DNA methylation requires a DNMT1 ubiquitin interacting motif （UIM） and histone ubiquitination

DNMT1 is recruited by PCNA and UHRF1 to maintain DNA methylation after replication. UHRF1 recognizes hemimethylated DNA substrates via the SRA domain, but also repressive H3K9me3 histone marks with its TTD. With systematic mutagenesis and functional assays, we could show that chromatin binding furth...

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Veröffentlicht in:	细胞研究：英文版 2015 (8), p.911-929
1. Verfasser:	Weihua Qin Patricia Wolf Nan Liu Stephanie Link Martha Smets Federica La Mastra Ignasi Forne Garwin Pichler David Horl Karin Fellinger Fabio Spada Ian Marc Bonapace Axel Imhof Hartmann Harz Heinrich Leonhardt
Format:	Artikel
Sprache:	eng
Schlagworte:	DNA甲基化 UIM 哺乳动物细胞基因标记泛素化相互作用突变分析组蛋白
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container_issue	8
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container_title	细胞研究：英文版
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creator	Weihua Qin Patricia Wolf Nan Liu Stephanie Link Martha Smets Federica La Mastra Ignasi Forne Garwin Pichler David Horl Karin Fellinger Fabio Spada Ian Marc Bonapace Axel Imhof Hartmann Harz Heinrich Leonhardt
description	DNMT1 is recruited by PCNA and UHRF1 to maintain DNA methylation after replication. UHRF1 recognizes hemimethylated DNA substrates via the SRA domain, but also repressive H3K9me3 histone marks with its TTD. With systematic mutagenesis and functional assays, we could show that chromatin binding further involved UHRF1 PHD binding to unmodified H3R2. These complementation assays clearly demonstrated that the ubiquitin ligase activity of the UHRF1 RING domain is required for maintenance DNA methylation. Mass spectrometry of UHRF1-deficient cells revealed H3K18 as a novel ubiquitination target of UHRF1 in mammalian cells. With bioinformatics and mutational analyses, we identified a nbiquitin interacting motif （UIM） in the N-terminal regulatory domain of DNMT1 that binds to ubiquitinated H3 tails and is essential for DNA methylation in vivo. H3 ubiquitination and subsequent DNA methylation required UHRF1 PHD binding to H3R2. These results show the manifold regulatory mechanisms controlling DNMT1 activity that require the reading and writing of epigenetic marks by UHRF1 and illustrate the multifaceted interplay between DNA and histone modifications. The identification and functional characterization of the DNMT1 UIM suggests a novel regulatory principle and we speculate that histone H2AK119 ubiquitination might also lead to UIM-dependent recruitment of DNMT1 and DNA methylation beyond classic maintenance.
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UHRF1 recognizes hemimethylated DNA substrates via the SRA domain, but also repressive H3K9me3 histone marks with its TTD. With systematic mutagenesis and functional assays, we could show that chromatin binding further involved UHRF1 PHD binding to unmodified H3R2. These complementation assays clearly demonstrated that the ubiquitin ligase activity of the UHRF1 RING domain is required for maintenance DNA methylation. Mass spectrometry of UHRF1-deficient cells revealed H3K18 as a novel ubiquitination target of UHRF1 in mammalian cells. With bioinformatics and mutational analyses, we identified a nbiquitin interacting motif （UIM） in the N-terminal regulatory domain of DNMT1 that binds to ubiquitinated H3 tails and is essential for DNA methylation in vivo. H3 ubiquitination and subsequent DNA methylation required UHRF1 PHD binding to H3R2. These results show the manifold regulatory mechanisms controlling DNMT1 activity that require the reading and writing of epigenetic marks by UHRF1 and illustrate the multifaceted interplay between DNA and histone modifications. 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source	Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals; PubMed Central; SpringerLink Journals - AutoHoldings
subjects	DNA甲基化 UIM 哺乳动物细胞基因标记泛素化相互作用突变分析组蛋白
title	DNA methylation requires a DNMT1 ubiquitin interacting motif （UIM） and histone ubiquitination
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