Physics Department - How a micro-corkscrew swims without external torque

Physics Department - How a micro-corkscrew swims without external torque
10:30am - 12:00pm
Room 4502, Academic Building, HKUST (Lifts 25-26)

Abstract

Eukaryotic microswimmer Trypanosoma Brucei is a unicellular eukaryotic parasite that causes sleeping sickness in cattle and humans, impairing the economy and public health of sub-Sahara Africa. During its life cycle, Trypanosoma navigates through complex and distinct environments, ranging from the narrow gut of tsetse flies to the crowded blood vessels of mammals. Due to its rapid motion and complex body deformation, conventional optical microscopy failed to provide enough information to fully reveal the dynamics in 3D, leaving the exact swimming mechanism in debate.



In this talk, I will show our recent experimental and simulation results which unveil surprising features of their swimming behavior. By tracking the three-dimensional trajectories of fluorescent particles attached to the cell surface, we find that T. brucei propagates a rapid right-handed helical wave along the flagellum to generate thrust like a corkscrew. The cell body, laterally attached along the flagellum, counter-rotates at a lower frequency due to reactive torque, and traces out a left-handed helical path as the cell swims forward. The observed flower-like tracer trajectories result from the superposition of these coupled motions under torque-free constraints. Simulations using the regularized Stokeslets method reproduce the observed dynamics and reveal an optimal body bending angle that enhances forward motion with reduced rotation. These findings uncover a distinct mode of eukaryotic flagellar motility and rebuild the foundation for understanding T. brucei navigation in vivo and inspire new designs of biomimicking actuators.



The work has recently been published in PNAS: www.pnas.org/doi/10.1073/pnas.2536746123

Speakers / Performers:
Prof. Shuang Zhou
University of Massachusetts, Amherst

Shuang Zhou is currently an Assistant Professor at the Physics Department of University of Massachusetts, Amherst. His primary research interests include the properties of novel lyotropic liquid crystal materials, active matter, and the dynamics of microorganisms. He received his B.S. degree in Applied Physics from Xi'an Jiaotong University (China) and holds a Ph.D. in Chemical Physics from Kent State University (Ohio, USA). After his Ph.D., he did postdoc research at Harvard University (MA, USA), working on hydrogels. Prior to academia, he worked as an LCD design and development engineer in China. He has received several awards, including the NSF CAREER Award and the Glenn H. Brown Prize from the International Liquid Crystal Society.

適合對象
Faculty and staff, PG students
語言
英文
主辦單位
物理學系
Contact
Science & Technology