Genetic Analysis and Mapping of Dominant Minute Grain Gene Mi3(t) in Rice 被引量：1

Genetic Analysis and Mapping of Dominant Minute Grain Gene Mi3(t) in Rice

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摘要 Grain size, determined chiefly by grain length, is one of the main factors affecting the grain yield in rice production. To study the trait of rice grain size, F1 and F2 populations were developed from crosses Shuhui 881/Y34 and Shuhui 527/Y34, and genetic analysis for minute grain was performed. The F1 populations showed minute grains, and grain size segregations in the two F2 populations were both in accordance with the ratio of 3：1, indicating that minute grain in Y34 was controlled by a completely dominant gene. By using the F2 population from Shuhui 881/Y34, this dominant gene, tentatively designated as Mi3（t）, was mapped based on SSR markers in the interval between RM282 （genetic distance of 5.1 cM） and RM6283 （genetic distance of 0.9 cM） on the short arm of chromosome 3. Grain size, determined chiefly by grain length, is one of the main factors affecting the grain yield in rice production. To study the trait of rice grain size, F1 and F2 populations were developed from crosses Shuhui 881/Y34 and Shuhui 527/Y34, and genetic analysis for minute grain was performed. The F1 populations showed minute grains, and grain size segregations in the two F2 populations were both in accordance with the ratio of 3：1, indicating that minute grain in Y34 was controlled by a completely dominant gene. By using the F2 population from Shuhui 881/Y34, this dominant gene, tentatively designated as Mi3（t）, was mapped based on SSR markers in the interval between RM282 （genetic distance of 5.1 cM） and RM6283 （genetic distance of 0.9 cM） on the short arm of chromosome 3.

作者 LIu Ming-wei LIU Yong WANG Shi-quan DENG Qi-ming LI Ping

机构地区 Rice Research Institute E-mail： biowee@ Sichuan Agri-Bio-Tech Research Center

出处《Rice science》 SCIE 2005年第4期243-248,共6页 水稻科学（英文版）

基金 National High Technology Research and Development Program of China(2003AA212030).

关键词 RICE minute grain genetic analysis gene location rice minute grain genetic analysis gene location

分类号 S511 [农业科学—作物学]

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参考文献16

1Y. F. Tan,Y. Z. Xing,J. X. Li,S. B. Yu,C. G. Xu,Qifa Zhang.Genetic bases of appearance quality of rice grains in Shanyou 63, an elite rice hybrid[J].TAG Theoretical and Applied Genetics (-).2000(5-6)
2E. D. Redo?a,D. J. Mackill.Quantitative trait locus analysis for rice panicle and grain characteristics[J].TAG Theoretical and Applied Genetics (-).1998(6-7)
3Atsushi Yoshimura,Osamu Ideta,Nobuo Iwata.Linkage map of phenotype and RFLP markers in rice[J].Plant Molecular Biology (-).1997(1-2)
4X. Chen,S. Temnykh,Y. Xu,Y. G. Cho,S. R. McCouch.Development of a microsatellite framework map providing genome-wide coverage in rice (Oryza sativa L.)[J].TAG Theoretical and Applied Genetics.1997(4)
5Ning Huang,Arnold Parco,Teresita Mew,Gerard Magpantay,Susan McCouch,Emmanuel Guiderdoni,Jichen Xu,Prasanta Subudhi,Enrique R. Angeles,Gurdev S. Khush.RFLP mapping of isozymes, RAPD and QTLs for grain shape, brown planthopper resistance in a doubled haploid rice population[J].Molecular Breeding.1997(2)
6S. R. McCouch,G. Kochert,Z. H. Yu,Z. Y. Wang,G. S. Khush,W. R. Coffman,S. D. Tanksley.Molecular mapping of rice chromosomes[J].Theoretical and Applied Genetics.1988(6)
7Prasad K,Seetharaman R.Inheritance of grain size and its interrelationship in rice[].Indian Journal of Genetics and Plant Breeding.1991
8Yoshida S,Ikegami M,Kuze J,Sawada K,Hashimoto Z,Ishii T,Nakamura C,Kamijima O.QTL analysis for plant and grain characters of sake-brewing rice using a doubled haploid population[].Breeding Science.2002
9Kato T.Genetic analysis on the mutant alleles for long grains induced in a rice cultivar,Gimbozu[].SABRAO Journal.1990
10Liu G P,Li Z X.Research on the genetic aberrance from the shape trait of rice grain[].Seeds.1989

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1袁筱萍,魏兴华,余汉勇,王一平,汤圣祥.不同品种及有关外因对水稻纹枯病抗性的影响[J].作物学报,2004,30(8):768-773. 被引量：33
2PAN Xuebiao CHEN Zongxiang XU Jingyou TONG Yunhui WANG Zibin PAN Xingyuan Dept of Agro of Agri Coll,Yangzhou Univ,Yangzhou 225009,China.Influence of different inoculation methods on the evaluation of the resistance to rice sheath blight(Rhizoctonia solani Kuhn)[J].Chinese Rice Research Newsletter,1998,6(2):7-8. 被引量：6
3向珣朝,王世全,何立斌,李季航,李平.一个高抗水稻纹枯病突变体的发现及其遗传特性的初步分析[J].作物学报,2005,31(9):1236-1238. 被引量：20
4李华荣,颜思齐.四川省东、南部稻区水稻纹枯病菌系研究[J].真菌学报,1990,9(1):41-49. 被引量：14
5王晓娥,邓根生,张先平,王国军,杨云侠,陈耀楠.水稻品种对纹枯病和白叶枯病抗病性鉴定初报[J].陕西农业科学,2000,46(7):16-17. 被引量：8
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7潘学彪,陈宗祥,张亚芳,朱建,纪雪梅.水稻抗纹枯病育种成效的初步评价[J].中国水稻科学,2001,15(3):218-220. 被引量：27
8马均,黎汉云,李仕贵,田彦华,高克铭.重穗型杂交稻冈优527的生理特性及高产栽培技术研究[J].西南农业学报,2001,14(4):29-33. 被引量：10
9国广泰史,钱前,佐藤宏之,滕胜,曾大力,藤本宽,朱立煌.水稻纹枯病抗性QTL分析[J].Acta Genetica Sinica,2002,29(1):50-55. 被引量：51
10陈宗祥,邹军煌,韩月澎,徐敬友,童蕴慧,于恒秀,张亚芳,潘学彪.抗水稻纹枯病遗传研究的改良方法及其验证[J].中国水稻科学,2002,16(1):74-76. 被引量：17

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32002年农作物重大病虫害发生趋势[J].世界农业,2002(6):24-25. 被引量：9

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3Jianxin Ma,Ronghua Zhou,Yuchen Dong,Xiaoming Wang,Jizeng Jia.Molecular mapping of a novel yellow rust resistance gene of wheat using microsatellite markers[J].Chinese Science Bulletin,1999,44(19):1774-1778.
4DENGZhi-Yong ZHANGXiang-Qi WANGXian-Ping JINGJian-Kang WANGDao-Wen.Identification and Molecular Mapping of a Stripe Rust Resistance Gene from a Common Wheat Line Qzl80[J].Acta Botanica Sinica,2004,46(2):236-241. 被引量：10
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8Tian-zhen ZHANG.陆地棉产量性状QTLs的SSR和RAPD标记和定位[J].棉花学报,2002,14(z1).
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Genetic Analysis and Mapping of Dominant Minute Grain Gene Mi3(t) in Rice 被引量：1

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