Bacterial cells growing in biofilms are physiologically distinct from free-swimming planktonic cells. For example, differences have been shown in motility, polysaccharide production, antibiotic ...

Biofilms, ubiquitous bacterial communities embedded in a slimy matrix, are the oldest form of multicellularity on Earth; they ...

Nanobacteria have been at the center of a major scientific controversy in recent years owing to claims that they represent not only the smallest living microorganisms on earth but also new ...

Microplastics provide an excellent bacterial breeding ground that may be contributing to the growing problem of ...

Here, Tanmay speaks to science journalist Geoff Marsh about his award-winning work on Pseudomonas aeruginosa and its peculiar extracellular matrix in biofilms. The Q&A is an edited version of the ...

Hungarian researchers have discovered unique bacterial communities in thermal waters that may help unravel the development of ...

Biofilms, ubiquitous bacterial communities embedded in a slimy matrix, are the oldest form of multicellularity on earth; they are extremely resistant to antibiotics and stick tenaciously to most ...

To put that in perspective, the Earth is thought to be about 4.5 billion years old, which means these "rocks"—really ...

Patagonia’s ‘living rocks’ hold ancient bacterial biofilms, offering insights into early life and potential bioengineering ...

Bacterial Space Biofilms (1st flight): Launched on November, 2019 (NG-12). Returned to Earth on January 2020 (SpaceX-19) Fungal Space Biofilms (2nd flight): Launched on February, 2022 (NG-17).

Researchers have looked into the behavior of Listeria monocytogenes related to biofilms and how they support the persistence of the pathogen in food processing environments. A study led by the ...

“Microplastics are like rafts — a bacteria on its own might not be able to swim down a river, but riding in its biofilm on a tiny bit of plastic it can be disseminated into many different ...