Abstract
N-Carbamyl- d-amino acid amidohydrolase (DCase), in which amino acid residues were substituted by mutation, followed by the selection based on thermotolerance, showed improved thermostability, by 5° or 10°C, compared to the native DCase. These DCases were immobilized on a macroporous phenol formaldehyde resin, Duolite A-568, and the immobilized thermotolerant enzymes showed higher activity than the immobilized native DCase. From the results of repeated batch reactions, the half-lives of the activities of immobilized thermotolerant DCase, in which Leu was substituted for Pro 203, and immobilized native DCase were 104 and 58 times, respectively. It was revealed that the higher thermotolerance enabled the immobilized enzymes to be more stable in reactions. A reductant, dithiothreitol, also stabilized the enzymes in reactions. Compared with soluble DCase, immobilized DCase was somewhat stable, and its activity was optimum at a lower pH.
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