Final answer:
Tautomerization and deamination are distinct chemical processes; tautomerization involves rearranging atoms within a molecule to form isomers, while deamination involves removing an amino group, primarily from amino acids. Therefore, tautomerization does not include deamination.
Step-by-step explanation:
Tautomerization is a chemical reaction that involves a structural rearrangement of atoms within a molecule, often resulting in a shift from one isomeric form to another. In the context of organic chemistry, tautomerization frequently involves a hydrogen atom moving from one atom to another, simultaneously with a switch of a double bond. This often occurs with compounds containing carbonyl groups (such as ketones and aldehydes) and can result in the conversion between keto and enol forms.
On the other hand, deamination is a process involving the removal of an amino group, typically from amino acids. It can occur via various methods, such as oxidative or non-oxidative routes. Deamination is critical in the metabolism of amino acids and the production of urea in the urea cycle.
Given their definitions, tautomerization and deamination are distinct processes. Therefore, the answer to whether tautomerization includes deamination is No, although both are important reactions within biochemistry and organic chemistry.