将蛋白质重构成独立的平面脂质膜以进行电生理特性分析。

Protein reconstitution into freestanding planar lipid membranes for electrophysiological characterization.

机构信息

Research Center Borstel, Center for Medicine and Bioscience, Division of Biophysics, Borstel, Germany.

Membrane Biophysics Group, Niels Bohr Institute, University of Copenhagen, Copenhagen, Denmark.

出版信息

Nat Protoc. 2015 Jan;10(1):188-98. doi: 10.1038/nprot.2015.003. Epub 2014 Dec 31.

DOI:10.1038/nprot.2015.003

PMID:25551663

Abstract

The reconstitution of channel-forming proteins into planar lipid bilayers enables their functional characterization at very low (sometimes below attomolar) concentrations. We describe the three main approaches used in our laboratories (the Mueller-Rudin technique, in which the bilayers contain an organic solvent, the Montal-Mueller or solvent-free technique, and a method for membrane reconstitution via liposome formation), and we discuss their respective advantages and limitations. Despite the differences in the reconstitution procedures, subsequent protein characterization is based on the same electrophysiological technique. A transmembrane electric field is applied, inducing an ion current and allowing conclusions to be drawn on apparent pore sizes, or suggesting functional properties such as channel opening and closing upon ligand binding, pH-induced conformational changes, ion selectivity or substrate specificity.

摘要

将通道形成蛋白重构到平面脂质双层中，可以在非常低的浓度（有时低于飞摩尔）下对其功能进行特征分析。我们描述了我们实验室使用的三种主要方法（Mueller-Rudin 技术，其中双层含有有机溶剂；Montal-Mueller 或无溶剂技术；以及通过脂质体形成进行膜重构的方法），并讨论了它们各自的优点和局限性。尽管在重构程序上存在差异，但随后的蛋白质特征分析基于相同的电生理学技术。施加跨膜电场会产生离子电流，从而可以得出关于明显孔径的结论，或者暗示功能特性，例如配体结合时通道的开启和关闭、pH 诱导的构象变化、离子选择性或底物特异性。

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将蛋白质重构成独立的平面脂质膜以进行电生理特性分析。

Protein reconstitution into freestanding planar lipid membranes for electrophysiological characterization.

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