A University of Oxford-led study has found that diverse communities of resident commensal gut bacteria collectively protect the human gut from disease-causing microorganisms by consuming the nutrients ...

Summary: Researchers mapped the precise environmental and physical dynamics governing human microbiome transmission, proving ...

The skin is the largest organ of the human body. Not only does it act as the first line of defense against external stressors such as environmental toxins, pathogens and pollutants, our skin can also ...

Imagine trying to settle into a new home while constantly being attacked. That's what the bacterium Pseudomonas aeruginosa faces when it infects the lungs, and it can't both spread and protect itself ...

UK: A randomized clinical trial has found that the topical application of 1% chlorhexidine (CHG) in laboring women and ...

In a surprising twist, gut pathogens like Salmonella are not repelled by fecal indole; instead, they exploit it to locate nutrient-rich environments, turning a microbial defense into a colonization ...

Scientists have identified how a bacteria in the gut can act as a protective species against Salmonella infection. A team at the University of Cambridge in England revealed a novel role for the ...

New research reveals that what we eat, down to the type of dietary protein, can tip the balance between Vibrio cholerae and the gut microbiota, reshaping bacterial competition and disease potential ...

The gastrointestinal tract represents a complex ecological niche where opportunistic fungi, most notably Candida species, coexist with a diverse microbial community and a multilayered host defence ...

Soil-borne fungal pathogens are responsible for major agricultural losses worldwide, yet the way they invade and spread inside plant roots is still not fully understood. One of the most damaging ...