Binding of a cationic phenazinium dye in anionic liposomal membrane: a spectacular modification in the photophysics

Interaction of a cationic phenazinium dye, phenosafranin (PSF), with the anionic liposomal vesicle/bilayer of dimyristoyl- l-α-phosphatidylglycerol (DMPG) has been demonstrated using steady state and time resolved fluorescence and fluorescence anisotropy techniques. The charge transfer emission spec...

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Veröffentlicht in:	Chemistry and physics of lipids 2010, Vol.163 (1), p.94-101
Hauptverfasser:	Bose, Debosreeta, Ghosh, Debanjana, Das, Priyanka, Girigoswami, Agnishwar, Sarkar, Deboleena, Chattopadhyay, Nitin
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Sprache:	eng
Schlagworte:	Absorption Anions - chemistry Anisotropy Bromides - chemistry Cations - chemistry Dimyristoyl- l-α-phosphatidylglycerol (DMPG) Fluorescence Fluorescence Polarization Fluorescent Dyes - chemistry Liposome Liposomes - chemistry Partition coefficient Phenazines - chemistry Phenazinium dye Phosphatidylglycerols - chemistry Time Factors
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container_title	Chemistry and physics of lipids
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creator	Bose, Debosreeta Ghosh, Debanjana Das, Priyanka Girigoswami, Agnishwar Sarkar, Deboleena Chattopadhyay, Nitin
description	Interaction of a cationic phenazinium dye, phenosafranin (PSF), with the anionic liposomal vesicle/bilayer of dimyristoyl- l-α-phosphatidylglycerol (DMPG) has been demonstrated using steady state and time resolved fluorescence and fluorescence anisotropy techniques. The charge transfer emission spectrum of PSF shows a dramatic modification in terms of fluorescence yield together with an appreciable hypsochromic shift in the lipid environment. The blue shift indicates a lowering in polarity inside the vesicle as compared to that in bulk water. The fluorescence and fluorescence quenching studies and micropolarity determination reveal that the cationic fluorophore has a profound binding interaction with the anionic DMPG membrane. Anisotropy study indicates the imposition of a motional restriction on the probe inside the bilayer. The electrostatic interaction between the cationic dye and the anionic lipid membrane has been argued to be the reason behind all these observations. The results could be useful in analyzing membrane organization and heterogeneity in natural membranes exploiting PSF or alike compounds as fluorescent probes.
doi_str_mv	10.1016/j.chemphyslip.2009.10.003
format	Article
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The charge transfer emission spectrum of PSF shows a dramatic modification in terms of fluorescence yield together with an appreciable hypsochromic shift in the lipid environment. The blue shift indicates a lowering in polarity inside the vesicle as compared to that in bulk water. The fluorescence and fluorescence quenching studies and micropolarity determination reveal that the cationic fluorophore has a profound binding interaction with the anionic DMPG membrane. Anisotropy study indicates the imposition of a motional restriction on the probe inside the bilayer. The electrostatic interaction between the cationic dye and the anionic lipid membrane has been argued to be the reason behind all these observations. 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source	MEDLINE; Elsevier ScienceDirect Journals
subjects	Absorption Anions - chemistry Anisotropy Bromides - chemistry Cations - chemistry Dimyristoyl- l-α-phosphatidylglycerol (DMPG) Fluorescence Fluorescence Polarization Fluorescent Dyes - chemistry Liposome Liposomes - chemistry Partition coefficient Phenazines - chemistry Phenazinium dye Phosphatidylglycerols - chemistry Time Factors
title	Binding of a cationic phenazinium dye in anionic liposomal membrane: a spectacular modification in the photophysics
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