大蒜农艺性状的大规模群体结构和遗传结构。

IF 7.6 Q1 GENETICS & HEREDITY 园艺研究(英文) Pub Date : 2023-02-22 eCollection Date: 2023-04-01 DOI:10.1093/hr/uhad034
Huixia Jia, Qing Zhao, Jiangping Song, Xiaohui Zhang, Wenlong Yang, Zhenzhen Du, Yue Zhu, Haiping Wang
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引用次数: 2

摘要

大蒜是一种无性繁殖的作物,是仅次于洋葱的第二大球茎作物,被用作蔬菜和药用植物。经过数千年的栽培,形成了丰富多样的大蒜资源。然而,大蒜农艺性状的基因组变异、群体结构和遗传结构尚未得到很好的阐明。这里,1 100 通过对来自43个国家的606份大蒜材料进行基因分型测序,鉴定出258个单核苷酸多态性(SNPs)。种群结构、主成分和系统发育分析表明,这些材料可分为5个亚群。在一项全基因组关联研究中,连续两年实施了20个农艺性状,包括地上生长性状、球茎相关性状和螺栓相关性状。总共有542个SNPs与这些农艺性状相关,其中188个SNPs重复与两个以上的性状相关。一个SNP(chr6:1896315972)与10个性状重复相关。这些相关的SNPs位于858个基因内或附近,其中56个是转录因子。有趣的是,核糖体蛋白S5中的一个非同义SNP(Chr4:166524085)与地上生长和球茎相关性状反复相关。此外,对完全抽薹和非抽薹材料之间基因组选择区的候选基因的基因本体富集分析表明,这些基因在“分生组织的营养-生殖阶段转变”、“芽系统发育”、“生殖过程”等方面都显著富集。这些结果为可靠有效地选择候选基因以实现大蒜的遗传改良和优良品种提供了有价值的信息。
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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Large-scale population structure and genetic architecture of agronomic traits of garlic.

Garlic, an asexually propagated crop, is the second important bulb crop after the onion and is used as a vegetable and medicinal plant. Abundant and diverse garlic resources have been formed over thousands of years of cultivation. However, genome variation, population structure and genetic architecture of garlic agronomic traits were still not well elucidated. Here, 1 100 258 single nucleotide polymorphisms (SNPs) were identified using genotyping-by-sequencing in 606 garlic accessions collected from 43 countries. Population structure, principal component and phylogenetic analysis showed that these accessions were divided into five subpopulations. Twenty agronomic traits, including above-ground growth traits, bulb-related and bolt-related traits in two consecutive years were implemented in a genome-wide association study. In total, 542 SNPs were associated with these agronomic traits, among which 188 SNPs were repeatedly associated with more than two traits. One SNP (chr6: 1896135972) was repeatedly associated with ten traits. These associated SNPs were located within or near 858 genes, 56 of which were transcription factors. Interestingly, one non-synonymous SNP (Chr4: 166524085) in ribosomal protein S5 was repeatedly associated with above-ground growth and bulb-related traits. Additionally, gene ontology enrichment analysis of candidate genes for genomic selection regions between complete-bolting and non-bolting accessions showed that these genes were significantly enriched in 'vegetative to reproductive phase transition of meristem', 'shoot system development', 'reproductive process', etc. These results provide valuable information for the reliable and efficient selection of candidate genes to achieve garlic genetic improvement and superior varieties.

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