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Study of Cheese Associated Lactic Acid Bacteria Under Carbohydrate-Limited Conditions Using D-Stat Cultivation |
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| Authors: | Kaarel Adamberg Signe Adamberg Tiiu-Maie Laht Ylva Ardö |
| Affiliation: | 1. Department of Food Processing , Tallinn University of Technology , Tallinn, Estonia;2. Competence Centre of Food and Fermentation Technologies Akadeemia tee 15, 12618 , Tallinn, Estonia;3. Department of Chemistry , Tallinn University of Technology , Tallinn, Estonia;4. Department of Chemistry , Tallinn University of Technology , Tallinn, Estonia;5. Department of Food Science, Centre of Advanced Food Studies , The Royal Veterinary and Agricultural University , Denmark |
| Abstract: | The metabolic pathways alternative to glycolytic energy (ATP) during growth of starter and nonstarter lactic acid bacteria were studied simulating the depletion of carbohydrates during cheese ripening. D-stat cultivation strategy with the gradual decrease of galactose concentration in tryptone-arginine feeding medium was used. With the decrease of galactose feeding, the biomass yield calculated on carbohydrate consumption (YX/HEX) and acetate/lactate production ratio of all strains increased. We assume that ATP and biomass yields improved by directing the pyruvate flow from lactate to acetate and that metabolic energy could be obtained either by producing acetate from carbohydrates or from arginine metabolism in ADI-positive strains. Four LAB strains out of eight produced ornithine from arginine indicating active arginine-deiminase (ADI) pathway. These ADI-positive strains achieved 3–10 times higher YX/HEX than ADI-negative strains in tryptone-arginine medium. Lactobacillus plantarum also used serine as an energy source. Starters and NSLAB strains using the amino acids arginine and serine or limited amounts of carbohydrates therefore have the potential to influence flavor production in cheese more efficiently. |
| Keywords: | D-stat carbohydrate limitation NSLAB ADI pathway |