1. How carbon sources drive cellulose synthesis in two Komagataeibacter xylinus strains
- Author
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Federico Lasagni, Stefano Cassanelli, and Maria Gullo
- Subjects
Komagataeibacter xylinus ,Glucose dehydrogenase ,Bacterial cellulose ,Gluconic acid ,Agro-wastes ,Medicine ,Science - Abstract
Abstract Bacterial cellulose synthesis from defined media and waste products has attracted increasing interest in the circular economy context for sustainable productions. In this study, a glucose dehydrogenase-deficient Δgdh K2G30 strain of Komagataeibacter xylinus was obtained from the parental wild type through homologous recombination. Both strains were grown in defined substrates and cheese whey as an agri-food waste to assess the effect of gene silencing on bacterial cellulose synthesis and carbon source metabolism. Wild type K2G30 boasted higher bacterial cellulose yields when grown in ethanol-based medium and cheese whey, although showing an overall higher d-gluconic acid synthesis. Conversely, the mutant Δgdh strain preferred d-fructose, d-mannitol, and glycerol to boost bacterial cellulose production, while displaying higher substrate consumption rates and a lower d-gluconic acid synthesis. This study provides an in-depth investigation of two K. xylinus strains, unravelling their suitability for scale-up BC production.
- Published
- 2024
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