2016
DOI: 10.1038/ng.3550
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Histone H3 globular domain acetylation identifies a new class of enhancers

Abstract: Histone acetylation is generally associated with active chromatin, but most studies have focused on the acetylation of histone tails. Various histone H3 and H4 tail acetylations mark the promoters of active genes1. This includes acetylation of H3 on lysine 27 (H3K27ac), which blocks the deposition of polycomb mediated H3K27me32. H3K27ac is also widely used to identify active enhancers3,4, and the assumption has been that profiling of H3K27ac is a comprehensive way of cataloguing the set of active enhancers in … Show more

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Cited by 203 publications
(193 citation statements)
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“…1A). After the initial proof-of-concept experiment (Cheng et al, 2013; Farzadfard et al, 2013; Gilbert et al, 2013; Maeder et al, 2013; Mali et al, 2013a; Perez-Pinera et al, 2013; Qi et al, 2013), numerous studies have validated this approach and further refined the experimental systems utilized (Perez-Pinera et al, 2013; Chakraborty et al, 2014; Gilbert et al, 2014; Kearns et al, 2014; Balboa et al, 2015; Kearns et al, 2015; Konermann et al, 2015; Nihongaki et al, 2015; Polstein and Gersbach, 2015; Shechner et al, 2015; Thakore et al, 2015; Zalatan et al, 2015; Black et al, 2016; Braun et al, 2016; Chavez et al, 2016; Gao et al, 2016; Garcia-Bloj et al, 2016; Genga et al, 2016; Himeda et al, 2016; Mandegar et al, 2016; Pradeepa et al, 2016; Radzisheuskaya et al, 2016; Klann et al, 2017). …”
Section: Cas9-mediated Chromatin Modificationsmentioning
confidence: 99%
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“…1A). After the initial proof-of-concept experiment (Cheng et al, 2013; Farzadfard et al, 2013; Gilbert et al, 2013; Maeder et al, 2013; Mali et al, 2013a; Perez-Pinera et al, 2013; Qi et al, 2013), numerous studies have validated this approach and further refined the experimental systems utilized (Perez-Pinera et al, 2013; Chakraborty et al, 2014; Gilbert et al, 2014; Kearns et al, 2014; Balboa et al, 2015; Kearns et al, 2015; Konermann et al, 2015; Nihongaki et al, 2015; Polstein and Gersbach, 2015; Shechner et al, 2015; Thakore et al, 2015; Zalatan et al, 2015; Black et al, 2016; Braun et al, 2016; Chavez et al, 2016; Gao et al, 2016; Garcia-Bloj et al, 2016; Genga et al, 2016; Himeda et al, 2016; Mandegar et al, 2016; Pradeepa et al, 2016; Radzisheuskaya et al, 2016; Klann et al, 2017). …”
Section: Cas9-mediated Chromatin Modificationsmentioning
confidence: 99%
“…The SID domain causes the recruitment of histone deacetylases via interaction with the transcriptional repressor domain PAH2. dCas9 fused to KRAB or SID has been shown to repress gene transcription by 50 to 99% in different cell lines, primary cultures and pluripotent stem cells (Gao et al, 2013; Kearns et al, 2015; Shechner et al, 2015; Thakore et al, 2015; Amabile et al, 2016; Pradeepa et al, 2016). Similarly, dCas9 has been linked to the activation domains of several transcription factors such as p65, HSF1 and MyoD, and of the viral transactivators Rta and VP16, to induce gene expression (see Supplementary Table 1).…”
Section: Cas9-mediated Chromatin Modificationsmentioning
confidence: 99%
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“…Native ChIP-seq data generation Native chromatin immunoprecipitation (ChIP) was performed as previously described (Pradeepa et al 2016) with some modifications. Specifically, ∼20 mg of frozen brain and liver tissue sample from Anolis was ground in liquid nitrogen into fine powder.…”
Section: Genome Data Generationmentioning
confidence: 99%