Genome-scale DNA methylation maps of pluripotent and differentiated cells
Alexander Meissner,Tarjei S. Mikkelsen,Tarjei S. Mikkelsen,Hongcang Gu,Marius Wernig,Jacob H. Hanna,Andrey Sivachenko,Xiaolan Zhang,Bradley E. Bernstein,Bradley E. Bernstein,Chad Nusbaum,David B. Jaffe,Andreas Gnirke,Rudolf Jaenisch,Eric S. Lander +14 more
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TLDR
Low-throughput reduced representation bisulphite sequencing is established as a powerful technology for epigenetic profiling of cell populations relevant to developmental biology, cancer and regenerative medicine.Abstract:
DNA methylation is essential for normal development and has been implicated in many pathologies including cancer. Our knowledge about the genome-wide distribution of DNA methylation, how it changes during cellular differentiation and how it relates to histone methylation and other chromatin modifications in mammals remains limited. Here we report the generation and analysis of genome-scale DNA methylation profiles at nucleotide resolution in mammalian cells. Using high-throughput reduced representation bisulphite sequencing and single-molecule-based sequencing, we generated DNA methylation maps covering most CpG islands, and a representative sampling of conserved non-coding elements, transposons and other genomic features, for mouse embryonic stem cells, embryonic-stem-cell-derived and primary neural cells, and eight other primary tissues. Several key findings emerge from the data. First, DNA methylation patterns are better correlated with histone methylation patterns than with the underlying genome sequence context. Second, methylation of CpGs are dynamic epigenetic marks that undergo extensive changes during cellular differentiation, particularly in regulatory regions outside of core promoters. Third, analysis of embryonic-stem-cell-derived and primary cells reveals that 'weak' CpG islands associated with a specific set of developmentally regulated genes undergo aberrant hypermethylation during extended proliferation in vitro, in a pattern reminiscent of that reported in some primary tumours. More generally, the results establish reduced representation bisulphite sequencing as a powerful technology for epigenetic profiling of cell populations relevant to developmental biology, cancer and regenerative medicine.read more
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Human DNA methylomes at base resolution show widespread epigenomic differences
Ryan Lister,Mattia Pelizzola,Robert H. Dowen,R. David Hawkins,Gary C. Hon,Julian Tonti-Filippini,Joseph R. Nery,Leonard Lee,Zhen Ye,Que Minh Ngo,Lee Edsall,Jessica Antosiewicz-Bourget,Jessica Antosiewicz-Bourget,Ron Stewart,Ron Stewart,Victor Ruotti,Victor Ruotti,A. Harvey Millar,James A. Thomson,Bing Ren,Bing Ren,Joseph R. Ecker +21 more
TL;DR: The first genome-wide, single-base-resolution maps of methylated cytosines in a mammalian genome, from both human embryonic stem cells and fetal fibroblasts, along with comparative analysis of messenger RNA and small RNA components of the transcriptome, several histone modifications, and sites of DNA-protein interaction for several key regulatory factors were presented in this article.
Journal ArticleDOI
Histone H3K27ac separates active from poised enhancers and predicts developmental state
Menno P. Creyghton,Albert W. Cheng,G. Grant Welstead,Tristan Kooistra,Bryce W. Carey,Eveline J. Steine,Jacob H. Hanna,Michael A. Lodato,Garrett M. Frampton,Phillip A. Sharp,Laurie A. Boyer,Richard A. Young,Rudolf Jaenisch +12 more
TL;DR: The epigenetic landscape of enhancer elements in embryonic stem cells and several adult tissues in the mouse is interrogated and it is found that histone H3K27ac distinguishes active enhancers from inactive/poised enhancers and poised enhancer networks provide clues to unrealized developmental programs.
Journal ArticleDOI
Establishing, maintaining and modifying DNA methylation patterns in plants and animals
Julie A. Law,Steven E. Jacobsen +1 more
TL;DR: Drawing on insights from both plants and animals should deepen the understanding of the regulation and biological significance of DNA methylation.
Journal ArticleDOI
The Polycomb complex PRC2 and its mark in life
Raphaël Margueron,Danny Reinberg +1 more
TL;DR: This work has uncovered a role for non-coding RNA in the recruitment of PRC2 to target genes, and expanded the perspectives on its function and regulation.
Journal ArticleDOI
CpG Islands and the Regulation of Transcription
Aimee M. Deaton,Adrian Bird +1 more
TL;DR: Vertebrate CpG islands are generically equipped to influence local chromatin structure and simplify regulation of gene activity.
References
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TL;DR: The application of single-molecule-based sequencing technology for high-throughput profiling of histone modifications in mammalian cells is reported and it is shown that chromatin state can be read in an allele-specific manner by using single nucleotide polymorphisms.
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TL;DR: Insight is given into the connections between chromatin modifications and transcriptional regulatory activity and a novel functional enhancer for the carnitine transporter SLC22A5 (OCTN2) is uncovered, providing a new tool for the functional annotation of the human genome.
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