Publication date: 5 September 2017
Source:Cell Reports, Volume 20, Issue 10
Author(s): David A. Brown, Vincenzo Di Cerbo, Angelika Feldmann, Jaewoo Ahn, Shinsuke Ito, Neil P. Blackledge, Manabu Nakayama, Michael McClellan, Emilia Dimitrova, Anne H. Turberfield, Hannah K. Long, Hamish W. King, Skirmantas Kriaucionis, Lothar Schermelleh, Tatiana G. Kutateladze, Haruhiko Koseki, Robert J. Klose
Chromatin modifications and the promoter-associated epigenome are important for the regulation of gene expression. However, the mechanisms by which chromatin-modifying complexes are targeted to the appropriate gene promoters in vertebrates and how they influence gene expression have remained poorly defined. Here, using a combination of live-cell imaging and functional genomics, we discover that the vertebrate SET1 complex is targeted to actively transcribed gene promoters through CFP1, which engages in a form of multivalent chromatin reading that involves recognition of non-methylated DNA and histone H3 lysine 4 trimethylation (H3K4me3). CFP1 defines SET1 complex occupancy on chromatin, and its multivalent interactions are required for the SET1 complex to place H3K4me3. In the absence of CFP1, gene expression is perturbed, suggesting that normal targeting and function of the SET1 complex are central to creating an appropriately functioning vertebrate promoter-associated epigenome.
Graphical abstract
Teaser
Brown et al. show that the SET1 complex is driven to active CpG island promoters via the CFP1 protein, which engages in multivalent chromatin binding to recognize both non-methylated DNA and H3K4me3. This is necessary for normal H3K4me3 at active gene promoters and appropriate regulation of gene expression.http://ift.tt/2f1I724
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