膜上信号转导的分子机制。
Molecular mechanisms in signal transduction at the membrane.
机构信息
Departments of Chemistry, University of California, Berkeley, California, USA.
出版信息
Nat Struct Mol Biol. 2010 Jun;17(6):659-65. doi: 10.1038/nsmb.1844. Epub 2010 May 23.
Abstract
Signal transduction originates at the membrane, where the clustering of signaling proteins is a key step in transmitting a message. Membranes are difficult to study, and their influence on signaling is still only understood at the most rudimentary level. Recent advances in the biophysics of membranes, surveyed in this review, have highlighted a variety of phenomena that are likely to influence signaling activity, such as local composition heterogeneities and long-range mechanical effects. We discuss recent mechanistic insights into three signaling systems-Ras activation, Ephrin signaling and the control of actin nucleation-where the active role of membrane components is now appreciated and for which experimentation on the membrane is required for further understanding.
摘要
信号转导始于细胞膜,其中信号蛋白的聚类是传递信息的关键步骤。细胞膜难以研究,其对信号转导的影响仍处于最基本的理解水平。本综述中调查的膜生物物理学的最新进展强调了许多可能影响信号转导活性的现象,例如局部组成异质性和长程机械效应。我们讨论了最近对三种信号转导系统(Ras 激活、Ephrin 信号转导和肌动蛋白成核的控制)的机制见解,其中现在已经认识到膜成分的积极作用,并且需要对膜进行实验以进一步理解。
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