鱿鱼轴突钾离子通道的激活。离子电流和门控电流研究。

Activation of squid axon K+ channels. Ionic and gating current studies.

作者信息

White M M, Bezanilla F

出版信息

J Gen Physiol. 1985 Apr;85(4):539-54. doi: 10.1085/jgp.85.4.539.

DOI:10.1085/jgp.85.4.539

PMID:2409218

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2215804/

Abstract

We have used data obtained from measurements of ionic and gating currents to study the process of K+ channel activation in squid giant axons. A marked improvement in the recording of K+ channel gating currents (IKg) was obtained by total replacement of Cl- in the external solution by NO-3, which eliminates approximately 50% of the Na+ channel gating current with no effect on IKg. The midpoint of the steady state charge-voltage (Qrel - V) relationship is approximately 40 mV hyperpolarized to that of the steady state activation (fo - V) curve, which is an indication that the channel has many nonconducting states. Ionic and gating currents have similar time constants for both ON and OFF pulses. This eliminates any Hodgkin-Huxley nx scheme for K+ channel activation. An interrupted pulse paradigm shows that the last step in the activation process is not rate limiting. IKg shows a nonartifactual rising phase, which indicates that the first step is either the slowest step in the activation sequence or is voltage independent. These data are consistent with the following general scheme for K+ channel activation: (formula; see text)

摘要

我们利用从离子电流和门控电流测量中获得的数据，来研究枪乌贼巨大轴突中钾离子通道的激活过程。通过用硝酸根完全替代外部溶液中的氯离子，显著改善了钾离子通道门控电流（IKg）的记录，这消除了约50%的钠离子通道门控电流，而对IKg没有影响。稳态电荷-电压（Qrel - V）关系的中点比稳态激活（fo - V）曲线的中点大约超极化40 mV，这表明该通道有许多非导通状态。对于开启和关闭脉冲，离子电流和门控电流具有相似的时间常数。这排除了任何用于钾离子通道激活的霍奇金-赫胥黎nx模型。一个中断脉冲范式表明，激活过程中的最后一步不是限速步骤。IKg显示出一个非人为的上升阶段，这表明第一步要么是激活序列中最慢的步骤，要么与电压无关。这些数据与以下钾离子通道激活的一般模型一致：（公式；见原文）

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