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Summary
Photo-oxidation of bovine serum albumin (BSA) by porphyrins produces protein-centred radicals that can be spin trapped by 3, 5-dibromo-4-nitrosobenzenesulphonic acid (DBNBS) and 5, 5-dimethyl-1-pyrroline-N-oxide (DMPO). In the case of DMPO, a thiyl radical from the Cys-34 residue is trapped, whereas with DBNBS signals from both this thiyl and tertiary carbon-centred species are observed. However, specific chemical modification of the Cys-34 residue, in combination with dual-isotope spin-trapping techniques, shows that the signal assigned to the Cys-34 thiyl adduct with DBNBS is a nitroxide artefact resulting from sequential (non-radical) nucleophilic addition and oxidation. In contrast, both the Cys-34 thiyl DMPO adduct and the tertiary carbon-centred DBNBS adducts result from genuine spintrapping. This study shows that such artefacts can be detected—even with anisotropic EPR spectra—through the use of appropriately substituted spin-traps, and that nitroso spin-traps need to be employed with great care in systems containing free thiol groups.
