Basel researchers merge MHAT chemistry with enzymes, opening new pathways for greener pharmaceutical synthesis.

CRISPR-associated transposases (CAST) revolutionize enzyme engineering, enabling precise modifications for improved ...

Proteins are constantly moving, but our structures of them are static. Clare Sansom talks to the researchers using free-electron lasers to make time-resolved structures ...

BioEmu, a new deep learning system, predicts protein shapes quickly and accurately, complementing traditional molecular ...

Chemists use a cycle of enzymatic oxidation and chemical reduction to drive molecular rotation ...

This makes it far easier to perform this type of assembly in real life, because you’d need to generate a much smaller set of ...

Researchers at Washington University School of Medicine in St. Louis have revealed the structure of a key protein involved in ...

Scientists were able to 3D-print different microstructures inside live cells, including a delightfully tiny micro-elephant. The team also printed barcodes and tiny lasers that could both be used to ...

Lawrence Livermore National Laboratory (LLNL) researchers have developed a novel 3D printing technique that uses light to build complex structures, then cleanly dissolves the support material ...

Researchers discovered that it actively reshapes the 3D structure of the human genome within hours of infection, using host enzymes like topoisomerase I to gain access to crucial genetic machinery.

Bioprinting holds the promise of engineering organs on demand. Now, researchers have solved one of the major bottlenecks—how to create the fine networks of blood vessels needed to keep organs alive.