A simple chemical reaction with a single substrate shows a linear relationship between the rate of formation of product and the concentration of substrate, as shown below: For an enzyme-catalysed ...

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 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 ...

The key to a successful cellulase product is based on gaining an appropriate understanding of the interaction between particular substrate and enzyme synergistic action, then providing a well-matched ...

causing a change in the enzyme's shape and reducing its activity regardless of substrate concentration. Feedback inhibition is a regulatory mechanism where the end product of a biochemical pathway ...

An uncompetitive inhibitor binds to the enzyme and enhances the binding of substrate (so reducing Km), but the resultant enzyme-inhibitor-substrate complex only undergoes reaction to form the product ...

Enzymes are able to bind to their substrate ... Some metabolic reactions are reversible and the presence of a substrate or removal of a product will drive a sequence of reactions in a particular ...

I was a young enzymologist looking for a new project, and immediately volunteered for this one, which involved a peptidase of apparently unique mechanism and an enzyme product of potentially great ...

Thus, these enzymes likely coordinate with one another to receive the damaged DNA substrate and efficiently pass the resulting DNA product along to the next enzyme, just as a baton is passed from ...

et al. Revealing the hidden functional diversity of an enzyme family. Nature Chemical Biology 10, 42–49 (2014). Black, G. W. et al. A high-throughput screening method for determining the substrate ...