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电压门控质子通道寡聚化。

Oligomerization of the voltage-gated proton channel.

机构信息

Department of Molecular Biophysics and Physiology, Rush University Medical Center, Chicago, IL, USA.

出版信息

Channels (Austin). 2010 Jul-Aug;4(4):260-5. doi: 10.4161/chan.4.4.12789. Epub 2010 Jul 24.

DOI:10.4161/chan.4.4.12789
PMID:20676047
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3025757/
Abstract

The voltage-gated proton channel exists as a dimer, although each protomer has a separate conduction pathway, and when forced to exist as a monomer, most major functions are retained. However, the proton channel protomers appear to interact during gating. Proton channel dimerization is thought to result mainly from coiled-coil interaction of the intracellular C-termini. Several types of evidence are discussed that suggest that the dimer conformation may not be static, but is dynamic and can sample different orientations. Zn(2+) appears to link the protomers in an orientation from which the channel(s) cannot open. A tandem WT-WT dimer exhibits signs of cooperative gating, indicating that despite the abnormal linkage, the correct orientation for opening can occur. We propose that C-terminal interaction functions mainly to tether the protomers together. Comparison of the properties of monomeric and dimeric proton channels speaks against the hypothesis that enhanced gating reflects monomer-dimer interconversion.

摘要

电压门控质子通道以二聚体形式存在,尽管每个单体都有独立的传导途径,但当被迫以单体形式存在时,大多数主要功能仍然保留。然而,质子通道单体在门控过程中似乎会相互作用。质子通道二聚化主要被认为是由于细胞内 C 末端卷曲螺旋相互作用导致的。讨论了几种类型的证据,表明二聚体构象可能不是静态的,而是动态的,可以采用不同的取向。Zn(2+) 似乎以一种通道无法打开的方向将单体连接起来。串联 WT-WT 二聚体表现出协作门控的迹象,表明尽管存在异常连接,但仍可以发生正确的打开方向。我们提出 C 末端相互作用主要起到将单体连接在一起的作用。单体和二聚体质子通道特性的比较反对增强的门控反映单体-二聚体相互转化的假设。

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