On the structure-function relationship of peroxidases and peroxygenase |
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Authors: | Atami Ishimaru |
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Affiliation: | Biophysics Division, Research Institute of Applied Electricity, Hokkaido University, Sapporo 060, Japan |
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Abstract: | The structure-function relationship of two kinds of hemoproteins, peroxidases and peroxygenase, is discussed and a tentative model for the active site (heme vicinity) structure of each hemoprotein is proposed. The mechanism of Compound I formation from peroxidases is presumed to involve an electrophilic attack of hydroperoxide, the electrophilicity of which is increased by forming a hydrogen bond to a distal acid group (with β-equatorial arrangement) on the heme iron, the basicity of which is being increased by electron donation from the anionic fifth ligand. On the other hand, the mechanism for peroxygenase is presumed to involve a nucleophilic attack of hydroperoxide, the nucleophilicity of which is increased by forming a hydrogen bond to a distal base group (with α-axial arrangement) to the heme iron ligating the neutral fifth ligand. It is presumed that Compound I of peroxidases, which consists of porphyrin π cation radical and ferryl iron, is stabilized by a π-π type charge transfer interaction between the radical, and stacking imidazolate group (not necessarily different from the distal group) which then ionizes, and by electron donation from the anionic fifth ligand. On the other hand, Compound I of peroxygenase, which is postulated to be an oxene complex, is presumed to be stabilized by an electrostatic interaction with a strongly negative environment, and by ionization of the fifth ligand, if such can happen. |
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