Analysis of hundreds of single-cell genomes from Yellowstone National Park shows bacterial species are less cohesive than previously thought.

A multi-omics study identifies causal genes and biological subtypes of long COVID, revealing new therapeutic targets for ...

Researchers identify a shared RNA-protein interaction that could lead to broad-spectrum antiviral treatments for ...

Scientists at Johns Hopkins Medicine say results of a new study are advancing efforts to exploit a new target for Alzheimer's ...

Infections accelerate aging by damaging cells and organs. Preventing them with vaccines, hand hygiene, masks, and clean air ...

The WHO estimates that in 2019, bacterial antimicrobial resistance directly caused 1.27 million deaths and contributed to ...

Scientists studying thousands of rats discovered that gut bacteria are shaped by both personal genetics and the genetics of ...

Long COVID has lingered as one of the most unsettling legacies of the pandemic, a condition that can derail lives long after ...

This article explores how single-cell multiomics and spatial transcriptomics are illuminating early pregnancy, uncovering ...

Scientists used a clinical-grade gum in experiments to "substantially" lower viral loads of two herpes simplex viruses and ...

Scientists studied factors such as viral infections, gut microbiome, and exposome that could drive cancers, as well as how to ...