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The enzyme is liberated free to repeat the action again. That is the beauty of enzymes.
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What happens to an enzyme after a biochemical reaction?
After a biochemical reaction, an enzyme typically remains unchanged and can be reused in other reactions.
What chemical reaction is an enzyme?
The enzyme is a biochemical catalyst.
What happens to an enzyme after a biochemical reaction?
After a biochemical reaction, the enzyme remains unchanged and is free to catalyze more reactions. Enzymes are not consumed in the reaction and can be used repeatedly, making them efficient catalysts.
What happens to an enzyme after a biochemical reaction, and how does it affect the enzyme's function?
After a biochemical reaction, an enzyme typically remains unchanged and can be reused. However, the enzyme may undergo a slight change in shape, which can affect its ability to bind to substrates and catalyze reactions. This alteration in shape may impact the enzyme's efficiency and effectiveness in future reactions.
What does an enzyme do for a biochemical reaction?
It speeds it up.
What essential substance increases the rate of a biochemical reaction?
enzyme
What is the name of region at which reactants bind to an enzyme during a biochemical reaction?
The region where reactants bind to an enzyme during a biochemical reaction is called the active site. It is a specific region on the enzyme where the substrate binds, forming an enzyme-substrate complex that leads to the catalysis of the reaction.
This essential substance increases the rate of a biochemical reaction?
the inorganic substance which increases the enzyme activity is called?
What is never destroyed or created in chemical reactions?
An enzyme in a biochemical reaction fits this definition.
What is the name of the region which reactants bind to an enzyme during a biochemical reaction?
the cell membrane
What happens to the enzyme after the reaction is complete?
enzyme works as a catalyst before and after the reaction it is preserved
How are enzyme able to speed up biochemical reaction?
by reducing the activation energy required to initiate the reaction
