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Modeling the time course of ComX: towards molecular process control for Bacillus wild-type cultivations.
Treinen, Chantal; Magosch, Olivia; Hoffmann, Mareen; Klausmann, Peter; Würtz, Berit; Pfannstiel, Jens; Morabbi Heravi, Kambiz; Lilge, Lars; Hausmann, Rudolf; Henkel, Marius.
Afiliação
  • Treinen C; Institute of Food Science and Biotechnology, Department of Bioprocess Engineering (150K), University of Hohenheim, Fruwirthstr. 12, 70599, Stuttgart, Germany.
  • Magosch O; Institute of Food Science and Biotechnology, Department of Bioprocess Engineering (150K), University of Hohenheim, Fruwirthstr. 12, 70599, Stuttgart, Germany.
  • Hoffmann M; Institute of Food Science and Biotechnology, Department of Bioprocess Engineering (150K), University of Hohenheim, Fruwirthstr. 12, 70599, Stuttgart, Germany.
  • Klausmann P; Institute of Food Science and Biotechnology, Department of Bioprocess Engineering (150K), University of Hohenheim, Fruwirthstr. 12, 70599, Stuttgart, Germany.
  • Würtz B; Core Facility Hohenheim, Mass Spectrometry Unit, University of Hohenheim, August-von-Hartmann-Str. 3, 70599, Stuttgart, Germany.
  • Pfannstiel J; Core Facility Hohenheim, Mass Spectrometry Unit, University of Hohenheim, August-von-Hartmann-Str. 3, 70599, Stuttgart, Germany.
  • Morabbi Heravi K; Institute of Food Science and Biotechnology, Department of Bioprocess Engineering (150K), University of Hohenheim, Fruwirthstr. 12, 70599, Stuttgart, Germany.
  • Lilge L; Institute of Food Science and Biotechnology, Department of Bioprocess Engineering (150K), University of Hohenheim, Fruwirthstr. 12, 70599, Stuttgart, Germany.
  • Hausmann R; Institute of Food Science and Biotechnology, Department of Bioprocess Engineering (150K), University of Hohenheim, Fruwirthstr. 12, 70599, Stuttgart, Germany.
  • Henkel M; Institute of Food Science and Biotechnology, Department of Bioprocess Engineering (150K), University of Hohenheim, Fruwirthstr. 12, 70599, Stuttgart, Germany. marius.henkel@uni-hohenheim.de.
AMB Express ; 11(1): 144, 2021 Oct 29.
Article em En | MEDLINE | ID: mdl-34714452
Wild-type cultivations are of invaluable relevance for industrial biotechnology when it comes to the agricultural or food sector. Here, genetic engineering is hardly applicable due to legal barriers and consumer's demand for GMO-free products. An important pillar for wild-type cultivations displays the genus Bacillus. One of the challenges for Bacillus cultivations is the global ComX-dependent quorum sensing system. Here, molecular process control can serve as a tool to optimize the production process without genetic engineering. To realize this approach, quantitative knowledge of the mechanism is essential, which, however, is often available only to a limited extent. The presented work provides a case study based on the production of cyclic lipopeptide surfactin, whose expression is in dependence of ComX, using natural producer B. subtilis DSM 10 T. First, a surfactin reference process with 40 g/L of glucose was performed as batch fermentation in a pilot scale bioreactor system to gain novel insights into kinetic behavior of ComX in relation to surfactin production. Interestingly, the specific surfactin productivity did not increase linearly with ComX activity. The data were then used to derive a mathematic model for the time course of ComX in dependence of existing biomass, biomass growth as well as a putative ComX-specific protease. The newly adapted model was validated and transferred to other batch fermentations, employing 20 and 60 g/L glucose. The applied approach can serve as a model system for molecular process control strategies, which can thus be extended to other quorum sensing dependent wild-type cultivations.
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Texto completo: 1 Base de dados: MEDLINE Idioma: En Revista: AMB Express Ano de publicação: 2021 Tipo de documento: Article País de afiliação: Alemanha

Texto completo: 1 Base de dados: MEDLINE Idioma: En Revista: AMB Express Ano de publicação: 2021 Tipo de documento: Article País de afiliação: Alemanha