Academic Journal

Advances in cofactor immobilization for enhanced continuous-flow biocatalysis.

Bibliographic Details
Title: Advances in cofactor immobilization for enhanced continuous-flow biocatalysis.
Authors: Reus, Bente1 (AUTHOR), Damian, Matteo1 (AUTHOR), Mutti, Francesco G.1 (AUTHOR) f.mutti@uva.nl
Source: Journal of Flow Chemistry. Mar2024, Vol. 14 Issue 1, p219-238. 20p.
Abstract: The merging of biocatalysis with continuous-flow chemistry opens up new opportunities for sustainable and efficient chemical synthesis. Cofactor-dependent enzymes are essential for various industrially attractive biocatalytic reactions. However, implementing these enzymes and biocatalytic reactions in industry remains challenging due to the inherent cost of cofactors and the requirement for their external supply in significant quantities. The development of efficient, low cost, simple and versatile methods for cofactor immobilization can address this important obstacle for biocatalysis in flow. This review explores recent progress in cofactor immobilization for biocatalysis by analyzing advantages and current limitations of the available methods that comprise covalent tethering, ionic adsorption, physical entrapment, and hybrid variations thereof. Moreover, this review analyzes all these immobilization techniques specifically for their utilization in continuous-flow chemistry and provides a perspective for future work in this area. This review will serve as a guide for steering the field towards more sustainable and economically viable continuous-flow biocatalysis. Highlights: Integration of cofactor immobilization along with enzyme immobilization can greatly enhance the sustainability of biocatalysis in flow. Various cofactor immobilization methodologies are available, each of them demonstrating a unique set of advantages and limitations. Hybrid co-immobilization methodologies for cofactors and enzymes seem to be promising for the generation of a more universal platform for biocatalysis in flow. [ABSTRACT FROM AUTHOR]
Subject Terms: *COFACTORS (Biochemistry), *BIOCATALYSIS, *CHEMICAL synthesis, *THERAPEUTIC immobilization, *ENZYMES, *ADSORPTION (Chemistry)
ISSN: 2062249X
DOI: 10.1007/s41981-024-00315-2
Database: Academic Search Index