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Introducing an In Situ Capping Strategy in Systems Biocatalysis To Access 6‐Aminohexanoic acid |
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| Authors: | Dr Johann H Sattler Dr Michael Fuchs Dr Francesco G Mutti Barbara Grischek Dr Philip Engel Dr Jan Pfeffer Prof Dr John M Woodley Prof Dr Wolfgang Kroutil |
| Institution: | 1. Institut für Chemie, Organische und Bioorganische Chemie, University of Graz, Heinrichstrasse 28, 8010 Graz (Austria);2. Austrian Centre of Industrial Biotechnology (ACIB), Petersgasse 14, 8010 Graz (Austria);3. Evonik Industries AG, CREAVIS Technologies & Innovation, Paul‐Baumann‐Strasse 1, 45772 Marl (Germany);4. Department of Chemical and Biochemical Engineering, Technical University of Denmark, S?ltofts Plads, 2800, Kgs. Lyngby (Denmark) |
| Abstract: | The combination of two cofactor self‐sufficient biocatalytic cascade modules allowed the successful transformation of cyclohexanol into the nylon‐6 monomer 6‐aminohexanoic acid at the expense of only oxygen and ammonia. A hitherto unprecedented carboxylic acid capping strategy was introduced to minimize the formation of the dead‐end intermediate 6‐hydroxyhexanoic acid. For this purpose, the precursor ε‐caprolactone was converted in aqueous medium in the presence of methanol into the corresponding methyl ester instead of the acid. Hence, it was shown for the first time that esterases—specifically horse liver esterase—can perform the selective ring‐opening of ε‐caprolactone with a clear preference for methanol over water as the nucleophile. |
| Keywords: | bioorganic chemistry enzyme catalysis ester formation lactone opening nylon‐6 |