Scientists unlocked the secrets of Ling Zhi, the Reishi mushroom, to mass-produce its powerful medicinal compounds. By ...

Research, published in Chem, provides a holistic understanding of the light-driven production of hydrogen gas using a nanocrystal- enzyme complex as the catalyst, and a computational framework ...

Phylogenetic tree of SGL-clan enzymes, highlighting known (black), newly identified (red), and uncharacterized (blue) families. Known GH families are also marked in green, new ones in blue, and ...

High levels of liver enzymes in your blood may sometimes indicate an underlying liver condition that requires medical attention and lifestyle changes.

Researchers have developed a new workflow for designing enzymes from scratch, paving the way toward more efficient, powerful and environmentally benign chemistry. The new method allows designers ...

Experts weigh in on the best digestive enzymes to help to break down protein, fats, and carbohydrates into simpler compounds that can be absorbed by the body.

Iron and 2-oxoglutarate dependent (Fe/2OG) enzymes utilize an FeIV═O species to catalyze the functionalization of otherwise chemically inert C–H bonds. In addition to the more familiar canonical ...

Crafting enzymes is more difficult than designing other proteins because it requires not just predicting the structure of a single protein conformation, but of changes in conformations as enzymes ...

AI used to design a multi-step enzyme that can digest some plastics Enzyme mechanisms can be complex, and getting them to work is tricky.

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

Enzymes significantly speed up the chemical reactions that keep you alive. Researchers are using AI to create new ones to tackle modern challenges.