Abstract
We present experimental data on the nematic alignment of Escherichia coli bacteria confined in a slit, with an emphasis on the effect of growth rate and corresponding changes in cell aspect ratio. Global alignment with the channel walls arises from the combination of local nematic ordering of nearby cells, induced by cell division and the elongated shape of the cells, and the preferential orientation of cells proximate to the side walls of the slit. Decreasing the growth rate leads to a decrease in alignment with the walls, which is attributed primarily to effects of changing cell aspect ratio rather than changes in the variance in cell area. Decreasing confinement also reduces the degree of alignment by a similar amount as a decrease in the growth rate, but the distribution of the degree of alignment differs. The onset of alignment with the channel walls is coincident with the slits reaching their steady-state occupancy and connected to the re-orientation of locally aligned regions with respect to the walls during density fluctuations.
Highlights
Bacteria are rod-like organisms, and their spatial orientation provides an ideal opportunity to connect topics in statistical physics to microbiology
We focus here on how the steady-state alignment of the bacteria with the channel walls changes as we either increase the slit size or decrease the growth rate
We have examined the effect of growth rate on alignment of bacteria in a slit channel, building on previous work [9,11,19] on the role of confinement on ordering of bacteria
Summary
Bacteria are rod-like organisms, and their spatial orientation provides an ideal opportunity to connect topics in statistical physics to microbiology. When a suspension of rods reaches a critical density, it undergoes an isotropic to nematic phase transition [1,2], a phenomenon that finds widespread application in the physics of liquid crystals [3]. The phase behaviour changes markedly when such systems are confined [4,5]. Bacteria exhibit nematic alignment, both when growing in a colony [6,7,8].
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