Nelson W James
Department of Molecular and Cellular Physiology, Beckman Center for Molecular and Genetic Medicine, Stanford University School of Medicine, Stanford, California 94305-5435, USA.
Nature. 2003 Apr 17;422(6933):766-74. doi: 10.1038/nature01602.
Cell polarity is defined as asymmetry in cell shape, protein distributions and cell functions. It is characteristic of single-cell organisms, including yeast and bacteria, and cells in tissues of multi-cell organisms such as epithelia in worms, flies and mammals. This diversity raises several questions: do different cell types use different mechanisms to generate polarity, how is polarity signalled, how do cells react to that signal, and how is structural polarity translated into specialized functions? Analysis of evolutionarily diverse cell types reveals that cell-surface landmarks adapt core pathways for cytoskeleton assembly and protein transport to generate cell polarity.
细胞极性被定义为细胞形状、蛋白质分布和细胞功能的不对称性。它是单细胞生物(包括酵母和细菌)以及多细胞生物组织中的细胞(如蠕虫、果蝇和哺乳动物上皮细胞)的特征。这种多样性引发了几个问题:不同细胞类型是否使用不同机制来产生极性,极性是如何发出信号的,细胞如何对该信号做出反应,以及结构极性如何转化为特定功能?对进化上不同细胞类型的分析表明,细胞表面标志物会调整细胞骨架组装和蛋白质运输的核心途径以产生细胞极性。