| 应用DNA标记分析稻飞虱的抗性基因 |
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| 引用本文: | 寒川一成,曾娟,钱忠海.应用DNA标记分析稻飞虱的抗性基因[J].中国水稻科学,2003,17(Z1):37-46. |
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| 作者姓名: | 寒川一成 曾娟 钱忠海 |
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| 作者单位: | 1. 日本国际农林水产业研究中心,日本,筑波,305-8686
2. 南京农业大学,植物保护学院,江苏,南京,210095 |
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| 基金项目: | JIRCAS国际合作研究项目 (B333310 1),中日合作研究项目“中国重要食物资源的可持续生产和高度利用技术的开发”在中国水稻研究所实施的“中国迁飞性稻飞虱综合防治技术开发”研究内容的一部分 |
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| 摘 要: | 简要地回顾了水稻抗飞虱的遗传位点定位和作图的新进展.来自具有不同基因组的野生稻渗入系的4个抗褐飞虱基因Bph
1、 bph 2、 bph 4和Bph 9,以及4个暂定名抗褐飞虱基因Bph 10(t)、bph 11(t)、bph
12(t)和Bph 13(t),目前已被定位于水稻12条染色体中的5条.其中,Bph 1、 bph
2、 Bph 9和Bph 10(t)在水稻第12染色体的长臂上形成1个连锁区段,位于bph
2位点附近约25 cM.检测出几个对田间抗性和杀卵作用有影响的QTL.抗白背飞虱基因Wbph
1、 Wbph 2和Wbph 6(t)已经或暂时定位了.粳稻中对白背飞虱具有杀卵抗性的QTL已进行了详细的分析,在第6染色体的短臂上检测到有效的QTL,在同一位点鉴定出1个显性的杀卵基因Ovc.在杀卵基因Ovc存在时,第1染色体上的1个QTL和第5染色体上的2个QTL增加白背飞虱的卵死亡率.用DNA标记进行QTL作图可以加深人们对作物抗虫性中复杂的生理和遗传机理的理解.标记辅助选择可以加速培育具多基因抗虫性的作物,还可以将野生种中的有利抗虫特性转入改良品种中,增加作物抗虫性的持久性和遗传多样性.
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| 关 键 词: | 水稻 品种抗性 抗性基因 褐飞虱 白背飞虱 田间抗性 数量性状位点 分子标记 |
Applications of DNA-Markers to Analyze Rice Planthopper Resistance Genes |
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| Abstract.Applications of DNA-Markers to Analyze Rice Planthopper Resistance Genes[J].Chinese Journal of Rice Science,2003,17(Z1):37-46. |
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| Authors: | Abstract |
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| Abstract: | Recent achievements in molecular tagging and mapping of genetic loci for rice planthopper resistance in rice were briefly reviewed. Four rice genes for the brown planthopper (BPH) resistance, Bph 1, bph 2, bph 4 and Bph 9, and four putative BPH-resistance genes, Bph 10(t), bph 11(t), bph 12(t) and Bph 13(t), introgressed from wild rice species with different genomes have so far been mapped onto 5 of 12 rice chromosomes. Of them, Bph 1, bph 2, Bph 9 and Bph 10(t), have been found forming a linkage block on the long arm of rice chromosome 12, in the vicinity of about 25 cM from the bph 2 locus. Several QTLs affecting field resistance and ovicidal activities have also been detected. The whitebacked planthopper (WBPH) resistance genes, Wbph 1, Wbph 2 and Wbph 6(t) have been tagged or tentatively mapped. QTLs for ovicidal resistance to WBPH in japonica rice have been analyzed in detail. The effective QTL has been detected on the short arm of chromosome 6, and a dominant ovicidal gene Ovc has been identified at the locus. One QTL on chromosome 1 and two QTLs on chromosome 5 increased WBPH egg mortality in the presence of ovicidal gene Ovc. QTL mapping with DNA-markers will increase our understandings of complicated physiological and genetic mechanisms in varietal resistance in crop plants. Marker- assisted selection will facilitate to develop insect resistant crops with polygenic basis, and to introduce valuable insect resistance traits from wild relatives into improved crop varieties in order to increase durability and genetic diversity of insect resistance in the crops. |
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| Keywords: | rice varietal resistance resistance gene brown planthopper whitebacked planthopper field resistance quantitative trait loci molecular marker |
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