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Tilt-induced polar order and topological defects in growing bacterial populations

Takuro Shimaya, Kazumasa A. Takeuchi

2022PNAS Nexus16 citationsDOIOpen Access PDF

Abstract

Abstract Rod-shaped bacteria, such as Escherichia coli, commonly live forming mounded colonies. They initially grow two-dimensionally on a surface and finally achieve three-dimensional growth. While it was recently reported that three-dimensional growth is promoted by topological defects of winding number +1/2 in populations of motile bacteria, how cellular alignment plays a role in nonmotile cases is largely unknown. Here, we investigate the relevance of topological defects in colony formation processes of nonmotile E. coli populations, and found that both ±1/2 topological defects contribute to the three-dimensional growth. Analyzing the cell flow in the bottom layer of the colony, we observe that +1/2 defects attract cells and −1/2 defects repel cells, in agreement with previous studies on motile cells, in the initial stage of the colony growth. However, later, cells gradually flow toward −1/2 defects as well, exhibiting a sharp contrast to the existing knowledge. By investigating three-dimensional cell orientations by confocal microscopy, we find that vertical tilting of cells is promoted near the defects. Crucially, this leads to the emergence of a polar order in the otherwise nematic two-dimensional cell orientation. We extend the theory of active nematics by incorporating this polar order and the vertical tilting, which successfully explains the influx toward −1/2 defects in terms of a polarity-induced force. Our work reveals that three-dimensional cell orientations may result in qualitative changes in properties of active nematics, especially those of topological defects, which may be generically relevant in active matter systems driven by cellular growth instead of self-propulsion.

Topics & Concepts

Topological defectActive matterTopology (electrical circuits)PolarOrder (exchange)MotilityPolarity (international relations)Cell polarityBiophysicsBiologyCellPhysicsCell biologyCondensed matter physicsMathematicsFinanceGeneticsAstronomyCombinatoricsEconomicsMicro and Nano RoboticsBacterial biofilms and quorum sensingPhotoreceptor and optogenetics research
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