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在葡萄芽进入和退出内休眠过程中,光敏色素 A、B 和花整合素基因的表达分析。

Expression analysis of phytochromes A, B and floral integrator genes during the entry and exit of grapevine-buds from endodormancy.

机构信息

Universidad de Chile, Facultad de Ciencias, Laboratorio de Bioquímica Vegetal, Casilla 653, Santiago, Chile.

出版信息

J Plant Physiol. 2011 Sep 15;168(14):1659-66. doi: 10.1016/j.jplph.2011.03.001. Epub 2011 Mar 31.

DOI:10.1016/j.jplph.2011.03.001
PMID:21453983
Abstract

A common molecular regulatory pathway that involves PHYA, PHYB and floral integrator genes CONSTANS (CO), FLOWERING LOCUS T (FT) and SUPRESSOR OF OVEREXPRESSION OF CO1 (SOC1) has been suggested to participate in the regulation of photoperiod dependent processes such as flowering and dormancy. In grapevines (Vitis vinifera L.), decreasing photoperiod and low temperatures trigger the transition of buds into endodormancy (ED), a process that is accompanied by drastic changes in gene expression of VvPHYA and B in leaves. To analyse the relationship of VvPHYA, VvPHYB, and grape homologues of Arabidopsis floral integrator genes VvCO, VvFT, VvMADS8, with ED, a comparative expression analysis of these genes was performed in grapevine-leaves and buds before, during and after the transition of buds into ED. The expression of all the above genes in the bud-tissue, and the fact that photoperiod regulates differently the expression of VvPHYA and B in buds than in leaves, suggests that the bud might be an autonomous or semi-autonomous organ in perceiving and transducing the photoperiod signal. On the other hand, the coordinated down-regulation of VvFT in leaves and buds during the transition of buds into ED, and its subsequent up-regulation following the application of dormancy-breaking compounds, hydrogen cyanamide (HC) and sodium azide, suggests that VvFT could play a key role in stimulating bud-growth by repressing their entry into ED.

摘要

已经提出了一种涉及 PHYA、PHYB 和花整合基因 CONSTANS(CO)、FLOWERING LOCUS T(FT)和 SOC1 的共同分子调控途径,参与光周期依赖过程的调节,如开花和休眠。在葡萄(Vitis vinifera L.)中,缩短光周期和低温会促使芽进入内休眠(ED),这一过程伴随着叶片中 VvPHYA 和 B 的基因表达发生剧烈变化。为了分析 VvPHYA、VvPHYB 和拟南芥花整合基因葡萄同源物 VvCO、VvFT、VvMADS8 与 ED 的关系,在芽进入 ED 之前、期间和之后,对这些基因在葡萄叶片和芽中的表达进行了比较分析。在芽组织中表达了所有上述基因,并且光周期对芽中 VvPHYA 和 B 的表达的调节不同于对叶片的调节,这表明芽可能是一个自主或半自主的器官,能够感知和转导光周期信号。另一方面,在芽进入 ED 的过程中,VvFT 在叶片和芽中的协调下调,以及随后应用休眠打破化合物氢氰酸(HC)和叠氮化钠后其表达的上调,表明 VvFT 通过抑制其进入 ED 可能在刺激芽生长中发挥关键作用。

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