Isotype class switching is central to the humoral immune response. The discovery that mutations in the activation-induced deaminase (AID) gene inhibit class-switch recombination, somatic hypermutation and gene conversion is a major step forward in defining the underlying mechanisms of these gene modification events. The propensity of mutations to occur at dC/dG nucleotides during somatic hypermutation and the homology between AID and cytidine deaminase has resulted in studies demonstrating that AID has the properties of a cytidine-specific mutator and also that elements of the base-excision repair pathway play a central role in class switching and hypermutation. AID is not a promiscuous mutator in the B cell, suggesting that there are specific molecular targeting mechanisms that regulate the accessibility of DNA to AID and differentially regulate class-switch recombination and somatic hypermutation. During class switching, isotype-specific targeting occurs independently of AID and provides another level of specificity to this recombination event.