Learning outcomes

This introduction to molecular virology provides a general overview of the world of viruses. By the end of the course, the learner will have understood that : • Viruses are viruses, they are a biological entity in their own right • The evolution of viral populations follows paths that differ from those encountered in animal population genetics. • The cell is a labyrinth that can be hacked by organisms that co-evolve with it. The study of viral multiplication strategies will be based on 5 important viral families: herpesviruses, coronaviruses, retroviruses, orthomyxoviruses and mononegavirals. The study of these replication strategies will shed light on the different stages of the cell used by these obligate parasites. • Viruses are interesting small-scale models in biology as they have allowed significant advances in the understanding of complex biological processes such as (i) regulation of gene expression; (ii) cell differentiation; (iii) carcinogenesis processes.

Goals

- discovering the diversity of the viral universe - studies of the evolutionary mechanisms supporting the diversification and adaptation of viral populations - to see the constitution and functioning of the cell in a different light - understand various mechanisms of gene expression regulation - to understand the involvement of viruses in cancer processes.

Content

This course presents, from a selection of structural and molecular virology elements, 4 key aspects of viruses, namely: (i) viruses are viruses; (ii) the evolution of viral populations; (iii) the study of cellular organization by describing viral multiplication strategies; (iv) the involvement of viruses in oncogenesis.

Assessment method

Oral examination preceded by an open course written preparation. Part 1: Presentation of a theoretical concept or an application based on a question drawn from a list of 15 questions given by the teacher after the course presentations. Evaluation of the knowledge acquired and contextualisation in the student's training. Part 2: Presentation of an original article published in molecular virology on a topic of interest to the student. Presentation of the context of the study and interpretation of the data obtained. Assessment of scientific maturity.

Sources, references and any support material

Reference book: Fields Virology; Ed.-in-chief: David M. Knipe, Peter M. Howley; Philadelphia (Pa.): Lippincott, 2007; Fifth edition Articles (review and original) discussed in the course : Available and downloadable from the Molecular Virology course webcampus page.

Language of instruction

Français
Training Study programme Block Credits Mandatory
Master 120 en biochimie et biologie moléculaire et cellulaire, à finalité approfondie Standard 0 2
Master 120 en biochimie et biologie moléculaire et cellulaire, à finalité spécialisée Standard 0 2
Master 120 in Molecular Microbiology, à finalité approfondie Standard 0 2
Master 120 en biologie des organismes et écologie, à finalité didactique Standard 0 2
Master 120 en biochimie et biologie moléculaire et cellulaire, à finalité didactique Standard 0 2
Master 120 en biologie des organismes et écologie, à finalité approfondie Standard 0 2
Master 120 en sciences biomédicales à finalité spécialisée en recherche préclinique Standard 0 2
Master 120 en sciences biomédicales à finalité spécialisée en recherche clinique Standard 0 2
Master 120 in Molecular Microbiology, à finalité approfondie Standard 1 2
Master 120 en biologie des organismes et écologie, à finalité approfondie Standard 1 2
Master 120 en biologie des organismes et écologie, à finalité didactique Standard 1 2
Master 120 en biochimie et biologie moléculaire et cellulaire, à finalité spécialisée Standard 2 2
Master 120 en biologie des organismes et écologie, à finalité didactique Standard 2 2
Master 120 en biochimie et biologie moléculaire et cellulaire, à finalité didactique Standard 2 2
Master 120 en biologie des organismes et écologie, à finalité approfondie Standard 2 2
Master 120 en sciences biomédicales à finalité spécialisée en recherche préclinique Standard 2 2
Master 120 en sciences biomédicales à finalité spécialisée en recherche clinique Standard 2 2
Master 120 en biochimie et biologie moléculaire et cellulaire, à finalité approfondie Standard 2 2