Discover how Rhosin can potentially slow biological ageing by targeting blood stem cells to enhance healthy lifespans.

Explore the role of AI in drug discovery and how automation enhances precision and speed in modern scientific research.

New research has shown that the enzyme OTULIN regulates tau at the gene-expression level rather than through protein ...

The UK drug development process is evolving. Find out how government efforts are reducing clinical trial timelines for new ...

Stanford researchers have cured Type 1 diabetes in mice using a combination of blood stem cell and pancreatic islet cell ...

Explore EV multiplex profiling and its role in harnessing extracellular vesicles for advanced diagnostics and therapeutic ...

Explore the role of patient-derived xenograft models in colorectal cancer research and their impact on treatment outcomes.

Discover the stealth CRISPR method that makes gene editing invisible to the immune system, enhancing cancer research ...

Explore the breakthrough of new CAR-T cell therapy for glioblastoma, offering hope against one of the deadliest brain cancers.

Scientists have linked rare mutations in SPNS1 to a previously unknown lipid recycling pathway in lysosomes, revealing how faulty fat processing can trigger muscle and liver disease. Researchers have ...

New research has discovered how Rab proteins control the delivery of critical supplies to strengthen neural connections, providing researchers with important insights into memory formation and ...

AI has advanced molecule design, yet synthetic feasibility remains a bottleneck. Chemistry-first approaches offer a practical way forward. Artificial intelligence (AI) is being applied across the drug ...