A Combined Bio-Chemical Synthesis Route for 1-Octene Sheds Light on Rhamnolipid Structure

Till Tiso; Daniel F. Sauer; Klaus Beckerle; Christian C. Blesken; Jun Okuda; Lars M. Blank

doi:https://doi.org/10.3390/catal10080874

doi.org/10.3390/catal10080874

A Combined Bio-Chemical Synthesis Route for 1-Octene Sheds Light on Rhamnolipid Structure

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..., Lars M. Blank

48

Catalysts3.90

Volume: 10, Issue: 8, Pages: 874 - 874

Published: Aug 4, 2020

Abstract

Here we report a chemoenzymatic approach to synthesize 1-octene from carbohydrates via ethenolysis of rhamnolipids. Rhamnolipids synthesized by P. putida contain a double bond between carbon five and six, which is experimentally confirmed via olefin cross metathesis. Utilizing these lipids in the ethenolysis catalyzed by a Grubbs−Hoveyda-type catalyst selectively generates 1-octene and with good conversions. This study shows the potential of...

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Paper Details

Title

A Combined Bio-Chemical Synthesis Route for 1-Octene Sheds Light on Rhamnolipid Structure

DOI

doi.org/10.3390/catal10080874

Published Date

Aug 4, 2020

Journal

Catalysts

Volume

10

Issue

8

Pages

874 - 874

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