield-related and seed-quality-related traits determined in ten location × year environments. We uncovered 1,761 associated SVs that hit genes or regulatory regions, with 12 in GmMQT influencing oil and isoflavone contents. Our work provides resources and insights into SV roles in soybean improvement. High-quality genome of the modern soybean cultivar Nongdadou2 and deep resequencing of 547 accessions provide insights into the role of structural variations in soybean improvement.

Abstract Image

Abstract Image

一个现代大豆栽培品种的高质量基因组和 547 个加入品系的重新测序有助于深入了解结构变异的作用
大豆可提供蛋白质、油脂和多种与健康相关的化合物。在现代育种中,了解结构变异(SV)对经济性状的影响对改良大豆非常重要。在此,我们组装了现代栽培品种 Nongdadou2(NDD2)的高质量基因组,与 29 个已报道的基因组相比,鉴定出 25,814 对 SV 基因对,其中 13 个 NDD2 私有 SV 在 547 个深度测序(平均 = 18.05 倍)序列中得到验证,这加深了我们对基因组变异生物学的理解。我们发现了一些与种子蛋白质和重量形成有关的插入/缺失,一个与适应干旱有关的反转,以及一个与大豆关键分化事件有关的大型转座。在来自 547 个品种的 749,714 个 SVs 中,有 6,013 个与 10 个地点 × 年份环境中测定的 22 个产量相关性状和种子质量相关性状显著相关。我们发现了 1,761 个与基因或调控区域相关的 SVs,其中 GmMQT 中的 12 个 SVs 影响了油脂和异黄酮的含量。我们的工作为 SV 在大豆改良中的作用提供了资源和见解。
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来源期刊
Nature genetics
Nature genetics 生物-遗传学
CiteScore
43.00
自引率
2.60%
发文量
241
审稿时长
3 months
期刊介绍: Nature Genetics publishes the very highest quality research in genetics. It encompasses genetic and functional genomic studies on human and plant traits and on other model organisms. Current emphasis is on the genetic basis for common and complex diseases and on the functional mechanism, architecture and evolution of gene networks, studied by experimental perturbation. Integrative genetic topics comprise, but are not limited to: -Genes in the pathology of human disease -Molecular analysis of simple and complex genetic traits -Cancer genetics -Agricultural genomics -Developmental genetics -Regulatory variation in gene expression -Strategies and technologies for extracting function from genomic data -Pharmacological genomics -Genome evolution
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