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Enhanced propagation of motile bacteria on surfaces due to forward scattering

Author

Listed:
  • Stanislaw Makarchuk

    (University College London)

  • Vasco C. Braz

    (Universidade de Lisboa
    Universidade de Lisboa)

  • Nuno A. M. Araújo

    (Universidade de Lisboa
    Universidade de Lisboa)

  • Lena Ciric

    (University College London)

  • Giorgio Volpe

    (University College London)

Abstract

How motile bacteria move near a surface is a problem of fundamental biophysical interest and is key to the emergence of several phenomena of biological, ecological and medical relevance, including biofilm formation. Solid boundaries can strongly influence a cell’s propulsion mechanism, thus leading many flagellated bacteria to describe long circular trajectories stably entrapped by the surface. Experimental studies on near-surface bacterial motility have, however, neglected the fact that real environments have typical microstructures varying on the scale of the cells’ motion. Here, we show that micro-obstacles influence the propagation of peritrichously flagellated bacteria on a flat surface in a non-monotonic way. Instead of hindering it, an optimal, relatively low obstacle density can significantly enhance cells’ propagation on surfaces due to individual forward-scattering events. This finding provides insight on the emerging dynamics of chiral active matter in complex environments and inspires possible routes to control microbial ecology in natural habitats.

Suggested Citation

  • Stanislaw Makarchuk & Vasco C. Braz & Nuno A. M. Araújo & Lena Ciric & Giorgio Volpe, 2019. "Enhanced propagation of motile bacteria on surfaces due to forward scattering," Nature Communications, Nature, vol. 10(1), pages 1-12, December.
  • Handle: RePEc:nat:natcom:v:10:y:2019:i:1:d:10.1038_s41467-019-12010-1
    DOI: 10.1038/s41467-019-12010-1
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    Cited by:

    1. Christina Kurzthaler & Suvendu Mandal & Tapomoy Bhattacharjee & Hartmut Löwen & Sujit S. Datta & Howard A. Stone, 2021. "A geometric criterion for the optimal spreading of active polymers in porous media," Nature Communications, Nature, vol. 12(1), pages 1-10, December.

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