Identification of Genomic Loci and Candidate Genes Related to Seed Tocopherol Content in Soybean.

Pub Date : 2022-06-27 DOI:10.3390/plants11131703

Suprio Ghosh, Shengrui Zhang, Muhammad Azam, Kwadwo Gyapong Agyenim-Boateng, Jie Qi, Yue Feng, Yecheng Li, Jing Li, Bin Li, Junming Sun

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引用次数: 2

Abstract

Soybean seeds are primary sources of natural tocopherols used by the food and pharmaceutical industries, owing to their beneficial impacts on human health. Selection for higher tocopherol contents in seeds along with other desirable traits is an important goal in soybean breeding. In order to identify the genomic loci and candidate genes controlling tocopherol content in soybean seeds, the bulked-segregant analysis technique was performed using a natural population of soybean consisting of 1525 accessions. We constructed the bulked-segregant analysis based on 98 soybean accessions that showed extreme phenotypic variation for the target trait, consisting of 49 accessions with extremely-high and 49 accessions with extremely-low tocopherol content. A total of 144 variant sites and 109 predicted genes related to tocopherol content were identified, in which a total of 83 genes were annotated by the gene ontology functions. Furthermore, 13 enriched terms (p < 0.05) were detected, with four of them found to be highly enriched: response to lipid, response to abscisic acid, transition metal ion transmembrane transporter activity, and double-stranded DNA binding. Especially, six candidate genes were detected at 41.8−41.9 Mb genomic hotspots on chromosome 5 based on ANNOtate VARiation analysis. Among the genes, only Glyma.05G243400 carried a non-synonymous mutation that encodes a “translation elongation factor EF1A or initiation factor IF2gamma family protein” was identified. The haplotype analysis confirmed that Glyma.05G243400 exhibited highly significant variations in terms of tocopherol content across multiple experimental locations, suggesting that it can be the key candidate gene regulating soybean seed tocopherols. The present findings provide novel gene resources related to seed tocopherols for further validation by genome editing, functional characterization, and genetic improvement targeting enhanced tocopherol composition in soybean molecular breeding.

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大豆种子生育酚含量相关基因位点及候选基因的鉴定。

大豆种子是食品和制药工业使用的天然生育酚的主要来源，因为它们对人体健康有有益的影响。在大豆育种中，选择高生育酚含量的种子和其他理想性状是重要的目标。为了确定大豆种子中控制生育酚含量的基因组位点和候选基因，利用大豆自然群体1525份材料进行了散装分离分析。我们以98份表现出目标性状极端表型变异的大豆材料为基础，构建了大量分离分析，其中49份生育酚含量极高，49份生育酚含量极低。共鉴定出144个与生育酚含量相关的变异位点和109个预测基因，其中83个基因被基因本体功能标注。此外，检测到13个富集项(p < 0.05)，其中4个为高富集项:脂质响应、脱落酸响应、过渡金属离子跨膜转运蛋白活性和双链DNA结合。其中，在5号染色体41.8 ~ 41.9 Mb的基因组热点位置，利用ANNOtate变异分析检测到6个候选基因。在这些基因中，只有Glyma.05G243400携带一个编码“翻译延伸因子EF1A或起始因子IF2gamma家族蛋白”的非同义突变。单倍型分析证实，Glyma.05G243400在多个实验位点的生育酚含量表现出高度显著的差异，表明它可能是调节大豆种子生育酚的关键候选基因。本研究结果为大豆分子育种提供了新的与种子生育酚相关的基因资源，可通过基因组编辑、功能表征和针对提高生育酚组成的遗传改良进一步验证。

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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