中国玉米骨干亲本黄早四杂种优势形成的遗传基础解析
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()
Genetic Dissection of Heterosis for Huangzaosi, a Foundation Parental Inbred Line of Maize in China
LI YongXiang1(),LI ChunHui1(),YANG JunPin2,YANG Hua3,CHENG WeiDong4,WANG LiMing5,LI FengYan6,LI HuiYong7,WANG YanBo8,LI ShuHua9,HU GuangHui10,LIU Cheng11,LI Yu1(),WANG TianYu1()

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

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