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

Biocatalysis, protein engineering, and flow chemistry are key enabling technologies that can yield drastically shorter and greener chemical processes. We sought to leverage these technologies to ...

About 98% of lignin created as a forestry by-product from plants is discarded, but a new enzyme could be the key to extracting high-value molecules from this waste using a green chemistry approach.

The authors’ approach is deceptively simple: take an aldehyde dehydrogenase enzyme, which naturally converts aldehydes to acids, and get it to react with an amine instead of water. But actually making ...

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 ...

Practically all biochemical processes involve enzymes that accelerate chemical reactions. A research team has now for the first time deciphered the molecular mechanism of the enzyme AsqJ. Their ...

Quantumzyme Corp. (OTC: QTZM), a biotransformation company focused on sustainable pharmaceutical manufacturing, today announced that its research has been featured on the cover of RSC Sustainability, ...

Chemists at the University of California - Los Angeles (UCLA) have reported the successful development of 'designer enzymes,' a major breakthrough in computational chemistry and protein engineering.

Future Market Insights, a leading market intelligence and consulting firm, has released a comprehensive study projecting substantial growth in the global clinical chemistry enzymes market over the ...

Researchers have developed a method that irradiates biological enzymes with light to expand their highly efficient and selective capacity for catalysis to new chemistry. Enzymes are nature's tools for ...