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分级水合作用对离子通道肽动力学的影响:一种荧光方法。

Effect of graded hydration on the dynamics of an ion channel peptide: a fluorescence approach.

作者信息

Kelkar Devaki A, Chattopadhyay Amitabha

机构信息

Centre for Cellular and Molecular Biology, Hyderabad, India.

出版信息

Biophys J. 2005 Feb;88(2):1070-80. doi: 10.1529/biophysj.104.051490. Epub 2004 Nov 12.

Abstract

Water plays an important role in determining the folding, structure, dynamics, and, in turn, the function of proteins. We have utilized a combination of fluorescence approaches such as the wavelength-selective fluorescence approach to monitor the effect of varying degrees of hydration on the organization and dynamics of the functionally important tryptophan residues of gramicidin in reverse micelles formed by sodium bis(2-ethylhexyl) sulfosuccinate. Our results show that tryptophans in gramicidin, present in the single-stranded beta6.3 conformation, experience slow solvent relaxation giving rise to red-edge excitation shift (REES). In addition, changes in fluorescence polarization with increasing excitation or emission wavelength reinforce that the gramicidin tryptophans are localized in motionally restricted regions of the reverse micelle. Interestingly, the extent of REES is found to be independent of the [water]/[surfactant] molar ratio (w(o)). We attribute this to heterogeneity in gramicidin tryptophan localization. Fluorescence intensity and mean fluorescence lifetime of the gramicidin tryptophans show significant reductions with increasing w(o) indicating sensitivity to increased polarity. Since the dynamics of hydration is related to folding, structure, and eventually function of proteins, we conclude that REES could prove to be a potentially sensitive tool to explore the dynamics of proteins under conditions of changing hydration.

摘要

水在决定蛋白质的折叠、结构、动力学以及进而决定其功能方面起着重要作用。我们利用了多种荧光方法,如波长选择性荧光方法,来监测不同程度的水合作用对由双(2-乙基己基)磺基琥珀酸钠形成的反胶束中短杆菌肽功能重要的色氨酸残基的组织和动力学的影响。我们的结果表明,处于单链β6.3构象的短杆菌肽中的色氨酸经历缓慢的溶剂弛豫,从而产生红边激发位移(REES)。此外,随着激发或发射波长增加,荧光偏振的变化进一步表明短杆菌肽中的色氨酸位于反胶束的运动受限区域。有趣的是,发现REES的程度与[水]/[表面活性剂]摩尔比(w(o))无关。我们将此归因于短杆菌肽色氨酸定位的异质性。短杆菌肽色氨酸的荧光强度和平均荧光寿命随着w(o)的增加而显著降低,表明对极性增加敏感。由于水合动力学与蛋白质的折叠、结构以及最终功能相关,我们得出结论,REES可能是探索水合作用变化条件下蛋白质动力学的一种潜在敏感工具。

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