Characterization of an industrial biocatalyst: Immobilized glutaryl-7-ACA acylase

Autor:	Sergio Riva, Daniela Monti, Giacomo Carrea, Giovanni Frare, Eva Baldaro
Rok vydání:	2000
Předmět:	Immobilized enzyme Bioengineering Applied Microbiology and Biotechnology Catalysis Amidohydrolases Phosphates chemistry.chemical_compound Biotransformation Enzyme Stability Chromatography High Pressure Liquid chemistry.chemical_classification Chromatography Dose-Response Relationship Drug biology Temperature Hydrogen Peroxide Hydrogen-Ion Concentration Cephalosporin C Enzyme assay Cephalosporins Kinetics Enzyme Models Chemical chemistry Biocatalysis biology.protein Degradation (geology) Penicillin Amidase Biotechnology
Zdroj:	Biotechnology and Bioengineering. 70:239-244
ISSN:	1097-0290 0006-3592
DOI:	10.1002/1097-0290(20001020)70:2<239::aid-bit13>3.0.co;2-i
Popis:	A batch of the immobilized industrial biocatalyst glutaryl-7-ACA acylase (GA), one of the two enzymes involved in the biotransformation of cephalosporin C (CefC) into 7-aminocephalosporanic acid (7-ACA), was characterized. K(m) value for glutaryl-7-ACA was 5 mM. Enzyme activity was found to be optimal at pH between 7 and 9.5 and to increase with temperature and in buffered solutions. To avoid product degradation, optimal reaction conditions were obtained working at 25 degrees C using a 50-mM phosphate buffer, pH 8.0. Immobilized GA showed good stability at pH value below 9 and at temperature up to 30 degrees C. The inactivation of immobilized GA in the presence of different amounts of H(2)O(2), a side product that might be present in the plant-scale industrial solutions of glutaryl-7-ACA, was also investigated, but the deactivation rates were negligible at H(2)O(2) concentration that might be reached under operative conditions. Finally, biocatalyst performance in the complete two-step enzymatic conversion process from CefC to 7-ACA was determined on a laboratory scale. Following the complete conversion of a 75 mM solution of CefC into glutaryl-7-ACA catalyzed by an immobilized D-amino acid oxidase (DAAO), immobilized GA was used for the transformation of this intermediate into the final product 7-ACA. This reaction was repeated for 42 cycles. An estimation of the residual activity of the biocatalyst showed that 50% inactivation of immobilized GA was reached after approximately 300 cycles, corresponding to an enzyme consumption of 0.4 kU per kg of isolated 7-ACA.
Databáze:	OpenAIRE
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