TY - JOUR
T1 - AID mutates E. coli suggesting a DNA deamination mechanism for antibody diversification
AU - Petersen-Mahrt, Svend K.
AU - Harris, Reuben S.
AU - Neuberger, Michael S.
PY - 2002/7/4
Y1 - 2002/7/4
N2 - After gene rearrangement, immunoglobulin variable genes are diversified by somatic hypermutation or gene conversion, whereas the constant region is altered by class-switch recombination. All three processes depend on activation-induced cytidine deaminase (AID), a B-cell-specific protein that has been proposed (because of sequence homologyI) to function by RNA editing. But indications that the three gene diversification processes might be initiated by a common type of DNA lesion, together with the proposal that there is a first phase of hypermutation that targets dC/dG, suggested to us that AID may function directly at dC/dG pairs. Here we show that expression of AID in Escherichia coli gives a mutator phenotype that yields nucleotide transitions at dC/dG in a context-dependent manner. Mutation triggered by AID is enhanced by a deficiency of uracil-DNA glycosylase, which indicates that AID functions by deaminating dC residues in DNA. We propose that diversification of functional immunoglobulin genes is triggered by AID-mediated deamination of dC residues in the immunoglobulin locus with the outcome - that is, hypermutation phases 1 and 2, gene conversion or switch recombination - dependent on the way in which the initiating dU/dG lesion is resolved.
AB - After gene rearrangement, immunoglobulin variable genes are diversified by somatic hypermutation or gene conversion, whereas the constant region is altered by class-switch recombination. All three processes depend on activation-induced cytidine deaminase (AID), a B-cell-specific protein that has been proposed (because of sequence homologyI) to function by RNA editing. But indications that the three gene diversification processes might be initiated by a common type of DNA lesion, together with the proposal that there is a first phase of hypermutation that targets dC/dG, suggested to us that AID may function directly at dC/dG pairs. Here we show that expression of AID in Escherichia coli gives a mutator phenotype that yields nucleotide transitions at dC/dG in a context-dependent manner. Mutation triggered by AID is enhanced by a deficiency of uracil-DNA glycosylase, which indicates that AID functions by deaminating dC residues in DNA. We propose that diversification of functional immunoglobulin genes is triggered by AID-mediated deamination of dC residues in the immunoglobulin locus with the outcome - that is, hypermutation phases 1 and 2, gene conversion or switch recombination - dependent on the way in which the initiating dU/dG lesion is resolved.
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U2 - 10.1038/nature00862
DO - 10.1038/nature00862
M3 - Article
C2 - 12097915
AN - SCOPUS:0037019315
SN - 0028-0836
VL - 418
SP - 99
EP - 103
JO - Nature
JF - Nature
IS - 6893
ER -