Meet the Mouth Bacterium That Builds 'Microscopic Rainforests' in Dental Plaque

September 3, 2024
Meet the Mouth Bacterium That Builds 'Microscopic Rainforests' in Dental Plaque
  • The human mouth hosts a diverse ecosystem of over 500 species of bacteria, organized into biofilms, making it one of the most complex microbial environments.

  • Recent research from the Marine Biological Laboratory and ADA Forsyth has focused on Corynebacterium matruchotii, a common mouth bacterium, to understand its role in the spatial organization of dental plaque.

  • The findings have broader implications for understanding microbial community organization beyond the oral microbiome and were published in the Proceedings of the National Academy of Sciences.

  • C. matruchotii exhibits a unique mode of reproduction known as multiple fission, allowing it to divide into up to 14 daughter cells simultaneously, which contributes to its rapid population growth.

  • Lacking flagella, C. matruchotii relies on its elongated growth and division strategies to explore its surroundings for nutrients, similar to how fungal mycelial networks operate.

  • The study describes microbial biofilms as 'microscopic rainforests' where bacteria interact and grow, with C. matruchotii's unique cell cycle facilitating dense networks within these biofilms.

  • This bacterium grows primarily through a process called 'tip extension,' where it elongates at one end before dividing, a strategy that enhances its competitive advantage in the dental plaque environment.

  • Time-lapse microscopy has shown that C. matruchotii grows significantly faster than closely related species, emphasizing its adaptability in the competitive habitat of dental plaque.

  • Co-author Jessica Mark Welch likens C. matruchotii in dental plaque to trees in a forest, highlighting its role in creating habitats for various other bacterial species.

  • Led by microbiologist Scott Chimileski, the research team observed the structural role of C. matruchotii in dental plaque, emphasizing its importance in maintaining the integrity of these complex microbial communities.

  • The research suggests that C. matruchotii's growth strategy allows it to outcompete other bacteria and form filamentous networks within dental plaque.

  • C. matruchotii colonies can grow up to half a millimeter per day, which explains the rapid return of dental plaque even after regular brushing.

Summary based on 5 sources


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