Biologists have uncovered a new mode of communication inside cells that helps bacterial pathogens learn how to evade drugs.

For years scientists have puzzled over why the intracellular pathogen Salmonella is able to survive — and thrive — in human and animal tissues, even within otherwise hostile cells that are part of the ...

Announcing a new article publication for Zoonoses journal. In past decades, numerous emerging infectious diseases have markedly affected global health and social-economic development. Consequently, ...

Combining genomic data and human travel patterns over a 14-year period in South Africa reveals key insights into the spread, evolution and resistance patterns of a major bacterium behind pneumonia and ...

Just like humans, Caenorhabditis elegans worms encounter gut-attacking bacterial pathogens through their diet. To thrive in their new hosts, bacteria seek out iron. To protect their iron supplies, ...

Climate change is increasingly influencing the dynamics of waterborne pathogens by modifying hydrological regimes, water temperatures, and the frequency and ...

Antimicrobial resistance (AMR) remains one of the most serious and urgent global health challenges, which significantly limits the effectiveness of ...

MedGenome unveils MetaSeq, a groundbreaking blood test capable of detecting over 1,400 pathogens in just five days, enhancing ...