Photooxidation of porphyrin in Mg-substituted horseradish peroxidase.

Upon photoirradiation under aerobic conditions, the porphyrin prosthetic group in Mg-substituted horseradish peroxidase was oxidized to a mixture of its pi-cation radical and an oxidized product with an absorption band at 448 nm. The 448 nm compound was then converted to a 489 nm compound in the dark and the activation energy for the conversion was 19.3 kcal/mol. About 1 mol of O2 was consumed per mol of the 448 nm compound formed and no O2 consumption was seen in the dark reaction. The substitution of ethyl groups (meso) and hydroxyethyl groups (hemato) for the vinyl groups in protoporphyrin IX did not have an effect on the result. Under anaerobic conditions and in the presence of a suitable electron acceptor, the only photooxidation product of porphyrin was its pi-cation radical. The formation of hydroxyl radicals during irradiation under aerobic conditions was confirmed by the spin-trapping method. The formation of the above two radicals could be followed by ESR spectroscopy separately at a fixed magnetic field which was set to maximize each ESR signal. The rate of hydroxyl radical formation depended linearly on the concentration of Mg peroxidase. The photooxidation of porphyrin was slow and gave nonspecific product(s) when Mg protoporphyrin IX was present in the heme crevice of apomyoglobin or free in solution.