Most bacteria live in a biofilm state to enhance their survival and propagation, ... B. L.T. (2013) The Extracellular Bastions of Bacteria — A Biofilm Way of Life. Nature Education Knowledge 4(2):2.

In nature as well as in our bodies, bacteria predominantly live as organized communities called biofilms. These structures ...

Bacteria collaborate and coordinate collectively as they form a shared structure called a biofilm, such as the dental plaque on our teeth or the microbiome associated with our gut. This self ...

Biofilms are conglomerates of bacteria and other organisms, which are feared in medicine as well as other areas because they can contain pathogens and are highly resistant to treatment. Chemists ...

To prevent colonization with bacterial biofilms, ... Inspired by nature: Silencing bacteria. ScienceDaily. Retrieved June 2, 2025 from www.sciencedaily.com / releases / 2022 / 10 / 221028180845.htm.

Bacteria detect when nearby cells are dying and proactively form a protective biofilm. Understanding how bacteria communicate and respond to threats is crucial for combating infections.

Dangerous bacterial biofilms have a natural enemy Discovery could help prevent infections Date: January 11, 2025 ... Nature Communications, 2024; 15 (1) DOI: 10.1038/s41467-024-54501-w; ...

Most bacteria spend much of their lives in multicellular communities called biofilms. Living in the biofilm allows bacteria to collectively acquire nutrients and resist threats, including antibiotics ...

Premier research journal article provides validation for BiomX’s phage therapy platform, showcasing first-in-human Phase ...

Bacteria love moist surfaces. Once they have settled there, they do not live as solitary organisms but form larger communities that are embedded in a protective film. These biofilms are found on ...

UC Riverside scientists have now discovered a chemical that plants produce when they're stressed prevents dangerous biofilm from forming. The breakthrough offers potential advances in ...

An innovative imaging technique developed at Carnegie Mellon University reveals, for the first time, single bacterial cells leaving their biofilm community. Watching the bacteria in real-time at high ...