R-loops at immunoglobulin class switch regions in the chromosomes of stimulated B cells
K Yu, F Chedin, CL Hsieh, TE Wilson, MR Lieber - Nature immunology, 2003 - nature.com
K Yu, F Chedin, CL Hsieh, TE Wilson, MR Lieber
Nature immunology, 2003•nature.comThe mechanism responsible for immunoglobulin class switch recombination is unknown.
Previous work has shown that class switch sequences have the unusual property of forming
RNA-DNA hybrids when transcribed in vitro. Here we show that the RNA-DNA hybrid
structure that forms in vitro is an R-loop with a displaced guanine (G)-rich strand that is
single-stranded. This R-loop structure exists in vivo in B cells that have been stimulated to
transcribe the γ3 or the γ2b switch region. The length of the R-loops can exceed 1 kilobase …
Previous work has shown that class switch sequences have the unusual property of forming
RNA-DNA hybrids when transcribed in vitro. Here we show that the RNA-DNA hybrid
structure that forms in vitro is an R-loop with a displaced guanine (G)-rich strand that is
single-stranded. This R-loop structure exists in vivo in B cells that have been stimulated to
transcribe the γ3 or the γ2b switch region. The length of the R-loops can exceed 1 kilobase …
Abstract
The mechanism responsible for immunoglobulin class switch recombination is unknown. Previous work has shown that class switch sequences have the unusual property of forming RNA-DNA hybrids when transcribed in vitro. Here we show that the RNA-DNA hybrid structure that forms in vitro is an R-loop with a displaced guanine (G)-rich strand that is single-stranded. This R-loop structure exists in vivo in B cells that have been stimulated to transcribe the γ3 or the γ2b switch region. The length of the R-loops can exceed 1 kilobase. We propose that this distinctive DNA structure is important in the class switch recombination mechanism
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