The generation of hydroxyl and alkoxyl radicals from the interaction of ferrous bipyridyl with peroxides. Differential oxidation of typical hydroxyl-radical scavengers

Reaction conditions by which the iron-chelate ferrous bipyridyl can be used as a Fenton reagent to generate specifically alkoxyl radical (.OR) from its corresponding alkyl hydroperoxide (ROOH) without producing hydroxyl radical (.OH) as a result of autoxidation are described. In this manner, the relative ability of common .OH-scavenging agents to react with .OH and various .OR species could be assessed. When .OH was generated from H₂O₂,4-methylmercapto-2-oxobutyrate, ethanol and benzoate were all oxidized. When .OR (cumoxyl radical, t-butoxyl radical or ethoxy radical) was generated specifically, each was found to oxidize 4-methylmercapto-2-oxobutyrate and ethanol. In contrast with .OH, however, none of the .OR radicals mediated the decarboxylation of benzoate. Cross-competition studies with the scavengers showed that, in contrast with the .OH-dependent reaction, the .OR-dependent oxidation of 4-methylmercapto-2-oxobutyrate and ethanol was not inhibited by benzoate. Rate constants for ferrous bipyridyl oxidation by ROOH and by H₂O₂ were found to be essentially the same, and therefore the differential oxidation of the various scavengers was not a reflection of iron-peroxide interaction, but rather an interaction between generated oxy radicals and the scavengers. In contrast with the H₂O₂ system, catalase did not inhibit the oxidation of 4-methylmercapto-2-oxobutyrate or ethanol by either the cumene hydroperoxide or the t-butyl hydroperoxide system, suggesting that the oxidizing species was not derived from H₂O₂. These results suggest that benzoate decarboxylation might serve as a more specific probe to detect the presence of .OH than either 4-methylmercapto-2-oxobutyrate or ethanol, which react readily with .OR.