An enzyme is a catalyst, and it speeds up the biochemical reaction. It does this by providing an alternate pathway for the reaction to occur, and this alternate pathway has a lower activation energy than the pathway in the absence of the enzyme.
enzyme sped up the chemical reaction
A substrate binds to the enzyme and plays a role in catalysis by undergoing a chemical reaction with the enzyme. This interaction allows the enzyme to convert the substrate into a product, usually by lowering the activation energy required for the reaction to occur. Additionally, cofactors or coenzymes may also bind to the enzyme to assist in catalysis by providing or accepting functional groups during the reaction.
enzyme
Enzyme is specific
An enzyme
enzyme sped up the chemical reaction
to speed up a chemical reaction
The enzyme is a biochemical catalyst.
A substrate binds to the enzyme and plays a role in catalysis by undergoing a chemical reaction with the enzyme. This interaction allows the enzyme to convert the substrate into a product, usually by lowering the activation energy required for the reaction to occur. Additionally, cofactors or coenzymes may also bind to the enzyme to assist in catalysis by providing or accepting functional groups during the reaction.
the purpose is to accelerate the process of the reaction...
ENzyme
The enzyme reduces the activation energy of the reaction, therefore chemical reaction speeds are increased.
The point or site on a substrate where an enzyme acts is known as the active site. This is where the enzyme binds to the substrate molecule to facilitate the chemical reaction. The active site is specific to each enzyme and plays a crucial role in catalyzing the reaction.
enzyme
enzyme
enzyme
The active site is a specific region on an enzyme where substrates bind and undergo a chemical reaction. It is typically a pocket or groove on the enzyme's surface that accommodates the substrate molecules. The active site plays a crucial role in catalyzing biochemical reactions.