郎飞结中钠通道门控动力学的温度依赖性。

Temperature dependence of the sodium channel gating kinetics in the node of Ranvier.

作者信息

Collins C A, Rojas E

出版信息

Q J Exp Physiol. 1982 Jan;67(1):41-55. doi: 10.1113/expphysiol.1982.sp002623.

DOI:10.1113/expphysiol.1982.sp002623

Abstract

Temperature dependence of the Na+ channel gating kinetics was measured from the ionic and charge displacement currents in the node of Ranvier of Xenopus laevis, m3h kinetics was applied, assuming a delay, delta t, in the activation process. The rate constants for the m- and h-process showed Arrhenius temperature-dependence with Q10 of 2.34 and 2.9 respectively, while delta t exhibited non-Arrhenius temperature-dependence. Q10 for PNa, measured as 1.6, was smaller than for the rate constants and similar to that for a diffusion process. A negative shift and decrease in voltage sensitivity of the steady-state curves, h infinity and m infinity, occurred with decreasing temperature. The maximum time constant obtained from a single exponential fit to the displacement currents during the pulse for times greater than 90 microseconds exhibited Q10 of 2.01, which lies between that for PNa and that for tau m.

摘要

通过非洲爪蟾（Xenopus laevis）郎飞结处的离子电流和电荷位移电流测量了Na+通道门控动力学的温度依赖性，应用了m3h动力学，并假设激活过程存在延迟δt。m过程和h过程的速率常数呈现阿伦尼乌斯温度依赖性，Q10分别为2.34和2.9，而δt呈现非阿伦尼乌斯温度依赖性。测量得到的PNa的Q10为1.6，小于速率常数的Q10，且与扩散过程的Q10相似。随着温度降低，稳态曲线h∞和m∞的电压敏感性出现负向偏移和降低。在脉冲期间对大于90微秒的位移电流进行单指数拟合得到的最大时间常数，其Q10为2.01，介于PNa的Q10和τm的Q10之间。

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郎飞结中钠通道门控动力学的温度依赖性。

Temperature dependence of the sodium channel gating kinetics in the node of Ranvier.

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