Japanese researchers developed a more selective isotope pattern screening method to accurately detect selenium compounds using LC-Q-Orbitrap-MS. The approach captures the full isotopic fingerprint of ...

CRISPR screens often mislead cancer research because bacterial Cas9 components trigger immune reactions in mice. ETH Zurich researchers developed a “stealth” CRISPR approach that removes immunogenic ...

Discover how traditional Hawaiian aquaculture systems effectively shield fish populations from the negative impacts of climate change, bolstering food security.

A new oral GLP-1 medication can help adults with obesity and Type 2 diabetes lose more weight and improve their blood sugar levels compared to a placebo, according to findings from the ATTAIN-2 trial ...

A new patch developed by Texas A&M University researcher Dr. Ke Huang may offer a way to help the heart heal after a heart attack. The patch uses a unique microneedle system to deliver a therapeutic ...

Automated imaging and machine learning analyze drying biofluid droplets, enabling fast, low-cost disease detection from a single drop.

New imaging method lets scientists study insulin-producing islet cells in awake mice, revealing real-time blood sugar responses.

UC Riverside researchers identify a new mitochondrial DNA adduct that disrupts energy production and triggers stress-response pathways.

New inference model uses multiple hospital data streams to detect hidden AMR carriers and reduce the spread of drug-resistant infections.

Discover how ancient DNA and AI combine to uncover powerful new antibiotics, offering hope in the fight against antimicrobial resistance.

Discover the findings of a three-part series of studies on ultra-processed foods, their harms and the need for impactful government regulation.

The finding, reported in Advanced Materials Technologies, shows a scalable way to create ultrathin coatings that combine the toughness of diamond with the processability of graphene. The work, led by ...