Drug discovery is like molecular Tetris. Chemists snap atoms together, adjusting the pieces until everything fits, and ...

The large language model automates literature search, synthesis, and structural analysis to speed up materials discovery and ...

Researchers have developed a human intestinal cell model that closely mimics the structure and function of the human gut, enabling more precise prediction of drug-induced gastrointestinal toxicity ...

Intramolecular charge transfer (ICT) is one of the most important photophysical mechanisms in organic fluorophores. Among ICT processes, TICT ...

In the rapidly evolving landscape of regenerative medicine, 2026 has marked a turning point in how we approach recovery. We ...

As geopolitical instability reshapes global trade routes and energy markets, molecular-level verification is emerging ...

Researchers at the University of Toronto have developed LUMI-lab, an AI-enabled self-driving laboratory that has identified brominated lipid tails as a potent and previously unrecognised enhancer ...

Drug discovery is like molecular Tetris. Chemists snap atoms together, adjusting the pieces until everything fits and suddenly, a molecule makes a ...

Therapeutic developers are increasingly rebuilding their workflows around AI to bring drugs to patients faster.

Innate immune sensors – known as pattern recognition receptors (PRRs) – detect specific molecular components of bacterial or viral intruders.

Chimeric antigen receptor T (CAR T) cell therapy represents a milestone in leukemia treatment. CAR T works by genetically ...

A new University of California San Diego study published in Cell challenges a long-standing assumption about how animal viruses become capable of sparking human epidemics and pandemics. Using a ...