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

By simulating the life cycle of a minimal bacterial cell - from DNA replication to protein translation to metabolism and cell division - scientists have opened a new frontier of computer vision into ...

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

Over the past decade, however, a wave of technological advances has begun to expand the druggable proteome. These include covalent inhibitors (such as sotorasib), chemical proteomics, and AI-enabled ...

By simulating the life cycle of a minimal bacterial cell, from DNA replication to protein translation to metabolism and cell division, scientists have opened a new frontier of computer vision into the ...

Proteoforms, the diverse molecular variants of proteins, are key to understanding cellular functions, disease mechanisms, and ...

By simulating the life cycle of a minimal bacterial cell—from DNA replication to protein translation to metabolism and cell ...

Chung’s group captured the transition period directly by improving the time resolution of a method called single-molecule ...

By simulating the life cycle of a minimal bacterial cell — from DNA replication to protein translation to metabolism and cell division — scientists have opened a new frontier of computer vision into ...

Researchers developed a machine-learning workflow that predicts how chemical reactions will form specific “handed” versions of molecules—critical for safe and effective drugs. Trained on small ...

Crystal jellyfish have an eerie beauty: thanks to a natural protein, they emit a faint green glow. For decades, researchers ...

A newly designed optical centrifuge allows scientists to control molecular rotation inside superfluid helium nano-droplets.