Resonance Raman Studies of Heme Axial Ligation in H93G Myoglobin

Abstract

The resonant Raman active mode identified in numerous studies as the heme iron−histidine stretch has been systematically investigated in the Raman spectrum of 15 exogenous ligands to the heme iron in the myoglobin proximal cavity mutant H93G. Mutation of the native histidine 93 of myoglobin to glycine (H93G) creates a cavity at the heme iron that can be filled with exogenous ligands. Substituted imidazoles and pyridines were introduced into the cavity at the heme iron of the deoxy ferrous H93G myoglobin by dialysis. Raman bands attributed to in-plane modes of the heme are unaffected by the change in heme−iron ligation. However, the Raman active band in the 180−250 cm-1 region ascribed to an iron−ligand out-of-plane mode is highly dependent on the identity of the axial ligand. Information on the normal mode was obtained using isotopically labeled imidazole, pyridine, and 1-methyl and 2-methyl imidazole. Relatively small isotope effects are observed for the heme−iron ligands imidazole H93G(Im) and pyridine ...