Abstract
The pH dependence of singlet oxygen quenching by histidine, N-acetyltyrosine ethyl ester (ATEE), ascorbic acid, Trolox C, and tryptophan has been observed using time-resolved infrared luminescence measurements in a D2O/acetonitrile (50:50 v/v) solvent. Deprotonation of ascorbic acid, the protonated imidazole ring of histidine and the phenolic group of ATEE leads to an increase in the quenching rate constants by between 2 and 3 orders of magnitude. Such changes appear to be the basis for wide variations in quoted literature values of singlet oxygen quenching constants for these and related compounds. It is estimated that these pH-dependent quenching rate constants predict a modest (approximately 2- to 3-fold) change in singlet oxygen lifetime between the extremes of cellular pH. Activation data for singlet oxygen quenching show that the enthalpies of activation are low in all cases (between 0 and 11 kJ mol-1) and that substantially negative entropies of activation (between −49 and −116 J K-1 mol-1) result ...
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