Micalis (Food microbiology for health)

• Characterization of microbial ecosystems by analysis of their metagenomes and studies of their functional ecology
• Understanding how and why the diversity of microbial populations is established and maintained within food and digestive ecosystems
• Studies of the mechanisms of dialog between the intestinal microbiota and human cells and organs
• Proposal of levers for maintaining the equilibrium of the microbiota and beneficial interactions with the host or the food matrix

Ecosystems studied : human, intestinal and buccal microbiotas, cheese and meat ecosystems, alimentary fermentation starters, etc.

• Characterization of the molecular mechanisms by which bacteria adapt to changes in their environment
• Studies of the conditions and molecular mechanisms of emergence for so-called “opportunistic” pathogenic bacteria
• Development of tools for identifying and defining preventive and control strategies for pathogenic microorganisms
• Studies of the responses of useful, food-altering and pathogenic microorganisms to the constraints of food manufacture and storage

Microorganisms studied : lactic acid bacteria, streptococci, enterococci, staphylococci, clostridiae, Bacillus cereus, bacteriophages,etc.

• Studies of microorganisms or biological processes as integrated systems
• Characterization of biological processes at the scale of single microbial cells, and their variability at the level of the cell population
• Modeling to predict and control their behavior
• Design and construction of biosynthetic pathways of interest and of ad hoc bacterial platforms for biotechnological applications in food chemistry, white chemistry or health

Microorganisms studied : Bacillus subtilis, commensal organisms and opportunistic pathogens from the Firmicutes, Escherichia coli, oil-producing yeasts, etc.