Litcius/Paper detail

Revealing the dynamics and mechanisms of bacterial interactions in cheese production with metabolic modelling

Maxime Lecomte, Wenfan Cao, Julie Aubert, David James Sherman, Hélène Falentin, Clémence Frioux, Simon Labarthe

2024Metabolic Engineering10 citationsDOIOpen Access PDF

Abstract

Cheese taste and flavour properties result from complex metabolic processes occurring in microbial communities. A deeper understanding of such mechanisms makes it possible to improve both industrial production processes and end-product quality through the design of microbial consortia. In this work, we caracterise the metabolism of a three-species community consisting of Lactococcus lactis, Lactobacillus plantarum and Propionibacterium freudenreichii during a seven-week cheese production process. Using genome-scale metabolic models and omics data integration, we modeled and calibrated individual dynamics using monoculture experiments, and coupled these models to capture the metabolism of the community. This model accurately predicts the dynamics of the community, enlightening the contribution of each microbial species to organoleptic compound production. Further metabolic exploration revealed additional possible interactions between the bacterial species. This work provides a methodological framework for the prediction of community-wide metabolism and highlights the added value of dynamic metabolic modeling for the comprehension of fermented food processes.

Topics & Concepts

Lactococcus lactisCheese ripeningBiologyMetabolic networkMicrobiomeMicrobial metabolismFood scienceComputational biologyLactic acidBioinformaticsBacteriaRipeningGeneticsMicrobial Metabolic Engineering and BioproductionProbiotics and Fermented FoodsFermentation and Sensory Analysis