Gibberellin metabolism, perception and signaling pathways in Arabidopsis.

The arabidopsis book Pub Date : 2008-01-01 Epub Date: 2008-09-24 DOI:10.1199/tab.0103
Tai-Ping Sun
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引用次数: 214

Abstract

Bioactive gibberellins (GAs) are diterpene phytohormones that modulate growth and development throughout the whole life cycle of the plant. Arabidopsis genes encoding most GA biosynthesis and catabolism enzymes, as well as GA receptors (GIBBERELLIN INSENSITIVE DWARF1, GID1) and early GA signaling components have been identified. Expression studies on the GA biosynthesis genes are beginning to reveal the potential sites of GA biosynthesis during plant development. Biochemical and genetic analyses demonstrate that GA de-represses its signaling pathway by binding to GID1s, which induce degradation of GA signaling repressors (DELLAs) via an ubiquitin-proteasome pathway. To modulate plant growth and development, the GA pathway is also regulated by endogenous signals (other hormones) and environmental cues (such as light, temperature and salt stress). In many cases, these internal and external cues directly affect GA metabolism and bioactive GA levels, and indirectly alter DELLA accumulation and GA responses. Importantly, direct negative interaction between DELLA and PIF3 and PIF4 (2 phytochrome interacting transcription factors) appears to integrate the effects of light and GA on hypocotyl elongation.

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拟南芥赤霉素代谢、感知和信号通路。
生物活性赤霉素(GAs)是一种二萜植物激素,在植物的整个生命周期中调节生长发育。拟南芥基因编码大多数赤霉素生物合成和分解代谢酶,以及赤霉素受体(赤霉素不敏感的DWARF1, GID1)和早期赤霉素信号成分。GA生物合成基因的表达研究开始揭示植物发育过程中GA生物合成的潜在位点。生化和遗传分析表明,GA通过与GID1s结合来抑制其信号通路,GID1s通过泛素-蛋白酶体途径诱导GA信号抑制因子(DELLAs)降解。为了调节植物的生长和发育,GA通路还受到内源信号(其他激素)和环境信号(如光、温度和盐胁迫)的调节。在许多情况下,这些内部和外部线索直接影响GA代谢和生物活性GA水平,并间接改变DELLA积累和GA反应。重要的是,DELLA与PIF3和PIF4(2个光敏色素相互作用转录因子)之间的直接负相互作用似乎整合了光和GA对下胚轴伸长的影响。
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