Four major trends that will shape how we as a society will confront antibiotic resistance in the coming decade.

From diagnostics to CRISPR and policy reform, explore how science and society are working together to combat the rising ...

When Feng Zhang was in his early 30s, he used a set of genes found in bacteria called CRISPR to pioneer a new kind of gene ...

The accurate early detection and precise localization of diseases remain pivotal challenges in modern medicine. Traditional diagnostic methods often grapple ...

A bacterial defense system called SPARDA employs kamikaze-like tactics to protect cells and could be useful in future ...

SHERLOCK, a rapid CRISPR-based diagnostic, detects Candida auris and antifungal resistance mutations in patient samples in under an hour.

Infection with the pathogenic yeast fungus Candida auris (C. auris) can wreak havoc on the health of hospital patients and ...

“Through CRISPR RNA optimization, we achieved around 59% editing at the TTR locus in our in vitro experiments. In the mouse ...

Machine learning models reveal that histone marks are predictive of gene expression across human cell types and highlight important nuances between natural control and the effects of CRISPR-Cas9-based ...

Scientists have used CRISPR to give the goldenberry a modern makeover, shrinking the plant by about a third and making it ...

Researchers say discoveries could expand the CRISPR toolbox and lead to more efficient, rapid diagnostic tools for detecting COVID-19, influenza, and RSV.