2013
Functional genomic screen of human stem cell differentiation reveals pathways involved in neurodevelopment and neurodegeneration
Zhang Y, Schulz VP, Reed BD, Wang Z, Pan X, Mariani J, Euskirchen G, Snyder MP, Vaccarino FM, Ivanova N, Weissman SM, Szekely AM. Functional genomic screen of human stem cell differentiation reveals pathways involved in neurodevelopment and neurodegeneration. Proceedings Of The National Academy Of Sciences Of The United States Of America 2013, 110: 12361-12366. PMID: 23836664, PMCID: PMC3725080, DOI: 10.1073/pnas.1309725110.Peer-Reviewed Original ResearchConceptsHuman embryonic stem cellsFunctional genomic screensGenomic screenUndifferentiated human embryonic stem cellsNeural lineage developmentSet of genesHuman stem cell differentiationProgenitor cell formationEmbryonic stem cellsStem cell differentiationRNA library screenNeuronal progenitor cellsLate-onset neurodegenerative disorderUnpredicted genesRNA granulesNext-generation sequencingSelf-renewal capacityLineage developmentComplex inheritanceShRNA libraryEarly neurogenesisLibrary screenParallel sequencingCell differentiationGenes
2012
Pooled Short Hairpin (shRNA) Library Screen Coupled with Next-Generation Sequencing Efficiently Uncover Transcriptional Network in Neural Lineage Development of Human Embryonic Stem Cells (IN8-1.009)
Szekely A, Zhang Y, Reed B, Schulz V, Wang Z, Euskirchen G, Snyder M, Ivanova N, Weissman S. Pooled Short Hairpin (shRNA) Library Screen Coupled with Next-Generation Sequencing Efficiently Uncover Transcriptional Network in Neural Lineage Development of Human Embryonic Stem Cells (IN8-1.009). Neurology 2012, 78: in8-1.009-in8-1.009. DOI: 10.1212/wnl.78.1_meetingabstracts.in8-1.009.Peer-Reviewed Original ResearchPooled Short Hairpin (shRNA) Library Screen Coupled with Next-Generation Sequencing Efficiently Uncover Transcriptional Network in Neural Lineage Development of Human Embryonic Stem Cells (P02.016)
Szekely A, Zhang Y, Reed B, Schulz V, Wang Z, Euskirchen G, Snyder M, Ivanova N, Weissman S. Pooled Short Hairpin (shRNA) Library Screen Coupled with Next-Generation Sequencing Efficiently Uncover Transcriptional Network in Neural Lineage Development of Human Embryonic Stem Cells (P02.016). Neurology 2012, 78: p02.016-p02.016. DOI: 10.1212/wnl.78.1_meetingabstracts.p02.016.Peer-Reviewed Original Research
2010
Dynamic transcriptomes during neural differentiation of human embryonic stem cells revealed by short, long, and paired-end sequencing
Wu JQ, Habegger L, Noisa P, Szekely A, Qiu C, Hutchison S, Raha D, Egholm M, Lin H, Weissman S, Cui W, Gerstein M, Snyder M. Dynamic transcriptomes during neural differentiation of human embryonic stem cells revealed by short, long, and paired-end sequencing. Proceedings Of The National Academy Of Sciences Of The United States Of America 2010, 107: 5254-5259. PMID: 20194744, PMCID: PMC2841935, DOI: 10.1073/pnas.0914114107.Peer-Reviewed Original ResearchConceptsNeural differentiationUndifferentiated hESCsNeural fate specificationCell identity maintenanceStage-specific regulationHuman embryonic stem cellsTypes of genesPaired-end sequencingDifferentiation of hESCsEmbryonic stem cellsPaired-end readsNeural cell differentiationSplicing dynamicsFate specificationDynamic transcriptomeIsoform diversityTranscriptome changesUnannotated transcriptsGene transcriptionRNA sequencingStages of differentiationNeural lineagesCell differentiationDifferential expressionGliogenic potential