2021
Dynamic innate immune response determines susceptibility to SARS-CoV-2 infection and early replication kinetics
Cheemarla NR, Watkins TA, Mihaylova VT, Wang B, Zhao D, Wang G, Landry ML, Foxman EF. Dynamic innate immune response determines susceptibility to SARS-CoV-2 infection and early replication kinetics. Journal Of Experimental Medicine 2021, 218: e20210583. PMID: 34128960, PMCID: PMC8210587, DOI: 10.1084/jem.20210583.Peer-Reviewed Original ResearchMeSH KeywordsAdultAgedAged, 80 and overAngiotensin-Converting Enzyme 2Case-Control StudiesChemokine CXCL10COVID-19Disease SusceptibilityFemaleGene Expression ProfilingHost-Pathogen InteractionsHumansImmunity, InnateInterferonsMaleMiddle AgedNasopharynxPicornaviridae InfectionsSARS-CoV-2Viral LoadVirus ReplicationConceptsSARS-CoV-2 infectionSARS-CoV-2 exposureSARS-CoV-2Interferon-stimulated genesUpper respiratory tractRespiratory tractEarly SARS-CoV-2 infectionDynamic innate immune responseViral replicationSARS-CoV-2 replicationPatient nasopharyngeal samplesInnate immune responseLow infectious doseViral loadNasopharyngeal samplesImmune responseInfectious doseISG responseAntiviral responseInfection progressionViral transmissionLevel correlatesInfectionISG inductionInitial replication
2017
Characteristics of allelic gene expression in human brain cells from single-cell RNA-seq data analysis
Zhao D, Lin M, Pedrosa E, Lachman HM, Zheng D. Characteristics of allelic gene expression in human brain cells from single-cell RNA-seq data analysis. BMC Genomics 2017, 18: 860. PMID: 29126398, PMCID: PMC5681780, DOI: 10.1186/s12864-017-4261-x.Peer-Reviewed Original ResearchMeSH KeywordsAllelesBrainGene Expression ProfilingHumansPolymorphism, Single NucleotideSequence Analysis, RNASingle-Cell AnalysisConceptsMonoallelic expressionHuman brain cellsGene expressionMonoallelic gene expressionAllelic gene expressionGenome-wide levelSingle-cell RNA-seq datasetsRNA-seq data analysisAllelic expression studiesSingle-cell RNA-seq data analysisRNA-seq datasetsSingle nucleotide variantsBrain cellsCellular identityAutosomal genesNeuronal diversityExpression studiesNucleotide variantsCorrelated expressionGenesIndividual cellsHuman psychiatric disordersNeuronal cellsSingle cellsCell functionTranscriptome analysis of microglia in a mouse model of Rett syndrome: differential expression of genes associated with microglia/macrophage activation and cellular stress
Zhao D, Mokhtari R, Pedrosa E, Birnbaum R, Zheng D, Lachman HM. Transcriptome analysis of microglia in a mouse model of Rett syndrome: differential expression of genes associated with microglia/macrophage activation and cellular stress. Molecular Autism 2017, 8: 17. PMID: 28367307, PMCID: PMC5372344, DOI: 10.1186/s13229-017-0134-z.Peer-Reviewed Original ResearchConceptsHeat shock protein familyShock protein familyWhole transcriptome analysisChromatin regulatorsAnalysis of microgliaPhenotypic phasesTranscriptome analysisProtein familyRNA-seqCellular stressMethyl-CpGRTT phenotypeRTT pathogenesisDe novo lossGene expressionM2 activation statesFemale miceDifferential expressionFunction mutationsHSP pathwayGenesMolecular pathwaysCell typesExtracellular matrixProtein 2
2016
Polycomb-Mediated Repression and Sonic Hedgehog Signaling Interact to Regulate Merkel Cell Specification during Skin Development
Perdigoto CN, Dauber KL, Bar C, Tsai PC, Valdes VJ, Cohen I, Santoriello FJ, Zhao D, Zheng D, Hsu YC, Ezhkova E. Polycomb-Mediated Repression and Sonic Hedgehog Signaling Interact to Regulate Merkel Cell Specification during Skin Development. PLOS Genetics 2016, 12: e1006151. PMID: 27414999, PMCID: PMC4944976, DOI: 10.1371/journal.pgen.1006151.Peer-Reviewed Original ResearchConceptsMerkel cell specificationCell specificationPrimary hair folliclesLoss of PolycombImportance of ShhCell differentiation programHair follicle functionSonic hedgehog (Shh) signalingPRC2 targetsSpecialized keratinocytesEpidermal progenitorsDevelopmental programHair folliclesEpigenetic processesDifferentiation programHedgehog signalingShh ligandMature Merkel cellsShh signalingSkin developmentMurine dorsal skinEpidermal cellsMerkel cellsPRC2 lossCell formationReduced CYFIP1 in Human Neural Progenitors Results in Dysregulation of Schizophrenia and Epilepsy Gene Networks
Nebel RA, Zhao D, Pedrosa E, Kirschen J, Lachman HM, Zheng D, Abrahams BS. Reduced CYFIP1 in Human Neural Progenitors Results in Dysregulation of Schizophrenia and Epilepsy Gene Networks. PLOS ONE 2016, 11: e0148039. PMID: 26824476, PMCID: PMC4732616, DOI: 10.1371/journal.pone.0148039.Peer-Reviewed Original ResearchMeSH KeywordsAdaptor Proteins, Signal TransducingAdultBase SequenceChromosomes, Human, Pair 15EpilepsyGene Expression ProfilingGene Expression RegulationGene Knockdown TechniquesGene Regulatory NetworksGenetic LociHeterozygoteHumansMaleMiddle AgedMolecular Sequence DataNerve Tissue ProteinsNeural Stem CellsPrimary Cell CultureRiskSchizophreniaSequence DeletionConceptsEpilepsy genesRole of CYFIP1Novel disease candidatesHuman neural progenitorsEpilepsy riskSubset of DEGsPostsynaptic density genesNeuronal differentiationFMRP targetsGene networksNeural progenitorsSchizophreniaCytoskeletal remodelingRNA-seqDeletion carriersKnockdown experimentsVariable expressivityDisease genesProgenitors resultsDisease candidatesGenesCellular assaysCYFIP1DisordersDysregulation
2015
MicroRNA Profiling of Neurons Generated Using Induced Pluripotent Stem Cells Derived from Patients with Schizophrenia and Schizoaffective Disorder, and 22q11.2 Del
Zhao D, Lin M, Chen J, Pedrosa E, Hrabovsky A, Fourcade HM, Zheng D, Lachman HM. MicroRNA Profiling of Neurons Generated Using Induced Pluripotent Stem Cells Derived from Patients with Schizophrenia and Schizoaffective Disorder, and 22q11.2 Del. PLOS ONE 2015, 10: e0132387. PMID: 26173148, PMCID: PMC4501820, DOI: 10.1371/journal.pone.0132387.Peer-Reviewed Original ResearchConceptsGenome-wide significanceUnderlying genetic basisInduced pluripotent stem cellsPluripotent stem cell (iPSC) technologyMiRNA expression profilingPluripotent stem cellsMiRNA expression patternsMicroRNA biogenesisMRNA targetsRegulated miRNAsGenetic basisExpression profilingStem cell technologyExpression patternsAutopsy samplesMiRNAsNeuropsychiatric disordersMicroRNA profilingStem cellsNominal significanceGenesPeripheral cellsPeripheral bloodWider significanceGenetic factors
2014
Heat Shock Alters the Expression of Schizophrenia and Autism Candidate Genes in an Induced Pluripotent Stem Cell Model of the Human Telencephalon
Lin M, Zhao D, Hrabovsky A, Pedrosa E, Zheng D, Lachman HM. Heat Shock Alters the Expression of Schizophrenia and Autism Candidate Genes in an Induced Pluripotent Stem Cell Model of the Human Telencephalon. PLOS ONE 2014, 9: e94968. PMID: 24736721, PMCID: PMC3988108, DOI: 10.1371/journal.pone.0094968.Peer-Reviewed Original ResearchConceptsCopy number variantsCandidate genesHS-inducible genesMaternal immune activationPluripotent stem cell modelsCellular stress pathwaysInduced Pluripotent Stem Cell ModelDisease-causing genetic variantsHeritable neuropsychiatric disorderStem cell modelAutism candidate genesPluripotent stem cellsCommon environmental stressorsCellular stressorsGenes decreasesRNA-seqASD candidatesASD genesHeat shockCopy lossHuman brain developmentEnvironmental stressorsHeat shock altersGenesStress pathwaysThe locust genome provides insight into swarm formation and long-distance flight
Wang X, Fang X, Yang P, Jiang X, Jiang F, Zhao D, Li B, Cui F, Wei J, Ma C, Wang Y, He J, Luo Y, Wang Z, Guo X, Guo W, Wang X, Zhang Y, Yang M, Hao S, Chen B, Ma Z, Yu D, Xiong Z, Zhu Y, Fan D, Han L, Wang B, Chen Y, Wang J, Yang L, Zhao W, Feng Y, Chen G, Lian J, Li Q, Huang Z, Yao X, Lv N, Zhang G, Li Y, Wang J, Wang J, Zhu B, Kang L. The locust genome provides insight into swarm formation and long-distance flight. Nature Communications 2014, 5: 2957. PMID: 24423660, PMCID: PMC3896762, DOI: 10.1038/ncomms3957.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsDNA Transposable ElementsEnergy MetabolismFlight, AnimalGene Expression ProfilingGene Expression RegulationGenome, InsectLocusta migratoriaConceptsGenome sequenceGb genome sequenceTransposable element proliferationLarge genome sizeCys-loop ligand-gated ion channelsLarge animal genomesDestructive agricultural pestsLigand-gated ion channelsComplex regulatory mechanismsG protein-coupled receptorsLocust genomeModel systemAnimal genomesGenome sizeUseful model systemGene familyPest speciesTranscriptome analysisLethal genesAgricultural pestsTarget genesRegulatory mechanismsFlight capacityLong-distance flightsL. migratoria
2010
Molecular cloning and temporal–spatial expression of I element in gregarious and solitary locusts
Guo W, Wang XH, Zhao DJ, Yang PC, Kang L. Molecular cloning and temporal–spatial expression of I element in gregarious and solitary locusts. Journal Of Insect Physiology 2010, 56: 943-948. PMID: 20470781, DOI: 10.1016/j.jinsphys.2010.05.007.Peer-Reviewed Original ResearchConceptsSolitary locustsTransposable elementsAbundant transcriptsI elementsDensity-dependent polyphenismTissue-specific expressionDifferential expression patternsHigh expression levelsTranscriptome databaseTranscriptional regulationSmall RNAsMolecular cloningGenetic variationGene transcriptionTemporal-spatial expressionExpression patternsRegulatory mechanismsMigratory locustDevelopmental stagesEnvironmental changesLabial palpsElement expressionExpression levelsLocustTranscripts