Please wait a minute...
Frontiers of Agriculture in China

ISSN 1673-7334

ISSN 1673-744X(Online)

CN 11-5729/S

Front. Agric. China    2008, Vol. 2 Issue (4) : 386-390     DOI: 10.1007/s11703-008-0077-4
Directional transduction of male sterile gene of NIAN type in wheat
NIU Na, ZHANG Gaisheng, CAO Yue, ZHANG Yu, WEI Fang
Key Laboratory of Crop Heterosis , Shaanxi Province, Northwest Agriculture and Forestry University
 Download: PDF(157 KB)   HTML
 Export: BibTeX | EndNote | Reference Manager | ProCite | RefWorks
Abstract A new method for producing a NIAN type wheat maintenance line with the male sterile gene rfv1 was described. That is the variety Xinong Fp1, a 1BL/1RS translocation line, as the acceptor and Triticum macha var. subletschchumicum, a non-1BL/1RS translocation line, as the donor, a directional substitution backcross was made and confirmed by chromosome of root tip preparations and SDS-PAGE analysis. The male sterile gene rfv1 of Triticum macha var. subletschchumicum was transferred to the genome of Xinong Fp1. A new NIAN type wheat maintenance line with the male sterile gene rfv1 was bred. The method described was successful in breeding a new male sterile type for hybrid wheat production.
Issue Date: 05 December 2008
 Cite this article:   
ZHANG Gaisheng,NIU Na,CAO Yue, et al. Directional transduction of male sterile gene of NIAN type in wheat[J]. Front. Agric. China, 2008, 2(4): 386-390.
1 Adugna A, Nanda G S, Singh K, Bains N S (2004). A comparison of cytoplasmic and chemically-induced male sterilitysystems for hybrid seed production in wheat (Triticum aestivum L.). Euphytica, 135: 297–304.
2 Duan S E, Zhao W M (2004). Rapidseparation and SDS-PAGE analysis of wheat glutenin subunits. Journal of Shaanxi Normal University (Natural ScienceEdition), 32(1): 77–79 (in Chinese)
3 Gupta R B (1991). A rapid one-step one-dimensional SDS-PAGE procedurefor analysis of subunit composition of glutenin in wheat. Journal of Cereal Science, 14: 105–109
4 Ikeguchi S A, Hasegawa T, Murai K, Tsunewaki K (1999). Basic studies on hybrid wheat breeding using the 1BL-1RStranslocation chromosome/Aegilops kotschyi cytoplasm system 1. Developmentof male sterile and maintainer lines with discovery of a new fertility-restorer. Euphytica, 109: 33–42.
5 Kindred D R, Gooding M J (2005). Heterosisfor yield and its physiological determinants in wheat. Euphytica, 142: 149–159.
6 Kofoid K D (1991). Selection for seed set in a wheat population treatedwith a chemical hybridizing agent. CropSci, 31: 277–281
7 Le Gouis J, Beghin D, Heumez E (2002). Diallele analysis of winter wheatat two nitrogen levels. Crop Sci, 42: 1129–1134
8 Li M X, Zhang Z P (1996). CropChromosome Engineering and Technology. Beijing: China Agriculture Press, 98–102 (in Chinese)
9 Li S B, Gao X (2000), HighMolecular Weight Glutenin Subunits and Industrial Quality of Wheat. Beijing: China Agriculture Press, 25–27 (in Chinese)
10 Li X J, Cao L H, Wang H, Zhu J C, Bu D H (2003). A new SDS-PAGE methodto separate HMW-GS of wheat with semi-single grain. Journal of Henan Agricultural University. 37: 209–212 (in Chinese)
11 Mahajan V, Nagarajan S, Deshpande V H, Kelkar R G (2000). Screening chemical hybridizing agents for development of hybrid wheat. Current Sci, 78: 235–237
12 Mukai Y (1983). Interactions of Aegilops kotschyi, Ae. variabilis cytoplasms with homologous group I. Chromosomesin common wheat. In: Sakamoto S, ed. Proceedings of the 6th International Wheat Genetics Symposium. Tokyo: Kyoto University Press, 517–527
13 Murai K, Tsutui I, Kawanishi Y, Ikeguchi S, Yanaka M, Ishikawa N (2008). Development of photoperiod-sensitivecytoplasmic male sterile (PCMS) wheat lines showing high male sterilityunder long-day conditions and high seed fertility under short-dayconditions. Euphytica, 159: 315–323.
14 Niu N, Zhang G S, Liu H W, Wang J W, Li H X (2003). Inheritance on restorationperformance of Non-1BL/1RS male sterile line of Nian type in wheat. Acta Botanica Boreali-Occidentalia Sinica, 23(4): 608–614 (in Chinese)
15 Qiao L X, Zhang G S, Wang X L, Liu H W, Wang J W (2001). Cytogenetically studyof fertility restoration of some male sterile lines of alloplasmicwheat. Acta Genetica Sinca, 28(7): 647–654 (in Chinese)
16 Singh H, Sharma S N, Sain R S (2004). Heterosis studies for yield and itscomponents in bread wheat over environments. Hereditas, 141: 106–114.
17 Tsunewaki K (1988). Cytoplasmic variation in Triticum and Aegdops. In: Miller T E, Koebner R M D, eds. Proceedings of the 7th International WheatGenetic Symposium. Cambridge: Institute of PlantScience Research, 53–62
18 Tsunewaki K, Mukai Y, Endo T R (1978). On the descentof the cytoplasms of polyploid species in Triticum and Aegilops. In: Ramanujam S, ed. Proceedings of the 5th International WheatGenetics Symposium. New Delhi: Indian AgriculturalResearch Institute, 261–272
19 Wang X L, Zhang G S (2006). Chromosomesample establishment about experiment of plant cytogenetics. Experiment Science and Technology, 5: 55–61 (in Chinese)
20 Wilson J A, Ross W M (1962). Male-sterilityinteraction of Tritium aestivum nucleus and Triticum timopheevi cytoplasm. Wheat Inf Serv, 14: 29–31
21 Zhang G S (1993). Study and development on new easy restoring male sterilecytoplasm of wheat. Dissertation for the Doctoral Degree. Nanjing: Nanjing Agricultural University (in Chinese)
22 Zhang G S, Liu H W, Wang J W (2002). Progress and preview on hybrid wheatof China. In: Chinese Wheat Breeding andIndustrialization Progress. Beijing: China Agriculture Press, 67–65 (in Chinese)
23 Zhang G S, Zhao H Y, Wu Z S, Yu S R (1994). A preliminary study on male sterile lines of non_1B/1R wheat with Ae. ventricosa, Ae. kotsehyi and Ae. variabilis cytoplasm. Acta Agriculturae Boreali-occidentalisSinica, 3(4): 7–12 (in Chinese)
Full text