2021
Single cell epigenetic visualization assay
Kint S, Van Criekinge W, Vandekerckhove L, De Vos WH, Bomsztyk K, Krause DS, Denisenko O. Single cell epigenetic visualization assay. Nucleic Acids Research 2021, 49: e43-e43. PMID: 33511400, PMCID: PMC8096246, DOI: 10.1093/nar/gkab009.Peer-Reviewed Original ResearchMeSH Keywords5-MethylcytosineAcetylationCell LineDNA MethylationEarly Growth Response Protein 1Epigenesis, GeneticEpigenomicsFemaleGene Expression RegulationGene SilencingHistonesHIV-1HumansImage Processing, Computer-AssistedIn Situ Hybridization, FluorescenceProvirusesReal-Time Polymerase Chain ReactionRNA, Long NoncodingSingle-Cell AnalysisConceptsEpigenetic marksEpigenetic statusGene allelesFemale somatic cellsCurrent sequencing approachesGene of interestGene-specific oligonucleotidesQuantitative fluorescent readoutTranscription stateRNA FISHHuman cell linesSomatic cellsTranscription statusTarget genesSequencing approachH3K9ac levelsDifferent genesGenesIndividual cellsAntibody-conjugated alkaline phosphataseDNA oligosSingle cellsCell linesSame cellsFluorescent readout
1997
Multilineage gene expression precedes commitment in the hemopoietic system.
Hu M, Krause D, Greaves M, Sharkis S, Dexter M, Heyworth C, Enver T. Multilineage gene expression precedes commitment in the hemopoietic system. Genes & Development 1997, 11: 774-785. PMID: 9087431, DOI: 10.1101/gad.11.6.774.Peer-Reviewed Original ResearchConceptsGene expression programsMultilineage gene expressionLineage specificationExpression programsGene activityLocus activationMultipotential stateGene expressionCytokine receptorsHemopoietic stemGranulocytic lineageProgenitor cellsSingle-cell RT-PCRSame cellsHemopoietic systemRT-PCRExclusive commitmentCell RT-PCRCellsLineagesCoexpressionDifferentiationExpressionStemActivation