Issue 34, 2023

Anomalous diffusion of E. coli under microfluidic confinement and chemical gradient

Abstract

We report a two-layer microfluidic device to study the combined effect of confinement and chemical gradient on the motility of wild-type E. coli. We track individual E. coli in 50 μm and 10 μm wide microchannels, with a channel height of 2 μm, to generate quasi-2D conditions. We find that contrary to expectations, bacterial trajectories are superdiffusive even in the absence of a chemical (glucose) gradient. The superdiffusive behaviour becomes more pronounced upon introducing a chemical gradient or strengthening the lateral confinement. Run length distributions for weak lateral confinement in the absence of chemical gradients follow an exponential distribution. Both confinement and chemoattraction induce deviations from this behaviour, with the run length distributions approaching a power-law form under these conditions. Both confinement and chemoattraction suppress large-angle tumbles as well. Our results suggest that wild-type E. coli modulates both its runs and tumbles in a similar manner under physical confinement and chemical gradient. Our findings have implications for understanding how bacteria modulate their motility behaviour in natural habitats.

Graphical abstract: Anomalous diffusion of E. coli under microfluidic confinement and chemical gradient

Supplementary files

Article information

Article type
Paper
Submitted
06 Mar 2023
Accepted
08 Aug 2023
First published
11 Aug 2023

Soft Matter, 2023,19, 6446-6457

Anomalous diffusion of E. coli under microfluidic confinement and chemical gradient

M. R. Raza, J. E. George, S. Kumari, M. K. Mitra and D. Paul, Soft Matter, 2023, 19, 6446 DOI: 10.1039/D3SM00286A

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