Scientists at Caltech and Princeton University have discovered that bacterial cells growing in a solution of polymers, such ...

Experiments and modeling reveal the unexpected structure that can be seen in bacteria grown in mucus samples and biofilms.

Researchers from Tokyo Metropolitan University have created nanostructured alumina surfaces which are strongly antibacterial ...

Scientists from Tomsk Polytechnic University have synthesized new antibacterial eutectogels based on deep eutectic solvents ...

Scientists at Caltech and Princeton University have discovered that bacterial cells growing in a solution of polymers, such as mucus, form long cables ...

The new models could give antibiotics a laser-like precision to target only specific bacteria in specific parts of the body.

As it stands, antibiotics kill bacteria indiscriminately ... Papin and his team have already found that they could inhibit ...

Targeting unique metabolic pathways in pathogens offers a novel approach to precision antibiotics, addressing the growing ...

The surfaces “may enable the production of high-quality cell cultures without bacterial contamination and without the use of antibiotics.” ...

With antibiotic resistance a growing problem, University of Virginia School of Medicine researchers have developed cutting-edge computer models that could give the disease-fighting drugs a laser-like ...

The bacterial cell wall is crucial to maintain viability. It has previously been suggested that Gram-positive bacteria have a periplasmic region between the cell membrane and peptidoglycan cell wall ...

The University of Virginia School of Medicine has developed a possible solution for the growing antibiotic resistance problem ...