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光周期诱导植物成花的分子调控机制 被引量:22

Molecular Mechanism of Controlling Flower Formation by Photoperiod Inducement in Plants
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摘要 开花是植物从营养生长向生殖生长的转变过程。开花相关基因的表达是实现这一转变的基础,环境因子以及细胞自身的生长状况对这些基因的表达起着调控作用。目前利用模式植物拟南芥、水稻和观赏植物矮牵牛和金鱼草等植物,已了解到光周期信号被植物成熟叶片接受和感知并产生开花信号物质,这种开花物质经过叶片到茎尖的长距离运输,最终引起茎顶端开花起始。对国内外光周期途径植物成花分子机制的研究进展进行综述,旨在为进一步深入研究光周期调控观赏植物成花分子机制提供参考。 Flowering is the transition from vegetative growth to reproductive growth in plants.Flowering-related gene expression is the basis for achieving this transition.Environment factors and the growth conditions of plant cells on the expression of these genes play regulatory roles.Now,it has been known that photoperiod stimulation signal was received and apperceived by mature leaves of plants and there are produced flowering signal substances in the mature leaves of plants,and that this kinds of flowering signal substances transports from leaves to the top of stems,and ultimately causes flowering using model plants Arabidopsis,rice and ornamental plants petunia and Antirrhinum.This article reviewed the study progress in the molecular mechanisms of controlling flowering of plants,in order to provide references for further in-depth studies of photoperiodic flowering molecular mechanism of ornamental plants.
作者 田素波 郭春晓 郑成淑
机构地区 山东农业大学园艺科学与工程学院、作物生物学国家重点实验室
出处 《园艺学报》 CAS CSCD 北大核心 2010年第2期325-330,共6页 Acta Horticulturae Sinica
基金 教育部留学回国人员科研启动基金项目(33206) 山东省自然科学基金项目(2009ZRA09003)
关键词 光周期 诱导 植物 开花 分子机制 photoperiod induction plant flowering molecular mechanism
分类号 S68 [农业科学—观赏园艺]
  • 相关文献

参考文献36

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  • 2Bomer R, Kampmann G, Chandler J, Gleissner R, Wisman E, Apel K, Melzer S. 2000. A MADS domain gene involved in the transition to flowering in Arabidopsis. Plant J, 24:591 - 599.
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  • 8郭春晓,田素波,郑成淑,王文莉,孙宪芝.光周期途径植物开花决定关键基因FT[J].基因组学与应用生物学,2009,28(3):613-618. 被引量:24
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二级参考文献172

  • 1陈晓,李思远,吴连成,王翠玲,陈彦惠.光周期影响植物花时的分子机制[J].西北植物学报,2006,26(7):1490-1499. 被引量:22
  • 2沙爱华,蔡淑平,张晓娟,吴学军,邱德珍,周新安.大豆开花基因GmCO和GmFT的克隆及表达[J].西北植物学报,2006,26(10):1996-2000. 被引量:8
  • 3彭凌涛.控制拟南芥和水稻开花时间光周期途径的分子机制[J].植物生理学通讯,2006,42(6):1021-1031. 被引量:32
  • 4Abe M.,Kobayashi Y.,Yamamoto S.,Daimon Y.,Yamaguchi A.,Ikeda Y.,Ichinoki H.,Notaguchi M.,Goto K,and Araki T.,2005,FD,a bZIP protein mediating signals fi'om the floral path-way integrator FT at the shoot apex,Science,309(5737):1052-1056
  • 5Ahn J.H.,Miller D.,Winter VJ.,Banfieid M.J.,Lee J.H,Yoo S.Y.,Henz S.R.,Brady R.L.,and Weigel D.,2006,A divergent external loop confers antagonistic activity on floral regulators FT and TFL1,EMBO J.,25:605-614
  • 6Aid T.,Shigyo M.,Nakano R.,Yoneyama T.,and Yanagisawa S.,2008,Nano scale proteomics revealed the presence of regulatory proteins including three FT-like proteins in phloem and xylem saps from rice,Plant Cell Physiol.,49 (5):767-790
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  • 9Bomer R.,Kampmann G.,Chandler J.,Gleissner R,Wisman E.,Apel K,and Melzer S.,2000,A MADS domain gene involved in the transition to flowering in Arabidopsis,Plant J.,24(5):591-599
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引证文献22

二级引证文献165

园艺学报
2010年 第2期

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