Microbiologists have long adopted the language of human settlement to describe how bacteria live and grow: They "invade" and "colonize." Relations dwelling in close proximity are "colonies." By ...

In an opinion piece published in Microbiology Australia, a James Cook University team led by Dr. Yaoqin Hong recently ...

Bacteria harness the power of communities. A research group at the University of Basel, Switzerland, has now discovered that the bacterial pathogen that causes cholera forms a novel type of bacterial ...

Many bacteria form an antibiotic-resistant slime. Research detailing that slime's structure could help lead to new treatments. Many bacteria form an antibiotic-resistant slime. Research detailing that ...

Biofilms form when bacterial cells gather and develop structures that bond them in a gooey substance. This glue can protect the cells from the outside world and allow them to form complex ...

Individual bacterial cells don't have much power on their own, but like other organisms, there is strength in numbers for microbes. Communities of bacterial cells are called biofilms, and these slimy, ...

New research assessed bacterial and fungal biofilms, tenacious microbial communities that are tougher than small groups or individual microbes. Biofilms take on new characteristics; they can act in a ...

Biophysicists have taken a systematic look into how bacterial biofilms are affected by fluid flow. The findings can give us clues about the physical rules guiding biofilm architecture, but also about ...

Biofilm, which is a cluster of pathogens encased in a protective matrix, is a common enemy across diverse food manufacturing industries. From dairy, produce, meat, poultry, ready-to-eat deli foods and ...