Diagenode

reChIP-seq reveals widespread bivalency of H3K4me3 and H3K27me3 in CD4(+) memory T cells


Kinkley S et al.

The combinatorial action of co-localizing chromatin modifications and regulators determines chromatin structure and function. However, identifying co-localizing chromatin features in a high-throughput manner remains a technical challenge. Here we describe a novel reChIP-seq approach and tailored bioinformatic analysis tool, normR that allows for the sequential enrichment and detection of co-localizing DNA-associated proteins in an unbiased and genome-wide manner. We illustrate the utility of the reChIP-seq method and normR by identifying H3K4me3 or H3K27me3 bivalently modified nucleosomes in primary human CD4(+) memory T cells. We unravel widespread bivalency at hypomethylated CpG-islands coinciding with inactive promoters of developmental regulators. reChIP-seq additionally uncovered heterogeneous bivalency in the population, which was undetectable by intersecting H3K4me3 and H3K27me3 ChIP-seq tracks. Finally, we provide evidence that bivalency is established and stabilized by an interplay between the genome and epigenome. Our reChIP-seq approach augments conventional ChIP-seq and is broadly applicable to unravel combinatorial modes of action.

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Published
August, 2016

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Products used in this publication

  • cut and tag antibody icon
    C15410196
    H3K27ac Antibody - ChIP-seq Grade
  • cut and tag antibody icon
    C15410195
    H3K27me3 Antibody - ChIP-seq Grade
  • cut and tag antibody icon
    C15410003
    H3K4me3 Antibody - ChIP-seq Grade
  • ChIP kit icon
    C05010012
    MicroPlex Library Preparation Kit v2 (12 indexes)
  • Bioruptor Plus Sonication Device
    B01020001
    Bioruptor® Plus sonication device

 


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