2023
Phenotypic and proteomic characterization of the human erythroid progenitor continuum reveal dynamic changes in cell cycle and in metabolic pathways
Papoin J, Yan H, Leduc M, Le Gall M, Narla A, Palis J, Steiner L, Gallagher P, Hillyer C, Gautier E, Mohandas N, Blanc L. Phenotypic and proteomic characterization of the human erythroid progenitor continuum reveal dynamic changes in cell cycle and in metabolic pathways. American Journal Of Hematology 2023, 99: 99-112. PMID: 37929634, PMCID: PMC10877306, DOI: 10.1002/ajh.27145.Peer-Reviewed Original ResearchConceptsErythroid progenitor differentiationCell cycleErythroid progenitorsProgenitor differentiationMass spectrometry-based proteomicsFurther functional analysisSpectrometry-based proteomicsHuman erythroid progenitorsProtein machineryErythroid progenitor proliferationTerminal erythropoiesisProteomic characterizationHematopoietic stem cellsProteomic dataProgenitor populationsHuman erythropoiesisReticulocyte maturationFunctional analysisErythroid lineageOxidative phosphorylationProgenitor proliferationErythroid disordersMetabolic pathwaysAbsolute expressionStem cellsPhenotypic and Proteomic Characterization of the Human Erythroid Progenitor Continuum Reveal Dynamic Changes in Cell Cycle and in Metabolic Pathways
Papoin J, Yan H, Leduc M, le-Gall M, Narla A, Steiner L, Gallagher P, Hillyer C, Gauthier E, Narla M, Blanc L. Phenotypic and Proteomic Characterization of the Human Erythroid Progenitor Continuum Reveal Dynamic Changes in Cell Cycle and in Metabolic Pathways. Blood 2023, 142: 2455. DOI: 10.1182/blood-2023-189566.Peer-Reviewed Original ResearchCell cycleFaster cycling cellsProgenitor differentiationProgenitor populationsOxidative phosphorylationMass spectrometry-based proteomicsErythroid progenitorsS phaseProtein copy numbersSpectrometry-based proteomicsErythroid progenitor differentiationCycle-related genesG2/MTerminal erythropoiesisProgenitor biologyProteomic characterizationHematopoietic stem cellsE2F membersHuman erythropoiesisHuman bone marrowFunctional analysisErythroid lineageMurine erythropoiesisMetabolic pathwaysS transition
2014
Nonstochastic Reprogramming from a Privileged Somatic Cell State
Guo S, Zi X, Schulz VP, Cheng J, Zhong M, Koochaki SH, Megyola CM, Pan X, Heydari K, Weissman SM, Gallagher PG, Krause DS, Fan R, Lu J. Nonstochastic Reprogramming from a Privileged Somatic Cell State. Cell 2014, 156: 649-662. PMID: 24486105, PMCID: PMC4318260, DOI: 10.1016/j.cell.2014.01.020.Peer-Reviewed Original ResearchConceptsSomatic cell stateCell statesAcquisition of pluripotencyMurine hematopoietic progenitorsEndogenous Oct4Cell cycle accelerationNonstochastic mannerSomatic cellsProgeny cellsPluripotent fateYamanaka factorsCell cycleHematopoietic progenitorsP53 knockdownPluripotencyReprogrammingCycling populationFactor expressionCellsFibroblastsImportant bottleneckKnockdownProgenitorsFateExpression
2006
Defects in E2F1/2 Expression Are Associated with Abnormalities in Cell Cycle and Differentiation in EKLF-Deficient Erythroid Cells.
Pilon A, Arcasoy M, Vayda S, Dressman H, Bieker J, Bodine D, Gallagher P. Defects in E2F1/2 Expression Are Associated with Abnormalities in Cell Cycle and Differentiation in EKLF-Deficient Erythroid Cells. Blood 2006, 108: 84. DOI: 10.1182/blood.v108.11.84.84.Peer-Reviewed Original ResearchHypersensitive sitesErythroid cellsMicroarray analysisCell cycleNumerous genesMature erythroblastsGel mobility shift assaysMicroarray dataFL cellsTranscription factor EKLFCell cycle controlMobility shift assaysΒ-globin expressionIngenuity Pathway AnalysisImmature erythroid cellsPrevious microarray analysisPrevious microarray dataE2F proteinsDefinitive erythropoiesisDNA replicationTranscription factorsColony forming assaysEKLFShift assaysTarget genes