Sort by
Refine Your Search
-
Listed
-
Employer
- CNRS
- Nature Careers
- Université Savoie Mont Blanc
- CIML2000
- Institut Pasteur
- AIix-Marseille University/A*MIDEX
- Ecole Centrale de Lyon
- Grenoble INP - Institute of Engineering
- IMoST - UMR INSERM 1240
- INSERM
- Institut Curie - Research Center
- Nantes Université
- Paris Cardiovascular Research Center, Inserm U970
- Télécom Paris
- UNIVERSITE ANGERS
- UNIVERSITE D'ORLEANS
- University of Tours
- Université Marie et Louis Pasteur
- Université côte d'azur
- 9 more »
- « less
-
Field
-
various disciplines: computer scientists, mathematicians, biologists, chemists, engineers, physicists and clinicians from more than 50 countries currently work at the LCSB. We excel because we are truly
-
they influence health and disease. We rely on preclinical models and clinical studies to explore the role and functions of innate T cells in tissue at steady-state and under pathophysiological situations. We
-
resistance to current T cell–targeted immunotherapies. In particular, exploiting NK cells in cancer patients offers the dual advantage of directly eliminating tumor cells and contributing to a coordinated
-
boson in 2012, the question of what lies beyond the Standard Model (SM) of strong and electroweak interactions has become the primary target of the LHC physics program. With no clear signal observed so
-
to develop a new generation of fluorescence microscopy methods aimed at overcoming current limitations in acquisition time for single-molecule imaging. The project explores original strategies for temporal
-
micrometeorological models and observations with qualitative indicators derived from the perceptions of citizens who cycle as part of field experiments. Individual indicators from cyclists will be collected to assess
-
responsible for a research project aimed at understanding how macrophages and their tissue niches influence homeostasis and tissue repair in vivo, using original and innovative models. The position is based
-
transition metals and protein-based radicals [1]. Our bioinspired artificial catalysts are being conceived and characterized as in vitro tunable model systems for understanding better the molecular
-
, the deadliest malaria parasite, is responsible for malaria pathogenicity. Unlike model organisms, Plasmodium divides in unconventional ways producing not two but up to tens of thousands of daughter cells, in a
-
, which currently comprises five permanent staff (PR, CR, MC and IR) and three non-permanent staff (IE, PhD students). He/she will work on a daily basis with two members of the team leading the development