High-resolution, long-term characterization of bacterial motility using optical tweezers

Authors

Patrick J Mears, Taejin L Min, Lon M Chubiz, Christopher V Rao, Ido Golding, Yann R Chemla, University of Illinois at Urbana-Champaign

Abstract

We present a single-cell motility assay, which allows the quantification of bacterial swimming in a well-controlled environment, for durations of up to an hour and with a temporal resolution greater than the flagellar rotation rates of approximately 100 Hz. The assay is based on an instrument combing optical tweezers, light and fluorescence microscopy, and a microfluidic chamber. Using this device we characterized the long-term statistics of the run-tumble time series in individual Escherichia coli cells. We also quantified higher-order features of bacterial swimming, such as changes in velocity and reversals of swimming direction. Additionally, we investigated the effects of flagella number on swimming parameters including speed and tumble frequency.

Back to APS March Meeting 2010 Focus Session on Physics of Behavior -- From Molecules to Organisms.