[One major QTL mapping and physical map construction for rolled leaf in rice].

Yi chuan xue bao = Acta genetica Sinica Pub Date : 2005-05-01

Yuan-Jian Shao, Zong-Xiang Chen, Ya-Fang Zhang, En-Hui Chen, Ding-Cheng Qi, Jin Miao, Xue-Biao Pan

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Abstract

A clonally propagated F2 population (F2CP), derived from the rice cross of Qimiaoxiang/91SP068, was used to map rolled leaf QTLs. As the parent Qimiaoxiang is an unrolling leaf variety, while 91SP068 is a medium rolling variety with about 34% rolling index. One major QTL, rl8, which came from 91SP068, was mapped between two flanking SSR markers, RM6954 and RM6841, on chromosome 5, with genetic distance 3.8 cM, and was 1.0 cM away from RM6954. Its additive effect estimated by composite interval mapping (CIM) was 9.61 in 2002 and 6.23 in 2003, and the dominance effect was also different between two years, -1.19 in 2002 and -4.44 in 2003, respectively. It explained about 20% - 33% of the total phenotypic variation between two years. Furthermore, an integrated physical and genetic map encompassing rl8 region was constructed, and the physical distance of the interval was 542 kb, and the ratio of physical to genetic distance was 144 kb/cM. Based on this research, fine mapping of rolled leaf QTLs will not only facilitate the map-based cloning of the gene itself, but also improve the efficiency of marker-assisted selection in plant breeding.

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[一个主要的水稻卷叶QTL定位和物理图谱构建]。

以水稻亲本奇苗香/91SP068的F2无性系繁殖群体(F2CP)为材料，对卷叶qtl进行了定位。亲本祁苗香为舒展叶品种，而91SP068为中卷叶品种，卷叶指数约为34%。其中，来自91SP068的一个主要QTL r18定位于5号染色体上的两个SSR标记RM6954和RM6841之间，遗传距离为3.8 cM，与RM6954的距离为1.0 cM。综合区间映射(CIM)估算其加性效应在2002年为9.61,2003年为6.23，优势效应在2002年为-1.19,2003年为-4.44。它解释了两年间总表型变异的20% - 33%。在此基础上，构建了r18区域的物理与遗传综合图谱，其物理距离为542 kb，物理与遗传距离之比为144 kb/cM。基于本研究，对卷叶qtl进行精细定位，不仅有利于基因本身的图谱克隆，而且可以提高植物育种中标记辅助选择的效率。

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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Yi chuan xue bao = Acta genetica Sinica

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