2014
DOI: 10.1016/j.molcel.2014.04.006
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Coregulation of Transcription Factor Binding and Nucleosome Occupancy through DNA Features of Mammalian Enhancers

Abstract: Transcription factors (TFs) preferentially bind sites contained in regions of computationally predicted high nucleosomal occupancy, suggesting that nucleosomes are gatekeepers of TF binding sites. However, because of their complexity mammalian genomes contain millions of randomly occurring, unbound TF consensus binding sites. We hypothesized that the information controlling nucleosome assembly may coincide with the information that enables TFs to bind cis-regulatory elements while ignoring randomly occurring s… Show more

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Cited by 205 publications
(219 citation statements)
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References 57 publications
(91 reference statements)
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“…2B). These data are in agreement with previous reports from yeast to humans that TFs compete with nucleosomes for access to DNA (Wang et al 2012;Ozonov and van Nimwegen 2013;Barozzi et al 2014). To further investigate the relationship …”
Section: Trans-factors Increase Nucleosome Fragilitysupporting
confidence: 92%
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“…2B). These data are in agreement with previous reports from yeast to humans that TFs compete with nucleosomes for access to DNA (Wang et al 2012;Ozonov and van Nimwegen 2013;Barozzi et al 2014). To further investigate the relationship …”
Section: Trans-factors Increase Nucleosome Fragilitysupporting
confidence: 92%
“…2B). These data are in agreement with previous reports from yeast to humans that TFs compete with nucleosomes for access to DNA (Wang et al 2012;Ozonov and van Nimwegen 2013;Barozzi et al 2014). To further investigate the relationship (Locke et al 2013) and computational nucleosome occupancy model scores (Kaplan et al 2009) Nucleosome fragility in C. elegans between TF binding and fragility, we broke TFBSs into groups depending on the number of TFs bound at a site.…”
Section: Trans-factors Increase Nucleosome Fragilitysupporting
confidence: 86%
“…Reprogramming from fibroblast to iPSCs (mouse/human) Inducing reprogramming Takahashi and Yamanaka 2006 Binding to chromatin that is nonhypersensitive and not premarked by common histone modifications in vivo Soufi et al 2012 (continued) Myeloid and lymphoid development (mouse/human) Increasing DNA accessibility in native chromatin Ghisletti et al 2010;Heinz et al 2010;Barozzi et al 2014 GATA4 Transdifferentiation from fibroblast to iHep (mouse)…”
Section: Updike and Mango 2006mentioning
confidence: 99%
“…PU.1 binding induces local nucleosome remodeling followed by the deposition of the active histone modification H3K4me1 (Heinz et al 2010). PU.1 also engages other lineage-determining transcription factors (Heinz et al 2010) and promotes overall nucleosome depletion (Barozzi et al 2014). Additionally, PU.1 binding contributes to endotoxin-induced transcriptional activation in macrophages (Ghisletti et al 2010).…”
Section: Pioneer Factors In Cell Programming During Developmentmentioning
confidence: 99%
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