A team of biochemists at the University of California, Santa Cruz, has developed a faster way to identify molecules in the ...

For the first time, researchers have succeeded in predicting how to change the optimum temperature of an enzyme using large computer calculations. A cold-adapted enzyme from an Antarctic bacterium was ...

Unhackneyed compartmentalization generated by audible sound allows the enzyme reactions to be controlled spatiotemporally. Spatiotemporal regulation of multistep enzyme reactions through ...

An analysis of an unusual enzyme could result in a new generation of antimicrobial medicines to counter antibiotic resistance. Key details in the enzyme-driven biosynthesis of a natural molecule with ...

Enzymes with specific functions are becoming increasingly important in industry, medicine and environmental protection. For example, they make it possible to synthesize chemicals in a more ...

Chemists have long dreamed of mimicking nature’s precision, and now, thanks to a repurposed enzyme, they’ve taken a leap closer. Researchers at the University of Basel have successfully combined a ...

For the first time, researchers have successfully used computational simulations to modify an enzyme’s structure to increase the optimum temperature of a reaction. Researchers at Uppsala University ...

Researchers are continually looking for new ways to hack the cellular machinery of microbes like yeast and bacteria to make ...

A single enzyme that can generate all four nucleotide triphosphates, the building blocks of ribonucleic acid (RNA), was identified by researchers at the Institute of Science Tokyo.

An MIT study suggests some early life forms may have evolved the ability to use oxygen hundreds of millions of years before ...