Researchers have developed a new artificial intelligence-based modeling tool that can accurately predict how infectious ...

Professor Soldati, Department of Biochemistry, has been awarded the 2026 Egon Naef Foundation Prize for In Vitro Research (FENRIV). This award recognizes his innovative work throughout his career ...

Researchers from New England Biolabs (NEB®) and Yale University describe the first fully synthetic bacteriophage engineering system for Pseudomonas aeruginosa, an antibiotic-resistant bacterium of ...

A destructive plant pathogen has long puzzled scientists with its ability to move swiftly through crops and cause sudden, ...

Scientists can now design fully synthetic bacteriophages, with potential to reshape the fight against antibiotic resistance.

A common parasite long thought to lie dormant is actually much more active and complex. Researchers found that Toxoplasma ...

The Golden Gate Assembly platform engineers bacteriophages synthetically using sequence data rather than bacteriophage isolates.

By Dr. Priyom Bose, Ph.D. A lung pathogen grows stronger in iron-rich environments, but at the cost of its own virulence, revealing a hidden trade-off behind chronic infection. Study: Iron dictates ...

A University of California, Riverside team of scientists has found that Toxoplasma gondii, a common parasite affecting up to ...

In a quiet freshwater pond in Ibaraki Prefecture near Tokyo, researchers have pulled from the water a microscopic giant that ...

Post-2020, highly pathogenic avian influenza H5 circulation is characterised by spatially expanded ecological suitability, changes in key environmental predictors, and a wider range of avian species ...