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MEMS Seminar: Instability and Oscillations in Cilia and Flagella

Sep 22

Wednesday, September 22, 2021 - 12:00pm to 1:00pm

Fitzpatrick Center Schiciano Auditorium Side B, room 1466

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Philip Bayly

Presenter

Distinguished Professor Philip Bayly

MEMS Fall 2021 Seminar Series Presents Distinguished Professor Philip Bayly of Washington University in St. Louis Title: Instability and Oscillations in Cilia and Flagella Hybrid Event: Location- Fitzpatrick Schiciano-B1466 ZOOM: https://duke.zoom.us/j/93538972346 Cilia and flagella are slender organelles that beat rhythmically to move fluid (in human airways, for example) or to propel cells (such as swimming algae or motile sperm). Despite their ubiquity and importance, the mechanism that produces the autonomous, propulsive oscillations of cilia and flagella remains mysterious. The common cytoskeletal structure of these organelles is the "9+2" axoneme, which comprises nine outer doublet microtubules and a central pair of micro tubules, all connected by radial spokes and circumferential links. Motion is driven by molecules of the motor protein dynein, which form cross-bridges between pairs of micro-tubule doublets, exerting active forces on each doublet. Since dynein activity on opposite sides of the axoneme produces opposing (antagonistic) bending moments, it is widely believed that dynein activity must be dynamically regulated (switched or modulated) to produce oscillatory waveforms. This concept has been explored in a number of theoretical studies.

Contact

Cathy Tate
cathy.tate@duke.edu