Welcome to Acta Agronomica Sinica,

Acta Agron Sin ›› 2010, Vol. 36 ›› Issue (07): 1209-1215.doi: 10.3724/SP.J.1006.2010.01209

• RESEARCH NOTES • Previous Articles     Next Articles

Effect of Genotype and Growing Environment on Anther Culture in Wheat

HAN Xiao-Feng1,2,DAO Li-Li2,YIN Gui-Xiang2,LIU Xiao-Lei2,3,DU Li-Pu2,WEI Yi-Qin4,YAN Yue-Ming1,*,YE Xing-Guo2,*   

  1. 1 College of Life Sciences, Capital Normal University, Beijing 100048, China; 2 Institute of Crop Sciences, Chinese Academy of Agricultural Sciences, Beijing 100081;3 College of Life Sciences and Biology Engineering, North University for Ethnics, Yinchuan 750021, China;4 Crop Research Institute, Ningxia Academy of Agricultural and Forestry Sciences, Yongning 750105, China
  • Received:2010-01-04 Revised:2010-03-05 Online:2010-07-12 Published:2010-04-28
  • Contact: YAN Yue-Ming,E-mail:yanym2004@163.com, Tel: 010-68902777;YE Xing-Guo,E-mail: yexg@mail.caas.net.cn, Tel: 010-82109765

Abstract:

Wheat anther culture is affected greatly by many factors, such as wheat genotype, culture medium, and the temperature during the growing period of donors. For further improving the regeneration efficiency from wheat anthers and understanding the genetic control of wheat anther culture ability, some wheat genotypes including Verry, Xinchun 9, Chinese Spring, and Ningchun 4, and their F1 hybrids by crossing each other were used for anther cultures in different years, and the callus induction frequencies were evaluated. The results indicated that haploid calli were easily induced from the anthers of Alondra, Verry, Shi 4185, Xinchun 9, and Bainong 3217. The frequency of callus production ranged from 25.3% to 51.9%. Shi 4185 and Xinchun 9 showed higher potentials for wheat haploid breeding because of their good agronomic traits and high anther culture response. Some F1environment conditions for the donor plants of the anthers were long vegetative growing period, moderate temperature during the tillering period, and high temperature during the hybrids derived from Ningchun 4 had high callus production rates, indicating that Ningchun 4 had high combining ability with some crossing parents in anther culture. However, the F1 hybrids from the parents with high anther culture response were not certain to perform high callus frequency, which was more than 10.0% in majority of the crosses. This suggested that the genetic control of wheat anther culture appeared to be complicated and performed as a quantitative trait. The optimal late jointingperiod. Haploid plantlets could be induced directly from wheat anthers in the liquid media with low concentrations of auxin and glucose. It was also found that 2,4-D was better than dicamba in liquid media for callus induction. Besides, the frequency of callus induced from wheat anthers showed increase trend with the promotion of temperature during the growing period of wheat donor plants, which was caused by climate warming.

Key words: Wheat, Anther culture, Genotype, Environment conditions, Callus induction, Plantlets induction directly from anthers


[1] Zhang X-L(张晓丽), Wei J-J(魏俊杰). The affect factor for wheat anther culture. Agric Sci Technol (农业科技报), 2007, (4): 138-139 (in Chinese)

[2] Konieczny R, Czaplicki A Z, Golczyk H, Przywara L. Two pathways of plant regeneration in wheat anther culture. Plant Cell Tissue Organ Cult, 2003, 73: 177-187

[3] Ou-Yang J-W(欧阳俊闻), Hu H(胡含), Zhuang J-J(庄家骏), Zeng J-Z(曾君祉). Induction of pollen plants from anthers of Triticum aestivum L. cultured in vitro. Sci China (中国科学), 1973, (1): 72-82 (in Chinese with English abstract)

[4] Ren X(任贤), Ye X-G(叶兴国), Xu H-J(徐惠君), Dong J-L(董建力), Du L-P(杜丽璞), Zhang X-Y(张曦燕). Develpment of new spring wheat variety Ningchun 42 by anther culture, Crops (作物杂志), 2006, (2): 19 (in Chinese)

[5] Tang M-H(康明辉), Hai Y(海燕), Da L-Z(达龙珠), Zhou X-B(周新宝), Zhao Y-Y(赵永英). The breeding and characteristics of new wheat variety Huapei 5. Chin Agric Sci Bull (中国农学通报), 2009, 25(17): 98-101 (in Chinese with English abstract)

[6] Liu W-X(刘文轩). The wheat anther culture investigation general situation and prospect in China. J Triticeae Crops (麦类作物学报), 1990, 10(5): 43-45 (in Chinese with English Abstract)

[7] Ni S-L(倪胜利), Li W(李唯), Li S(李胜), Chai S-X(柴守玺), Li Z-M(李志明).

[8] Chu C C, Hill R D, Brule-Babel L. High frequency of pollen embryoid formation and plant regeneration in Triticum aestivum L. on monosaccharide containing media. Plant Sci,1990, 66: 255-262

[9] Soriano M, Cistue L, Valles M P, Castillo A M. Effects of colchicine on anther and microspore culture of bread wheat (Triticum aestivum L.). Plant Cell Tissue Organ Cult, 2007, 91: 225-234

[10] Liu W, Zheng M Y, Enrique A P, Calvin F. Highly efficient doubled-haploid production in wheat (Triticum aestivum L.) via induced microspore embryogenesis. Crop Sci, 2002, 42: 686-692

[11] Zheng M Y, Liu W, Weng Y, Polle E, Konzak C F. Culture of freshly isolated wheat (Triticum aestivum L.) microspores treated with inducer chemicals. Plant Cell Rep, 2001, 20: 685-690

[12] Ye X-G(叶兴国), Xu H-J(徐惠君), Xu Q-F(徐琼芳), Du L-P(杜丽璞), Li Z-W(李志武). Genetic analysis and combining ability evaluation of the antherculture response in common wheat. Sci Agric Sin中国农业科学), 1997, 30(6): 49-54 (in Chinese with English abstract) (

[13] Liu W, Zheng M Y, Konzak C F. Improving green plant production via isolated microspore culture in bread wheat (Triticum aestivum L.). Plant Cell Rep, 2002, 20: 821-824

[14] Zheng M Y, Weng Y, Liu W, Konzak C F.The effect of ovary-conditioned medium on microspore embryogenesis in common wheat (Triticum aestivum L.). Plant Cell Rep, 2002, 20: 802-807

[15] Minesh P, Norman L D, Donald R M. James O B. Optimization of culture conditions for improved plant regeneration efficiency from wheat microspore culture. Euphytica, 2004, 140:197-204

[16] Torp A M, Hansen A L, Andersen S B. Chromosomal regions associated with green plant regeneration in wheat (Triticum aestivum L.) anther culture. Euphytica, 2001, 119: 377-387

[17] Ren H-L(任慧莉), Li C-L(李春莲), Qin Z-N(秦震霓), Guo D-W(郭东伟), Gao X-W(高秀武), Chen Y-W(陈耀锋). Effect of genotype and extrafactor on forming seedling through one- step culture in anther culture of wheat. J Northwest Sci-Tech Univ Agric For (西北农林科技大学学报), 2002, 30(4): 13-16 (in Chinese with English abstract)

[18] Wang Z-X(王子霞), Hai R-G(海热古力), Zhang M-Y(张茂银), Yang S-J(杨松杰), Yang K-R(杨克锐), Qi J-H(戚家华). Effect of phenylacetic acid on the plantlet regeneration from wheat anthers through one- step culture. Xinjiang Agric Sci (新疆农业科学), 1997, 4: 160-161 (in Chinese)

[19] Xuan P(宣朴), Guo Y-L(郭元林), Yue C-F(岳春芳), Yin C-R(尹春蓉). Effects of cold temperature on the green plantlet differentiation rate of calli in anther culture of wheat. Southwest China J Agric Sci (西南农业学报), 2004, 17(2): 146-148 (in Chinese with English abstract)

[20] Wang Q-L(王清连), Yang S-S(杨淑慎), Cao C-Y(曹春英). Plant Tissue Culture (植物组织培养). Beijing: China Agriculture Press, 2004. pp 70-77 (in Chinese).

[21] Cha-Um S, Srianan B, Pichakum A, Kirdmanee C. An efficient procedure for embryogenic callus induction and double haploid plant regeneration through anther culture of Thai aromatic rice (Oryza sativa L. subsp. indica). Vitro Cell Dev Biol-Plant, 2009, 45: 171-179

[22] Chen H(陈红), Lin Z-H(林朝晖), Qin Z-K(秦正坤), Zhou G-Q(周广庆). Climatic background for the anomalous spring dust storms over northern China during 2006 and the verification for real-time climate prediction. Climatic Environ Res (气候与环境研究), 2007, 12(3): 365-373 (in Chinese with English abstract)

[23] Zou X-K(邹旭恺), Chen Y(陈峪), Liu Q-F(刘秋锋), Sun J-M(孙家民). Overview of the climate in China in 2007.Meteorol Monthly (气象), 2008, 34(4): 118-123 (in Chinese with English abstract)

[24] Han L-J(韩丽娟), Wang M(王梅), Qian S(钱拴), Lü H-Q(吕厚荃). The effect of winter climate in China between 2007/2008 for agriculture. Chin J Agrometeorol中国农业气象), 2008, 29(2): 240-241 (in Chinese) (

[25] Guo A-H(郭安红), Wang C-Z(王纯枝), Zhao X-L(赵秀兰), Lü H-Q(吕厚荃), Lou X-R(娄秀荣).The effect of spring climate in China in 2008 for agriculture, Chin J Agrometeoro中国农业气象), 2008, 29(3): 379-381 (in Chinese)l (

[26] Li Y-Y(李艳艳). Insect pests direction of vegetable in 2009. Beijing Agric (北京农业), 2009, 5(1): 17 (in Chinese)

[27] Ye X-G(叶兴国), Xu H-J(徐惠君), Du L-P(杜丽璞), Zhao L-L(赵乐莲). Discussion of improving wheat anther culture efficiency. Crops作物杂志), 1996, (4): 22-23 (in Chinese) (

[28] Ye X-G(叶兴国), Xu H-J(徐惠君), Zhao L-L(赵乐莲), Du L-P(杜丽璞).Studies on improving wheat cultivars by tissue culture.Acta Agron Sin (作物学报), 1998, 24(3): 310-314 (in Chinese with English abstract)

[29] Zhang Y-M(张艳敏), Guo B-H(郭北海), Li H-J(李洪杰), Wen Z-Y(温之雨), Wang Z-N(王子宁), Jiang C-Z(蒋春志), Li H(李辉), Wang P(王培). Genotype difference in wheat anther culture response and selection of cross combination. Acta Agric Boreali-Sin (华北农学报), 2002, 17(2): 16-19 (in Chinese with English abstract) Factors influencing on high efficiency anthers culture of wheat in dryland. J Gansu Agric Univ(西南农业大学学报), 2004, 39(2): 141-145 (in Chinese with English abstract)
[1] HU Wen-Jing, LI Dong-Sheng, YI Xin, ZHANG Chun-Mei, ZHANG Yong. Molecular mapping and validation of quantitative trait loci for spike-related traits and plant height in wheat [J]. Acta Agronomica Sinica, 2022, 48(6): 1346-1356.
[2] GUO Xing-Yu, LIU Peng-Zhao, WANG Rui, WANG Xiao-Li, LI Jun. Response of winter wheat yield, nitrogen use efficiency and soil nitrogen balance to rainfall types and nitrogen application rate in dryland [J]. Acta Agronomica Sinica, 2022, 48(5): 1262-1272.
[3] LEI Xin-Hui, WAN Chen-Xi, TAO Jin-Cai, LENG Jia-Jun, WU Yi-Xin, WANG Jia-Le, WANG Peng-Ke, YANG Qing-Hua, FENG Bai-Li, GAO Jin-Feng. Effects of soaking seeds with MT and EBR on germination and seedling growth in buckwheat under salt stress [J]. Acta Agronomica Sinica, 2022, 48(5): 1210-1221.
[4] FU Mei-Yu, XIONG Hong-Chun, ZHOU Chun-Yun, GUO Hui-Jun, XIE Yong-Dun, ZHAO Lin-Shu, GU Jia-Yu, ZHAO Shi-Rong, DING Yu-Ping, XU Yan-Hao, LIU Lu-Xiang. Genetic analysis of wheat dwarf mutant je0098 and molecular mapping of dwarfing gene [J]. Acta Agronomica Sinica, 2022, 48(3): 580-589.
[5] FENG Jian-Chao, XU Bei-Ming, JIANG Xue-Li, HU Hai-Zhou, MA Ying, WANG Chen-Yang, WANG Yong-Hua, MA Dong-Yun. Distribution of phenolic compounds and antioxidant activities in layered grinding wheat flour and the regulation effect of nitrogen fertilizer application [J]. Acta Agronomica Sinica, 2022, 48(3): 704-715.
[6] LIU Yun-Jing, ZHENG Fei-Na, ZHANG Xiu, CHU Jin-Peng, YU Hai-Tao, DAI Xing-Long, HE Ming-Rong. Effects of wide range sowing on grain yield, quality, and nitrogen use of strong gluten wheat [J]. Acta Agronomica Sinica, 2022, 48(3): 716-725.
[7] YAN Yan, ZHANG Yu-Shi, LIU Chu-Rong, REN Dan-Yang, LIU Hong-Run, LIU Xue-Qing, ZHANG Ming-Cai, LI Zhao-Hu. Variety matching and resource use efficiency of the winter wheat-summer maize “double late” cropping system [J]. Acta Agronomica Sinica, 2022, 48(2): 423-436.
[8] WANG Yang-Yang, HE Li, REN De-Chao, DUAN Jian-Zhao, HU Xin, LIU Wan-Dai, GU Tian-Cai, WANG Yong-Hua, FENG Wei. Evaluations of winter wheat late frost damage under different water based on principal component-cluster analysis [J]. Acta Agronomica Sinica, 2022, 48(2): 448-462.
[9] CHEN Xin-Yi, SONG Yu-Hang, ZHANG Meng-Han, LI Xiao-Yan, LI Hua, WANG Yue-Xia, QI Xue-Li. Effects of water deficit on physiology and biochemistry of seedlings of different wheat varieties and the alleviation effect of exogenous application of 5-aminolevulinic acid [J]. Acta Agronomica Sinica, 2022, 48(2): 478-487.
[10] XU Long-Long, YIN Wen, HU Fa-Long, FAN Hong, FAN Zhi-Long, ZHAO Cai, YU Ai-Zhong, CHAI Qiang. Effect of water and nitrogen reduction on main photosynthetic physiological parameters of film-mulched maize no-tillage rotation wheat [J]. Acta Agronomica Sinica, 2022, 48(2): 437-447.
[11] MA Bo-Wen, LI Qing, CAI Jian, ZHOU Qin, HUANG Mei, DAI Ting-Bo, WANG Xiao, JIANG Dong. Physiological mechanisms of pre-anthesis waterlogging priming on waterlogging stress tolerance under post-anthesis in wheat [J]. Acta Agronomica Sinica, 2022, 48(1): 151-164.
[12] MENG Ying, XING Lei-Lei, CAO Xiao-Hong, GUO Guang-Yan, CHAI Jian-Fang, BEI Cai-Li. Cloning of Ta4CL1 and its function in promoting plant growth and lignin deposition in transgenic Arabidopsis plants [J]. Acta Agronomica Sinica, 2022, 48(1): 63-75.
[13] WEI Yi-Hao, YU Mei-Qin, ZHANG Xiao-Jiao, WANG Lu-Lu, ZHANG Zhi-Yong, MA Xin-Ming, LI Hui-Qing, WANG Xiao-Chun. Alternative splicing analysis of wheat glutamine synthase genes [J]. Acta Agronomica Sinica, 2022, 48(1): 40-47.
[14] LI Ling-Hong, ZHANG Zhe, CHEN Yong-Ming, YOU Ming-Shan, NI Zhong-Fu, XING Jie-Wen. Transcriptome profiling of glossy1 mutant with glossy glume in common wheat (Triticum aestivum L.) [J]. Acta Agronomica Sinica, 2022, 48(1): 48-62.
[15] LUO Jiang-Tao, ZHENG Jian-Min, PU Zong-Jun, FAN Chao-Lan, LIU Deng-Cai, HAO Ming. Chromosome transmission in hybrids between tetraploid and hexaploid wheat [J]. Acta Agronomica Sinica, 2021, 47(8): 1427-1436.
Viewed
Full text


Abstract

Cited

  Shared   
  Discussed   
No Suggested Reading articles found!