Job opportunities
Pattern formation by self-organized cell movement
The selected candidate will receive training in the following areas: molecular biology, cell biology, Xenopus micro-injection and micro-surgery, fluorescent confocal microscopy, video-microscopy, numerical image analysis.
Linking location and action: mechanisms of Hox protein motif usage
The project aims at uncovering the molecular and cellular bases for Ubx and AbdA distinct motif usage.
Study of the epithelial connectivity during the intestinal development
The master project (M2) aims at characterizing the epithelial connectivity and collective behavior of the intestinal differentiated domain in homeostatic conditions or under challenging contexts.
Identifying sexually dimorphic genes controlled by inter-allelic interactions
During the Master’s project (M1 or M2), the student will use some of the techniques used in the laboratory to quantitatively interrogate the structure-function relationship underlying interallelic interactions.
Sensing mechanical forces during epithelial remodeling in the Placozoan Trichoplax adhaerens
The M1 student will learn micromanipulation, live confocal imaging, immunofluorescence and quantitative modelling techniques.
Modulation of fibrogenesis and adipogenesis during skeletal muscle regeneration
During this master project (M2) the student will apply the above method to obtain proof of principle that targeting selected candidate genes can efficiently induce or suppress intramuscular adipose tissue formation.