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线粒体前导肽与线粒体外部膜前体蛋白转位酶 TOM 的相互作用。

Interactions of mitochondrial presequence peptides with the mitochondrial outer membrane preprotein translocase TOM.

机构信息

Biophysics Department, Institute of Biology, University of Stuttgart, Stuttgart, Germany.

出版信息

Biophys J. 2010 Aug 4;99(3):774-81. doi: 10.1016/j.bpj.2010.05.010.

DOI:10.1016/j.bpj.2010.05.010
PMID:20682254
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2913200/
Abstract

TOM protein-conducting channels serve as the main entry sites into mitochondria for virtually all mitochondrial proteins. When incorporated into lipid bilayers, they form large, relatively nonspecific ion channels that are blocked by peptides derived from mitochondrial precursor proteins. Using single-channel electrical recordings, we analyzed the interactions of mitochondrial presequence peptides with single TOM pores. The largest conductance state of the translocon represents the likely protein-conducting conformation of the channel. The frequency (but not the duration) of the polypeptide-induced blockage is strongly modulated by the substrate concentration. Structural differences between substrates are reflected in characteristic blockage frequencies and duration of blockage. To our knowledge, this study provides first quantitative data regarding the kinetics of polypeptide interaction with the mitochondrial TOM machinery.

摘要

TOM 蛋白传导通道是几乎所有线粒体蛋白进入线粒体的主要入口。当它们整合到脂质双层中时,会形成大的、相对非特异性的离子通道,这些通道被来自线粒体前体蛋白的肽段阻断。使用单通道电记录,我们分析了线粒体前导肽与单个 TOM 孔的相互作用。转位体的最大电导状态代表了通道可能的蛋白传导构象。多肽诱导的阻断的频率(但不是持续时间)强烈受底物浓度的调节。底物之间的结构差异反映在特征性的阻断频率和阻断持续时间上。据我们所知,这项研究首次提供了关于多肽与线粒体 TOM 机制相互作用的动力学的定量数据。

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