
Systems biology [100]


GenEvo
Thomas Bourgeron

Marine Lénon
Stress adaptation and metabolism in enterobacteria

FunHoMic MC-ITN: Deciphering the fungus-host-microbiota interplay to improve the management of fungal infections
Christophe D’Enfert

BACNET : A Java platform to create “multi-omics” website.
Christophe Becavin
Intermuse
Pierre Legrain

François Bertaux
InBio: Experimental and Computational Methods for Modeling Cellular Processes
I am an engineer and mathematician by background, now a quantitative biologist. I find living systems fascinating to study and I believe that their engineering has the potential to transform our health and reduce […]

Comprehensive characterization and effective combinatorial targeting of high-grade serous ovarian cancer via single-cell analysis (HERCULES)
Benno Schwikowski

Anđela Davidović
Bioinformatics and Biostatistics HUB

Violaine Saint-André
Translational Immunology
After graduating from Paris VI University with a PhD in Genetics on the “Role of histone protein post-translational modifications in splicing regulation” that I performed in the Epigenetic Regulation unit at the Institut Pasteur, […]

Charles Baroud
Physical Microfluidics and Bioengineering
Starting from a background in physical sciences, I have become interested in developing new experimental and conceptual approaches to biological systems. As such my research combines technological developments with fundamental scientific explorations in the […]

Design for Biology
Deshmukh Gopaul

Listeriomics: an Interactive Web Platform for Systems Biology of Listeria
Christophe Becavin

Numerical methods for network analysis
Christian L. Vestergaard

Sebastián Sosa Carrillo
InBio: Experimental and Computational Methods for Modeling Cellular Processes
I am a PhD candidate at the InBio research group. In 2015 I obtained a bachelor’s degree in Biotechnology at the University of València (Spain), and in 2018 a master (M1 and M2) degree […]

Virgile Andreani
Physicist and computer scientist by training, I develop quantitative population models of antibiotic resistance, which I calibrate using optimal experimental design. I then exploit them to engineer optimal treatment strategies.