ISSN:
1432-1017
Keywords:
Protein-lipid interaction
;
Lysozyme
;
Conformation
;
Dipyrenyl phospholipids
;
Fluorescence distribution analysis
;
Fractional analysis
;
Membrane perturbation
;
Resonance energy transfer
Source:
Springer Online Journal Archives 1860-2000
Topics:
Biology
,
Physics
Notes:
Abstract Experiments directed to measure the interaction of lysozyme with liposomes consisting of phosphatidylcholine (PC) and phosphatidylserine (PS) have been conducted by monitoring both protein and lipid fluorescence and fluorescence anisotropy of the protein. The binding of lysozyme to the unilamellar vesicles was quantified using a novel method of analysis in which the fractional contribution at moderate binding conditions is determined from either total fluorescence decay or anisotropy decay curves of tryptophan at limiting binding conditions. In the energy transfer experiments PC and PS lipids labelled with two pyrene acyl chains served as energy acceptors of the excited tryptophan residues in lysozyme. The binding was strongly dependent on the molar fraction of negatively charged PS in neutral PC membranes and on the ionic strength. Changes in the tryptophan fluorescence decay characteristics were found to be connected with long correlation times, indicating conformational rearrangements induced by binding of the protein to these lipid membranes. The dynamics of membrane bound protein appeared to be dependent on the physical state of the membrane. Independent of protein fluorescence studies, formation of a protein-membrane complex can also be observed from the lipid properties of the system. The interaction of lysozyme with di-pyrenyl-labelled phosphatidylserine in anionic PS/PC membranes resulted in a substantial decrease of the intramolecular excimer formation, while the excimer formation of dipyrenyl-labelled phosphatidylcholine in neutral PC membranes barely changed in the presence of lysozyme.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1007/BF00205103
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