Cornell researchers have discovered a pathway by which E. coli regulates all-important zinc levels, an insight that could ...

Deep beneath our shoes lies a microscopic battlefield where bacteria wage war with antibiotics — and they might be winning. Researchers from Virginia Tech have found that the soil we walk on is far ...

The trillions of microbial cells in our gastrointestinal tract have their own genomes and metabolic products, many of which ...

Microorganisms produce a wide variety of natural products that can be used as active ingredients to treat diseases such as ...

Understanding these fundamental processes holds great potential for developing new antibiotics that target these specific ...

Researchers from Durham University, Jagiellonian University (Poland) and the John Innes Center have achieved a breakthrough in understanding DNA gyrase, a vital bacterial enzyme and key antibiotic ...

Several clinical trials are testing drugs that aim to interfere with that cell-signaling pathway, meaning the findings may guide the development of new therapies, the researchers said. The researchers ...

Discover how toxins from gut bacteria accelerate colorectal cancer spread, paving the way for early detection and new ...

The research could aid in the development of next-generation antibiotics that are more precise and effective in stopping bacterial infections. DNA gyrase is a bacterial enzyme that introduces ...