在细胞外pH值降低时，有髓神经膜中的电荷位移增加。

Increased charge displacement in the membrane of myelinated nerve at reduced extracellular pH.

作者信息

Neumcke B, Schwarz W, Stämpfli R

出版信息

Biophys J. 1980 Sep;31(3):325-31. doi: 10.1016/S0006-3495(80)85062-4.

DOI:10.1016/S0006-3495(80)85062-4

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1328793/

Abstract

Asymmetry currents were measured in nodes of myelinated nerve fibers from Rana esculenta at extracellular pH values of 5.2, 7.0, and 8.1 by averaging the currents during and after 1-ms depolarizing and hyperpolarizing voltage pulses. The charge displacement in the nodal membrane was obtained by numerical integration of the asymmetry currents. Lowering the pH from 7.0 to 5.2 significantly slows down the kinetics of the fast charge displacement during depolarization but hardly affects the kinetics after repolarization. The pH reduction increases the maximum charge displacement during depolarization by 46%. No differences between asymmetry currents were found between pH 7.0 and 8.1. It is concluded that protonation by extracellular H+ ions may increase the net charge or the transition range of mobile subunits in the nerve membrane.

摘要

通过对1毫秒去极化和超极化电压脉冲期间及之后的电流进行平均，在细胞外pH值为5.2、7.0和8.1的情况下，测量了食用蛙有髓神经纤维节中的不对称电流。通过对不对称电流进行数值积分，得到了节段膜中的电荷位移。将pH从7.0降至5.2会显著减慢去极化期间快速电荷位移的动力学，但对复极化后的动力学几乎没有影响。pH降低使去极化期间的最大电荷位移增加了46%。在pH 7.0和8.1之间未发现不对称电流的差异。得出的结论是，细胞外H+离子的质子化可能会增加神经膜中移动亚基的净电荷或转变范围。

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