Raghuraman, H. ; Kelkar, Devaki A. ; Chattopadhyay, Amitabha (2003) Novel insights into membrane protein structure and dynamics utilizing the wavelength - selective fluorescence approach Proceedings of the Indian National Science Academy - Part A: Physical Sciences, 69 (1). pp. 25-35. ISSN 0370-0046
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Abstract
Wavelength-selective fluorescence comprises a set of approaches based on the red edge effect in -fluorescence spectroscopy which can be used to directly monitor the environment and dynamics around a fluorophore in a complex biological system. A shift in the wavelength of maximum fluorescence emission toward higher wavelengths, caused by a shift in the excitation wavelength toward the red edge of absorption band, is termed red edge excitation shift (REES). This effect is mostly observed with polar fluorophores in motionally restricted media such as very viscous solutions or condensed phases where the dipolar relaxation time for the solvent shell around a fluorophore is comparable to or longer than its fluorescence lifetime. REES arises from slow rates of solvent relaxation (reorientation) around an excited state fluorophore which is a function of the motional restriction imposed on the solvent molecules in the immediate vicinity of the fluorophore. Utilizing this approach, it becomes possible to probe the mobility parameters of the environment itself (which is represented by the relaxing solvent molecules) using the fluorophore merely as a reporter group. Further, since the ubiquitous solvent for biological systems is water, the information obtained in such cases will come from the otherwise 'optically silent' water molecules. This makes REES and related techniques extremely useful since hydration plays a crucial modulatory role in a large number of important cellular events including lipid-protein interactions and ion transport. The application of the wavelength-selective fluorescence approach as a powerful tool to monitor organization and dynamics of membrane proteins and peptides is discussed in this review.
Item Type: | Article |
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Source: | Copyright of this article belongs to Indian National Science Academy. |
Keywords: | Wavelength-selective Fluorescence Approach; Red Edge Excitation Shift (REES); Membrane Proteins and Peptides; Tryptophan Fluorescence; Hydration Dynamics; Solvent Dipole Relaxation |
ID Code: | 85723 |
Deposited On: | 05 Mar 2012 13:28 |
Last Modified: | 19 May 2016 01:39 |
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