2020
Current understanding of human megakaryocytic-erythroid progenitors and their fate determinants.
Kwon N, Thompson EN, Mayday MY, Scanlon V, Lu YC, Krause DS. Current understanding of human megakaryocytic-erythroid progenitors and their fate determinants. Current Opinion In Hematology 2020, 28: 28-35. PMID: 33186151, PMCID: PMC7737300, DOI: 10.1097/moh.0000000000000625.Peer-Reviewed Original ResearchConceptsMegakaryocyte-erythroid progenitorsFate decisionsCell fate decisionsMegakaryocytic-erythroid progenitorsGene expression patternsProgenitor cell biologyFate determinantsFate determinationCurrent understandingTranscription factorsCell biologyExpression patternsPluripotent progenitorsProgenitorsModel systemExtrinsic factorsBiologyDisease statesFateDevelopment leadEpigeneticsMegakaryocytesUnderstandingDiscoveryIsolation
2019
Single-cell microRNA-mRNA co-sequencing reveals non-genetic heterogeneity and mechanisms of microRNA regulation
Wang N, Zheng J, Chen Z, Liu Y, Dura B, Kwak M, Xavier-Ferrucio J, Lu YC, Zhang M, Roden C, Cheng J, Krause DS, Ding Y, Fan R, Lu J. Single-cell microRNA-mRNA co-sequencing reveals non-genetic heterogeneity and mechanisms of microRNA regulation. Nature Communications 2019, 10: 95. PMID: 30626865, PMCID: PMC6327095, DOI: 10.1038/s41467-018-07981-6.Peer-Reviewed Original ResearchConceptsSame single cellMicroRNA-mRNASingle cellsGenome-scale analysisNon-genetic cellNon-genetic heterogeneityMultiple omic profilesGenomic approachesMicroRNA regulationMolecular regulationTarget mRNAsExpression variabilityCellular pathwaysRegulatory relationshipsLevels of microRNAsIntercellular heterogeneityOmics profilesIntercellular variabilityCell heterogeneityMRNA profilesMicroRNAsMRNACellsRegulationExpression