氯离子转运过程中法老嗜盐视紫红质中水分子悬键的动力学

Dynamics of Dangling Bonds of Water Molecules in pharaonis Halorhodopsin during Chloride Ion Transportation.

作者信息

Furutani Yuji, Fujiwara Kuniyo, Kimura Tetsunari, Kikukawa Takashi, Demura Makoto, Kandori Hideki

机构信息

†Department of Life and Coordination-Complex Molecular Science, Institute for Molecular Science, 38 Nishigo-Naka, Myodaiji, Okazaki 444-8585, Japan.

‡Department of Structural Molecular Science, The Graduate University for Advanced Studies (SOKENDAI), 38 Nishigo-Naka, Myodaiji, Okazaki 444-8585, Japan.

出版信息

J Phys Chem Lett. 2012 Oct 18;3(20):2964-9. doi: 10.1021/jz301287n. Epub 2012 Sep 28.

DOI:10.1021/jz301287n

PMID:26292234

Abstract

Ion transportation via the chloride ion pump protein pharaonis halorhodopsin (pHR) occurs through the sequential formation of several intermediates during a photocyclic reaction. Although the structural details of each intermediate state have been studied, the role of water molecules in the translocation of chloride ions inside of the protein at physiological temperatures remains unclear. To analyze the structural dynamics of water inside of the protein, we performed time-resolved Fourier transform infrared (FTIR) spectroscopy under H2O or H2(18)O hydration and successfully assigned water O-H stretching bands. We found that a dangling water band at 3626 cm(-1) in pHR disappears in the L1 and L2 states. On the other hand, relatively intense positive bands at 3605 and 3608 cm(-1) emerged upon the formation of the X(N) and O states, respectively, suggesting that the chloride transportation is accompanied by dynamic rearrangement of the hydrogen-bonding network of the internal water molecules in pHR.

摘要

氯离子通过氯离子泵蛋白法老卤视紫红质（pHR）进行的离子转运，是在光循环反应过程中通过几种中间体的依次形成来实现的。尽管已经对每个中间状态的结构细节进行了研究，但在生理温度下，水分子在蛋白质内部氯离子转运中的作用仍不清楚。为了分析蛋白质内部水的结构动力学，我们在H₂O或H₂¹⁸O水合条件下进行了时间分辨傅里叶变换红外（FTIR）光谱分析，并成功归属了水的O-H伸缩振动带。我们发现，pHR中3626 cm⁻¹处的悬空水带在L1和L2状态下消失。另一方面，分别在X(N)和O状态形成时出现了位于3605和3608 cm⁻¹处相对较强的正带，这表明氯离子转运伴随着pHR内部水分子氢键网络的动态重排。

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氯离子转运过程中法老嗜盐视紫红质中水分子悬键的动力学

Dynamics of Dangling Bonds of Water Molecules in pharaonis Halorhodopsin during Chloride Ion Transportation.

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