Rigid Body Dynamics of Motile Bacteria Near Surfaces

ORAL

Abstract

Motile bacteria in their natural environment commonly interact with surfaces. Using total internal reflection fluorescence microscopy, we record the trajectories of Escherichia coli cells swimming near surfaces. By fitting ellipsoids to the fluorescent intensity profiles of the bacteria via a novel method, we extract their translational and rotational dynamics. We present results from our analysis for experiments with both wild-type and smooth-swimming E. coli strains.

*National Science Foundation grant DMS-1720323 and Trinity University.

Presenters

  • Orrin Shindell

    • Department of Physics & Astronomy, Trinity University
    • Department of Physics and Astronomy, Trinity University
    • Trinity University
    • Physics and Astronomy, Trinity University

Authors

  • Orrin Shindell

    • Department of Physics & Astronomy, Trinity University
    • Department of Physics and Astronomy, Trinity University
    • Trinity University
    • Physics and Astronomy, Trinity University

  • Keaton Holt

    • Department of Physics & Astronomy, Trinity University

  • Quan Hoang

    • Department of Mathematics, Vietnam National University

  • Nam Dung Hoang

    • Department of Mathematics, Vietnam National University

  • Frank Healy

    • Department of Biology, Trinity University

  • Hoa Nguyen

    • Department of Mathematics, Trinity University
    • Trinity University