植物对紫外线b辐射的感知和信号转导

IF 21.3 1区 生物学 Q1 PLANT SCIENCES
Roman Podolec, Emilie Demarsy, Roman Ulm
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引用次数: 39

摘要

紫外线b (UV-B)辐射是植物通过UVR8感光器感知的阳光的固有部分。UVR8是基态的同型二聚体,通过不同的色氨酸残基对UV-B光子吸收进行单体化。单体UVR8竞争性地与COP1的底物结合位点结合,从而抑制其E3泛素连接酶对靶蛋白的活性,靶蛋白包括转录调节因子如HY5。UVR8-COP1的相互作用也会导致PIF bHLH因子家族成员的不稳定。此外,UVR8直接与一组不同的转录因子相互作用并抑制DNA结合。这些UVR8信号机制中的每一种都启动了核基因表达的变化,从而导致uv - b诱导的光形态发生和驯化。两个WD40-repeat蛋白RUP1和RUP2提供负反馈调控,并通过促进再聚合使UVR8失活。本文综述了UVR8通路的分子机制,从UV-B感知和信号转导到基因表达变化和生理UV-B反应。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Perception and Signaling of Ultraviolet-B Radiation in Plants.

Ultraviolet-B (UV-B) radiation is an intrinsic fraction of sunlight that plants perceive through the UVR8 photoreceptor. UVR8 is a homodimer in its ground state that monomerizes upon UV-B photon absorption via distinct tryptophan residues. Monomeric UVR8 competitively binds to the substrate binding site of COP1, thus inhibiting its E3 ubiquitin ligase activity against target proteins, which include transcriptional regulators such as HY5. The UVR8-COP1 interaction also leads to the destabilization of PIF bHLH factor family members. Additionally, UVR8 directly interacts with and inhibits the DNA binding of a different set of transcription factors. Each of these UVR8 signaling mechanisms initiates nuclear gene expression changes leading to UV-B-induced photomorphogenesis and acclimation. The two WD40-repeat proteins RUP1 and RUP2 provide negative feedback regulation and inactivate UVR8 by facilitating redimerization. Here, we review the molecular mechanisms of the UVR8 pathway from UV-B perception and signal transduction to gene expression changes and physiological UV-B responses.

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来源期刊
Annual review of plant biology
Annual review of plant biology 生物-植物科学
CiteScore
40.40
自引率
0.40%
发文量
29
期刊介绍: The Annual Review of Plant Biology is a peer-reviewed scientific journal published by Annual Reviews. It has been in publication since 1950 and covers significant developments in the field of plant biology, including biochemistry and biosynthesis, genetics, genomics and molecular biology, cell differentiation, tissue, organ and whole plant events, acclimation and adaptation, and methods and model organisms. The current volume of this journal has been converted from gated to open access through Annual Reviews' Subscribe to Open program, with all articles published under a CC BY license.
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