Abstract

Electronic absorption, resonance Raman and EPR spectra are reported for ferric horseradish peroxidase isoenzyme A2 at neutral and alkaline pH together with its imidazole complex at 12 K. The data are compared with those obtained at room temperature. At neutral pH, lowering the temperature induces conformational changes with the formation of two types of low-spin hemes, a bis-histidyl type and a hydroxo type. The transition induced by lowering the temperature is accompanied by a change in the orientation of a vinyl substituent which appears less conjugated to the porphyrin macrocycle than at room temperature. At low temperature the low-spin hemes coexist with a quantum admixed spin species. All the forms are characterized by extremely high resonance Raman frequencies, indicating a contraction of the core size from that of the room temperature species. At alkaline pH, only one low-spin species is observed at both room and low temperatures, with a hydroxo ligand bound to the heme iron. The v(Fe-OH) stretching mode has been assigned at 512 cm(-1), on the basis of the isotopic shift observed in D2O and H2(18)O. This relatively low frequency, together with the anomalous shift observed in deuterium, indicates that the hydrogen bonds between the oxygen atom and the distal residues are stronger than in metmyoglobin, but weaker than those of horseradish peroxidase isoenzyme C. This is in agreement with the lower tetragonality, determined from the EPR g values, of alkaline horseradish peroxidase isoenzyme A2 than of metmyoglobin.

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