中国玉米骨干亲本黄早四杂种优势形成的遗传基础解析
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李永祥 1(  ),李春辉 1(  ),杨俊品 2,杨华 3,程伟东 4,汪黎明 5,李凤艳 6,李会勇 7,王延波 8,李淑华 9,扈光辉 10,刘成 11,黎裕 1(  ),王天宇 1(  )
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Genetic Dissection of Heterosis for Huangzaosi, a Foundation Parental Inbred Line of Maize in China
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LI YongXiang 1(  ),LI ChunHui 1(  ),YANG JunPin 2,YANG Hua 3,CHENG WeiDong 4,WANG LiMing 5,LI FengYan 6,LI HuiYong 7,WANG YanBo 8,LI ShuHua 9,HU GuangHui 10,LIU Cheng 11,LI Yu 1(  ),WANG TianYu 1(  )
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图4. NAM及其测交群体单穗产量相关QTL遗传效应的复等位分析 NAM及其测交群体单穗定位产量QTL分别在NAM群体(a、b、c)、昌7-2测交群体(d、e、f)和郑58测交群体(g、h、i)中的复等位分析(红色方框代表单穗产量QTL在本定位群体中的复等位分析)。PVE:表型变异解释率;FAR:有利等位变异来自黄早四的比例
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Fig. 4. Multiple-allelic effects of ear yield related QTL for NAM and its test-cross populations The multiple-allelic effects of the mapped ear yield related QTL in NAM population (a, b, c), and its Chang7-2 test-cross population (d, e, f) and Zheng58 test-cross population (g, h, i), respectively (the part within red frame stands for the effects of the QTL in its mapped population). PVE: Phenotypic variance explained; FAR: Favorable allele ratio from Huangzaosi
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