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High-resolution targeted 3C interrogation of cis-regulatory element organization at genome-wide scale

Damien J. Downes, Robert A. Beagrie, Matthew Gosden, Jelena Telenius, Stephanie J. Carpenter, Lea Nußbaum, Sara De Ornellas, Martin J. Sergeant, Chris Eijsbouts, Ron Schweßinger, Jon Kerry, Nigel Roberts, Arun Shivalingam, Afaf H. El‐Sagheer, A. Marieke Oudelaar, Tom Brown, Veronica J. Buckle, James Davies, Jim R. Hughes

2021Nature Communications47 citationsDOIOpen Access PDF

Abstract

Chromosome conformation capture (3C) provides an adaptable tool for studying diverse biological questions. Current 3C methods generally provide either low-resolution interaction profiles across the entire genome, or high-resolution interaction profiles at limited numbers of loci. Due to technical limitations, generation of reproducible high-resolution interaction profiles has not been achieved at genome-wide scale. Here, to overcome this barrier, we systematically test each step of 3C and report two improvements over current methods. We show that up to 30% of reporter events generated using the popular in situ 3C method arise from ligations between two individual nuclei, but this noise can be almost entirely eliminated by isolating intact nuclei after ligation. Using Nuclear-Titrated Capture-C, we generate reproducible high-resolution genome-wide 3C interaction profiles by targeting 8055 gene promoters in erythroid cells. By pairing high-resolution 3C interaction calls with nascent gene expression we interrogate the role of promoter hubs and super-enhancers in gene regulation.

Topics & Concepts

GenomeEnhancerChromosome conformation captureComputational biologyBiologyGeneReporter genePromoterRegulatory sequenceResolution (logic)PairingGeneticsRegulation of gene expressionGene expressionPhysicsComputer scienceSuperconductivityArtificial intelligenceQuantum mechanicsGenomics and Chromatin DynamicsRNA Research and SplicingRNA and protein synthesis mechanisms
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