动力蛋白环：不仅仅用于分裂。

Dynamin rings: not just for fission.

机构信息

Nephrology Division, Massachusetts General Hospital, CNY 149 8.113, 149 13th Street, Charlestown, MA, 02129, USA.

出版信息

Traffic. 2013 Dec;14(12):1194-9. doi: 10.1111/tra.12116. Epub 2013 Sep 19.

DOI:10.1111/tra.12116

PMID:23980695

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3830594/

Abstract

The GTPase dynamin has captivated researchers for over two decades, even managing to establish its own research field. Dynamin's allure is partly due to its unusual biochemical properties as well as its essential role in multiple cellular processes, which include the regulation of clathrin-mediated endocytosis and of actin cytoskeleton. On the basis of the classic model, dynamin oligomerization into higher order oligomers such as rings and helices directly executes the final fission reaction in endocytosis, which results in the generation of clathrin-coated vesicles. Dynamin's role in the regulation of actin cytoskeleton is mostly explained by its interactions with a number of actin-binding and -regulating proteins; however, the molecular mechanism of dynamin's action continues to elude us. Recent insights into the mechanism and role of dynamin oligomerization in the regulation of actin polymerization point to a novel role for dynamin oligomerization in the cell.

摘要

GTPase 动力蛋白吸引了研究人员超过二十年，甚至成功地建立了自己的研究领域。动力蛋白的魅力部分归因于其不寻常的生化特性及其在多种细胞过程中的重要作用，包括网格蛋白介导的内吞作用和肌动蛋白细胞骨架的调节。基于经典模型，动力蛋白寡聚化形成更高阶的寡聚体，如环和螺旋，直接执行内吞作用中的最终分裂反应，导致网格蛋白包被囊泡的产生。动力蛋白在肌动蛋白细胞骨架调节中的作用主要通过其与许多肌动蛋白结合和调节蛋白的相互作用来解释；然而，动力蛋白作用的分子机制仍然让我们难以捉摸。最近对动力蛋白寡聚化在肌动蛋白聚合调节中的机制和作用的深入了解，为动力蛋白寡聚化在细胞中的新作用提供了线索。

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本文引用的文献

Mechanics of dynamin-mediated membrane fission.动力蛋白介导的膜裂变的机制。

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