Fassberg Seminar - Special Date: Cell and tissue mechanics in zebrafish gastrulation
11:00 - 12:00
Institute of Science and Technology Austria, Klosterneuburg, Austria
Max-Planck-Institut für biophysikalische Chemie (MPIBPC)
Large Seminar Room
Prof. Dr. Stefan W. Hell
Tissue morphogenesis during embryonic development is brought about by mechanical forces, which are generated by the specific biophysical and motility properties of its constituent cells. It has also been suggested that embryonic tissues behave like immiscible liquids with a given surface tension and that differences in surface tension between tissues determine their spatial configuration during embryogenesis. To understand how single cell biophysical and motility properties regulate tissue surface tension and how tissue surface tension controls tissue organization in development, we are studying the specific function of germ layer progenitor cell adhesion, cell cortex tension and motility in determining germ layer organization during zebrafish gastrulation. I will discuss the results of our studies in the light of different hypotheses explaining how single cell biophysical properties determine tissue morphogenesis in development.