T. Oda scite author profile

T. Oda

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Novel kinetic analysis of enzymatic dipeptide synthesis: Effect of pH and substrates on thermolysin catalysis

Murakami¹,

Chiba²,

Oda³

et al. 2001

Biotech & Bioengineering

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The point of maximum activity is specific to a particular substrate-enzyme system but may vary with different substrates and the same enzyme. The specificity of enzymes has, however, been generally reported only at their "optimal" pH. In this article, we introduce the Michaelis-Menten equation taking pH into account, and apply it to the pH-activity profile of the thermolysin-catalyzed dipeptide synthesis. It has been reported to date that the pH-activity profile of thermolysin follows a bell-shaped curve with a maximal activity at or near pH 7.0. The profiles obtained in this study, however, indicated that the optimal pH varied from 5.8 (for F-AspPheOMe) to 7.3 (for Z-ArgPheOMe), and the order of thermolysin activity was greatly dependent on the pH of reaction media. We have succeeded in evaluating the substrates-induced change of the dissociation states of the active site of thermolysin using the hydrophobicity of substrates. We have obtained apparent kinetic parameters which are independent of the pH of reaction media. The apparent specificity of thermolysin which were independent of pH of the reaction media was in order L-Leu > L-Asp > L-Arg > L-Ala > L-Gly > L-Val and Z > Boc = F at P1 and P2 positions, respectively.

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Continuous Production ofN-(Benzyloxycarbonyl)-L-Glycyl-L-Phenylalanine Methyl Ester Utilizing Extractive Reaction in Aqueous/Organic Biphasic Medium

Murakami¹,

Oda²,

Chiba³

et al. 2000

Preparative Biochemistry and Biotechnology

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T. Oda

Novel kinetic analysis of enzymatic dipeptide synthesis: Effect of pH and substrates on thermolysin catalysis

Continuous Production ofN-(Benzyloxycarbonyl)-L-Glycyl-L-Phenylalanine Methyl Ester Utilizing Extractive Reaction in Aqueous/Organic Biphasic Medium

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