Host: Michael Schlierf (B CUBE)
Title: “Dissecting the molecular driving forces of life with si ngle-molecule resolution”
Abstract: Proteins ar e the molecular makers in our body. Researchers successfully identified a vast proteome\, a dense web of metabolic interactions\, and many thousands of static 3D structures. But the essential dynamic processes causing prot ein function are still challenging to detect – yet they are the key to t he energetics controlling life at the nanoscale. We therefore focus on acq uiring time-resolved information to reveal the nano-dynamics of biomolecul ar systems\, such as cancer-assisting chaperone\, kinase proteins\, and CR ISPR-associated proteins.
In this talk\, I will present our latest results from optical and electrical single-molecule experiments. FRET all ows us to watch single proteins at work in real time [1\,2\,3]\, and with our DyeCycling approach [4]\, we can now overcome its infamous photobleach ing limitation and detect previously hidden kinetic phenomena. In addition \, we recently presented the NEOtrap 2.0\, a label-free technique to monit or the time evolution of single unmodified proteins electrically\, using n anopores [5\,6]. Lastly\, I will share how we revealed the hidden power of type-III CRISPR-Cas – one-by-one. Our overarching mission is to push be yond current detection limits\, to learn how biomolecular function arises at the nanoscale.
DTSTAMP:20260408T132356Z CREATED:20230907T053958Z LAST-MODIFIED:20230921T053558Z END:VEVENT END:VCALENDAR