Researchers discovered lariocidin, a lasso peptide antibiotic that kills multidrug-resistant bacteria by binding a novel ...

Researchers created safe synthetic antibiotics from frog molecules. These may help fight superbugs in the future.

Frogs have thrived for hundreds of millions of years, spreading across virtually every corner of Earth, from tropical jungles ...

A natural antibacterial molecule shows clinical promise. Its unusual binding site is on an excellent target: ...

A new part of the immune system has been discovered and it is a goldmine of potential antibiotics, scientists have said. They've shown a part of the body known to recycle proteins has a secret mode ...

Engineered frog-derived peptides may become powerful new antibiotics, showing strong results against resistant bacteria in early testing. Frogs have thrived for hundreds of millions of years, adapting ...

In a new paper, researchers describe the creation of synthetic peptides, a class of antibiotics, derived from the secretions ...

A small molecule shaped like a lasso may be a powerful tool in the fight against infectious diseases, according to a new study in Nature co-authored by University of Illinois Chicago researchers.

The founders of Bugworks Research are attempting to bring to market a new class of antibiotics--a first in almost half a ...

In seeking new antibiotic sources, researchers have turned to an unlikely source: a whiffy frog known as Odorrana andersonii.

Lariocidin, a peptide made by bacteria living in soil, was effective against several different microbes responsible for deadly infections. UIC researchers working with collaborators at McMaster ...

The antibiotic teixobactin—developed a decade ago by Northeastern University professors Kim Lewis and Slava Epstein in ...