The enzyme (blue) binds to its substrate (red) to form an enzyme-substrate complex. The enzyme then catalyzes the conversion of the substrate into products (pink), which are released. The enzyme ...

Each enzyme molecule has a special place called the active site where another molecule, called the substrate, fits. The substrate goes through a chemical reaction and changes into a new molecule ...

Scientists improved enzyme-based biosensors by modifying MOFs to enhance electron transfer and enzyme stability. Enzymes are ...

"These findings are in keeping with our 'stalled complex' hypothesis, where it is these enzyme-substrate complexes that trigger neurodegeneration even in the absence of amyloid beta-protein ...

Polyethylene terephthalate (PET) is one of the most widely used plastics, commonly found in bottles, fibers, and many other ...

With further refinement, the enzyme could be adapted for even more complex reactions, making it a valuable tool in drug development, agricultural chemicals, and materials science. “The possibilities ...

Glycans can be incredibly complex and branched in structure ... "Most glycosylation enzymes, or glycosyltransferases, do not have an additional lectin, or sugar-recognition domain like GnT ...

the enzyme catalase acts on the substrate hydrogen peroxide to make the products water and oxygen. Enzymes can speed up the break down of complex molecules into simpler molecules or the building ...