The mechanism by which the cytidine deaminase activation-induced deaminase (AID) acts at immunoglobulin heavy-chain class switch regions during mammalian class switch recombination (CSR) remains unclear. R-loops have been proposed as a basis for this targeting. Here, we show that the difference between various forms of the S locus that can or cannot undergo CSR correlates well with the locations and detectability of R-loops. The S R-loops can initiate hundreds of base pairs upstream of the core repeat switch regions, and the area where the R-loops initiate corresponds to the zone where the AID mutation frequency begins to rise, despite a constant density of WRC sites in this region. The frequency of R-loops is 1 in 25 alleles, regardless of the presence of the core S repeats, again consistent with the initiation of most R-loops upstream of the core repeats. These findings explain the surprisingly high levels of residual CSR in B cells from mice lacking the core S repeats but the marked reduction in CSR in mice with deletions of the region upstream of the core S repeats. These studies also provide the first analysis of how R-loop formation in the eukaryotic chromosome depends on the DNA sequence.Mammalian immunoglobulin (Ig) genes undergo two types of DNA recombination, in addition to a somatic hypermutation (SHM) process. V(D)J recombination occurs in early lymphocytes and assembles the variable-domain exon so that IgM can be made. Class switch recombination (CSR) occurs only at the Ig heavy-chain locus and is responsible for the change in the heavy-chain isotype from IgM to IgG, IgA, or IgE; this process is also called the heavy-chain isotype switch (6,17,29). CSR occurs at repetitive DNA elements called switch regions, which vary in sequence and length. All of the switch regions are more than 1 kb in length and consist of unit repeats of 25 to 80 bp. All are located downstream of a sterile transcript promoter, which is necessary for CSR. All have a G-rich nontemplate strand, and all are rich in sites at which a cytidine deaminase called activation-induced deaminase (AID) prefers to act, namely, WRC sites (37). The regional nature of CSR, which gave rise to the term regionally specific recombination (15), contrasts with the vast majority of other physiologic recombination systems in biology, which are regarded as site specific. The special features of switch regions (such as being long and repetitive and located downstream of a promoter, having Grich nontemplate strands, and not having sequences conserved among the different switch regions or among vertebrates that carry out CSR) suggested that the mechanism would be unusual relative to other recombination processes in biology.Investigators at the Honjo laboratory discovered the key lymphoid-specific enzyme for both CSR and SHM, AID (22,23). AID is a 26-kDa protein which deaminates C in DNA (5, 25) but only when that DNA is single stranded (2,26,36,38). A key question for CSR and SHM concerns how the DNA becomes single stranded. Because transcription appears to...
