Recherche

Sélection actuelle :6 groupes de recherche

Charlotte AUMEIER

Recherche en biologie marine, biologie cellulaire et biologie moléculaire

Marcos GONZÁLEZ GAITÁN

We want to understand in physical and molecular terms how cells talk to each other during development. This means our research is highly interdisciplinary: physics, cell biology, molecular biology, biochemistry, genetics... Indeed some of us in the lab are biologists, other physicists, chemists, engineers.

We are interested in the signaling events that control tissue growth: how is the shape and final size of a tissue achieved during embryogenesis?

We focus on two types of proliferation modes: growth control by morphogen gradients and asymmetric cell division in stem cells. We do this using two model systems: Drosophila and Zebrafish.

Marko KAKSONEN

We study the molecular mechanisms of membrane traffic, especially clathrin-mediated endocytosis. We aim to understand the assembly, function and regulation of the complex molecular machineries that drive the formation of endocytic vesicles. Our main experimental organism is budding yeast. We use a combination of quantitative live-cell imaging, electron microscopy, genetics, biochemistry and structural biology.

Karsten KRUSE

We study the formation of spatial and temporal structures in individual biological cells and cells assemblies. The focus of our work is on theoretical descriptions of cytoskeletal dynamics. The cytoskeleton is a network of filamentous proteins, which is kept permanently out of thermodynamic equilibrium. It enables cells to divide, determines their shape and plays an important role in cell locomotion. In our descriptions, we rely heavily on concepts from non-linear dynamics and from non-equilibrium statistical mechanics.

Aurelien ROUX

Mon groupe de recherche vise à mieux comprendre comment la mécanique des membranes lipidiques peut influencer la vie des cellules. L'enveloppe des cellules vivantes est faite d'une bicouche lipidique dont l'imperméabilité et la déformabilité assurent les changements de forme des cellules tout en gardant son contenu spécifique. Nous sommes intéressés à comprendre comment les propriétés mécaniques des membranes peuvent contraindre plusieurs processus cellulaires à l'échelle moléculaire, cellulaire et multi-cellulaire. En particulier, nous nous sommes concentrés sur la façon dont la tension de la membrane et sa rigidité influencent le trafic intracellulaire (en particulier l'endocytose et le trafic Golgien) et la division cellulaire (en particulier la cytocinèse). Nous avons récemment commencé à nous intéresser aux systèmes multi-cellulaires, en particulier les épithéliums, où il a été proposé que la tension de la membrane joue un rôle dans la réorganisation des cellules lors de la morphogenèse des organes.

Thierry SOLDATI

The major aim of my group is to understand the integration of signalling, cytoskeleton and membrane trafficking in phagocytosis and its relevance to host-pathogen interactions. To this end, we use the social amoeba Dictyostelium as a model organism as it is a is genetically and biochemically tractable professional phagocyte very similar to phagocytes of the innate immune system in morphology and behaviour.