光敏色素信号机制与植物发育的调控。
Phytochrome signaling mechanisms and the control of plant development.
机构信息
Department of Biology, Duke University, Durham, NC 27708, USA.
出版信息
Trends Cell Biol. 2011 Nov;21(11):664-71. doi: 10.1016/j.tcb.2011.07.002. Epub 2011 Aug 17.
Abstract
As they emerge from the ground, seedlings adopt a photosynthetic lifestyle, which is accompanied by dramatic changes in morphology and global alterations in gene expression that optimizes the plant body plan for light capture. Phytochromes are red and far-red photoreceptors that play a major role during photomorphogenesis, a complex developmental program that seedlings initiate when they first encounter light. The earliest phytochrome signaling events after excitation by red light include their rapid translocation from the cytoplasm to subnuclear bodies (photobodies) that contain other proteins involved in photomorphogenesis, including a number of transcription factors and E3 ligases. In the light, phytochromes and negatively acting transcriptional regulators that interact directly with phytochromes are destabilized, whereas positively acting transcriptional regulators are stabilized. Here, we discuss recent advances in our knowledge of the mechanisms linking phytochrome photoactivation in the cytoplasm and transcriptional regulation in the nucleus.
摘要
当幼苗从地下冒出来时,它们会采用光合作用的生活方式,伴随着形态的巨大变化和基因表达的全局改变,从而优化植物的光捕获体计划。光敏色素是红光和远红光的光受体,在光形态建成中起着重要作用,这是幼苗在首次遇到光时启动的一个复杂的发育程序。红光激发后最早的光敏色素信号事件包括它们从细胞质快速易位到包含其他参与光形态建成的蛋白质的亚核体(光体),包括许多转录因子和 E3 连接酶。在光下,光敏色素和直接与光敏色素相互作用的负调控转录因子失稳,而正调控转录因子则稳定。在这里,我们讨论了我们对将细胞质中光敏色素的光激活与核中转录调控联系起来的机制的最新认识的进展。
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