植物雄性不育影响因素研究进展

刘淑娟,周华,朱祺,幸学俊,王碧琴,余发新

中国农学通报. 2014, 30(34): 46-50

PDF(548 KB)
PDF(548 KB)
中国农学通报 ›› 2014, Vol. 30 ›› Issue (34) : 46-50. DOI: 10.11924/j.issn.1000-6850.2014-2596
生物技术科学

植物雄性不育影响因素研究进展

  • 刘淑娟,朱祺,幸学俊,王碧琴,余发新,周华
作者信息 +

Advanced Research on Male Sterility of Plant

  • Liu Shujuan, Zhu Qi, Xing Xuejun, Wang Biqin, Yu Faxin, Zhou Hua
Author information +
History +

摘要

系统综述了植物雄性不育的影响因素,包括遗传基因,花粉发育各个时期的基因突变均有可能导致雄性不育;物质代谢相关酶类,特别是活性氧清除酶,如过氧化物酶、过氧化氢酶、细胞色素氧化酶等;激素类包括生长素、赤霉素、细胞分裂素、脱落酸和乙烯等;矿质元素、可溶性糖、蛋白质的含量;外界环境因素包括温度、光照条件等。对植物雄性不育影响因素的归纳总结,为雄性不育研究的深入开展提供了理论依据。

Abstract

The influence factors of plant male sterility were system reviewed in this paper, including genetics, pollen development in various periods mutations were likely to cause male sterility; the metabolism related enzymes, especially the active oxygen scavenging enzymes, such as peroxidase, catalase and cytochrome oxidase, etc; the hormones include auxin, gibberellin, cytokinin, abscisic acid and ethylene, etc; the content of mineral elements, soluble sugar and protein; the external environment factors, such as temperature, illumination condition, etc. Influencing factors on plant male sterility were summarized for providing a theoretical basis for male sterility depth study.

关键词

雄性不育;基因调控;酶;植物激素;温度;光照

Key words

male sterility; gene regulation; enzymes; plant hormones; temperature; illumination

引用本文

EndNote

Ris (Procite)

Bibtex

导出引用
刘淑娟,周华,朱祺,幸学俊,王碧琴,余发新. 植物雄性不育影响因素研究进展. 中国农学通报. 2014, 30(34): 46-50 https://doi.org/10.11924/j.issn.1000-6850.2014-2596
刘淑娟, 朱祺, 幸学俊, 王碧琴 and 余发新. Advanced Research on Male Sterility of Plant. Chinese Agricultural Science Bulletin. 2014, 30(34): 46-50 https://doi.org/10.11924/j.issn.1000-6850.2014-2596

参考文献

[1] 胡俊,黄文超,朱仁山,等.水稻雄性不育与杂种优势的利用[J].武汉大学学报:理学版,2013,59(1):1-9.
[2] 杨莉芳,刁现民.植物细胞核雄性不育基因研究进展[J].植物遗传资源学报,2013,14(6):1108-1117.
[3] McCormick S. Male gametophyte development[J]. Plant Cell,1993(5):1265-1275.
[4] Qin Y, Yang Z B. Rapid tip growth: Insights from pollen tubes[J]. Cell Dev Biol,2011(22):816-24.
[5] 布坎南BB,格鲁依森姆W,琼斯RL主编.瞿礼嘉,顾红雅,白书农,等主译.植物生物化学与分子生物学[M].北京:科学出版社,2004.
[6] Bhatt A M, Canales C, Dickinson H G. Plant meiosis: the means to 1N[J]. Trends Plant Sci,2001(6):114-121.
[7] Nonomura K I, Nakano M, Eiguchi M, et al. PAIR2 is essential for homologous chromosome synapsis in rice meiosis I[J]. J Cell Sci,2006(119):217-225.
[8] Zhang L, Tao J, Wang S, et al. The rice OsRad21-4, an orthologue of yeast Rec8 protein, is required for efficient meiosis[J]. Plant Mol Biol,2006,60(4):533-554.
[9] Hong L L, Qian Q, Zhu K M, et al. ELE restrains empty glumes from developing into lemmas[J]. J Genet Genomics,2010,37(2):101-115.
[10] Dong X, Hong Z, Sivaramakrishnan M, et al. Callose synthase (CalS5) is required for exine formation during microgametogenesis and for pollen viability in Arabidopsis[J]. Plant J,2005,42(3):315-328.
[11] Wan L, Zha W, Cheng X, et al. A rice β-1,3-glucanase gene Osg1 is required for callose degradation in pollen development[J]. Planta,2011,233(2):309-323.
[12] Li N, Zhang D S, Liu H S, et al. The rice tapetum degenerationretardation gene is required for tapetum degradation and antherdevelopment[J]. Plant Cell,2006(18):2999-3014.
[13] Ma H. Molecular genetic analyses of microsporogenesis and microgametogenesis in flowering plants[J]. Annu Rev Plant Biol,2005(56):393-434.
[14] Li H, Pinot F, Sauveplane V, et al. Cytochrome P450 family member CYP704B2 catalyzes the omega-Hydroxylation of fattyacids and is required for anther cutin biosynthesis and pollen exine formation in rice[J]. Plant Cell,2010,22(1):173-190.
[15] 智慧,王永强,李伟,等.利用野生青狗尾草的细胞质培育谷子质核互作雄性不育材料[J].植物遗传资源学报,2007,8(3):261-264.
[16] Steiner-Lange S, Unte U S, Eckstein L, et al. Disruption of Arabidopsis thaliana MYB26 results in male sterility due to non-dehiscent anthers[J]. Plant J,2003,34(4):519-528.
[17] Woodger F J, Millar A, Murry F, et al. The role of GAMYB transcription factors in GA-regulated gene expression[J]. Journal of Plant Growth Regulation,2003,22(2):176-184.
[18] Sun Y J, Hord C L H, Chen C B, et al. Regulation of Arabidopsis early anther development by putative cell-cell sigaling molecules and transcriptional regulators[J]. J Integr Plant Biol,2007,49(1):60-68.
[19] 王玲平,胡天华,包崇来,等.白菜雄性不育系及保持系的花器官和抗氧化酶活性的差异[J].浙江农业学报,2007,19(6):404-408.
[20] 黄晋玲,杨鹏,李炳林,等.棉花晋A细胞质雄性不育系酶活性的研究[J].棉花学报,2004,16(4):229-232.
[21] 杨晓玲,郭守华,张建文,等.山楂受精能力与其花粉和雌蕊生理生化特性的关系[J].林业科学,2003,39(5):24-28.
[22] 刘红艳,吴坤,杨敏敏,等.芝麻显性细胞核雄性不育系内源激素、可溶性糖和淀粉含量变化[J].中国油料作物学报,2014,36(21)75-180.
[23] 张艳玉,张卫东,高庆荣,等.温光敏雄性不育小麦BNS幼穗发育中的内源激素变化[J]. 西北植物学报,2013,33(6):1165-1170.
[24] 曾爱松,梁毅,严继勇,等.洋葱胞质雄性不育系及其保持系花蕾内源激素含量和脯氨酸含量的动态变化特征[J].华北农学报,2012,27(增刊):77-80.
[25] Shukla A, Sawhney V K. Metabolism of dihydrozeatin in floral buds of wild-type and a genic male sterile line of rape seed(Brassica napus L.) [J]. J.Exp. Bot,1993,44(266):1497-1505.
[26] 沈火林,乔志霞,安岩.辣椒胞质雄性不育系和保持系内源激素含量的比较[J].西北植物学报,2008,28(9):1751-1756.
[27] 何长征,萧浪涛,刘志敏,等.植物激素与雄性不育关系的研究进展[J].中国农学通报,2002,18(3):65-69.
[28] Sun T P, Kaimaya Y. The Arabidopisis GAL locus encodes the cylasse entkaurene synthetase A of gibberellin biosynthesis[J]. Plant Cell,1994,6(10):1509-1518.
[29] 刘吉焘,狄佳春,陈旭升.草甘膦诱导抗草甘膦棉花花药中激素和游离氨基酸含量的变化[J].分子植物育种,2014,12(3):530-536.
[30] 高夕全,张子学,夏凯,等.雄性不育辣椒中几种内源激素的含量变化[J].植物生理学通讯,2001,37(1):31-32.
[31] 夏涛, 刘纪麟. GENESIS诱导小麦雄性不育与幼穗中乙烯含量的关系[J]. 西北农林科技大学学报:自然科学版,2003,31(3):39-42.
[32] 张红梅,张绍铃,李六林,等.新高梨雄性不育与矿质元素含量变化的关系[J].山西农业大学学报:自然科学版,2008,28(4):400-404.
[33] Burnell J N. The biochemistry of manganese in plants. Manganese in Soils and Plants[J]. Developments in Plant and Soil Science,1988(33):125-137.
[34] Mass F M, Van de Wetering P A M, Vande de Beusichem M L, et al. Characterization of Phloem iron and its possible role in theregulation of Fe-efficiency reactions[J]. Plant Physiol,1988(87):167-171.
[35] 林敏娟,陈功明,王振磊,等.枣不同品种花粉量及花粉萌发特性的研究[J].塔里木大学学报,2014,26(1):105-108.
[36] 刘红艳,吴坤,杨敏敏,等.芝麻显性细胞核雄性不育系内源激素、可溶性糖和淀粉含量变化[J].中国油料作物学报,2014,36(2):175-180.
[37] 王书强,崔辉梅,石国亮.大白菜Ogura雄性不育系及保持系生理生化分析[J].新疆农业科学,2011,48(1):110-115.
[38] 王晓玲,王兰兰,陈灵芝,等.辣椒胞质雄性不育系与保持系的生理生化特性[J].甘肃农业大学学报,2013,48(6):64-67.
[39] 宋喜悦,胡银岗,马翎健,等.YS型小麦温敏雄性不育系A3314育性转换期间幼穗和叶片中物质含量的变化[J].西北农林科技大学学报:自然科学版,2009,37(8):81-86,91.
[40] 陶龙兴,王熹,俞美玉,等. CM268诱导水稻雄性不育的效果及作用机理研究[J].作物学报,2001,27(2):178-184.
[41] 何蓓如,董普辉,马翎健,等.光敏小麦雄性不育系A31雄性育性对光周期的反应[J].作物学报,2004,30(11):1176-1178.
[42] 陈红萍,邓伟,付英,等.水稻光温敏雄性不育基因的遗传及育种利用研究进展[J].江西农业学报,2013,25(7):17-21.
[43] Prasad P V V, Boote K J, Allen L H J, et al. Species, ecotype and cultivar differences in spikelet fertility and harvest index of rice in response to high temperature stress[J]. Field Crops Res,2006(95):398-411.
[44] 马晓娣,王建书,卢彦琦,等.不同温度条件下高粱温敏雄性不育系冀130A育性变化规律及花粉败育研究[J].植物遗传资源学报,2012,13(2):212-218.
[45] Brooking I R. Male sterility in Sorghum bicolor (L.) Moenchinduced by low night temperature. I. timing of the stage ofsensitivity[J]. Austr J Plant Physiol,1976(3):589-596.
[46] Edlund A F, Swanson R, Preuss D. Pollen and stigma structure and function: the role of diversity in pollination[J]. Plant Cell,2004,16(Suppl):S84-S97.
[47] Heizmann P, Luu D T, Dumas C. The clues to species specificity of pollination among Brassicaceae[J]. Sex Plant Reprod,2000(13):157-161.
[48] 杨晓玲,刘永军,张建文,等.山楂花粉及花柱生理生化特性与受精能力的关系[J].华北农学报,2002,17(3):70-74.
PDF(548 KB)

Accesses

Citation

Detail
段落导航
相关文章

/