Epigenetic memory at embryonic enhancers identified in DNA methylation maps from adult mouse tissues
TLDR
By mapping base-resolution methylomes in adult mouse tissues at shallow coverage, this work identifies 302,864 tissue-specific differentially methylated regions (tsDMRs) and estimates that >6.7% of the mouse genome is variably methylated, and suggests that epigenetic memory of embryonic development may be retained in adult tissues.Abstract:
Mammalian development requires cytosine methylation, a heritable epigenetic mark of cellular memory believed to maintain a cell's unique gene expression pattern. However, it remains unclear how dynamic DNA methylation relates to cell type-specific gene expression and animal development. Here, by mapping base-resolution methylomes in 17 adult mouse tissues at shallow coverage, we identify 302,864 tissue-specific differentially methylated regions (tsDMRs) and estimate that >6.7% of the mouse genome is variably methylated. Supporting a prominent role for DNA methylation in gene regulation, most tsDMRs occur at distal cis-regulatory elements. Unexpectedly, some tsDMRs mark enhancers that are dormant in adult tissues but active in embryonic development. These 'vestigial' enhancers are hypomethylated and lack active histone modifications in adult tissues but nevertheless exhibit activity during embryonic development. Our results provide new insights into the role of DNA methylation at tissue-specific enhancers and suggest that epigenetic memory of embryonic development may be retained in adult tissues.read more
Citations
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DissertationDOI
Systematic analysis of enhancer and promoter interactions
TL;DR: This work develops and characterize multiple genomic features for distinguishing true EP pairs from noninteracting pairs and integrates these features into a probabilistic predictor for EP interactions.
Journal ArticleDOI
Active DNA demethylation of developmental <i>cis</i> -regulatory regions predates vertebrate origins
TL;DR: In this paper , the authors used base-resolution 5mC and 5hmC quantification during sea urchin and lancelet embryogenesis to shed light on the roles of non-vertebrate enzymes for demethylation of regulatory regions associated with developmental genes.
Posted ContentDOI
Active DNA demethylation of developmental cis-regulatory regions predates vertebrate origins
Ksenia Skvortsova,Ksenia Skvortsova,Stéphanie Bertrand,Danila Voronov,Paul Edward Duckett,Samuel E. Ross,Samuel E. Ross,Marta Silvia Magri,Ignacio Maeso,Robert J. Weatheritt,José Luis Gómez Skarmeta,Maria Ina Arnone,Hector Escriva,Ozren Bogdanovic,Ozren Bogdanovic +14 more
TL;DR: In this paper, the role of 5hmC and TET enzymes in deuterostome embryogenesis was investigated and it was shown that active 5mC removal from regulatory regions is a common feature of non-vertebrate embryogenesis, suggesting deep conservation of a major gene-regulatory module.
DNA methylation in human development : methodologies and analytics for genome-wide studies
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Journal ArticleDOI
Distribution of 5-methylcytosine and 5-hydroxymethylcytosine in bovine fetal tissue of the placenta
Anelise dos Santos Mendonça,Anelise dos Santos Mendonça,Thiago Felipe Braga,E. O. Melo,Margot Alves Nunes Dode,Maurício Machaim Franco +5 more
TL;DR: For the first time, the levels of 5-mC and 5-hmC in Bos taurus indicus were characterized, which may contribute to the understanding of the mechanisms of epigenetic regulation in the placenta.
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