Scientists have uncovered how graphene oxide pulls off a remarkable trick: it hunts down and destroys harmful bacteria while ...

Cyanobacteria—ancient microbes that oxygenated Earth and made complex life possible—are still revealing surprises billions of ...

Researchers at Durham have helped unlock a new understanding of how bacteria import antimicrobial peptides—the molecules that can kill or inhibit microbes. The research sheds new light on SbmA, a key ...

The microbial arms race, in which bacteria battle with each other, viruses, and other organisms for space and nutrients, has ...

Antibiotic resistance is making bacterial infections harder to treat, demanding new therapeutic strategies. A new review ...

Researchers at Durham have helped unlock new understanding of how bacteria import antimicrobial peptides - the molecules that ...

The ability to precisely edit the genomes of bacteria has long been a goal of microbiologists. Such technology would enable ...

The bacterial flagellar motor is finally understood after 50 years. In its workings, columnist Natalie Wolchover finds the ...

A major collaboration involving nine labs, led by scientists at Gladstone Institutes, has transferred a particularly useful ...

A protein plucked from common soil bacteria and paired with a fatty acid can destroy colorectal cancer cells in laboratory ...

New analytical methods developed at Baylor College of Medicine and collaborating institutions have increased our understanding of how bacteria manage DNA. The methods enabled researchers to uncover ...