Free Standard AU & NZ Shipping For All Book Orders Over $80!
Register      Login
Crop and Pasture Science Crop and Pasture Science Society
Plant sciences, sustainable farming systems and food quality
RESEARCH ARTICLE

Inheritance of thermo-photoperiod sensitive male sterility in wheat

Rui-Xing Guo A , Dong-Fa Sun A D , Xun-Dong Cheng A , De-Fu Rong B and Chengdao Li C
+ Author Affiliations
- Author Affiliations

A College of Plant Science and Technology, Huazhong Agricultural University, Wuhan 430070, China.

B Shayang Agricultural Research Institute of Hubei Province, Shayang 430070, China.

C Department of Agriculture, Government of Western Australia, 3 Baron-Hay Court, South Perth, WA 6151, Australia.

D Corresponding author. Email: sundongfa1@mail.hzau.edu.cn

Australian Journal of Agricultural Research 57(2) 187-192 https://doi.org/10.1071/AR05161
Submitted: 1 May 2005  Accepted: 6 October 2005   Published: 24 February 2006

Abstract

The fertility of a wheat male sterile line 337S was investigated in 4 consecutive years with 18 different sowing dates. Line 337S showed high sterility under both short daylength/low temperature and long daylength/high temperature during ear development. It has 2 time windows to be used as a male sterile line for hybrid seed production. Its fertility rate can be >50% with suitable sowing time; thus, it can be self-maintained as a male sterile line. Line 337S was reciprocally crossed with 7 common wheat varieties and the fertility of their F1, F2, and BC1 hybrids was investigated at different sowing dates. The results showed that recessive nuclear genes controlled male sterility in 337S and no cytoplasmic effect was observed. All common wheat varieties were able to restore its fertility. The male sterility was controlled by a pair of recessive genes under short daylength/low temperature, but was governed by 2 pairs of recessive genes under long daylength/high temperature. This novel male sterile line provides a new tool for using heterosis in wheat.

Additional keywords: heterosis, Triticum aestivum.


Acknowledgments

This project is supported by the National Key Basic Research Programs ‘973’ (2001CB1088) and ‘863’ (2002AA207004).


References


Cao SH, Guo XL, Liu DC, Zhang XQ, Zhang AM (2004) Preliminary gene-mapping of photoperiod-temperature sensitive genic male sterility in wheat (Triticum aestivum L.). Acta Genetica Sinica 31, 293–298.
PubMed |
open url image1

Guan RX, Liu DC, Zhang AM (2001) Genetic analysis and identification of RAPD markers of fertility restorer gene Rf6 for the T. timopheevii cytoplasmic male sterility of wheat. Journal of Agricultural Biotechnology 9, 159–162. open url image1

Huang, TC (1990). ‘Studies on hybrid wheat.’ (Beijing Agricultural University Press: Beijing)

Ikeguchi SA, Hasegawa T, Murai K, Tsunewaki K (1999) Basic studies on hybrid wheat breeding using the 1BL-1RS translocation chromosome/Aegilops kotschyi cytoplasm system 1. Development of male sterile and maintainer lines with discovery of a new fertility-restorer. Euphytica 109, 33–42.
Crossref | GoogleScholarGoogle Scholar | open url image1

Kihara H (1951) Substitution of nuclear and its effects on genome manifestations. Cytologia 16, 177–193. open url image1

Li SG, Zhou KD, Zhu LH (1999) Genetic analysis and molecular location of thermo-sensitive dominant sterile gene in rice. Chinese Science Bulletin 44, 955–958. open url image1

Liang FS, Wang B (2003) Heredity and gene mapping of male sterility in wheat. Hereditas (Beijing) 25, 461–465. open url image1

Liao FM, Fu XQ (1995) Status and developing strategies of Hybrid rice breeding in china. Chinese Agricultural Science Bulletin 11, 5–9. open url image1

Liu CG, Hou N, Liu GQ, Wu YW, Zhang CL, Zhang Y (2002) Studies on fertility genetic characters in D2-type CMS lines of common wheat. Acta Genetica Sinica 29, 638–645.
PubMed |
open url image1

Liu CG, Wu YW, Zhang CL, Ren SX, Zhang Y (1997) A preliminary study on the effects of Aegilops crassa (6x) cytoplasm on the characters of common wheat. Acta Genetica Sinica 24, 241–247. open url image1

Lu Q, Wang FL, Li XH, Xu CG, Zhang QF (2001) Separation of the two-locus inheritance of photoperiod-sensitive genetic male sterility in rice. Euphyitca 119, 343–348.
Crossref | GoogleScholarGoogle Scholar | open url image1

Luo HB, He JM, Dai JT, Liu XL, Yang YC (1998) Studies on the characteristics of seed production of two ecological male sterile lines in wheat. Journal of Hunan Agricultural University 24, 83–89. open url image1

Ma TC, Shi FH (2002) Recent advances in wheat photoperiod-thermo sensitive male sterility and heterosis. Scientia Agricultura Heilongiiang 2, 32–34. open url image1

Mei MH, Dai XK, Xu CG, Zhang QF (1999) Mapping and genetic analysis of the genes for photoperiod-sensitive male sterility in rice using the original mutant Nonken 58S. Crop Science 39, 1711–1715. open url image1

Murai K, Tsunewaki K (1993) Photoperiod-sensitive cytoplasmic male sterility in wheat with Aegilops crassa cytoplasm. Euphytica 67, 41–48.
Crossref | GoogleScholarGoogle Scholar | open url image1

Nonaka S, Toriyama K, Tsunewaki K, Shimada T (1993) Breeding of male sterile lines and their maintainer lines by backcross method for hybrid wheat production using an SV type cytoplasm and a 1BL-1RS chromosome. Japanese Journal of Breeding 43, 567–574. open url image1

Qiao LX, Zhang GS, Wang XL, Liu HW, Wang JQ (2001) The cytogenetical studies of fertility restoration of some male sterile lines of alloplasmic wheat. Acta Genetica Sinica 28, 647–654.
PubMed |
open url image1

Rong DF, Cao WM (1999) Studies on type of temperature-photoperiod sensitive common wheat male sterility and breeding of male sterile lines under high temperature/long-day length. Tritical Crops 19, 21–24. open url image1

Rong DF, Cao WM, Tu SL, Gao SM (1999) The fertility characters of a novel themo-photoperiod sensitive male sterile line 337S. Tritical Crops 19, 61–64. open url image1

Sasakuma T, Ohtsuka I (1979) Cytoplasmic effects of Aegilops species having D genome in wheat I. Cytoplasmic differentiation among five species regarding pistilody induction. Seiken Ziho 27–28, 59–65. open url image1

Shi MS (1985) Discovering and a preliminary studies on the photoperiod sensitive recessive male sterility in rice. Scientia Agricultura Sinica 2, 44–48. open url image1

Tan CH, Yu GD, Yang PF (1992) A preliminary study on the temperature-photoperiod sensitive wheat male sterility. Journal of Xinan Agricultural University 4, 1–6. open url image1

Tsunewaki K (1996) Plasmon analysis as the counterpart of genome analysis. ‘Methods of genome analysis in plants’. (Ed. PP Jauhar) pp. 271–299. (CRC Press: New York)

Wan BH, Ma HF (1997) Genetic studies on three kind of photoperiod-thermo sensitive lines. Journal of Huanan Agricultural University 18, 1–6. open url image1

Wang LQ (1996) Study on the cytoplasmic male sterility (CMS) lines of 85EA and 89AR in common wheat. ‘Recent advances in crop male sterility and heterosis’. (Eds JX Li, HS Zhou) pp. 136–144. (China Agricultural Press: Beijing)

Wang YG, Jia JH, Li CY, Wang Q, Jin DM, Deng QY, Yuan LP, Wang B, Weng ML (2001) Study of rice thermo-sensitive genic male sterile gene tms5. Plant Genomics in China II, 202–206. open url image1

Wu YW, Zhang CL, Zhang Y (1995) Breeding of wheat male sterile line with Aegilops crassa (6x) cytoplasm and research of its characters. Chinese Science Bulletin 40, 243–247. open url image1

Xing QH, Ru ZG, Zhou CJ, Liang FS, Yang DE, Jin DM, Wang B (2003) Genic analysis and molecular mapping of thermo-sensitive genic male sterile gene (wtms1) in wheat. Theoretical and Applied Genetics 107, 1500–1504.
Crossref | GoogleScholarGoogle Scholar | PubMed | open url image1

Xu LY, Liu JD (1995) Preliminary studies on photoperiod sensitive cytoplasmic male sterility in wheat. Wuhan University [Natural Science Edition] 41, 218–222. open url image1

Yang CY, He PR (1997) Studies on photoperiod-thermo sensitive male sterility and status of heterosis in wheat. Tritical Crops 17, 25–27. open url image1

Yang RC, Liang KJ, Wang NY (1992) A recessive gene in indica rice 5460S for thermosensitive genic male sterility. Rice Genetics Newsletter 9, 56–67. open url image1

Yang TZ (1983) Investigation on the intraspecifically cytoplasmic variability in Triticum aestivum. Acta Agronomica Sinica 9, 217–222. open url image1

Zhang GS (1992) Breeding of wheat male sterile line having Aegilops uniaristata cytoplasm. Chinese Science Bulletin 7, 641–645. open url image1

Zhang GS, Qiao LX, Wang XL, Liu HW, Wang JW (1996) Studies on fertility stability and restoration performance of some male sterile lines of alloplasmic 1B/1R wheat. Scientia Agricultura Sinica 29, 41–50. open url image1

Zhang QF, Shen BZ, Dai XK, Mei MH, Saghai MAM, Li ZB (1994) Using bulked extremes and recessive class to map gene for photoperiod-sensitive genic male sterility in rice. Proceedings of the National Academy of Sciences of the USA 91, 8675–8679.
PubMed |
open url image1