Force production and force sensing during clathrin-mediated endocytosis
Clathrin-mediated endocytosis (CME) consists of the formation of a vesicle out of a flat membrane in eukaryotes. When membrane tension and/or turgor pressure are high, actin dynamics is required to produce the forces required to invaginate the membrane and pinch it off into a vesicle. However, how the actin meshwork produces forces at the molecular level has remained elusive, because endocytic structures are intrinsically transient, out of equilibrium, and diffraction limited. In this seminar, I will present results from mathematical modeling and experiments in yeast demonstrating that actin polymerization alone cannot produce sufficient force to invaginate the plasma membrane. I will also present new force production mechanisms by the actin meshwork that are not exclusively based on polymerization, and are relevant to other subcellular processes involving actin and membranes.
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Yale University, USA