The biofilm is an adaptation for stabilizing the local environment of bacteria against stresses that is flexible and can be easily changed depending on conditions. For this reason, the EPS matrix ...

One of the remarkable features of biofilms, shared with eukaryotic tissues, is that bacteria embed themselves in the ...

Biofilm occurs when a cluster of bacteria or fungi generates a slimy matrix of "extracellular polymeric substances" to ...

A biofilm is composed of attached microbial cells encased within a matrix of extracellular polymeric secretions (EPS), which surround and protect cells. The EPS matrix is typically composed of ...

Biofilms are well-structured communities of bacteria enclosed in a self-produced matrix, usually adhered to a surface but can also assemble in floating aggregations. The most crucial difference ...

Such findings suggest that the use of microfluidic cells to dynamically culture biofilms be a more suitable method for reducing the matrix effect arisen from the growth medium and minerals as a ...

Bacteria often live in biofilms, which are microbial communities surrounded by a secreted extracellular matrix. Here, we demonstrate that hydrodynamic flow and matrix organization interact to shape ...

Biofilms are structured communities of microbes, complex in their interactions and protected by a self-produced extracellular matrix, which allows them to thrive on various surfaces. In healthcare ...

Understanding biofilms and their impact Biofilms are micro-organism communities that bind to surfaces and protect themselves through a “sticky matrix,” which renders them extremely resistant to ...

A biofilm develops when the attached cells excrete polymers that facilitate adhesion, matrix formation, and alteration of the organism's phenotype with respect to growth rate and gene transcription.

Researchers take the guesswork out of infection detection by training dogs to recognize the scent of bacterial biofilm ...