BEGIN:VCALENDAR METHOD:PUBLISH PRODID:www-biology-nat-fau-eu//Events//EN VERSION:2.0 BEGIN:VEVENT SUMMARY:Keynote Lecture: Illumination the plasma membrane (Prof. Dr. J ulien Gronnier) UID:040000008200E00074C5B7101A82E00800000000D0E6FAA33A9BDC010000000000 000000100000002AC4E2CD0FFE064E82F2397FF7106F0A DESCRIPTION:Abstract: The plasma membrane is a dynamic molecular patch work composed of billions of individual molecules and serves as a cent ral hub integrating endogenous and environmental signals. Our group qu estions how\, in space and time\, signaling events are regulated withi n the plasma membrane during plant development and immunity. We develo ped long-term single molecule imaging and computational solutions enab ling the quantitative analysis of dynamic changes in the motion of pla sma membrane proteins at the nanoscale. By analyzing the components of a minimal leucine-rich repeat receptor kinase network\, we uncovered the nanoscale spatial and temporal logic underlying the formation of r eceptor complexes. We showed that structural diverges in receptorsR 17\; membrane-associated domain define their diffusion within the plas ma membrane and condition receptor complex formation and signaling. We characterized structural components of the plasma membrane as inhibit ors of the plasma membrane H+-ATPases. This in turn modulates receptor kinase signaling and paces Arabidopsis root developmental transitions —\; a function we found conserved in the liverwort Marchantia po lymorpha and which such predates the emergence of the root system itse lf. Our studies highlight the roles of the plasma membrane in the regu lation and evolution of cell surface signaling. DTSTART:20260211T123000Z DTEND:20260211T133000Z LOCATION:Hörsaal C (PhD Day) DTSTAMP:20260416T191103Z END:VEVENT END:VCALENDAR