Respuesta :
The question is incomplete as it does not have the option which are:
- change the amount of energy needed for a reaction.
- prevent the substrate from binding the enzyme's active site.
- change the type of substrate that binds the enzyme's active site.
- change the type of product produced in the reaction.
- prevent the enzyme from adding energy to a reaction
Answer
prevent the substrate from binding the enzyme's active site.
Explanation:
An Enzyme is a molecule composed of the amino acids in a 3 D conformation which catalyze or speed up a reaction.
The enzyme protein catalyses a chemical reaction by binding the substrate to its active pore formed by the 3D conformation of the protein and forming a complex of the substrate and enzyme.
If the 3D conformation of the enzyme is changed or altered then the active pore will be disrupted as a result of which the substrate-binding affinity and specificity will be changed which will not the reaction to proceed in forwarding direction or other terms the functionality of the protein will be lost.
Thus, the selected option is correct.
Changing the three dimensional composition of an enzyme might inhibit the substrate from combining with the active site of the enzyme.
What is an enzyme?
It is a molecule, which comprises amino acids in a three dimensional conformation, which accelerates or catalyzes the reaction. The enzyme catalyzes a chemical reaction by combining with the substrate to its active site and producing a complex of the enzyme and the substrate.
In case, if the three dimensional composition of the enzyme is altered then the active site will get disrupted as a consequence of which the substrate binding specificity and affinity will get altered resulting in the failing of the reaction to take place in forward direction, or it can be said that the protein will lose its functionality.
Thus, changing the 3D composition of the enzyme may inhibit the substrate from combining with the active site of the enzyme.
Find out more information about the 3D structure of the enzyme here:
https://brainly.com/question/4381360
