信号蛋白激活的膜结合/修饰模型及其受细胞形态控制的分析
Membrane-binding/modification model of signaling protein activation and analysis of its control by cell morphology.
作者信息
Haugh Jason M
出版信息
Biophys J. 2007 Jun 1;92(11):L93-5. doi: 10.1529/biophysj.107.105213. Epub 2007 Apr 6.
Abstract
A mechanism for cell shape control of intracellular signal transduction, whereby the average concentration of activated proteins in the cytosol increases as the height of the cell decreases, has been described recently. An important modification of this analysis is offered, recognizing that signaling proteins are not only activated at the plasma membrane but must first form complexes with signaling molecules that reside there, such as receptors and lipids. With these more realistic boundary conditions, it is shown that the region of parameter space where cell shape amplifies the average cytosolic activity is greatly expanded. Moreover, this model allows for amplification of the activated protein bound at the membrane, which is considered more relevant for certain, spatially driven signaling processes in cell migration.
摘要
最近描述了一种细胞内信号转导的细胞形状控制机制,即随着细胞高度降低,细胞质中活化蛋白的平均浓度会增加。本文对该分析进行了重要修正,认识到信号蛋白不仅在质膜处被激活,而且必须首先与位于质膜上的信号分子(如受体和脂质)形成复合物。在这些更符合实际的边界条件下,研究表明细胞形状放大平均细胞质活性的参数空间区域大大扩展。此外,该模型允许放大结合在膜上的活化蛋白,这被认为与细胞迁移中某些空间驱动的信号转导过程更相关。
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