Allosteric interactions among voltage-sensor modules of sodium channels probed by scorpion toxin modifiers.

Michael Gurevitz, Boris S Zhorov, Ke Dong
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引用次数: 1

Abstract

Gating of voltage-dependent sodium channels involves coordinated movements of the voltage sensors in the voltage-sensing modules (VSMs) of the four domains (DI-DIV) in response to membrane depolarization. Zhu et al. have recently examined the effects of charge reversal substitutions at the VSM of domain III on the action of scorpion alpha- and beta-toxins that intercept the voltage sensors in domains IV and II, respectively. The increased activity of both toxin types on the mutant channels has suggested that the VSM module at domain III interacts allosterically with the VSM modules in domains IV and II during channel gating thus affecting indirectly the action of both scorpion toxin classes.

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蝎子毒素改进剂探测钠通道电压传感器模块间的变构相互作用。
电压依赖性钠离子通道的门控涉及四畴(DI-DIV)电压传感模块(vsm)中电压传感器响应膜去极化的协调运动。Zhu等人最近研究了III结构域VSM上的电荷反转取代对蝎子α和β毒素作用的影响,这两种毒素分别阻断了IV和II结构域的电压传感器。两种毒素在突变通道上的活性增加表明,在通道门控制期间,III结构域的VSM模块与IV和II结构域的VSM模块发生变构相互作用,从而间接影响两种蝎子毒素类的作用。
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