This artistic rendering depicts an atomic force microscopy tip scanning a structured network of bacterial cells with flagella in a honeycomb pattern. High-resolution surface characterization spans a ...

Bacteria are traditionally imagined as single-cell organisms, spread out sparsely over surfaces or suspended in liquids, but in many environments the true bacterial mode of growth is in sticky ...

Confocal laser scanning microscopy of Salmonella wet biofilm (WSB) and dry surface biofilm (DSB). The DSB displays a distinctive "sandwich-like" vertical structure, as revealed in the cross-sectional ...

Project PriMe intended to speed classification of biofilms with marker-free, contactless imaging. Detecting bacteria rapidly and contactlessly with a microscope. Using a multimodal microscope, Laser ...

Dental restoratives are a perfect surface for the prolific growth of bacterial biofilm cultures. S. gordonii in particular is a pioneering colonizer of tooth surfaces, allowing other bacteria to ...

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 ...

Biofilms are multicellular networks that can grow almost anywhere. These slime-encased microbial colonies can survive harsh conditions and develop resistance to antimicrobial agents such as ...

Scientists have now discovered a chemical that plants produce when they're stressed prevents dangerous biofilm from forming. The breakthrough offers potential advances in healthcare as well as ...