Veranstaltungseinladung als pdf-Download (https://tu-dresden.de/m n/physik/ressourcen/dateien/physikalisches-kolloquium/Plakat_Physikpreis_2 021.pdf).
Programm:
The me chanical design of cells and tissues
Gijsje Koenderink\, Department of Bionanoscience\, Kavli Institute of Nanoscience Delft\, Delf t University of Technology
Cells and tissues are highly dynamic bu t at the same time need to withstand large mechanical loads. This paradoxi cal mechanical behavior is governed by fibrous protein scaffolds known as the cytoskeleton and the extracellular matrix. Fibrous networks have many advantageous mechanical properties: fibers can form space-filling elastic networks at low volume fractions and they reversibly stress-stiffen\, whic h provides protection from damage. However\, it is still poorly understood how biopolymer networks can combine these features with the ability to dy namically adapt their structure and mechanics. This question has guided ou r research over the past years. I will provide an overview of the most imp ortant things we have learned by performing quantitative measurements on r econstituted cytoskeletal and extracellular matrix networks. We perform th ese measurements from the macroscopic scale (using rheology) all the way d own to the molecular scale (using optical tweezers\, in situ small-angle-X -ray scattering\, and atomic force microscopy). I will furthermore mention connections to applications in bottom-up synthetic biology and for tissue (re)generation.
DTSTAMP:20260507T090611Z CREATED:20210623T221002Z LAST-MODIFIED:20210705T220716Z END:VEVENT END:VCALENDAR