Jason Ernst scite author profile

The reference human genome sequence set the stage for studies of genetic variation and its association with human disease, but a similar reference has lacked for epigenomic studies. To address this need, the NIH Roadmap Epigenomics Consortium generated the largest collection to-date of human epigenomes for primary cells and tissues. Here, we describe the integrative analysis of 111 reference human epigenomes generated as part of the program, profiled for histone modification patterns, DNA accessibility, DNA methylation, and RNA expression. We establish global maps of regulatory elements, define regulatory modules of coordinated activity, and their likely activators and repressors. We show that disease and trait-associated genetic variants are enriched in tissue-specific epigenomic marks, revealing biologically-relevant cell types for diverse human traits, and providing a resource for interpreting the molecular basis of human disease. Our results demonstrate the central role of epigenomic information for understanding gene regulation, cellular differentiation, and human disease.

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Mapping and analysis of chromatin state dynamics in nine human cell types

Ernst

Kheradpour

Mikkelsen

et al. 2011

Nature

2,713

175

3,124

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Chromatin profiling has emerged as a powerful means for genome annotation and detection of regulatory activity. Here we map nine chromatin marks across nine cell types to systematically characterize regulatory elements, their cell type-specificities, and their functional interactions. Focusing on cell type-specific patterns of promoters and enhancers, we define multi-cell activity profiles for chromatin state, gene expression, regulatory motif enrichment, and regulator expression. We use correlations between these profiles to link enhancers to putative target genes, and predict the cell type-specific activators and repressors that modulate them. The resulting annotations and regulatory predictions have implications for interpreting genome-wide association studies. Top-scoring disease SNPs are frequently positioned within enhancer elements specifically active in relevant cell types, and in some cases affect a motif instance for a predicted regulator, thus proposing a mechanism for the association. Our study presents a general framework for deciphering cis-regulatory connections and their roles in disease.

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ChromHMM: automating chromatin-state discovery and characterization

2012

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Comprehensive analysis of the chromatin landscape in Drosophila melanogaster

Kharchenko

Alekseyenko

Schwartz

et al. 2010

Nature

822

1,076

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Summary Chromatin is composed of DNA and a variety of modified histones and non-histone proteins, which impact cell differentiation, gene regulation and other key cellular processes. We present a genome-wide chromatin landscape for Drosophila melanogaster based on 18 histone modifications, summarized by 9 prevalent combinatorial patterns. Integrative analysis with other data (non-histone chromatin proteins, DNaseI hypersensitivity, GRO-seq reads produced by engaged polymerase, short/long RNA products) reveals discrete characteristics of chromosomes, genes, regulatory elements, and other functional domains. We find that active genes display distinct chromatin signatures that are correlated with disparate gene lengths, exon patterns, regulatory functions, and genomic contexts. We also demonstrate a diversity of signatures among Polycomb targets that include a subset with paused polymerase. This systematic profiling and integrative analysis of chromatin signatures provides insights into how genomic elements are regulated, and will serve as a resource for future experimental investigations of genome structure and function.

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Jason Ernst

Integrative analysis of 111 reference human epigenomes

Mapping and analysis of chromatin state dynamics in nine human cell types

ChromHMM: automating chromatin-state discovery and characterization

Comprehensive analysis of the chromatin landscape in Drosophila melanogaster

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