用单个微电极从球形细胞记录的电流-电压关系的解释。
The interpretation of current-voltage relations recorded from a spherical cell with a single microelectrode.
作者信息
Engel E, Barcilon V, Eisenberg R S
出版信息
Biophys J. 1972 Apr;12(4):384-403. doi: 10.1016/S0006-3495(72)86091-0.
Abstract
An analysis is presented of the displacement of potential recorded when one microelectrode is used both to apply current to and record potential from a spherical cell. There are three significant components of the displacement in potential: a component produced inside the microelectrode, a time-independent component representing the spatially nonuniform flow of current in the immediate vicinity of the microelectrode, and a time-dependent spatially uniform component representing the average potential across the cell membrane. The second component describes changes in the potential across the cell membrane as well as potential drops in the interior of the cell, the importance of each factor being dependent on the location of the electrode. Simple expressions, derived by a theoretical treatment, are given for each component of potential. The implications for the interpretation of experimental results determined with the "single-electrode bridge" technique are discussed and an optimal balancing procedure is suggested.
摘要
本文分析了在使用单个微电极向球形细胞施加电流并记录其电位时所记录到的电位位移。电位位移有三个重要组成部分:微电极内部产生的一个分量、代表微电极紧邻区域电流空间不均匀流动的与时间无关的分量,以及代表细胞膜上平均电位的与时间有关的空间均匀分量。第二个分量描述了细胞膜上电位的变化以及细胞内部的电位降,每个因素的重要性取决于电极的位置。通过理论处理得出了每个电位分量的简单表达式。讨论了对用“单电极桥”技术确定的实验结果解释的影响,并提出了一种最佳平衡程序。
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