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W4386819103 abstract "Abstract Background Bivalent chromatin is an exemplar of epigenetic plasticity. This co-occurrence of active-associated H3K4me3 and inactive-associated H3K27me3 histone modifications on opposite tails of the same nucleosome occurs predominantly at promoters where it poises them for future transcriptional upregulation or terminal silencing. We know little of the dynamics, resolution, and regulation of this chromatin state outside of embryonic stem cells where it was first described. This is partly due to the technical challenges distinguishing bone-fide bivalent chromatin, where both marks are on the same nucleosome, from allelic or sample heterogeneity where there is a mix of H3K4me3-only and H3K27me3-only mononucleosomes. Results Here, we present a robust and sensitive method to accurately map genome-wide bivalent chromatin along with all necessary controls from as little as 2 million cells. We optimised and refined the sequential ChIP protocol which uses two sequential overnight immunoprecipitation reactions to robustly purify nucleosomes that are truly bivalent and contain both H3K4me3 and H3K27me3 modifications. Our method generates high quality genome-wide maps with strong peak enrichment and low background which can be analysed using standard bioinformatic packages. Using this method, we detect twice as many bivalent regions in mouse embryonic stem cells as previously identified, bringing the total number of bivalently marked gene promoters to 8,373. Furthermore, profiling Dppa2/4 knockout mouse embryonic stem cells which lose both H3K4me3 and H3K27me3 at approximately 10% of bivalent promoters, demonstrated the ability of our method to capture bivalent chromatin dynamics. Conclusions Our optimised sequential reChIP method enables high-resolution genome-wide assessment of bivalent chromatin together with all required controls in as little as 2 million cells. We share a detailed protocol and guidelines that will enable bivalent chromatin landscapes to be generated in a range of cellular contexts, greatly enhancing our understanding of bivalent chromatin and epigenetic plasticity beyond embryonic stem cells." @default.
W4386819103 created "2023-09-19" @default.
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W4386819103 date "2023-09-18" @default.
W4386819103 modified "2023-09-29" @default.
W4386819103 title "A low-input high resolution sequential chromatin immunoprecipitation method captures genome-wide dynamics of bivalent chromatin" @default.
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W4386819103 doi "https://doi.org/10.1101/2023.09.18.558170" @default.
W4386819103 hasPublicationYear "2023" @default.
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