A Bivalent Chromatin Structure Marks Key Developmental Genes in Embryonic Stem Cells

Overview

Journal Cell

Publisher Cell Press

Specialty Cell Biology

Date 2006 Apr 25

PMID 16630819

Citations 2812

Authors

Bradley E Bernstein

Tarjei S Mikkelsen

Xiaohui Xie

Michael Kamal

Dana J Huebert

James Cuff

Ben Fry

Alex Meissner

Marius Wernig

Kathrin Plath

Rudolf Jaenisch

Alexandre Wagschal

Robert Feil

Stuart L Schreiber

Eric S Lander

Affiliations

Soon will be listed here.

Abstract

The most highly conserved noncoding elements (HCNEs) in mammalian genomes cluster within regions enriched for genes encoding developmentally important transcription factors (TFs). This suggests that HCNE-rich regions may contain key regulatory controls involved in development. We explored this by examining histone methylation in mouse embryonic stem (ES) cells across 56 large HCNE-rich loci. We identified a specific modification pattern, termed "bivalent domains," consisting of large regions of H3 lysine 27 methylation harboring smaller regions of H3 lysine 4 methylation. Bivalent domains tend to coincide with TF genes expressed at low levels. We propose that bivalent domains silence developmental genes in ES cells while keeping them poised for activation. We also found striking correspondences between genome sequence and histone methylation in ES cells, which become notably weaker in differentiated cells. These results highlight the importance of DNA sequence in defining the initial epigenetic landscape and suggest a novel chromatin-based mechanism for maintaining pluripotency.

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