门控电流：电致伸缩起源的非线性电容电流的作用

Gating currents: the role of nonlinear capacitative currents of electrostrictive origin.

作者信息

Blatt F J

出版信息

Biophys J. 1977 Apr;18(1):43-52. doi: 10.1016/S0006-3495(77)85595-1.

DOI:10.1016/S0006-3495(77)85595-1

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1473271/

Abstract

The nonlinear capacitative currents deriving from electrostrictive changes of membrane capacitance have been calculated under conditions similar to those employed by Armstrong and Bezanilla (1974) and Keynes and Rojas (1974) in their experiments on gating currents. For values of the parameter characterizing membrane electrostriction in the range suggested by optical retardation studies of Cohen et al. (1971), the nonlinear current of electrostrictive origin is comparable in magnitude and time-course, but is opposite in direction to the observed gating currents. Hence, the a priori neglect of electrostrictive currents is probably not justified. Conversely, if this current is, in fact, negligibly small in real situations, it follows that membrane compressibility must be significantly smaller than has been estimated.

摘要

在与阿姆斯特朗和贝萨尼利亚（1974年）以及凯恩斯和罗哈斯（1974年）在其门控电流实验中所采用的条件相似的情况下，已计算出由膜电容的电致伸缩变化产生的非线性电容电流。对于在科恩等人（1971年）的光学延迟研究提出的范围内表征膜电致伸缩的参数值，电致伸缩起源的非线性电流在大小和时间进程上相当，但方向与观察到的门控电流相反。因此，先验地忽略电致伸缩电流可能不合理。相反，如果在实际情况中该电流实际上小到可以忽略不计，那么就意味着膜的可压缩性必定显著小于所估计的数值。

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