2020
Clustered CTCF binding is an evolutionary mechanism to maintain topologically associating domains
Kentepozidou E, Aitken S, Feig C, Stefflova K, Ibarra-Soria X, Odom D, Roller M, Flicek P. Clustered CTCF binding is an evolutionary mechanism to maintain topologically associating domains. Genome Biology 2020, 21: 5. PMID: 31910870, PMCID: PMC6945661, DOI: 10.1186/s13059-019-1894-x.Peer-Reviewed Original ResearchConceptsTopologically associating domains boundariesTopologically associating domainsCTCF sitesCTCF bindingConservation of topologically associating domainsGenome-wide binding profilesHigher-order chromatin structureCTCF binding patternsCTCF ChIP-seqGene transcription start siteHigher-order genome structureCTCF binding sitesNatural genetic variationTranscription start siteSpecies-specific sitesCohesin stabilizationTAD boundariesChIP-seqGenomic structureStart siteChromatin structureTranscriptional regulationCTCFAssociation domainGenetic variation
2011
Unbiased Identification of Functional Barrier Insulators in Primary Human Erythroid Cells,
Steiner L, Schulz V, Maksimova Y, Seidel N, Bodine D, Gallagher P. Unbiased Identification of Functional Barrier Insulators in Primary Human Erythroid Cells,. Blood 2011, 118: 3385. DOI: 10.1182/blood.v118.21.3385.3385.Peer-Reviewed Original ResearchHuman erythroid cellsPrimary human erythroid cellsPosition-effect variegationInsulator functionErythroid cellsCpG methylationBarrier insulatorsGene promoterCell type-specific gene expressionRepressive histone mark H3K27me3Unbiased identificationParallel sequencingUpstream stimulatory factor proteinsCTCF ChIP-seqMethyl-Binding DomainGenome-wide bindingGenome-wide mapsRole of CTCFCell type-specific mannerGenome-wide scaleHistone mark H3K27me3Chicken erythroid cellsDirection of transcriptionMultiple regulatory proteinsChIP-seq studies
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