Studies on Continuous Enzyme Reactions |
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Authors: | Tetsuya Tosa Takao Mori Noriko Fuse Ichiro Chibata |
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Affiliation: | Department of Applied Biochemistry, Chemical Research Laboratory, Tanabe Seiyaku Co., Ltd., Kashima-cho, Higashiyodogawa-ku, Osaka, Japan |
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Abstract: | The kinetics of hydrolysis of acetyl-dl-methionine in DEAE-cellulose-aminoacylase (EC 3.5.1.14) column and DEAE-Sephadex-aminoacylase column was studied.The rate of hydrolysis of substrate was shown to be dependent on the flow rate and independent to the dimension of the enzyme column. The rate of hydrolysis of the substrate was equal in cases of down-ward flow and of up-ward flow. The deteriorated aminoacylase columns by long period operation were reactivated by the recharge of aminoacylase to them. The continuous enzyme reaction using an aminoacylase column was superior to the batch enzyme reaction using native aminoacylase.The enzymatic properties of the water-insoluble aminoacylase prepared by linking mold aminoacylase (EC 3.5.1.14) to DEAE-Sephadex were studied and compared with those of the native aminoacylase.Optimum pH values for hydrolysis of several substrates by the DEAE-Sephadex-amino-acylase complex (DSA-complex) shifted about 0.5~1.5 pH units more to the acid side than those by the native enzyme. On the effects of metal ions and inhibitors, substrate specificity, optical specificity and kinetic constants, no marked difference was observed between the native enzyme and the DSA-complex. Heat stability, optimum temperature and resistance towards proteases were increased by conversion from the native form to the insoluble enzyme. It was also observed that the DSA-complex was activated by urea. |
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