They mainly studied the significant role of manganese-based oxidase nanozyme (MnN) in stitching collagen, a vital structural ...

Understanding enzyme-substrate interaction at a molecular level facilitates the optimization of these biocatalytic processes, thereby improving biofuel yield and reducing production costs. Detergent ...

This manuscript provides fundamental studies to help us better understand the effects of mutations in the presenilin-1 (PSEN1) gene on proteolytic processing of the amyloid precursor protein (APP).

This intricate process is fundamental to the biology of life. Enzyme-substrate interactions: Weak van der Waals forces help enzymes recognize and bind to their target molecules, facilitating important ...

This transformation enables the enzyme to better bind with its substrate (light pink puzzle piece). In contrast, an inhibitor molecule (pink circle) can prevent the interaction of an enzyme with ...

It was found that allosteric interactions guide domain motions and substrate affinity, with 10% of enzymes displaying alternative active forms, suggesting evolutionary paths for enzyme regulation.

The cell can also regulate the rate of reaction of key enzymes. Enzymes are able to bind to their substrate because they have an active site. An induced fit occurs where the active site of the ...

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 ...

The rate of enzyme reaction can be affected by substrate concentration. As the substrate concentration increases, the enzyme reaction increases until all of the active sites are occupied by the ...