伴随钠通道结构转变的量子电荷重新分布。

Quantal charge redistributions accompanying the structural transitions of sodium channels.

作者信息

Conti F, Stühmer W

机构信息

Istituto di Cibernetica e Biofisica, CNR, Genova, Italy.

出版信息

Eur Biophys J. 1989;17(2):53-9. doi: 10.1007/BF00257102.

DOI:10.1007/BF00257102

PMID:2548829

Abstract

Asymmetric displacement currents, Ig, associated with the gating of nerve sodium channels have been recorded in cell-attached macropatches of Xenopus laevis oocytes injected with exogenous mRNA coding for rat-brain-II sodium channels. The Ig properties were found to be similar to those of gating currents previously observed in native nerve preparations. Ig fluctuations were measured in order to ascertain the discreteness of the conformational changes which precede the channel opening. The auto-correlation of the fluctuations is consistent with a shot-like character of the elementary Ig contributions. The variance of the fluctuations indicates that most of the gating-charge movement that accompanies the activation of a single sodium channel occurs in 2 to 3 brief packets, each carrying an equivalent of about 2.3 electron charges.

摘要

在注射了编码大鼠脑II型钠通道的外源信使核糖核酸的非洲爪蟾卵母细胞的细胞贴附式大膜片中，已记录到与神经钠通道门控相关的不对称位移电流Ig。发现Ig的特性与先前在天然神经制剂中观察到的门控电流特性相似。测量了Ig波动，以确定通道开放前构象变化的离散性。波动的自相关与基本Ig贡献的散粒状特征一致。波动的方差表明，单个钠通道激活时伴随的大部分门控电荷移动发生在2至3个短暂的包中，每个包携带约2.3个电子电荷的等效电荷量。

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伴随钠通道结构转变的量子电荷重新分布。

Quantal charge redistributions accompanying the structural transitions of sodium channels.

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