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Summary
Complex formation between free-base tetrasulphophthalocyanine (TSPC) and tryptophan (Trp) in solutions of high dielectric constant was studied using absorption/emission spectroscopy. ESR experiments demonstrated dye/substrate electron or hydrogen atom transfer reactions during illumination, competing with superoxide radical generation. To discriminate between the well-known Trp photodynamic (1O2 mediated) oxidation and other rections, Fe(iii)—EDTA was added to initiate the Haber—Weiss reaction. The TSPC/Trp complex showed an enhanced ability to reduce Fe(iii)—EDTA. Spin-trapping experiments and the SOD and catalase-independent formation of 2-deoxyribose/thiobarbituric acid products imply involvement of a photoinduced Haber—Weiss reaction with generation of Trp-peroxyl and Trp-alkoxy radicals as intermediates, followed by formation of Trp carbon-centred radical(s).