| 大豆籽粒蛋白与脂肪含量上位性QTLs分析 |
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| 引用本文: | 白玉哲,马钰聪,孟一泽,廉瑞娇,王莹,李喜焕,张彩英. 大豆籽粒蛋白与脂肪含量上位性QTLs分析[J]. 中国农业科技导报, 2019, 21(6): 36-42. DOI: 10.13304/j.nykjdb.2018.0767 |
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| 作者姓名: | 白玉哲 马钰聪 孟一泽 廉瑞娇 王莹 李喜焕 张彩英 |
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| 作者单位: | 1.河北农业大学农学院, 教育部华北作物种质资源研究与利用重点实验室, 河北 保定 071001; 2.河北农业大学生命科学学院, 河北 保定 071001 |
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| 基金项目: | 河北省高等学校创新创业教育教学改革研究与实践项目(2017cxcy034);大学生创新创业训练计划项目(201810086004);现代农业科技奖励性后补助资金项目(17927670H);河北省科技计划项目(16227516D-1)资助。 |
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| 摘 要: | 大豆籽粒富含蛋白与脂肪,是人类植物蛋白与食用油重要来源;然而,蛋白、脂肪含量属多基因控制数量性状,尽管已有相关QTLs报道,但多是针对单个QTL进行分析,而很少有关于上位性QTLs的报道。鉴于此,利用大豆RIL群体,在4种环境条件下评价其籽粒蛋白与脂肪含量,结合SNP基因型进行上位性QTLs分析发现,定位到48对控制籽粒蛋白、55对控制籽粒脂肪含量上位性QTLs,涉及大豆所有染色体;进一步分析发现,有19对上位性QTLs同时与籽粒蛋白和脂肪含量相关,具体包括12对定位区间完全相同的QTLs、2对定位区间含共同标记的QTLs以及5对定位区间距离不超过5 c M的QTLs;同时发现,19对上位性QTLs分布在除11号染色体以外的19条染色体,其中以13号染色体分布数量最多,其次为1号染色体。上述结果不仅增添了控制大豆蛋白与脂肪含量上位性QTLs,而且为揭示二者之间的负相关关系提供了QTL间/基因间互作方面的分子证据。
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| 关 键 词: | 大豆 蛋白 脂肪 QTLs 上位性效应 基因互作 |
Epistatic QTLs Analysis of Protein and Oil Contents in Soybean (Glycine Max L. Merr.) Seeds |
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| BAI Yuzhe,MA Yucong,MENG Yize,LIAN Ruijiao,WANG Ying,LI Xihuan,ZHANG Caiying. Epistatic QTLs Analysis of Protein and Oil Contents in Soybean (Glycine Max L. Merr.) Seeds[J]. Journal of Agricultural Science and Technology, 2019, 21(6): 36-42. DOI: 10.13304/j.nykjdb.2018.0767 |
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| Authors: | BAI Yuzhe MA Yucong MENG Yize LIAN Ruijiao WANG Ying LI Xihuan ZHANG Caiying |
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| Affiliation: | 1.North China Key Laboratory of Crop Germplasm Resources, Ministry of Education; College of Agronomy, Hebei Agricultural University, Hebei Baoding 071001; 2.College of Life Sciences, Hebei Agricultural University, Hebei Baoding 071001, China |
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| Abstract: | Soybean is an important crops in the world due to its high seed protein and oil contents, while the contents of seed protein and oil attributed to the quantitative traits which were controlled by multiple minor-genes. Though there were many related QTLs reported, most of them only focused on the single additive QTLs, and few of them payed attentions to the epistatic QTLs. In this paper, a soybean RIL population (ZL) was used to study the epistatic QTLs of seed protein and oil contents by analyzing ZL population using Illumina BARCSoySNP6K Beadchip and detecting the phenotypes under four different environments. The results showed that there were 48 pairs of epistatic QTLs associated with protein content and 55 pairs of epistatic QTLs related to oil content in soybean seeds. Furthermore, there were 19 pairs of co-located epistatic QTLs controlling the protein and oil contents simultaneously. Among these co-located epistatic QTLs, 12 pairs of them shared the same QTL mapping regions, 2 pairs of them shared one same marker and five pairs of them had the QTLs regions not above 5 cM genetic distance, which could be regarded as the same QTL. Meanwhile, the results also showed that these epistatic QTLs located on nineteen chromosomes of soybean except for the chromosome 11. Thus, this study identified many epistatic QTLs for soybean seed protein and oil contents, which not only could be used for soybean quality genetic improvements in future, but also offered some evidences for reveal the negative relationships between seed protein and oil contents in soybean. |
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| Keywords: | soybean protein oil QTLs epistatic effects gene interactions |
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