A growing body of research suggests that combining enzymes with biochar, a carbon-rich material made from agricultural and organic waste, could transform how scientists clean polluted water and soil.

To make advances in using microbes to sustainably produce materials, it is necessary to find new molecular tools, or enzymes—but this is labor intensive. A Kobe University team has developed a ...

Enzyme assays are evolving from traditional spectrophotometric methods to high-throughput, AI-powered platforms that accelerate drug discovery, diagnostics, and sustainable chemistry. Advances like ...

We are looking for a highly motivated Postdoctoral Researcher to develop cell-free protein synthesis platform for anaerobic enzymes. Applicants with strong expertise in cell-free enzyme prototyping ...

Engineered enzymes are poised to have transformative impacts across applications in energy, materials, biotechnology, and medicine. Recently, machine learning has emerged as a useful tool for enzyme ...

Reporting in Science, researchers at UC Santa Barbara, UCSF and the University of Pittsburgh have developed a new workflow for designing enzymes from scratch, paving the way toward more efficient, ...

As freshness becomes a key competitive lever in modern baking, leveraging enzyme technologies and ingredient-tech systems can ...

Enzymes are biological catalysts that speed up chemical reactions in living organisms. They are essential for life, as they play a crucial role in various biological processes, such as digestion, ...

The first successful human transplant of a kidney converted from blood type A to universal type O used special enzymes developed at the University of British Columbia to help prevent a mismatch and ...

Enzymes originally evolved in high-temperature environments and later adapted to lower temperatures as Earth cooled. Scientists discovered that a key shift in enzyme function occurred over ...