Dnmt1 has de novo activity targeted to transposable elements

被引:0
|
作者
Chuck Haggerty
Helene Kretzmer
Christina Riemenschneider
Abhishek Sampath Kumar
Alexandra L. Mattei
Nina Bailly
Judith Gottfreund
Pay Giesselmann
Raha Weigert
Björn Brändl
Pascal Giehr
René Buschow
Christina Galonska
Ferdinand von Meyenn
Melissa B. Pappalardi
Michael T. McCabe
Lars Wittler
Claudia Giesecke-Thiel
Thorsten Mielke
David Meierhofer
Bernd Timmermann
Franz-Josef Müller
Jörn Walter
Alexander Meissner
机构
[1] Max Planck Institute for Molecular Genetics,Department of Genome Regulation
[2] Freie Universität Berlin,Institute of Chemistry and Biochemistry
[3] Technische Universität Berlin,Institute of Biotechnology
[4] Harvard University,Department of Stem Cell and Regenerative Biology
[5] Harvard University,Department of Molecular and Cellular Biology
[6] Saarland University,Department of Genetics and Epigenetics
[7] Christian-Albrechts-Universität zu Kiel,undefined
[8] Department of Psychiatry and Psychotherapy,undefined
[9] Institute of Food,undefined
[10] Nutrition and Health,undefined
[11] ETH Zurich,undefined
[12] Microscopy and Cryo-electron Microscopy Service Group,undefined
[13] Max Planck Institute for Molecular Genetics,undefined
[14] Spatial Transcriptomics,undefined
[15] Part of 10x Genomics Inc,undefined
[16] Epigenetics Research Unit,undefined
[17] Oncology R&D,undefined
[18] GlaxoSmithKline,undefined
[19] Department of Developmental Genetics,undefined
[20] Max Planck Institute for Molecular Genetics,undefined
[21] Flow Cytometry Joint Facilities Scientific Service,undefined
[22] Max Planck Institute for Molecular Genetics,undefined
[23] Mass Spectrometry Joint Facilities Scientific Service,undefined
[24] Max Planck Institute for Molecular Genetics,undefined
[25] Sequencing Core Facility,undefined
[26] Max Planck Institute for Molecular Genetics,undefined
[27] Broad Institute of MIT and Harvard,undefined
来源
Nature Structural & Molecular Biology | 2021年 / 28卷
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摘要
DNA methylation plays a critical role during development, particularly in repressing retrotransposons. The mammalian methylation landscape is dependent on the combined activities of the canonical maintenance enzyme Dnmt1 and the de novo Dnmts, 3a and 3b. Here, we demonstrate that Dnmt1 displays de novo methylation activity in vitro and in vivo with specific retrotransposon targeting. We used whole-genome bisulfite and long-read Nanopore sequencing in genetically engineered methylation-depleted mouse embryonic stem cells to provide an in-depth assessment and quantification of this activity. Utilizing additional knockout lines and molecular characterization, we show that the de novo methylation activity of Dnmt1 depends on Uhrf1, and its genomic recruitment overlaps with regions that enrich for Uhrf1, Trim28 and H3K9 trimethylation. Our data demonstrate that Dnmt1 can catalyze DNA methylation in both a de novo and maintenance context, especially at retrotransposons, where this mechanism may provide additional stability for long-term repression and epigenetic propagation throughout development.
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页码:594 / 603
页数:9
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