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Principles of 3D compartmentalization of the human genome

Michael H. Nichols, Victor G. Corces

2021Cell Reports112 citationsDOIOpen Access PDF

Abstract

Chromatin is organized in the nucleus via CTCF loops and compartmental domains. Here, we compare different cell types to identify distinct paradigms of compartmental domain formation in human tissues. We identify and quantify compartmental forces correlated with histone modifications characteristic of transcriptional activity and previously underappreciated roles for distinct compartmental domains correlated with the presence of H3K27me3 and H3K9me3, respectively. We present a computer simulation model capable of predicting compartmental organization based on the biochemical characteristics of independent chromatin features. Using this model, we show that the underlying forces responsible for compartmental domain formation in human cells are conserved and that the diverse compartmentalization patterns seen across cell types are due to differences in chromatin features. We extend these findings to Drosophila to suggest that the same principles are at work beyond humans. These results offer mechanistic insights into the fundamental forces driving the 3D organization of the genome.

Topics & Concepts

ChromatinCompartmentalization (fire protection)CTCFBiologyHistoneComputational biologyGenomeReplication timingDomain (mathematical analysis)Genomic organizationHuman cellHuman genomeCell biologyCell typeGeneticsCellGeneGene expressionEnhancerMathematical analysisMathematicsBiochemistryEnzymeGenomics and Chromatin DynamicsRNA Research and SplicingPlant Molecular Biology Research