温光敏雄性不育小麦BNS育性的遗传效应分析

doi:10.3864/j.issn.0578-1752.2013.08.002

Abstract

Abstract: 【Objective】 The objective of this research is to explore the genetic characteristics of new eco-genetic male sterile line BNS, to provide a theoretical guidance for breeding of wheat, and to lay a foundation for the further study on abortion mechanism of BNS. 【Method】 Reciprocal combinations between BNS and eight varieties ( lines ) were constructed to evaluate the cytoplasmic effects in BNS male sterility. Fertilities of F1 and F2 generations from cross of BNS/Shannong 055525 were analyzed in successive three years to obtain the optimal mode by applying the major gene plus polygene model of quantitive traits, and genetic parameters were also estimated. 【Result】 The fertility of BNS was controlled chiefly by nuclear genes, but cytoplasmic effects existed in some varieties (lines). The fertility of F2 populations showed a continuous distribution, and had obvious multi peak or skew phenomenon. The fittest genetic models was E_1, and that is the mode of two additive-dominant-epistasis major genes plus additive - dominant and additive-dominant gene. The major gene heritability was 72.5%-79.7%, and the major gene heritability was 4%-11.6%. The proportion of environmental variance was 8.8%-23.6% in phenotype variance. Male sterile gene expression in BNS was mainly regulated by the temperature, which leading to the changes of F2 seed setting rates and genetic parameters.【Conclusion】 The male fertility in BNS was controlled by two major genes plus polygene, and a certain amount of cytoplasmic effects was preliminarily found . The two major gene have more effects on the fertility, and their additive effect are much more than their dominant effects. The male sterile lines transformed or improved from BNS might be selected in early generations to enhance the efficiency of breeding.

Key words: wheat , thermo-photo-sensitive male sterility , major genes plus polygene

ZHANG Bao-Lei, ZHANG Wei-Dong, GAO Qing-Rong, WANG Mao-Ting, LI Nan-Nan, ZHANG Yan-Yu, WANG Hui-Na, GAO Jian-Hua, ZHAO Lan-Fei, RU Zhen-Gang. Genetic Analysis on Male Sterility of Thermo-Photo-Sensitive Male Sterile Line BNS in Wheat[J].Scientia Agricultura Sinica, 2013, 46(8): 1533-1542.

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References

[1]Sasakuma T, Ohtsuka I. Cytoplasmic effects of Aegilops species having D2 genome in wheat: I. Cytoplasmic differentiation among five species regarding pistillody induction. Report of the Kihara Institute for Biological Research, 1979(27/28): 59-65.

[2]Murai K, Tsunewaki K. Photoperiod-sensitive cytoplasmic male sterility in wheat with aegilops crossa cytoplasm. Euphytica, 1993, 67: 41-48.

[3]Lopez M T , Virmani S S. Development of TGMS lines for developing two-line rice hybrids for the tropics. Euphytica, 2000, 114: 211-215.

[4]张立平, 赵昌平, 单福华, 张风廷, 叶志杰. 小麦光温敏雄性不育系BS210育性的主基因+多基因混合遗传分析. 作物学报, 2007, 33(9): 1553-1557.

Zhang L P, Zhao C P, Shan F H, Zhang F T, Ye Z J. The mixed genetic analysis of photoperiod-temperature sensitive male sterility of BS210 in wheat. Acta Agronomica Sinica, 2007, 33(9): 1553-1557. (in Chinese)

[5]杨木军, 顾坚, 刘琨, 李绍祥, 田玉仙, 杨和仙, 周金生, 刘大钧, 陈佩度. 小麦温光敏雄性核不育系K78S在云南的生态适应性研究. 作物学报, 2006, 32(11):1618-1624.

Yang M J, Gu J, Liu K, Li S X, Tian Y X, Yang H X, Zhou J S, Liu D J, Chen P D. Ecological adaptability of thermo-photo-sensitive genic male sterile wheat k78s in Yunnan province. Acta Agronomica Sinica, 2006, 32(11): 1618-1624. (in Chinese)

[6]孙世贤. 第一届国家农作物品种审定委员会第一次会议审定通过的品种简介(I). 种子科技, 2003(3): 179.

Sun S X. Introduction of varieties released by 1st session of first national crops variety authorization committee (I). Seed Science and Technology, 2003(3): 179. ( in Chinese )

[7]Xing Q, Ru Z, Li J, Jin D, Sun Y, Wang B. Cloning a second form of sdenine phosphoribosy transferase gene (TaAPT2) from wheat and ananlysis of its association with thermo-sensitive genic male sterility (TGMS). Plant Science, 2005, 169: 37-45.

[8]姬俊华, 茹振刚, 张改生, 薛香, 欧行奇. 小麦温敏雄性不育系BNY的花粉育性及自交结实性研究. 麦类作物学报, 2004, 24(2): 24-26.

Ji J H, Ru Z G, Zhang G S, Xue X, Ou X Q. Study on pollen fertility and selfed seedset of thermo-sensitive male sterile wheat line BNY. Journal of Triticeae Crop, 2004, 24(2): 24-26. (in Chinese)

[9]薛香, 茹振刚. 播期对温敏不育系BNY育性的影响. 河南职业师范技术学院学报, 2004, 32(1): 12-14.

Xue X, Ru Z G, Effects of sowing stages on the fertility alteration of therm-sensitive male sterile line_BNY in wheat. Journal of Henan Vocation-Techers College, 2004, 32(1): 12-14. (in Chinese)

[10]李罗江, 茹振刚, 高庆荣, 姜辉, 郭凤芝, 吴世文, 孙哲. BNS小麦的雄性不育性及其温光特性. 中国农业科学, 2009, 42(9): 3019-3027.

Li L J, Ru Z G, Gao Q R, Jiang H, Guo F Z, Wu S W, Sun Z. Male sterility and thermo-photosensitivity characteristics of BNS in wheat. Scientia Agricultura Sinica, 2009, 42(9): 3019-3027. (in Chinese)

[11]李友勇, 茹振刚, 苏晴, 付庆云. 小麦BNS雄性不育系及转换系花药差异蛋白鉴定与分析. 作物学报, 2011, 37(9): 1540-1550.

Li Y Y, Ru Z G, Su Q, Fu Q Y. Identification and analysis of differentially expressed proteins of BNS male sterile line and its conversion line of wheat. Acta Agronomica Sinica, 2011, 37(9): 1540-1550. (in Chinese)

[12]宋喜悦, 何蓓如, 马翎健, 胡银岗, 李宏斌. 小麦温敏不育系A3314温敏不育性的遗传研究. 中国农业科学, 2005, 38(6): 1095-1099.

Song X Y, He B R, Ma L J, Hu Y G, Li H B. Genetic study of thermo-sensitive male sterility on thermo-sensitive male sterile wheat line A3314. Scientia Agricultura Sinica, 2005, 38(6): 1095-1099. (in Chinese)

[13]盖钧镒, 章元明, 王建康. 植物数量性状遗传体系. 北京: 科学出版社, 2003: 96-168.

Gai J Y, Zhang Y M, Wang J K. Genetic System of Quantitative Taits in Plant. Beijing: Science Press, 2003: 96-168. (in Chinese)

[14]何觉民, 戴君惕, 邹应斌, 张海清, 刘雄伦, 欧仕益, 周美兰. 生态遗传雄性不育理论与两系杂交植物: Ⅰ.生态遗传雄性不育理论. 湖南农业大学学报, 1994(1): 1-5.

He J M, Dai J Y, Zou Y B, Zhang H Q, Liu X L, Ou S Y, Zhou M L. The theory of ecological-genical sterility and hybrid crop produced by two-line method: Ⅰ. The theory of ecological-genical sterility, Journal of Hunan Agricultural University, 1994(1): 1-5. (in Chinese)

[15]赵昌平, 王新, 张风廷, 叶志杰, 戴慧军. 杂种小麦的研究现状与光温敏两系法. 北京农业科学, 1999, 17(2): 3-5.

Zhao C P, Wang X, Zhang F T.Ye Z J, Dai H J. Research status of hybrid wheat and Two-line-method of photo-thermo sensitive. Beijing Agricultural Sciences, 1999, 17(2): 3-5. (in Chinese)

[16]杨万年, 何之常. 光敏胞质雄性不育小麦NAD激酶和NADP磷酸酶对光周期的反映. 武汉大学学报: 自然科学版, 1998, 44(6): 737-741.

Yang W N, He Z C. Response of activities of nad kinase and nadp phosphatase in leaves of photoperiod-sensitive cytoplasmic male sterile wheat to different photoperiods. Journal of Wuhan University: Natural Science Edition, 1998, 44(6): 737-741. (in Chinese)

[17]龚明, 杨中汉, 曹宗巽. 钙对花粉萌发的启动效应和对花粉管生长的调节作用. 北京大学学报: 自然科学版, 1995, 31: 238-249.

Gong M, Yang Z H, Cao Z X. Initiating effects of calcium on pollen germination and its regulative role in pollen tube growth. Acta Scicentiarum Naturalium Universiatis Pekinensis, 1995, 31: 238-249. (in Chinese)

[18]Tian H Q, Kuang A, Musgrace M E, Russell S D. Calcium distribution in fertile and sterile anthers of photoperiod-sensitive genic male-sterile rice. Planta, 1998, 16: 97-105.

[19]宋喜悦, 胡银岗, 马翎健, 李宏斌, 何蓓如. YS型小麦温敏不育系A3314育性转换中脯氨酸和丙二醛含量的变化. 中国农业大学学报, 2008, 13(4): 1-4.

Song X Y, Hu Y G, Ma L J, Li H B, He B R. Changes in proline and malonaldehyde for fertility transfer in YS thermo-sensitive male sterile A3314 wheat line. Journal of China Agricultural University, 2008, 13(4): 1-4. (in Chinese)

[20]Guo R X, Sun D F, Cheng D X, Rong D F, Li C D. Inheritance of thermo photo-period sensitive male sterility in wheat. Australian Journal of Agricultural Research, 2006, 57: 187-192.

[21]马翎健, 何蓓茹, 宋喜悦, 胡银岗. 小麦光敏雄性不育基因的遗传分析及RAPD标记. 作物学报, 2004, 30(9): 912-915.

Ma L J, He P R, Song X Y, Hu Y G. Heredity and RAPD markers analysis of wheat photoperiod2sensitive male sterile gene. Acta Agronomica Sinica, 2004, 30(9): 912-915. (in Chinese)

[22]徐达文, 张立平, 赵昌平, 郑用琏. 小麦光温敏雄性不育系BS366育性的遗传分析. 华中农业大学学报, 2009, 28(6): 655-659.

Xu D W, Zhang L P, Zhao C P, Zheng Y L. Genetic analysis of male sterility in photo-thermoperiod sensitive genic male sterile line BS366 in wheat (Triticum aestivum L.). Journal of Huazhong Agricultural Universit, 2009, 28(6): 655-659. (in Chinese)

[23]Xing Q H , Ru Z G , Zhou C J , Xue X , Liang C Y , Yang D E , Jin D M , Wang B. Genetic analysis, molecular tagging and mapping of the thermo-sensitive genic male-sterile gene (wtms1) in wheat.Theoretical and Applied Genetics, 2003, 107: 1500-1504.

[24]王茂婷, 高庆荣, 孙正娟, 袁凯, 于松, 张保雷, 李楠楠, 茹振刚, BNS小麦穗分化进程及其雄性不育性的表现. 分子植物育种, 2011, 9(3): 294-301.

Wang M T, Gao Q R, Sun Z J, Yuan K, Yu S, Zhang B L, Li N N, Ru Z G. Spike differentiation process and the male sterility of BNS in wheat. Molecular Plant Breeding, 2011, 9(3): 294-301. (in Chinese)

[25]李罗江, 茹振刚, 高庆荣, 姜辉, 郭凤芝, 孙哲, 吴世文. 小麦雄性不育系BNS及F1的育性分析. 麦类作物学报, 2009, 29(4): 583-587.

Li L J, Ru Z G, Gao Q R, Jiang H, Guo F Z, Sun Z, Wu S W. Analysis on the fertility of wheat male-sterile line BNS and its F1 hybrid. Journal of Triticeae Crop, 2009, 29(4): 583-587. (in Chinese)

[26]周美兰, 茹振刚, 骆叶青, 罗丕, 李清, 郭小孔, 周萍. 两系小麦不育系BNS雄性育性的转换, 核农学报, 2010, 26(5): 887-894.

Zhou M L, Ru Z G, Luo Y Q, Luo P, Li Q, Guo X K, Zhou P. Male fertility transformation of two-line wheat sterile lines BNS. Journal of Nuclear Agricultural Sciences, 2010, 26(5): 887-894. (in Chinese)

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Genetic Analysis on Male Sterility of Thermo-Photo-Sensitive Male Sterile Line BNS in Wheat

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