2017
Ritornello: high fidelity control-free chromatin immunoprecipitation peak calling
Stanton KP, Jin J, Lederman RR, Weissman SM, Kluger Y. Ritornello: high fidelity control-free chromatin immunoprecipitation peak calling. Nucleic Acids Research 2017, 45: e173-e173. PMID: 28981893, PMCID: PMC5716106, DOI: 10.1093/nar/gkx799.Peer-Reviewed Original ResearchConceptsChIP-seqNext-generation high-throughput DNA sequencing technologiesHigh-throughput DNA sequencing technologiesGenome-wide localizationGenome-wide scaleTF-binding sitesTranscription factor bindingDNA sequencing technologiesENCODE consortiumResultant readsChromatin immunoprecipitationReference genomeDiverse biological effectsModification eventsFactor bindingOmics techniquesSequencing technologiesOmics experimentsSequencing costsWide localizationPeak callingChip targetArtifactual peaksPeak callersBiological effects
2016
Identification of multi-loci hubs from 4C-seq demonstrates the functional importance of simultaneous interactions
Jiang T, Raviram R, Snetkova V, Rocha PP, Proudhon C, Badri S, Bonneau R, Skok JA, Kluger Y. Identification of multi-loci hubs from 4C-seq demonstrates the functional importance of simultaneous interactions. Nucleic Acids Research 2016, 44: 8714-8725. PMID: 27439714, PMCID: PMC5062970, DOI: 10.1093/nar/gkw568.Peer-Reviewed Original ResearchConceptsMulti-locus interactionsDNA FISHGene regulationChromosome conformation capture techniquesFunctional importancePairwise chromatin interactionsChromatin interactionsTranscriptional outputRegulatory elementsEnhancer elementsBiological settingsSame cellsSimultaneous interactionFishNew insightsEnhancerRegulationReceptor enhancerCapture techniquesInteractionTCRB