Job opportunities
The control of fat metabolism by oppositely acting transcription factors
The M2 project will use state-of-the-art genomics profiling techniques, Drosophila genetics, imaging and molecular biology for studying the antagonistic transcriptional control and dysfunction of fat body lipid metabolism development.
Investigating the mechanobiology of self-organisation in human iPSC-derived skeletal muscles
The successful completion of the project will allow you to answer how mechanical tension is generated inside human myofibers by integrating intracellular molecular forces and extracellular mechanical environment.
The Transcriptional Regulation of Muscle Development by Hox Transcription Factors
The M2 project will use state-of-the-art genomics profiling techniques, Drosophila genetics, imaging and molecular biology for studying muscle development.
Neuropeptide control of epithelial dynamics in the simple animal Trichoplax adhaerens
Applicants should be interested in the quantitative aspects of cell biology, with a particular focus on marine organisms.
Investigating the mechanobiology of self-organisation in human iPSC-derived skeletal muscles
Project title: Investigating the mechanobiology of self-organisation in human iPSC-derived skeletal muscles Type of rotation: M1 (2 months) or M2 (6 months) Supervisors: Qiyan MAO
Regulation of tumor cell hierarchy by microRNAs
