Once substrate (S) binds to this active site, they form a complex (intermediate-ES) which then produces the product (P) and the enzyme (E). The substrate which gets attached to the enzyme has a specific structure and that can only fit in a particular enzyme. Hence, by providing a surface for the substrate, an enzyme slows down the activation energy of the reaction. The intermediate state where the substrate binds to the enzyme is called the transition state. By breaking and making the bonds, the substrate binds to the enzyme (remains unchanged), which converts into the product and later splits into product and enzyme. The free enzymes then bind to other substrates and the catalytic cycle continues until the reaction completes.
The enzyme action basically happens in two steps:
Step1: Combining of enzyme and the reactant/substrate.
E+S → [ES]
Step 2: Disintegration of the complex molecule to give the product.
[ES]→E+P
Thus, the whole catalyst action of enzymes is summarized as:
E + S → [ES] → [EP] → E + P
Biological Catalysts
Catalysts are the substances which play a significant role in the chemical reaction. Catalysis is the phenomenon by which the rate of a chemical reaction is altered/ enhanced without changing themselves. During a chemical reaction, a catalyst remains unchanged, both in terms of quantity and chemical properties. An enzyme is one such catalyst which is commonly known as the biological catalyst. Enzymes present in the living organisms enhance the rate of reactions which take place within the body.
Biological catalysts, enzymes, are extremely specific that catalyze a single chemical reaction or some closely associated reactions. An enzyme’s exact structure and its active site decide an enzyme’s specificity. Substrate molecules attach themselves at the active site of an enzyme. Initially, substrates associate themselves by noncovalent interactions to the enzymes which include ionic, hydrogen bonds and hydrophobic interactions. Enzymes reduce the reactions and activation energy to progress towards equilibrium quicker than the reactions that are not catalyzed. Both eukaryotic and prokaryotic cells usually make use of allosteric regulation to respond to fluctuations in the state inside the cells.
The nature of enzyme action and factors affecting the enzyme activity are discussed below.
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