High-cell-density cultivation of Vibrio natriegens in a low-chloride chemically defined medium

Vibrio natriegens is a halophilic bacterium with the fastest generation time of non-pathogenic bacteria reported so far. It therefore has high potential as a production strain for biotechnological production processes or other applications in biotechnology. Culture media for V. natriegens typically...

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Veröffentlicht in:	Applied microbiology and biotechnology 2023-12, Vol.107 (23), p.7043-7054
Hauptverfasser:	Biener, Richard, Horn, Thomas, Komitakis, Alexander, Schendel, Ines, König, Leon, Hauenstein, Anna, Ludl, Alina, Speidel, Andrea, Schmid, Svenja, Weißer, Julian, Broßmann, Max, Kern, Sofia, Kronmüller, Max, Vierkorn, Sonja, Suckow, Lennart, Braun, Arthur
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Sprache:	eng
Schlagworte:	Ammonium Analysis Bacteria Batch culture Biomass Biomedical and Life Sciences Bioreactors Biotechnological Products and Process Engineering Biotechnology Cell culture Cell density Chloride Citrates Corrosion Cultivation Culture media Density Fed batch Identification and classification Life Sciences Magnesium Magnesium phosphate Metal surfaces Microbial Genetics and Genomics Microbiology Phosphates Precipitates Proteobacteria Sodium Sodium chloride Sodium citrate sodium phosphate Sodium salts Sulfates Vibrio natriegens
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creator	Biener, Richard Horn, Thomas Komitakis, Alexander Schendel, Ines König, Leon Hauenstein, Anna Ludl, Alina Speidel, Andrea Schmid, Svenja Weißer, Julian Broßmann, Max Kern, Sofia Kronmüller, Max Vierkorn, Sonja Suckow, Lennart Braun, Arthur
description	Vibrio natriegens is a halophilic bacterium with the fastest generation time of non-pathogenic bacteria reported so far. It therefore has high potential as a production strain for biotechnological production processes or other applications in biotechnology. Culture media for V. natriegens typically contain high sodium chloride concentrations. The corresponding high chloride concentrations can lead to corrosion processes on metal surfaces in bioreactors. Here we report the development of a low-chloride chemically defined medium for V. natriegens . Sodium chloride was completely replaced by the sodium salts disodium hydrogen phosphate, disodium sulfate, and sodium citrate, while keeping the total concentration of sodium ions constant. The use of citrate prevents the occurrence of precipitates, especially of ammonium magnesium phosphate. With this defined medium, high-cell-density fed-batch cultivations in laboratory-scale bioreactors using exponential feeding yielded biomass concentrations of more than 60 g L −1 . Key points A defined medium for V. natriegens that only contains traces of chloride was developed Corrosion processes on metal surfaces in industrial bioreactors can thus be prevented High yields of biomass can be achieved in fed-batch cultivation with this medium
doi_str_mv	10.1007/s00253-023-12799-4
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subjects	Ammonium Analysis Bacteria Batch culture Biomass Biomedical and Life Sciences Bioreactors Biotechnological Products and Process Engineering Biotechnology Cell culture Cell density Chloride Citrates Corrosion Cultivation Culture media Density Fed batch Identification and classification Life Sciences Magnesium Magnesium phosphate Metal surfaces Microbial Genetics and Genomics Microbiology Phosphates Precipitates Proteobacteria Sodium Sodium chloride Sodium citrate sodium phosphate Sodium salts Sulfates Vibrio natriegens
title	High-cell-density cultivation of Vibrio natriegens in a low-chloride chemically defined medium
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