Ion conduction and selectivity in K(+) channels.

Benoît Roux
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引用次数: 146

Abstract

Potassium (K(+)) channels are tetrameric membrane-spanning proteins that provide a selective pore for the conductance of K(+) across the cell membranes. These channels are most remarkable in their ability to discriminate K(+) from Na(+) by more than a thousandfold and conduct at a throughput rate near diffusion limit. The recent progress in the structural characterization of K(+) channel provides us with a unique opportunity to understand their function at the atomic level. With their ability to go beyond static structures, molecular dynamics simulations based on atomic models can play an important role in shaping our view of how ion channels carry out their function. The purpose of this review is to summarize the most important findings from experiments and computations and to highlight a number of fundamental mechanistic questions about ion conduction and selectivity that will require further work.

离子在K(+)通道中的传导和选择性。
钾(K(+))通道是四聚体跨膜蛋白,为钾(+)通过细胞膜的传导提供选择性孔。这些通道最显著的是它们区分K(+)和Na(+)的能力超过一千倍,并以接近扩散极限的吞吐量进行传导。K(+)通道结构表征的最新进展为我们在原子水平上理解其功能提供了独特的机会。由于它们超越静态结构的能力,基于原子模型的分子动力学模拟可以在塑造我们对离子通道如何发挥其功能的看法方面发挥重要作用。这篇综述的目的是总结从实验和计算中得到的最重要的发现,并强调一些关于离子传导和选择性的基本机制问题,这些问题将需要进一步的工作。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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