Explore the programs and courses offered by Microbiology MASTER
Browse Programs Admission InformationThe main advantage of this Master's program is the perfect balance between theory and practice. Students benefit from solid fundamental teaching, complemented by in-depth technical training with an internship and final dissertation. Professional integration is at the heart of our training programs. We have developed a dense network of partnerships with hospitals, analysis laboratories and agri-food industries. These partnerships take the form of compulsory internships, designed projects and regular presentations by specialists. Our graduates are particularly appreciated for their ability to adapt quickly to the demands of the professional world.
The research dimension also plays a central role in our training. Where students have the opportunity to work on topical issues alongside renowned research teams. This immersion in scientific research prepares students for work in research and development, as well as doctoral studies for the most motivated students. It will also be very useful in the pharmaceutical field, for monitoring locally-produced or imported medicines, in water analysis laboratories, in the health and safety departments of local authorities, and in fraud and adulteration control departments in the agri-food sector (yeast, canning, beverages, imports, milk and its derivatives, meat and its derivatives, confectionery, ice cream, etc.),
Finally, our program includes personalized support. Thanks to our human-sized classes, each student benefits from individual support throughout his or her studies. Our teaching team, made up of research professors and experienced professionals, is committed to supporting each student in the development of his or her professional project.
This unique combination of academic excellence, practical training and close links with the professional world makes our Master's program particularly attractive and recognized in the field of microbiology.
The microbiology training program is specially designed to provide in-depth knowledge and specialization in the latest areas of microbiology. The subjects are designed for students wishing to develop their expertise in scientific research, industry or applied microbiology. Each subject has advanced objectives as follows:
1-Advanced microbial physiology and metabolism (the study of complex microbial metabolic pathways, advanced metabolic engineering topics for biofuel production, microbial adaptations to harsh environments (extremophiles), and the role of secondary metabolites in microbial reactions and applications).
2. Microbial genomics and bioinformatics (comparative genomics of microorganisms, functional genomics and transcriptomics, metagenomics, bioinformatics tools for analysis of microbial genomic data).
3. Environmental microbiology (microbial roles in geochemical cycles, microbial degradation of pollutants, applications of microbial communities in wastewater treatment, microbial interactions in soil ecosystems and plant microbiomes).
4. Clinical and medical microbiology (Mechanisms of antimicrobial resistance and development of new antibiotics, host-pathogen interactions and immune evasion strategies, emerging and re-emerging infectious diseases, the microbiome and its role in human health and disease, diagnostic and therapeutic applications of microbiology (e.g. phage therapy).
5. Industrial microbiology and biotechnology (Microbial production of enzymes, biofuels and bioplastics, fermentation technology and improvement strategies.
- Applications of synthetic biology to micro-organisms for industrial purposes).
6 Advanced molecular virology (virus replication and host interaction at the molecular level, emerging viral pathogens and zoonoses, development of vaccines and antiviral treatments, applications of viruses in gene therapy and nanotechnology, evolutionary virology, molecular mechanisms of microbial pathogenesis and virulence factors).
7. Molecular analysis of microbial diversity (Use of various molecular and bioinformatics techniques to analyze microbial diversity).
9. Microbial ecology (horizontal gene transfer and its impact on microbial evolution, evolutionary dynamics of symbiosis and microbial competition, advanced imaging techniques for studying microbial structures and biofilms, microbial biofilms, molecular mechanisms of biofilm formation and regulation. Strategies for biofilm prevention and control, and applications of biofilms in bioreactors and wastewater treatment).
10. Antimicrobial resistance and drug discovery (Mechanisms of antimicrobial resistance and global challenges, strategies to overcome antimicrobial resistance, including combination therapies).
PDF file: front page en, tables of 6 semester organization sheets semester for Licence / 4 semesters for Master+ programs (master content only) by subject for semesters S5 and S6 (licence) and S2,S3, S3 and S4 for master.
Bachelor's degree in Microbiology or equivalent diploma
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