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Dwarf Male-Sterile Wheat and Its Breeding Technology System

LIU Bing-hua, ZHAI Hu-qu, YANG Li, WANG Shan-hong, LIU Hong-wei, ZHOU Yang, MENG Fan-hua, YANG Jian-ping, ZHU Guang, CUI Shu-lan,ZHANG Qing-hai, WEI Yun-liang   

  1. Institute of Crop Science, Chinese Academy of Agricultural Science, Beijing 100081
  • Online:2007-12-31 Published:2007-12-31

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Abstract: Dwarf Male-Sterile Wheat (DS wheat) is a genetic material called AiBai which linked Ms2, the Taigu genic male-sterile gene, with Rht10 dwarfing gene tightly on the same chromosome 4DS with 0.18 crossing-over unit. This provides a genetic marker for male sterility. The progeny of DS wheat always segregates into 1:1 for male-sterile plants with dwarfing gene Rht10 and male-fertile plants without dwarfing gene Rht10.So the male-sterile plants are shorter than the male-fertile plants, it is easy to identify male sterility plants based on the plants height. Dwarf male-sterile wheat is a favorable tool for wheat breeding in recurrent selection. Using dwarf male-sterile wheat, we have created a simple, effective and practical method and technology in recurrent selection called DS wheat breeding system. The new DS technical system consists of construction of basic population, choice of male parent, selection of male-sterile plant and intercrossing. For more than a decade, now the characteristics of improved population, such as yield, quality, resistance and plant-type have been increased more rapidly. New cultivar RS987 and a series of new lines have been released in recent year. Dwarf male-sterile wheat and its breeding technical system is an effective technology platform for wheat breeding in different ecology areas.

Key words: Dwarf , Male-Sterile , Dwarf Male-Sterile Wheat , Breeding technology

[1]金善宝、庄巧生主编. 中国小麦学, 北京: 农业出版社, 1996.
[2]邓景扬、高忠丽, 小麦显性雄性不育基因的发现与利用——太谷核不育小麦鉴定总结. 作物学报, 1980, 2: 85-98.
[3]刘秉华. 小麦核不育性与轮回选择育种. 北京: 中国农业科技出版社, 1994.
[4]Symposium on genomics and plant breeding: the experience of the initiative for future agricultural and food systems, Crop Sciences, 2004, 44: 1893-1919.
[5]刘秉华, 邓景扬. 太谷核不育小麦显性不育单基因Ta1的染色体组定位及端体分析. 中国科学(B辑), 1986, (2): 157-166.
[6]Liu Binghua, Deng J Y. A dominant gene for male sterility in wheat, Plant Breeding, 1986, 97: 204-209.
[7]Liu B H. Isolation of a spontaneous chromosome translocation in common wheat. Plant Breeding, 1987, 98, 266-267.
[8]吴兆苏, 沈秋泉, 陆维忠, 杨选林. 小麦抗赤霉病基因库的建拓, 作物学报, 1984, 10(2): 73-80.
[9]林作楫. 多抗性育种方案, 太谷核不育小麦. 北京: 科学出版社, 1987: 93-96.
[10]刘秉华, 杨丽. 矮败小麦的选育及利用前景. 科学通报, 1991, 36(4): 306-308.
[11]刘秉华, 杨丽, 王山荭. 小麦显性矮秆基因Rht10与着丝点间遗传距离的测定. 科学通报, 1993, 38(12): 1128-1130.
[12]刘秉华, 杨丽, 王山荭. 矮败小麦的遗传研究. 作物学报, 1994, 20(3): 206-209.
[13]刘秉华, 杨丽, 王山荭. 矮败小麦连锁特性的遗传转移. 作物学报, 1995, 21(6): 702-706.
[14]Izumi N, Sawada S, Sasakuma T. Genetic analysis of dwarfness in Triticum astivum L. cv. “Ai-bian 1”. Seiken Ziho, 1983 31: 38-48
[15]刘秉华, 杨丽. 矮败小麦及其在矮化育种中的应用. 中国农业科学, 1994, 27(5):17-21.
[16]Liu B H, Yang L, Wang S H, Meng F H. The method and technique of population improvement using dwarf male-sterile wheat. Acta Agronomica Sinica, 2002, 28: 69-71.
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