Photoperiodic Regulation of Florigen Function in Arabidopsis thaliana.

The arabidopsis book Pub Date : 2015-06-24 eCollection Date: 2015-01-01 DOI:10.1199/tab.0178

Greg S Golembeski, Takato Imaizumi

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引用次数: 55

Abstract

One mechanism through which flowering in response to seasonal change is brought about is by sensing the fluctuation in day-length; the photoperiod. Flowering induction occurs through the production of the florigenic protein FLOWERING LOCUS T (FT) and its movement from the phloem companion cells in the leaf vasculature into the shoot apex, where meristematic reprogramming occurs. FT activation in response to photoperiod condition is accomplished largely through the activity of the transcription factor CONSTANS (CO). Regulation of CO expression and protein stability, as well as the timing of other components via the circadian clock, is a critical mechanism by which plants are able to respond to photoperiod to initiate the floral transition. Modulation of FT expression in response to external and internal stimuli via components of the flowering network is crucial to mediate a fluid flowering response to a variety of environmental parameters. In addition, the regulated movement of FT protein from the phloem to the shoot apex, and interactions that determine floral meristem cell fate, constitute novel mechanisms through which photoperiodic information is translated into flowering time.

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拟南芥成花素功能的光周期调控。

开花响应季节变化的一种机制是通过感知白昼长度的波动;光周期。开花基因座T(开花基因座T, flower LOCUS T, FT)的产生及其从叶脉管系统的韧皮部伴生细胞转移到茎尖，在茎尖发生分生组织重编程。响应光周期条件的FT激活主要是通过转录因子CONSTANS (CO)的活性来完成的。CO表达和蛋白质稳定性的调节，以及其他成分通过生物钟的定时，是植物能够响应光周期启动花过渡的关键机制。通过开花网络的组成部分对外部和内部刺激的FT表达的调节对于调节对各种环境参数的流体开花反应至关重要。此外，FT蛋白从韧皮部到茎尖的调控运动，以及决定花分生组织细胞命运的相互作用，构成了光周期信息转化为开花时间的新机制。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The arabidopsis book

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