| 接种根瘤菌环境下大豆叶形遗传及QTL定位分析 |
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| 引用本文: | 杨永庆,陈圣男,李欣欣,赵青松,付亚书,杨春燕,张孟臣,廖红.接种根瘤菌环境下大豆叶形遗传及QTL定位分析[J].中国油料作物学报,2021,43(5):825. |
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| 作者姓名: | 杨永庆 陈圣男 李欣欣 赵青松 付亚书 杨春燕 张孟臣 廖红 |
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| 作者单位: | 1. 福建农林大学资源与环境学院/根系生物学研究中心,福建 福州,350002; 2. 河北省农林科学院粮油作物研究所,国家大豆改良中心石家庄分中心,农业农村部黄淮海大豆生物学与遗传育种重点实验室,河北省作物遗传育种实验室,河北 石家庄,050035;3. 黑龙江省农业科学院绥化分院,黑龙江 绥化,152052 |
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| 基金项目: | 国家十三五重点研发计划(2016YFD0100201);国家现代农业产业技术体系建设专项(CARS-04);福建农林大学科技创新专项基金项目(CXZX201828) |
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| 摘 要: | 为探究接种根瘤菌环境下影响大豆叶形的遗传基础,本研究利用两个叶形具有显著差异的大豆品种及RIL群体,在接种和不接种根瘤菌环境下对大豆叶形性状进行遗传和QTL定位等分析。结果显示,叶形相关性状的遗传率在0.60~0.95之间,环境与基因型间存在互作效应,并且接种根瘤菌可以显著影响叶形指数(LS)与单株粒数(GN)、单株荚数(PD)和单株粒重(GW)的相关系数。此外,两种处理下共检测到8个QTL位点,LOD值范围在2.50~7.03,可解释6.4%~16.9%的遗传变异。其中,qLS-15可解释由根瘤菌×基因型互作引起叶形性状6.4%~9.3%的遗传变异,LOD值在2.50~3.69之间,表明qLS-15是与环境互作的主要遗传位点之一。综上所述,根瘤菌可以通过qLS-15影响大豆叶形,研究结果为解析根瘤菌提升大豆产量的内在机制提供了理论依据。
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| 关 键 词: | 大豆叶形 根瘤菌 遗传互作 QTL定位 |
Genetic analysis and QTL mapping of soybean leaf shape under rhizobia inoculated environment |
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| YANG Yong-qing,CHEN Sheng-nan,LI Xin-xin,ZHAO Qing-song,FU Ya-shu,YANG Chun-Yan,ZHANG Meng-chen,LIAO Hong.Genetic analysis and QTL mapping of soybean leaf shape under rhizobia inoculated environment[J].Chinese Journal of Oil Crop Sciences,2021,43(5):825. |
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| Authors: | YANG Yong-qing CHEN Sheng-nan LI Xin-xin ZHAO Qing-song FU Ya-shu YANG Chun-Yan ZHANG Meng-chen LIAO Hong |
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| Abstract: | To determine the genetic basis of soybean leaf shape under the environment with rhizobia inoculation, two soybean varieties with contrast leaf shape and their derived RIL population were used for genetic and QTL analysis under both environment with and without rhizobia inoculation. As results showed that the heritability of leaf shape related traits varied from 0.60 to 0.95 and there also existed interactions between environment and genotype, meanwhile, rhizobia inoculation could significantly affect the correlation coefficients of leaf shape index (LS) with grain number (GN), pod number (PN) and grain weight (GW) per plant. In addition, total 8 QTL with LOD values varied from 2.50~7.03, which could explain 6.4%~16.9% genetic variation, were determined under both environments with and without rhizobia inoculation. Among them, qLS-15 with LOD values varied from 2.50~3.69 could explain the 6.4%~9.3% genetic variation caused by rhizobia * genotype interaction for leaf shape traits, suggesting that qLS-15 is one of the main genetic loci that could interact with the environment. In summary, rhizobia could affect soybean leaf shape through genetic locus of qLS-15, these results provide a theoretical basis for analyzing the mechanism of rhizobia in increasing soybean yield. |
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| Keywords: | soybean leaf shape rhizobium genetic interaction QTL mapping |
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