Contrast and compare the mutagenic effects of deaminating agents, alkylating agents, and base analogs.

Deaminating agents are chemicals that remove an amino group from nucleobases in DNA, leading to mutations. This process can convert cytosine to uracil, which can result in mispairing during DNA replication. The resulting mutations can lead to transitions, where one purine or pyrimidine is replaced by another, potentially causing functional changes in proteins.

Alkylating agents are reactive compounds that add alkyl groups to DNA, often at the N7 position of guanine. This modification can lead to cross-linking of DNA strands or mispairing during replication, resulting in various types of mutations, including point mutations and chromosomal aberrations. Their potent mutagenic effects make them significant in both cancer treatment and the study of mutagenesis.

Base analogs are compounds that resemble the structure of DNA bases and can be incorporated into DNA during replication. When incorporated, they can lead to mispairing, as they may not pair correctly with the complementary base. This mispairing can result in mutations, particularly transitions, and is a key mechanism by which certain chemicals and some antiviral drugs exert their mutagenic effects.