Structural Change and Catalytic Activity of Horseradish Peroxidase in Oxidative Polymerization of Phenol(Biochemistry & Molecular Biology)
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概要
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The effects of solvent and reaction conditions on the catalytic activity of horseradish peroxidase (HRP) were investigated for oxidative polymerization of phenol in water/organic mixtures using hydrogen peroxide as an oxidant. Also, the structural changes of HRP were investigated by CD and absorption spectroscopy in these solvents. The results suggest that the yield of phenol polymer (the conversion of phenol to polymer) is strongly affected by the reaction conditions due to the structural changes of HRP, that is, the changes in higher structure of the apo-protein and dissociation or decomposition of the prosthetic heme. Optimum solvent compositions for phenol polymerization depend on the nature of the organic solvents owing to different effects of the solvents on HRP structure. In addition to initial rapid changes, slower changes of HRP structure occur in water/organic solvents especially at high concentrations of organic solvents. In parallel with these structural changes, catalytic activity of HRP decreases with time in these solvents. At higher reaction temperatures, the yield of the polymer decreases, which is also ascribed to modification of HRP structure. It is known that hydrogen peroxide is an inhibitor of HRP, and the yield of phenol polymer is strongly dependent on the manner of addition of hydrogen peroxide to the reaction solutions. The polymer yield decreases significantly when hydrogen peroxide was added to the reaction solution in a large amount at once. This is probably due to inactivation of HRP by excess hydrogen peroxide. From the CD and absorption spectra, it is suggested that excess hydrogen peroxide causes not only decomposition of the prosthetic heme but also modification of the higher structure of HRP.
- 社団法人日本農芸化学会の論文
- 2001-07-23
著者
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Kise Hideo
Institute Of Materials Science Univeristy Of Tsukuba
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Kobayashi Masami
Institute Of Materials Science University Of Tsukuba
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AKITA Masaru
Institute of Materials Science, University of Tsukuba
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TSUTSUMI Daisuke
Institute of Materials Science, University of Tsukuba
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Akita Masaru
Institute Of Materials Science University Of Tsukuba
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Tsutsumi Daisuke
Institute Of Materials Science University Of Tsukuba
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Kobayashi Masami
Institute Of Material Sciences University Of Tsukuba
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Kise Hideo
Institute of Industrial Science, The University of Tokyo
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