A whole cell biocatalyst for double oxidation of cyclooctane

A whole cell biocatalyst for double oxidation of cyclooctane

A novel whole cell cascade for double oxidation of cyclooctane to cyclooctanone was developed. The one-pot oxidation cascade requires only a minimum of reaction components: resting E. coli cells in aqueous buffered medium (=catalyst), the target substrate and oxygen as environmental friendly oxidant...

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Veröffentlicht in:Journal of industrial microbiology & biotechnology 2016-12, Vol.43 (12), p.1641-1646
Hauptverfasser: Müller, C. A., Weingartner, A. M., Dennig, A., Ruff, A. J., Gröger, H., Schwaneberg, Ulrich
Format: Artikel
Sprache:eng
Schlagworte:
Alcohol
Alcohol Dehydrogenase - biosynthesis
Alcohol Dehydrogenase - chemistry
Analysis
Bacterial Proteins - chemistry
Bacterial Proteins - metabolism
Biocatalysis
Biocatalysis - Short Communication
Biocatalysts
Biochemistry
Bioinformatics
Biomedical and Life Sciences
Bioreactors
Biotechnology
Cellular biology
Chemical reactions
Conversion
Cyclooctanes - chemistry
Dehydrogenases
Directed Molecular Evolution
E coli
Enzymes
Escherichia coli - genetics
Escherichia coli - metabolism
Evolution
Genetic Engineering
Inorganic Chemistry
Lactobacillus brevis - enzymology
Life Sciences
Microbiology
Mixed Function Oxygenases - biosynthesis
Mixed Function Oxygenases - chemistry
Mutation
Oxidation
Oxidation-Reduction
Oxidizing agents
Plasmids
Rhodococcus - enzymology
Studies
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Beschreibung
Zusammenfassung:A novel whole cell cascade for double oxidation of cyclooctane to cyclooctanone was developed. The one-pot oxidation cascade requires only a minimum of reaction components: resting E. coli cells in aqueous buffered medium (=catalyst), the target substrate and oxygen as environmental friendly oxidant. Conversion of cyclooctane was catalysed with high efficiency (50% yield) and excellent selectivity (>94%) to cyclooctanone. The reported oxidation cascade represents a novel whole cell system for double oxidation of non-activated alkanes including an integrated cofactor regeneration. Notably, two alcohol dehydrogenases from Lactobacillus brevis and from Rhodococcus erythropolis with opposite cofactor selectivities and one monooxygenase P450 BM3 were produced in a coexpression system in one single host. The system represents the most efficient route with a TTN of up to 24363 being a promising process in terms of sustainability as well.
ISSN:1367-5435
1476-5535
DOI:10.1007/s10295-016-1844-5