Scientists have developed an experimental RNA-based drug, TY1, that repairs DNA, reduces scar tissue and could lead to new ...

Learn how Logic-gated DARPins work to activate T cells selectively in solid tumours, enhancing therapeutic outcomes.

Discover how Fibulin-5 could serve as a new blood-based marker for early liver fibrosis diagnosis and potential treatment ...

Explore how epilepsy target SV2A interacts with anti-epilepsy drugs in groundbreaking research using cryo-electron microscopy ...

Explore the innovative method for producing lung organoids aimed at enhancing treatment for respiratory diseases effectively.

Insilico Medicine has announced ISM3830, an AI-designed CBLB inhibitor that has demonstrated promising preclinical results.

Explore the fibrosis mechanism in NPHP and how blocking cellular pathways can reduce kidney scarring in children.

Understand how paclitaxel works against cancer cells and its significant role in chemotherapy for breast cancer.

Researchers at NYU Abu Dhabi have developed a cheap, paper-based platform that allows tumour models to be grown, frozen and stored for future cancer drug testing – called Spheromatrix. Traditional ...

Researchers at The University of Osaka have developed a new system to study human norovirus, with the hope of being able to develop vaccines and antiviral treatments faster. Norovirus is the leading ...

RNA therapies are moving past burst-and-fade limits. New advances in circular RNA and targeted delivery could transform how we treat autoimmune disease, infections and beyond. RNA therapeutics have ...

Protein folding is the process by which polypeptides, synthesised as a linear chain of amino acids by the ribosome, adopt a specific three-dimensional structure – the native state – in which they ...