Fusion pores and fusion machines in Ca2+-triggered exocytosis.

Meyer B Jackson, Edwin R Chapman
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引用次数: 190

Abstract

Exocytosis is initiated within a highly localized region of contact between two biological membranes. Small areas of these membranes draw close, molecules on the two surfaces interact, and structural transformations take place. Membrane fusion requires the action of proteins specialized for this task, and these proteins act as a fusion machine. At a critical point in this process, a fusion pore forms within the membrane contact site and then expands as the spherical vesicle merges with the flat target membrane. Hence, the operation of a fusion machine must be realized through the formation and expansion of a fusion pore. Delineating the relation between the fusion machine and the fusion pore thus emerges as a central goal in elucidating the mechanisms of membrane fusion. We summarize present knowledge of fusion machines and fusion pores studied in vitro, in neurons, and in neuroendocrine cells, and synthesize this knowledge into some specific and detailed hypotheses for exocytosis.

Ca2+触发胞吐作用中的融合孔和融合机。
胞吐作用是在两个生物膜之间的高度局部接触区域内开始的。这些膜的小区域相互靠近,两个表面上的分子相互作用,并发生结构转变。膜融合需要专门的蛋白质来完成这项任务,而这些蛋白质就像一台融合机器。在此过程中的一个临界点,在膜接触部位形成融合孔,然后随着球形囊泡与扁平靶膜的融合而膨胀。因此,熔合机的操作必须通过熔合孔的形成和膨胀来实现。描绘融合机器和融合孔之间的关系,因此成为阐明膜融合机制的中心目标。我们总结了目前在体外、神经元和神经内分泌细胞中研究的融合机器和融合孔的知识,并将这些知识综合成一些具体而详细的胞吐假说。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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