对MscS通道晶体结构电导状态的布朗动力学研究。

Brownian dynamics investigation into the conductance state of the MscS channel crystal structure.

作者信息

Vora Taira, Corry Ben, Chung Shin-Ho

机构信息

Department of Theoretical Physics, Research School of Physical Sciences, The Australian National University, Canberra, A.C.T. 0200, Australia.

出版信息

Biochim Biophys Acta. 2006 Jun;1758(6):730-7. doi: 10.1016/j.bbamem.2006.04.014. Epub 2006 Apr 26.

DOI:10.1016/j.bbamem.2006.04.014

PMID:16781663

Abstract

We suggest that the crystal structure of the mechanosensitive channel of small conductance is in a minimally conductive state rather than being fully activated. Performing Brownian dynamics simulations on the crystal structure show that no ions pass through it. When simulations are conducted on just the transmembrane domain (excluding the cytoplasmic residues 128 to 280) ions are seen to pass through the channel, but the conductance of approximately 30 pS is well below experimentally measured values. The mutation L109S that replaces a pore lining hydrophobic residue with a polar one is found to have little effect on the conductance of the channel. Widening the hydrophobic region of the pore by 2.5 Angstrom however, increases the channel conductance to over 200 pS suggesting that only a minimal conformational change is required to gate the pore.

摘要

我们认为，小电导机械敏感通道的晶体结构处于最低导电状态，而非完全激活状态。对该晶体结构进行布朗动力学模拟表明，没有离子通过该通道。当仅对跨膜结构域（不包括胞质残基128至280）进行模拟时，可看到离子通过通道，但约30 pS的电导率远低于实验测量值。将孔内衬疏水性残基替换为极性残基的L109S突变对通道电导率影响不大。然而，将孔的疏水区拓宽2.5埃，可使通道电导率增加到200 pS以上，这表明只需最小的构象变化就能打开孔道。

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对MscS通道晶体结构电导状态的布朗动力学研究。

Brownian dynamics investigation into the conductance state of the MscS channel crystal structure.

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