Cutting edge: DGYW/WRCH is a better predictor of mutability at G:C bases in Ig hypermutation than the widely accepted RGYW/WRCY motif and probably reflects a two-step activation-induced cytidine deaminase-triggered process
- PMID: 15004135
- DOI: 10.4049/jimmunol.172.6.3382
Cutting edge: DGYW/WRCH is a better predictor of mutability at G:C bases in Ig hypermutation than the widely accepted RGYW/WRCY motif and probably reflects a two-step activation-induced cytidine deaminase-triggered process
Abstract
A feature of Ig hypermutation is the presence of hypermutable DNA sequences that are preferentially found in the V regions of Ig genes. Among these, RGYW/WRCY is the most pronounced motif (G:C is a mutable position; R=A/G, Y=C/T, and W=A/T). However, a molecular basis for the high mutability of RGYW was not known until recently. The discovery that activation-induced cytidine deaminase targets the DNA encoding V regions, has enabled the analysis of its targeting properties when expressed outside of the context of hypermutation. We analyzed these data and found evidence that activation-induced cytidine deaminase is the major source of the RGYW mutable motif, but with a new twist: DGYW/WRCH (G:C is the mutable position; D=A/G/T, H=T/C/A) is a better descriptor of the Ig mutation hotspot than RGYW/WRCY. We also found evidence that a DNA repair enzyme may play a role in modifying the sequence of hypermutation hotspots.
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