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线粒体分裂和融合的机制。

Mechanisms of mitochondrial fission and fusion.

机构信息

Department of Biological Chemistry, David Geffen School of Medicine, University of California, Los Angeles, Los Angeles, California 90095, USA.

出版信息

Cold Spring Harb Perspect Biol. 2013 Jun 1;5(6):a011072. doi: 10.1101/cshperspect.a011072.

DOI:10.1101/cshperspect.a011072
PMID:23732471
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3660830/
Abstract

Mitochondria continually change shape through the combined actions of fission, fusion, and movement along cytoskeletal tracks. The lengths of mitochondria and the degree to which they form closed networks are determined by the balance between fission and fusion rates. These rates are influenced by metabolic and pathogenic conditions inside mitochondria and by their cellular environment. Fission and fusion are important for growth, for mitochondrial redistribution, and for maintenance of a healthy mitochondrial network. In addition, mitochondrial fission and fusion play prominent roles in disease-related processes such as apoptosis and mitophagy. Three members of the Dynamin family are key components of the fission and fusion machineries. Their functions are controlled by different sets of adaptor proteins on the surface of mitochondria and by a range of regulatory processes. Here, we review what is known about these proteins and the processes that regulate their actions.

摘要

线粒体通过分裂、融合和沿着细胞骨架轨道运动的联合作用不断改变形状。线粒体的长度以及它们形成封闭网络的程度取决于分裂和融合速率之间的平衡。这些速率受到线粒体内部代谢和病理条件以及其细胞环境的影响。分裂和融合对于生长、线粒体再分布以及维持健康的线粒体网络都是很重要的。此外,线粒体的分裂和融合在与疾病相关的过程中如细胞凋亡和线粒体自噬中发挥着突出的作用。Dynamin 家族的三个成员是分裂和融合机制的关键组成部分。它们的功能受线粒体表面不同的衔接蛋白和一系列调节过程的控制。在这里,我们综述了这些蛋白以及调节它们的作用的过程。

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