2007
DOI: 10.1038/nsmb1338
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How chromatin-binding modules interpret histone modifications: lessons from professional pocket pickers

Abstract: Histones comprise the major protein component of chromatin, the scaffold in which the eukaryotic genome is packaged, and are subject to many types of post-translational modifications (PTMs), especially on their flexible tails. These modifications may constitute a 'histone code' and could be used to manage epigenetic information that helps extend the genetic message beyond DNA sequences. This proposed code, read in part by histone PTM-binding 'effector' modules and their associated complexes, is predicted to de… Show more

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Cited by 1,304 publications
(1,479 citation statements)
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References 147 publications
(248 reference statements)
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“…1B) [ 28 ]. Interestingly, recent reports provide strong support for the idea that PHD domains, including those of RAG2, are amongst the recognition modules utilized by the cell to "read" the histone code in its nucleus by selectively binding to tails of histone H3 with distinct posttranscriptional modifications [reviewed in 20,21,34 ].…”
Section: Resultsmentioning
confidence: 99%
“…1B) [ 28 ]. Interestingly, recent reports provide strong support for the idea that PHD domains, including those of RAG2, are amongst the recognition modules utilized by the cell to "read" the histone code in its nucleus by selectively binding to tails of histone H3 with distinct posttranscriptional modifications [reviewed in 20,21,34 ].…”
Section: Resultsmentioning
confidence: 99%
“…Methyl CpG binding proteins can bind methylated DNA and repress transcription (Bird and Wolffe, 1999;Yoon et al 2003;Kuzmichev et al 2004). In addition, specific modification of histones and binding of proteins that recognize these modifications can repress gene expression (Reviewed by Ruthenburg et al 2007 andTaverna et al 2007). The present study would predict that the rate of downregulation of maspin expression through these mechanisms is prolonged by the presence of FBS in the stromal cell cultures.…”
Section: Discussionmentioning
confidence: 99%
“…There are more than 100-amino acid residue-specific PTMs in a typical vertebrate cell (Tan et al, 2011), including mono (me1), di (me2)-, and tri (me3) methylation, acetylation and crotonylation, polyADP-ribosylation, and small protein (ubiquitin, SUMO) modification of specific lysine residues, as well as arginine (R) methylation and 'citrullination', serine (S) phosphorylation, tyrosine (T) hydroxylation, among others (Kouzarides, 2007;Tan et al, 2011;Taverna et al, 2007). These site-and residue-specific PTMs show close association with the functional architecture of chromatin, differentiating between promoters and gene bodies, enhancer and other regulatory sequences, condensed heterochromatin (Zhou et al, 2011) (Figure 1).…”
Section: Histone Modificationsmentioning
confidence: 99%