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Dynamics of bacterial population growth in biofilms resemble spatial and structural aspects of urbanization

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  • Amauri J. Paula

    (Solid-Biological Interface Group (SolBIN), Department of Physics, Universidade Federal do Ceará, P.O. Box 6030
    Biofilm Research Labs, Levy Center for Oral Health, Department of Orthodontics, Divisions of Pediatric Dentistry and Community Oral Health, School of Dental Medicine, University of Pennsylvania)

  • Geelsu Hwang

    (Biofilm Research Labs, Levy Center for Oral Health, Department of Orthodontics, Divisions of Pediatric Dentistry and Community Oral Health, School of Dental Medicine, University of Pennsylvania
    Department of Preventive and Restorative Sciences, School of Dental Medicine, University of Pennsylvania
    Center for Innovation & Precision Dentistry, School of Dental Medicine, University of Pennsylvania)

  • Hyun Koo

    (Biofilm Research Labs, Levy Center for Oral Health, Department of Orthodontics, Divisions of Pediatric Dentistry and Community Oral Health, School of Dental Medicine, University of Pennsylvania
    Center for Innovation & Precision Dentistry, School of Dental Medicine, University of Pennsylvania)

Abstract

Biofilms develop from bacteria bound on surfaces that grow into structured communities (microcolonies). Although surface topography is known to affect bacterial colonization, how multiple individual settlers develop into microcolonies simultaneously remains underexplored. Here, we use multiscale population-growth and 3D-morphometric analyses to assess the spatiotemporal development of hundreds of bacterial colonizers towards submillimeter-scale microcolony communities. Using an oral bacterium (Streptococcus mutans), we find that microbial cells settle on the surface randomly under sucrose-rich conditions, regardless of surface topography. However, only a subset of colonizers display clustering behavior and growth following a power law. These active colonizers expand three-dimensionally by amalgamating neighboring bacteria into densely populated microcolonies. Clustering and microcolony assembly are dependent on exopolysaccharides, while population growth dynamics and spatial structure are affected by cooperative or antagonistic microbes. Our work suggests that biofilm assembly resembles certain spatial-structural features of urbanization, where population growth and expansion can be influenced by type of settlers, neighboring cells, and further community merging and scaffolding occurring at various scales.

Suggested Citation

  • Amauri J. Paula & Geelsu Hwang & Hyun Koo, 2020. "Dynamics of bacterial population growth in biofilms resemble spatial and structural aspects of urbanization," Nature Communications, Nature, vol. 11(1), pages 1-14, December.
    • Handle: RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-15165-4
    DOI: 10.1038/s41467-020-15165-4
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    Cited by:

    1. Vonihanitriniaina Andriamanantena R. & Mikyeong Kim & Mooyoung Han, 2021. "Effect of Visible Light on Surface-Attached and Suspended Heterotrophic Bacteria in a Typical Household Rainwater Harvesting Tank," Sustainability, MDPI, vol. 13(10), pages 1-12, May.
    2. Andreu-Vilarroig, Carlos & Cortés, Juan-Carlos & Pérez, Cristina-Luisovna & Villanueva, Rafael-Jacinto, 2023. "A random spatio-temporal model for the dynamics of Candida Auris in Intensive Care Units with regular cleaning," Physica A: Statistical Mechanics and its Applications, Elsevier, vol. 630(C).
    3. Hunyong Cho & Zhi Ren & Kimon Divaris & Jeffrey Roach & Bridget M. Lin & Chuwen Liu & M. Andrea Azcarate-Peril & Miguel A. Simancas-Pallares & Poojan Shrestha & Alena Orlenko & Jeannie Ginnis & Kari E, 2023. "Selenomonas sputigena acts as a pathobiont mediating spatial structure and biofilm virulence in early childhood caries," Nature Communications, Nature, vol. 14(1), pages 1-19, December.

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