2008
Correction of a splice-site mutation in the beta-globin gene stimulated by triplex-forming peptide nucleic acids
Chin JY, Kuan JY, Lonkar PS, Krause DS, Seidman MM, Peterson KR, Nielsen PE, Kole R, Glazer PM. Correction of a splice-site mutation in the beta-globin gene stimulated by triplex-forming peptide nucleic acids. Proceedings Of The National Academy Of Sciences Of The United States Of America 2008, 105: 13514-13519. PMID: 18757759, PMCID: PMC2533221, DOI: 10.1073/pnas.0711793105.Peer-Reviewed Original ResearchConceptsBeta-globin geneEndogenous beta-globin locusSplice site mutationHuman cellsPrimary hematopoietic progenitor cellsBeta-globin locusAltered helical structureHuman beta-globin geneSingle base pair changeSingle base-pair modificationTriplex-forming peptide nucleic acidsDonor DNA moleculesBase pair changesCell cycle stageDisease-related genesDonor DNA fragmentsNucleic acidsProper splicingSite-specific bindingSite-specific modificationMammalian cellsHematopoietic progenitor cellsDNA repairSecond intronGene locus
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