Genome-wide mapping and analysis of active promoters in mouse embryonic stem cells and adult organs.

TitleGenome-wide mapping and analysis of active promoters in mouse embryonic stem cells and adult organs.
Publication TypeJournal Article
Year of Publication2008
AuthorsBarrera LO, Li Z, Smith AD, Arden KC, Cavenee WK, Zhang MQ, Green RD, Ren B
JournalGenome Res
Volume18
Issue1
Pagination46-59
Date Published2008 Jan
ISSN1088-9051
KeywordsAnimals, Cell Differentiation, Chromatin, Chromosome Mapping, CpG Islands, Embryonic Stem Cells, Female, Gene Expression Regulation, Genome, Mice, Organ Specificity, Pluripotent Stem Cells, Promoter Regions, Genetic, RNA Polymerase II
Abstract

By integrating genome-wide maps of RNA polymerase II (Polr2a) binding with gene expression data and H3ac and H3K4me3 profiles, we characterized promoters with enriched activity in mouse embryonic stem cells (mES) as well as adult brain, heart, kidney, and liver. We identified approximately 24,000 promoters across these samples, including 16,976 annotated mRNA 5' ends and 5153 additional sites validating cap-analysis of gene expression (CAGE) 5' end data. We showed that promoters with CpG islands are typically non-tissue specific, with the majority associated with Polr2a and the active chromatin modifications in nearly all the tissues examined. By contrast, the promoters without CpG islands are generally associated with Polr2a and the active chromatin marks in a tissue-dependent way. We defined 4396 tissue-specific promoters by adapting a quantitative index of tissue-specificity based on Polr2a occupancy. While there is a general correspondence between Polr2a occupancy and active chromatin modifications at the tissue-specific promoters, a subset of them appear to be persistently marked by active chromatin modifications in the absence of detectable Polr2a binding, highlighting the complexity of the functional relationship between chromatin modification and gene expression. Our results provide a resource for exploring promoter Polr2a binding and epigenetic states across pluripotent and differentiated cell types in mammals.

DOI10.1101/gr.6654808
PubMed URLhttp://www.ncbi.nlm.nih.gov/pubmed/18042645?dopt=Abstract
PMCPMC2134779
Alternate JournalGenome Res.
PubMed ID18042645