-
group investigates the cellular and molecular mechanisms wiring neuronal networks. The candidate will join a project aiming at understanding how migrating neurons, developing axons and endothelial cells
-
the nucleus in large cells. To do this, we are using the Drosophila oocyte, a large polarised cell. The aim of this thesis project is to functionally characterise the microtubule networks that anchor
-
to study the molecular and cellular mechanisms involved in brain activity. The Institute develops innovative methods in imaging, chemistry, physiology and computer science. As part of Bordeaux Neurocampus
-
, located within the Institute of Molecular and Cellular Biology (IBMC), studies the mechanisms of virus replication and assembly using advanced RNA biology techniques. Dr. Smyth's team focuses
-
-bioproductions.fr/eng/funded-projects/biomass-characte… ). The aim of this scientific project is to reconstruct new materials similar to the natural structure of plant cell walls from co-products and residues from
-
single-cell level in the moss Physcomitrium patens. The project will combine cutting-edge approaches in developmental genetics, live imaging, and single-cell genomics. Research environment : The RDP
-
du Développement de Villefranche (LBDV) and have long been interested in cell cycle regulation, oocyte biology, and early embryogenesis in ascidians (Castagnetti team) and cnidarians (Houliston team
-
interacts sequentially with at least two structures of the host envelope: a conjugative pilus and the Tol system involved in membrane integrity and cell division. However, it is unclear how fd binds
-
to lung inflammation and fibrosis. The student will combine structural biology, protein biochemistry, cell biology, and immunology to assess how these processes influence immune signaling proteins and their
-
PhD project aims to develop novel engineered proteins with tailored cell-recognition and activity profiles, using a combination of: Computational protein design to reprogram receptor recognition and