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CHLOROPHYLL PHOTOSENSITIZED ELECTRON TRANSFER IN PHOSPHOLIPID BILAYER VESICLE SYSTEMS: EFFECTS OF CHOLESTEROL ON RADICAL YIELDS AND KINETIC PARAMETERS*
Authors:William E. Ford  Gordon Tollin
Affiliation:Department of Biochemistry, University of Arizona, Tucson, Az., 85721, USA
Abstract:Abstract The quenching of the triplet state of chlorophyll a (Chl) by asymmetrically located electron acceptors was examined in vesicle systems containing egg yolk phosphatidylcholine and 0–50 mole % cholesterol. The incorporation of cholesterol had two main effects: (1) the distribution of Chl within the vesicle wall shifted from one favoring the inner monolayer to one favoring the outer monolayer, and (2) the Chi molecules (both ground and excited states) became more accessible to water and to the quencher molecules. This latter property was probably due to the creation of space between the phospholipid head groups by insertion of cholesterol. These phenomena required cholesterol concentrations in excess of 15 mol %. In general, the addition of cholesterol caused increases in the apparent bimolecular rate constant for triplet quenching, in the probability that quenching produced radicals, and in the rate of radical recombination. Some of the specific effects of cholesterol depended upon whether or not the quencher molecules were amphiphilic.
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