在平面双层膜和巨型脂质体膜片上研究的线粒体肽敏感阳离子通道的特性。

Properties of the mitochondrial peptide-sensitive cationic channel studied in planar bilayers and patches of giant liposomes.

作者信息

Thieffry M, Neyton J, Pelleschi M, Fèvre F, Henry J P

机构信息

Laboratoire de Neurobiologie Cellulaire et Moléculaire, CNRS, Gif sur Yvette, France.

出版信息

Biophys J. 1992 Aug;63(2):333-9. doi: 10.1016/S0006-3495(92)81626-0.

DOI:10.1016/S0006-3495(92)81626-0

PMID:1384736

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1262157/

Abstract

A voltage-dependent cationic channel of large conductance is observed in phospholipid bilayers formed by the tip-dip method from proteoliposomes derived from mitochondrial membranes. It is blocked by peptide M, a 13 residue peptide having the properties of a mitochondrial signal sequence. To verify the reliability of the experimental approach, mitochondrial membranes from bovine adrenal cortex or porin-deficient mutant yeast were either fused to planar bilayers or incorporated in giant liposomes which were studied by patch clamp. Cationic channels were found with both techniques. They had the same conductance levels and voltage-dependence as those which have been described using the tip-dip method. Moreover, they were similarly blocked by peptide M. The voltage-dependence of block duration was analyzed in planar bilayer and tip-dip records. Results strengthen the idea that peptide M might cross the channel. Other mitochondrial channels were observed in planar bilayers and patch clamp of giant liposomes. Because they were never detected in tip-dip records, they are likely to be inactivated at the surface monolayer used to form the bilayer in this type of experiment.

摘要

通过从线粒体膜衍生的蛋白脂质体采用尖端浸渍法形成的磷脂双层中，观察到一种大电导的电压依赖性阳离子通道。它被肽M阻断，肽M是一种具有线粒体信号序列特性的13个残基的肽。为了验证实验方法的可靠性，将来自牛肾上腺皮质或孔蛋白缺陷型突变酵母的线粒体膜与平面双层融合或掺入巨型脂质体中，通过膜片钳进行研究。两种技术都发现了阳离子通道。它们具有与使用尖端浸渍法所描述的相同的电导水平和电压依赖性。此外，它们同样被肽M阻断。在平面双层和尖端浸渍记录中分析了阻断持续时间的电压依赖性。结果强化了肽M可能穿过通道的观点。在平面双层和巨型脂质体的膜片钳实验中还观察到了其他线粒体通道。由于在尖端浸渍记录中从未检测到它们，它们可能在这类实验中用于形成双层的表面单层中失活。

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本文引用的文献

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