Obtaining the initial domestic long-grain material for rice breeding
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Keywords:
Oryza sativa, long-seed, form, line, pnevmo-castration, hybridization, hybridAbstract
For creating domestic long-grain rice varieties adapted to soil and climatic conditions hybridization was carried out using local and foreign long grain rice varieties at IPBB. 2 local and 7 foreign rice genotypes were used as a research material. Pneumo-castration and TVEL method of pollination was used. Castration was performed using by pneumo-castration apparatus created at IPBB in the greenhouse conditions. In the amount of 5876 seeds from 17 different combinations were obtained F1 hybrids that are the source material for long grain rice breeding and their grain shape was determined by method of Kostyleva P.I. As result of the study all received hybrids of F1 generation have had long-grain (ratio l/b was 4.1-4.3).References
Әдебиеттер:
1 http://rice.plantbiology.msu.edu/
2 Li M.M., Xu L., Ren J.F., Cao G.L., Yu L.Q., He H.H., Han L.Z., Gao X.Z. Identification of quantitative trait loci for grain traits in japonica rice // Sci Agric Sin, 2009. - 42(7): 2255−2261.
3 Yan C.J., Liang G.H., Chen F., Li X., Tang S.Z., Yi C.D., Tian S., Lu J.F., Gu M.H. Mapping quantitative trait loci associated with rice grain shape based on an indica/japonica backcross population // Acta Genet Sin, 2003. - 30: 711−716.
4 Zhang G.H., Zhang G.P., Qian Q., Xu L.P., Zeng D.L., Teng S., Bao J.S. QTL analysis of grain shape traits in different environments // Chin J Rice Sci, 2004. - 18(1): 16-22.
5 Zhao M.F., Huang Z.D., Wu C.Z., Che R.H., Shi B.H., Fang S.R., Sun Y.J., Zhao Z.M. Genetic analysis and mapping of major dominant QTL for grain length in rice // Mol Plant Breeding, 2008. - 6(6): 1057−1060.
6 Zeng R.Z., Talukdar A., Liu F., Zhang G.Q. Mapping the QTLs for grain shape using single segment substitution lines in rice // Sci Agric Sin, 2006. - 39(4): 647–654.
7 Wuhan Zhang, Pingyong Sun, Qiang He, Fu Shu, Jie Wang, Huafeng Deng. Fine mapping of GS2, a dominant gene for big grain rice // The Crop Journal. 2013. - P. 160-165.
8 Лось Г.Д. Методика гибридизации риса // Рисоводство. - 2007. - №10. - С.42-51.
9 Anon. Standard Evaluation System for Rice. International Rice Research Institute, Manila, Philippines, 1996. - P.18-19.
10 http://m.zakon.kz/4520693-razvitie-risovodstva-v-kazakhstane.html
11 Костылев П.И. Перспективы селекции риса в Ростовской области / Юбилейный сборник научных трудов. Селекция и семеноводство полевых культур. Воронеж 2007, - С. 82-90.
References:
1 http://rice.plantbiology.msu.edu/
2 Li M.M., Xu L., Ren J.F., Cao G.L., Yu L.Q., He H.H., Han L.Z., Gao X.Z. Identification of quantitative trait loci for grain traits in japonica rice // Sci Agric Sin, 2009. - 42(7): 2255−2261.
3 Yan C.J., Liang G.H., Chen F., Li X., Tang S.Z., Yi C.D., Tian S., Lu J.F., Gu M.H. Mapping quantitative trait loci associated with rice grain shape based on an indica/japonica backcross population // Acta Genet Sin, 2003. - 30: 711−716.
4 Zhang G.H., Zhang G.P., Qian Q., Xu L.P., Zeng D.L., Teng S., Bao J.S. QTL analysis of grain shape traits in different environments // Chin J Rice Sci, 2004. - 18(1): 16-22.
5 Zhao M.F., Huang Z.D., Wu C.Z., Che R.H., Shi B.H., Fang S.R., Sun Y.J., Zhao Z.M. Genetic analysis and mapping of major dominant QTL for grain length in rice // Mol Plant Breeding, 2008. - 6(6): 1057−1060.
6 Zeng R.Z., Talukdar A., Liu F., Zhang G.Q. Mapping the QTLs for grain shape using single segment substitution lines in rice // Sci Agric Sin, 2006. - 39(4): 647–654.
7 Wuhan Zhang, Pingyong Sun, Qiang He, Fu Shu, Jie Wang, Huafeng Deng. Fine mapping of GS2, a dominant gene for big grain rice // The Crop Journal. 2013. - P. 160-165.
8 Los G.D. Hybridization methods of rice // Rice breeding. - 2007. - №10. - P.42-51.
9 Anon. Standard Evaluation System for Rice. International Rice Research Institute, Manila, Philippines, 1996. - P.18-19.
10 http://m.zakon.kz/4520693-razvitie-risovodstva-v-kazakhstane.html
11 Kostylev P.I. Prospects for rice breeding in the Rostov region / Jubilee collection of scientific papers. Breeding and seed production of field crops. Voronezh, 2007 - P. 82-90.
1 http://rice.plantbiology.msu.edu/
2 Li M.M., Xu L., Ren J.F., Cao G.L., Yu L.Q., He H.H., Han L.Z., Gao X.Z. Identification of quantitative trait loci for grain traits in japonica rice // Sci Agric Sin, 2009. - 42(7): 2255−2261.
3 Yan C.J., Liang G.H., Chen F., Li X., Tang S.Z., Yi C.D., Tian S., Lu J.F., Gu M.H. Mapping quantitative trait loci associated with rice grain shape based on an indica/japonica backcross population // Acta Genet Sin, 2003. - 30: 711−716.
4 Zhang G.H., Zhang G.P., Qian Q., Xu L.P., Zeng D.L., Teng S., Bao J.S. QTL analysis of grain shape traits in different environments // Chin J Rice Sci, 2004. - 18(1): 16-22.
5 Zhao M.F., Huang Z.D., Wu C.Z., Che R.H., Shi B.H., Fang S.R., Sun Y.J., Zhao Z.M. Genetic analysis and mapping of major dominant QTL for grain length in rice // Mol Plant Breeding, 2008. - 6(6): 1057−1060.
6 Zeng R.Z., Talukdar A., Liu F., Zhang G.Q. Mapping the QTLs for grain shape using single segment substitution lines in rice // Sci Agric Sin, 2006. - 39(4): 647–654.
7 Wuhan Zhang, Pingyong Sun, Qiang He, Fu Shu, Jie Wang, Huafeng Deng. Fine mapping of GS2, a dominant gene for big grain rice // The Crop Journal. 2013. - P. 160-165.
8 Лось Г.Д. Методика гибридизации риса // Рисоводство. - 2007. - №10. - С.42-51.
9 Anon. Standard Evaluation System for Rice. International Rice Research Institute, Manila, Philippines, 1996. - P.18-19.
10 http://m.zakon.kz/4520693-razvitie-risovodstva-v-kazakhstane.html
11 Костылев П.И. Перспективы селекции риса в Ростовской области / Юбилейный сборник научных трудов. Селекция и семеноводство полевых культур. Воронеж 2007, - С. 82-90.
References:
1 http://rice.plantbiology.msu.edu/
2 Li M.M., Xu L., Ren J.F., Cao G.L., Yu L.Q., He H.H., Han L.Z., Gao X.Z. Identification of quantitative trait loci for grain traits in japonica rice // Sci Agric Sin, 2009. - 42(7): 2255−2261.
3 Yan C.J., Liang G.H., Chen F., Li X., Tang S.Z., Yi C.D., Tian S., Lu J.F., Gu M.H. Mapping quantitative trait loci associated with rice grain shape based on an indica/japonica backcross population // Acta Genet Sin, 2003. - 30: 711−716.
4 Zhang G.H., Zhang G.P., Qian Q., Xu L.P., Zeng D.L., Teng S., Bao J.S. QTL analysis of grain shape traits in different environments // Chin J Rice Sci, 2004. - 18(1): 16-22.
5 Zhao M.F., Huang Z.D., Wu C.Z., Che R.H., Shi B.H., Fang S.R., Sun Y.J., Zhao Z.M. Genetic analysis and mapping of major dominant QTL for grain length in rice // Mol Plant Breeding, 2008. - 6(6): 1057−1060.
6 Zeng R.Z., Talukdar A., Liu F., Zhang G.Q. Mapping the QTLs for grain shape using single segment substitution lines in rice // Sci Agric Sin, 2006. - 39(4): 647–654.
7 Wuhan Zhang, Pingyong Sun, Qiang He, Fu Shu, Jie Wang, Huafeng Deng. Fine mapping of GS2, a dominant gene for big grain rice // The Crop Journal. 2013. - P. 160-165.
8 Los G.D. Hybridization methods of rice // Rice breeding. - 2007. - №10. - P.42-51.
9 Anon. Standard Evaluation System for Rice. International Rice Research Institute, Manila, Philippines, 1996. - P.18-19.
10 http://m.zakon.kz/4520693-razvitie-risovodstva-v-kazakhstane.html
11 Kostylev P.I. Prospects for rice breeding in the Rostov region / Jubilee collection of scientific papers. Breeding and seed production of field crops. Voronezh, 2007 - P. 82-90.
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Zhanbyrbaev, E. A., Sarsenbaev, B. A., Ussenbekov, B. N., Rysbekova, A. B., Kazkeev, D. T., Batayeva, D. S., Moshan, B. I., & Tilegen, D. A. (2016). Obtaining the initial domestic long-grain material for rice breeding. Experimental Biology, 63(1), 71–75. Retrieved from https://bb.kaznu.kz/index.php/biology/article/view/1005
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Experimental biology. Biological bases of genofonds and the development of scientific research in the field of plant
