RÉSUMÉ
Foi estudada a cinética de produção de ácidos orgânicos na fermentação de soro lácteo com cultura mista de Propionibacterium freundenreichii subsp ATCC 6207 e Lactobacillus paracasei. Foram analisados os efeitos das concentrações de células de L. paracasei, de lactose e de CaCO3 sobre a produção de ácidos orgânicos com auxílio de delineamento composto central rotacional (DCCR), totalizando 18 ensaios. Foi verificada existência de uma região ótima usando meio de fermentação contendo concentração acima de 45 g L-1 de lactose e abaixo de 20 g L-1 de CaCO3, com melhor produção dos ácidos orgânicos. A cultura pode eficientemente utilizar soro lácteo para produção de ácidos orgânicos, diminuindo impactos ambientais provocado pelo este subproduto da produção de queijo.(AU)
Sujet(s)
Lactosérum/composition chimique , Acides Organiques/méthodes , Fermentation , Propionates , Lactosérum/microbiologie , Lacticaseibacillus paracasei , Propionibacterium freudenreichiiRÉSUMÉ
Foi estudada a cinética de produção de ácidos orgânicos na fermentação de soro lácteo com cultura mista de Propionibacterium freundenreichii subsp ATCC 6207 e Lactobacillus paracasei. Foram analisados os efeitos das concentrações de células de L. paracasei, de lactose e de CaCO3 sobre a produção de ácidos orgânicos com auxílio de delineamento composto central rotacional (DCCR), totalizando 18 ensaios. Foi verificada existência de uma região ótima usando meio de fermentação contendo concentração acima de 45 g L-1 de lactose e abaixo de 20 g L-1 de CaCO3, com melhor produção dos ácidos orgânicos. A cultura pode eficientemente utilizar soro lácteo para produção de ácidos orgânicos, diminuindo impactos ambientais provocado pelo este subproduto da produção de queijo.
Sujet(s)
Fermentation , Propionates , Lactosérum/microbiologie , Lactosérum/composition chimique , Acides Organiques/méthodes , Lacticaseibacillus paracasei , Propionibacterium freudenreichiiRÉSUMÉ
BACKGROUND: Propionibacterium freudenreichii is an Actinobacterium widely used in the dairy industry as a ripening culture for Swiss-type cheeses, for vitamin B12 production and some strains display probiotic properties. It is reportedly a hardy bacterium, able to survive the cheese-making process and digestive stresses. RESULTS: During this study, P. freudenreichii CIRM-BIA 138 (alias ITG P9), which has a generation time of five hours in Yeast Extract Lactate medium at 30 °C under microaerophilic conditions, was incubated for 11 days (9 days after entry into stationary phase) in a culture medium, without any adjunct during the incubation. The carbon and free amino acids sources available in the medium, and the organic acids produced by the strain, were monitored throughout growth and survival. Although lactate (the preferred carbon source for P. freudenreichii) was exhausted three days after inoculation, the strain sustained a high population level of 9.3 log10 CFU/mL. Its physiological adaptation was investigated by RNA-seq analysis and revealed a complete disruption of metabolism at the entry into stationary phase as compared to exponential phase. CONCLUSIONS: P. freudenreichii adapts its metabolism during entry into stationary phase by down-regulating oxidative phosphorylation, glycolysis, and the Wood-Werkman cycle by exploiting new nitrogen (glutamate, glycine, alanine) sources, by down-regulating the transcription, translation and secretion of protein. Utilization of polyphosphates was suggested.
Sujet(s)
Adaptation physiologique , Propionibacterium freudenreichii/métabolisme , Protéines bactériennes/génétique , Protéines bactériennes/métabolisme , Carbone/métabolisme , Milieux de culture/composition chimique , Régulation négative , Glycolyse/génétique , Concentration en ions d'hydrogène , Métabolome , Phosphorylation oxydative , Oxygène/métabolisme , Propionibacterium freudenreichii/génétique , Propionibacterium freudenreichii/croissance et développement , ARN bactérien/composition chimique , ARN bactérien/isolement et purification , ARN bactérien/métabolisme , Analyse de séquence d'ARNRÉSUMÉ
Background: In 2014, apple production in EU countries amounted to 11.8 million tonnes. A constant increase in the production of these fruits will lead to the accumulation of thousands of tonnes of apple pomace (production waste). The amount of industrial apples is the highest - their proportiononthe market is estimated at 50-60%, of which over 95% is processed into juice. The proportion of pomace in the traditional pressing method accounts for 20% offruits used. Results: Analysis of the growth dynamics of wild strain Propionibacterium freudenreichii T82 in micro-cultures using different carbon sources showed that the highest bacterial growth occurs in an environment with fructose and the most intense biosynthesis of metabolites was found in medium containing only saccharose. It has been found that P. freudenreichii T82 used apple pomaces as a source of carbon. Propionic acid biosynthesis reached its maximum value in the 120th hour of cultivation (1.771 g/L). At this time, the content of the acetic acid produced reached the level of 7.049 g/L. Conclusions: Utilization of by-products is a significant challenge for manufacturing sites and the natural environment. The solution to this problem may involve the use of pomace as a medium component for microorganism cultivation, which is a source of industrially useful metabolites. This study examined the possibility of using apple pomace as a carbon source in the process of propionic-acetic fermentation via wild strain Propionibacterium freudenreichii T82 bacteria.