2.0埃分辨率下KcsA通道的分子动力学研究：孔道内的稳定性与协同运动

Molecular dynamics study of the KcsA channel at 2.0-A resolution: stability and concerted motions within the pore.

作者信息

Compoint Mylène, Carloni Paolo, Ramseyer Christophe, Girardet Claude

机构信息

Laboratoire de Physique Moléculaire, UMR CNRS 6624, Faculté des Sciences, la Bouloie, Université de Franche, Comté, 25030, Besançon, France.

出版信息

Biochim Biophys Acta. 2004 Feb 10;1661(1):26-39. doi: 10.1016/j.bbamem.2003.11.019.

DOI:10.1016/j.bbamem.2003.11.019

PMID:14967472

Abstract

The stability of the KcsA channel accommodating more than one ion in the pore has been studied with molecular dynamics. We have used the very last X-ray structure of the KcsA channel at 2.0-A resolution determined by Zhou et al. [Nature 414 (2001) 43]. In this channel, six of the seven experimentally evidenced sites have been considered. We show that the protein remains very stable in the presence of four K+ ions (three in the selectivity filter and one in the cavity). The locations and the respective distances of the different K+ ions and water molecules (W), calculated within our KWKWKK sequence, also fits well with the experimental observations. The analysis of the K+ ions and water molecules displacements shows concerted file motions on the simulated time scale (approximately 1 ns), which could act as precursor to the diffusion of K+ ions inside the channel. A simple one-dimensional dynamical model is used to interpret the concerted motions of the ions and water molecules in the pore leading ultimately to ion transfer.

摘要

利用分子动力学研究了KcsA通道孔中容纳多个离子时的稳定性。我们采用了周等人[《自然》414(2001)43]测定的分辨率为2.0埃的KcsA通道的最新X射线结构。在这个通道中，七个实验证明的位点中的六个已被考虑。我们表明，在存在四个K+离子（三个在选择性过滤器中，一个在腔内）的情况下，蛋白质保持非常稳定。在我们的KWKWKK序列中计算出的不同K+离子和水分子（W）的位置和各自距离，也与实验观察结果非常吻合。对K+离子和水分子位移的分析表明，在模拟时间尺度（约1纳秒）上存在协同列队运动，这可能是K+离子在通道内扩散的前兆。一个简单的一维动力学模型被用来解释孔中离子和水分子的协同运动，最终导致离子转移。

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Molecular dynamics study of the KcsA channel at 2.0-A resolution: stability and concerted motions within the pore.2.0埃分辨率下KcsA通道的分子动力学研究：孔道内的稳定性与协同运动

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2.0埃分辨率下KcsA通道的分子动力学研究：孔道内的稳定性与协同运动

Molecular dynamics study of the KcsA channel at 2.0-A resolution: stability and concerted motions within the pore.

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