Researchers have captured real-time "molecular movies" showing how an enzyme changes shape during catalysis. The study was ...

Using a series of more than 1,000 X-ray snapshots of the shapeshifting of enzymes in action, researchers at Stanford University have illuminated one of the great mysteries of life—how enzymes are able ...

image: Enzyme-Photo-coupled Catalytic System (EPCS) is an emerging platform technology for green biomanufacturing that uses photocatalysts to capture solar energy and subsequently drives the enzyme ...

Researchers took a closer look at the current debate over the origin of enzymatic catalytic power and proposes a mechanism that unites the opposing theories. The enzymes found in living organisms have ...

Natural enzymes are remarkable molecular machines that enable all sorts of essential biochemical reactions. For decades, scientists have sought to create artificial versions of these catalysts for ...

The global transition to a hydrogen-based clean energy economy faces a critical bottleneck: current proton exchange membrane ...

A new method that successfully designs serine hydrolase enzymes capable of catalyzing ester hydrolysis with high efficiency, demonstrates a computational approach for creating de novo enzymes that ...

Nanozymes are nanomaterials that exhibit enzyme-like catalytic properties. They are designed to mimic the structure and function of natural enzymes, offering unique advantages such as high stability, ...

Researchers from Tokyo Metropolitan University have developed a new structure determination method using Nuclear Magnetic Resonance (NMR) spectroscopy which shows how different parts of complex ...

The selective bond-breaking powers of enzymes bring new versatility for building nanoparticles with a wide range of technical and medical potential. The selective bond-breaking powers of enzymes bring ...