Microorganisms (Mar 2024)

Recombinant Production of <i>Pseudomonas aeruginosa</i> Rhamnolipids in <i>P. putida</i> KT2440 on <i>Acetobacterium woodii</i> Cultures Grown Chemo-Autotrophically with Carbon Dioxide and Hydrogen

  • Jonas Widberger,
  • Andreas Wittgens,
  • Sebastian Klaunig,
  • Markus Krämer,
  • Ann-Kathrin Kissmann,
  • Franziska Höfele,
  • Tina Baur,
  • Tanja Weil,
  • Marius Henkel,
  • Rudolf Hausmann,
  • Frank R. Bengelsdorf,
  • Bernhard J. Eikmanns,
  • Peter Dürre,
  • Frank Rosenau

DOI
https://doi.org/10.3390/microorganisms12030529
Journal volume & issue
Vol. 12, no. 3
p. 529

Abstract

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The establishment of sustainable processes for the production of commodity chemicals is one of today’s central challenges for biotechnological industries. The chemo-autotrophic fixation of CO2 and the subsequent production of acetate by acetogenic bacteria via anaerobic gas fermentation represents a promising platform for the ecologically sustainable production of high-value biocommodities via sequential fermentation processes. In this study, the applicability of acetate-containing cell-free spent medium of the gas-fermenting acetogenic bacterium A. woodii WP1 as the feeder strain for growth and the recombinant production of P. aeruginosa PAO1 mono-rhamnolipids in the well-established nonpathogenic producer strain P. putida KT2440 were investigated. Additionally, the potential possibility of a simplified production process without the necessary separation of feeder strain cells was elucidated via the cultivation of P. putida in cell-containing A. woodii culture broth. For these cultures, the content of both strains was investigated by examining the relative quantification of strain-exclusive genes via qPCR. The recombinant production of mono-rhamnolipids was successfully achieved with maximum titers of approximately 360–400 mg/L for both cell-free and cell-containing A. woodii spent medium. The reported processes therefore represent a successful proof of principle for gas fermentation-derived acetate as a potential sustainable carbon source for future recombinant rhamnolipid production processes by P. putida KT2440.

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