During the development of the fruit fly oocyte, flows with short-ranged correlations transition to a cell-spanning vortex, accompanied by coherent deformations in the microtubule cytoskeleton. This phenomenon is just one dramatic example of the many intracellular processes driven by the interactions between well aligned assemblies of slender filaments, the molecular motors that push, pull, or move along them, and the fluid that they are immersed within. While both the quantitative and qualitative behavior of such systems depends on the density of the filaments, simulations with biologically relevant filament densities are challenging, if not impossible. In this talk, I'll introduce a coarse-grained model for the hydrodynamics of ordered, immersed fibers, and show how we can use this model, along with simulations and experiments, to gain insight into the generation of system-spanning vortical flows in both the fruit-fly oocyte and confined artificial asters.
Join from PC, Mac, Linux, iOS or Android: https://simonsfoundation.zoom.us/j/98100148547?pwd=dTZ2Rms0bTIrcVI1cHl1bGRrRjROZz09
Passcode: 237743
Or Telephone:
Dial(for higher quality, dial a number based on your current location):
US: +1 646 558 8656 or +1 312 626 6799 or +1 301 715 8592 or +1 346 248 7799 or +1 669 900 6833 or +1 253 215 8782
Meeting ID: 981 0014 8547
Passcode: 237743
International numbers available: https://simonsfoundation.zoom.us/u/acTiTFZCmW
Or an H.323 room system:
162.255.36.11 (US East)
Meeting ID: 981 0014 8547
Passcode: 237743