发动蛋白GTP酶的寡聚化及动力学机制

Oligomerization and kinetic mechanism of the dynamin GTPase.

作者信息

Eccleston John F, Binns Derk D, Davis Colin T, Albanesi Joseph P, Jameson David M

机构信息

National Institute for Medical Research, Mill Hill, London NW7 1AA, UK.

出版信息

Eur Biophys J. 2002 Jul;31(4):275-82. doi: 10.1007/s00249-002-0226-2. Epub 2002 Jun 18.

DOI:10.1007/s00249-002-0226-2

PMID:12122474

Abstract

Dynamin is a large molecular weight GTPase. Amongst other biological processes, it is involved in clathrin-dependent endocytosis. It can self-assemble or assemble on other macromolecular structures that result in an increase in its GTPase activity. Its role in endocytosis has been variously attributed to being a force-generating enzyme or a signalling protein. Here we review evidence for the oligomeric state of dynamin at high and low ionic strength conditions. We also review work on the elementary processes of the dynamin GTPase at high ionic strength and compare these to the ATPase of the force-generating protein myosin and the GTPase of the signalling protein Ras. New data on the interaction of dynamin with a fluorescent derivative of GTPgammaS are also presented. The possible mechanism by which assembly of dynamin leads to an increase in its GTPase activity is discussed.

摘要

发动蛋白是一种高分子量的GTP酶。在其他生物过程中，它参与网格蛋白介导的内吞作用。它可以自我组装或在其他大分子结构上组装，从而导致其GTP酶活性增加。它在内吞作用中的作用被不同地归因于一种产生力的酶或一种信号蛋白。在这里，我们综述了在高离子强度和低离子强度条件下发动蛋白寡聚状态的证据。我们还综述了高离子强度下发动蛋白GTP酶基本过程的研究，并将其与产生力的蛋白质肌球蛋白的ATP酶和信号蛋白Ras的GTP酶进行比较。还展示了关于发动蛋白与GTPγS荧光衍生物相互作用的新数据。讨论了发动蛋白组装导致其GTP酶活性增加的可能机制。

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发动蛋白GTP酶的寡聚化及动力学机制

Oligomerization and kinetic mechanism of the dynamin GTPase.

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