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用单片段代换系(SSSLs)研究水稻株高及其构成因素QTL加性及上位性效应
引用本文:赵芳明,张桂权,曾瑞珍,杨正林,朱海涛,钟秉强,凌英华,何光华. 用单片段代换系(SSSLs)研究水稻株高及其构成因素QTL加性及上位性效应[J]. 作物学报, 2009, 35(1): 48-56. DOI: 10.3724/SP.J.1006.2009.00048
作者姓名:赵芳明  张桂权  曾瑞珍  杨正林  朱海涛  钟秉强  凌英华  何光华
作者单位:1西南大学水稻研究所/农业部生物技术与作物品质改良重点开放实验室,重庆400716;2华南农业大学广东省植物分子育种重点实验室,广东广州510642
基金项目:本研究由国家自然科学基金重点项目(30330370),西南大学博士点基金项目,农学与生物科技学院重点实验室开放基金项目资助
摘    要:株高是典型的数量性状,易受遗传背景和环境等因素的影响。单片段代换系和双片段聚合系减少了个体间遗传背景的干扰,是鉴定QTL和研究QTL上位性的新型遗传材料。本研究采用随机区组试验设计方法以初级单片段代换系间杂交衍生的16个次级单片段代换系和15个双片段聚合系分析了株高及其构成因素QTL的加性效应及加性×加性上位性效应。共鉴定出11个QTL,其中3个株高QTL,1个倒1节间长QTL,2个倒2节间长QTL,2个倒3节间长QTL和3个倒4节间长QTL,分布于第4、6和10染色体上。鉴定出23对双基因互作,其中7对为没有显著效应的座位间互作,16对为有显著效应的QTL与没有显著效应的座位间互作。结果表明,QTL加性效应和QTL间的上位性效应都是株高及构成因素的重要遗传组成。通过单片段代换系杂交衍生的次级单片段代换系和双片段聚合系可提高QTL鉴定和上位性分析的灵敏度。

关 键 词:水稻  单片段代换系  株高  QTL  上位性效应
收稿时间:2008-05-09
修稿时间:2008-09-16

Additive Effects and Epistasis Effects of QTL for Plant Height and Its Components Using Single Segment Substitution Lines (SSSLs) in Rice
ZHAO Fang-Ming,ZHANG Gui-Quan,ZENG Rui-Zhen,YANG Zheng-Lin,ZHU Hai-Tao,ZHONG Bing-Qiang,LING Ying-Hua,HE Guang-Hua. Additive Effects and Epistasis Effects of QTL for Plant Height and Its Components Using Single Segment Substitution Lines (SSSLs) in Rice[J]. Acta Agronomica Sinica, 2009, 35(1): 48-56. DOI: 10.3724/SP.J.1006.2009.00048
Authors:ZHAO Fang-Ming  ZHANG Gui-Quan  ZENG Rui-Zhen  YANG Zheng-Lin  ZHU Hai-Tao  ZHONG Bing-Qiang  LING Ying-Hua  HE Guang-Hua
Affiliation:1.Rice Research Institute, Southwest University/Key Laboratory of Biotechnology and Crop Quality Improvement,Ministry of Agriculture,Chongqing 400716,China;2.Guangdong Key Laboratory of Plant Molecular Breeding,South China Agricultural University, Guangzhou 510642,China
Abstract:Plant height is a typical quantitative trait that is liable to be influenced by genetic backgrounds and environments. As a novel research material, single segment substitution lines and double segment pyramiding lines in rice will make QTL identification and epistasis analysis more accurate because of diminishing the interference of genetic backgrounds among plants. In this study, Detection of QTLs controlling plant height and its components and analysis of epistasis effects were done with 16 secondary single segment substitution lines and 15 double segment pyramiding lines derived from crossing of primary SSSLs by randomized blocks design. The main results showed that 11 QTLs were detected and distributed on chromosomes 4, 6, and 10, of which three QTLs controlling plant height, one QTL coffering length of the first inernode from the top, two QTLs harboring length of the second internode from the top, two QTLs for length of the third internode from the top and three QTL controlling length of the fourth internode from the top were included. Twenty-three digenic interactions were detected for plant height and its components, of which seven interactions occurred between two loci both not having main effects on the traits, and 16 interactions each involved one locus having a main effect at the single-locus level and another locus that did not show significant effect at the single-locus level. The results indicated that both additive effects of QTL and epistasis effects between QTLs were important genetic components. Efficiency of QTLs identification and epistasis effects analysis between QTLs could be improved using secondary single segment substitution lines and double segment pyramiding lines derived from crossing of primary single segment substitution lines.
Keywords:QTL
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