Immobilization of d-amino acid dehydrogenase from Ureibacillus thermosphaericus

Immobilization of d-amino acid dehydrogenase from Ureibacillus thermosphaericus

Several procedures were tested for the immobilization of the artificial d-selective amino acid dehydrogenase from Ureibacillus thermosphaericus (UtDAADH) and its co-immobilization with the NADPH–regenerating glucose dehydrogenase (GDH). Based on the conversions of the reductive amination of phenylpy...

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Bibliographic Details
Published in:Process biochemistry (1991) Vol. 140; pp. 45 - 55
Main Authors: Boros, Krisztina, Gal, Lilla, Gal, Cristian Andrei, Wäscher, Martin, Tomoiagă, Raluca Bianca, Toşa, Monica Ioana, Pietruszka, Jörg, Bencze, László Csaba
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-05-2024
Subjects:
Biocatalysis
Biocatalyst recyclability
D-amino acid dehydrogenase
D-phenylalanine
Enzyme immobilization
Biocatalyst recyclability
Enzyme immobilization
Biocatalysis
D-amino acid dehydrogenase
D-phenylalanine
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Summary:Several procedures were tested for the immobilization of the artificial d-selective amino acid dehydrogenase from Ureibacillus thermosphaericus (UtDAADH) and its co-immobilization with the NADPH–regenerating glucose dehydrogenase (GDH). Based on the conversions of the reductive amination of phenylpyruvate, recyclability, batch-to-batch reproducibility, and immobilization costs, DAADH covalently attached onto Purolite® ECR8415F or co-immobilized with GDH on polyethylenimine-coated agarose were selected for optimizations. The non-desired substrate/product adsorption occurring in case of the Purolite® support, was avoided by increasing the volume of linkers employed for the covalent fixation of the enzyme. The more convenient to prepare immobilization variant, DAADH adsorbed onto the Purolite® resin also proved to be applicable. This preparation, despite presenting significant drop of 58.8% of its specific activity over 10 reaction cycles, still provided similar conversions with the covalently immobilized variant. As third effective preparation, the DAADH–GDH co-immobilized system, showed no activity loss over 10 reaction cycles. In this case the additional co-immobilization of the NADP+ cofactor provided self-sufficient biocatalysts only for limited cycles, after >3 consecutive reactions the conversion dropped with ∼60%, due to cofactor leakage. The synthetic utility of the immobilized DAADH was demonstrated by the 100 mg-scale reductive amination of phenylpyruvate, obtaining d-phenylalanine with 86% yield. [Display omitted] •Covalently immobilized DAADHs tested in reductive amination of phenylpyruvate.•Purolite® ECR8415F as optimal support for the covalent or adsorption–based immobilization.•DAADH and glucose dehydrogenase co-immobilized on agarose beads as effective biocatalyst.•Synthetic utility, for the synthesis of d-phenylalanine, tested at 100-mg scale.
ISSN:1359-5113
1873-3298
DOI:10.1016/j.procbio.2024.02.014