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Transcription-targeted DNA deamination by the AID antibody diversification enzyme

Author

Listed:
  • Jayanta Chaudhuri

    (Harvard University Medical School)

  • Ming Tian

    (Harvard University Medical School)

  • Chan Khuong

    (Harvard University Medical School)

  • Katrin Chua

    (Harvard University Medical School)

  • Eric Pinaud

    (Harvard University Medical School)

  • Frederick W. Alt

    (Harvard University Medical School)

Abstract

Activation-induced cytidine deaminase (AID), which is specific to B lymphocytes, is required for class switch recombination (CSR)—a process mediating isotype switching of immunoglobulin—and somatic hypermutation—the introduction of many point mutations into the immunoglobulin variable region genes1,2. It has been suggested that AID may function as an RNA-editing enzyme3 or as a cytidine deaminase on DNA4,5. However, the precise enzymatic activity of AID has not been assessed in previous studies. Similarly, although transcription of the target immunoglobulin locus sequences is required for both CSR and somatic hypermutation, the precise role of transcription has remained speculative6,7,8,9. Here we use two different assays to demonstrate that AID can deaminate specifically cytidines on single-stranded (ss)DNA but not double-stranded (ds)DNA substrates in vitro. However, dsDNA can be deaminated by AID in vitro when the reaction is coupled to transcription. Moreover, a synthetic dsDNA sequence, which targets CSR in vivo in a manner dependent on transcriptional orientation10, was deaminated by AID in vitro with the same transcriptional-orientation-dependence as observed for endogenous CSR. We conclude that transcription targets the DNA deamination activity of AID to dsDNA by generating secondary structures that provide ssDNA substrates.

Suggested Citation

  • Jayanta Chaudhuri & Ming Tian & Chan Khuong & Katrin Chua & Eric Pinaud & Frederick W. Alt, 2003. "Transcription-targeted DNA deamination by the AID antibody diversification enzyme," Nature, Nature, vol. 422(6933), pages 726-730, April.
  • Handle: RePEc:nat:nature:v:422:y:2003:i:6933:d:10.1038_nature01574
    DOI: 10.1038/nature01574
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    Cited by:

    1. Julian C. W. Willis & Pedro Silva-Pinheiro & Lily Widdup & Michal Minczuk & David R. Liu, 2022. "Compact zinc finger base editors that edit mitochondrial or nuclear DNA in vitro and in vivo," Nature Communications, Nature, vol. 13(1), pages 1-16, December.

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