Construction of dual cofactor‐driven biocatalytic system for effective production of chiral amino acids
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DOI: 10.1002/aic.18894
Abstract: Asymmetric reductive amination is essential for producing chiral amino acids, yet optimizing intracellular cofactor utilization for this process remains challenging. Herein, we developed a dual cofactor‐driven biocatalytic system (DuCoCat) that utilizes both intracellular NAD(H) and… read more here.
Keywords: system; cofactor; dual cofactor; driven biocatalytic ... See more keywords
A hydrogen-driven biocatalytic approach to recycling synthetic analogues of NAD(P)H.
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DOI: 10.1039/d2cc02411j
Abstract: We demonstrate a recycling system for synthetic nicotinamide cofactor analogues using a soluble hydrogenase with turnover number of >1000 for reduction of the cofactor analogues by H2. Coupling this system to an ene reductase, we… read more here.
Keywords: driven biocatalytic; hydrogen driven; synthetic analogues; biocatalytic approach ... See more keywords
Light-driven biocatalytic oxidation
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DOI: 10.1039/d2sc03483b
Abstract: Enzymes are the catalyst of choice for highly selective reactions, offering nature-inspired approaches for sustainable chemical synthesis. Oxidative enzymes (e.g., monooxygenases, peroxygenases, oxidases, or dehydrogenases) catalyze a variety of enantioselective oxyfunctionalization and dehydrogenation reactions under… read more here.
Keywords: oxidation; biocatalytic oxidation; driven biocatalytic; light driven ... See more keywords
A deamination-driven biocatalytic cascade for the synthesis of ribose-1-phosphate
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DOI: 10.1039/d4gc02955k
Abstract: Ribose-1-phosphate (Rib1P) is a key substrate for the synthesis of difficult-to-access nucleoside analogues by nucleoside phosphorylases. However, its use in preparative synthesis is hampered by low yields and low selectivity... read more here.
Keywords: biocatalytic cascade; ribose phosphate; deamination driven; synthesis ... See more keywords