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Cell shape affects bacterial colony growth under physical confinement

M Sreepadmanabh, Meenakshi Ganesh, Pratibha Sanjenbam, Christina Kurzthaler, Deepa Agashe and Tapomoy Bhattacharjee ()
Additional contact information
M Sreepadmanabh: Tata Institute of Fundamental Research
Meenakshi Ganesh: Tata Institute of Fundamental Research
Pratibha Sanjenbam: Tata Institute of Fundamental Research
Christina Kurzthaler: Max Planck Institute for the Physics of Complex Systems
Deepa Agashe: Tata Institute of Fundamental Research
Tapomoy Bhattacharjee: Tata Institute of Fundamental Research

Nature Communications, 2024, vol. 15, issue 1, 1-13

Abstract: Abstract Evidence from homogeneous liquid or flat-plate cultures indicates that biochemical cues are the primary modes of bacterial interaction with their microenvironment. However, these systems fail to capture the effect of physical confinement on bacteria in their natural habitats. Bacterial niches like the pores of soil, mucus, and infected tissues are disordered microenvironments with material properties defined by their internal pore sizes and shear moduli. Here, we use three-dimensional matrices that match the viscoelastic properties of gut mucus to test how altering the physical properties of their microenvironment influences the growth of bacteria under confinement. We find that low aspect ratio (spherical) bacteria form compact, spherical colonies under confinement while high aspect ratio (rod-shaped) bacteria push their progenies further outwards to create elongated colonies with a higher surface area, enabling increased access to nutrients. As a result, the population growth of high aspect ratio bacteria is, under the tested conditions, more robust to increased physical confinement compared to that of low aspect ratio bacteria. Thus, our experimental evidence supports that environmental physical constraints can play a selective role in bacterial growth based on cell shape.

Date: 2024
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DOI: 10.1038/s41467-024-53989-6

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