H2-driven biotransformation of n-octane to 1-octanol by a recombinant Pseudomonas putida strain co-synthesizing an O2-tolerant hydrogenase and a P450 monooxygenase

Thomas H. Lonsdale; Lars Lauterbach; Sumire Honda Malca; Bettina M. Nestl; Bernhard Hauer; Oliver Lenz

Journal ArticleOPEN ACCESS

H2-driven biotransformation of n-octane to 1-octanol by a recombinant Pseudomonas putida strain co-synthesizing an O2-tolerant hydrogenase and a P450 monooxygenase

Chemical Communications (2015) 51(90) 16173-16175

DOI: 10.1039/c5cc06078h

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Abstract

An in vivo biotransformation system is presented that affords the hydroxylation of n-octane to 1-octanol on the basis of NADH-dependent CYP153A monooxygenase and NAD+-reducing hydrogenase heterologously synthesized in a bacterial host. The hydrogenase sustains H2-driven NADH cofactor regeneration even in the presence of O2, the co-substrate of monooxygenase.

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Lonsdale, T. H., Lauterbach, L., Honda Malca, S., Nestl, B. M., Hauer, B., & Lenz, O. (2015). H2-driven biotransformation of n-octane to 1-octanol by a recombinant Pseudomonas putida strain co-synthesizing an O2-tolerant hydrogenase and a P450 monooxygenase. Chemical Communications, 51(90), 16173–16175. https://doi.org/10.1039/c5cc06078h

H2-driven biotransformation of n-octane to 1-octanol by a recombinant Pseudomonas putida strain co-synthesizing an O2-tolerant hydrogenase and a P450 monooxygenase

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