Cell-cell and Cell-noise Interactions of Bacterial Cells in a Shallow Circular Pool and Transitions of Collective Motions

Abstract

We have experimentally investigated the transitions of collective motions of bacterial cells in a shallow circular pool using the bacterial species Bacillus subtilis. In our previous paper, we reported that the collective motions were classified into six phases on a phase diagram with two parameters, namely, the reduced cell length λ and the cell density . In this study, we focused on the sharp transitions at λ0.1 ( λ C1) with low values of between the random motion phase and the one-way rotational motion phase. By introducing the order parameter Q which measures the aligned cell motion along the circumferential direction of a pool, the transitions at λ=λ C1 were clearly characterized. On the basis of the detailed observations of single-cell trajectories in a pool, we verified that the effect of cell-noise interactions was widely distributed. We conclude that, even in such random environment, the sharp transitions of collective motions were caused by the cell-cell interactions at λ=λ C1.