Unfortunately, there isn't an enzyme for many reactions we would sorely like to catalyze—things like digesting plastics or ...

Using a series of more than 1,000 X-ray snapshots of the shapeshifting of enzymes in action, researchers at Stanford ...

With the addition of Huang and Zhang, Johns Hopkins University has now had 89 Sloan Research Fellows since the award's ...

Enzymes are crucial to life. They are nature's little catalysts. In the gut, they help us digest food. They can enhance perfumes or get laundry cleaner with less energy. Enzymes also make potent ...

Using a series of more than 1,000 X-ray snapshots of the shapeshifting of enzymes in action, researchers at Stanford ...

Jewett’s group has interest in expanding his machine learning models to guide catalysis or enzyme function across many different types of chemical reactions. In this paper, the team only looked ...

New research uses AI to engineer enzymes with intricate active sites, expanding the possibilities for synthetic biocatalysts.

The mechanism of enzyme catalysis is similar in principle to other types of chemical catalysis, for instance by involving a combination of several different types of catalysis. Determining enzyme ...

Like all catalysts, enzymes work by lowering the activation energy (Ea or ΔG‡) for a reaction, thus dramatically increasing the rate of the reaction. Most enzyme reaction rates are millions of ...

At the helm of a transformative venture, Agarwal has pioneered an innovative concept that positions Enzyme as a 'catalyst' for business growth-much like its namesake enzyme in chemical reactions.

"We are thrilled to collaborate with ChiralVision on the development of immobilized enzymes, which represent a groundbreaking advancement in sustainable and efficient catalysis," said Paul ...