2021
Roles of piRNAs in transposon and pseudogene regulation of germline mRNAs and lncRNAs
Wang C, Lin H. Roles of piRNAs in transposon and pseudogene regulation of germline mRNAs and lncRNAs. Genome Biology 2021, 22: 27. PMID: 33419460, PMCID: PMC7792047, DOI: 10.1186/s13059-020-02221-x.Peer-Reviewed Original ResearchConceptsPIWI-interacting RNAsPIWI proteinsRole of piRNAsPIWI-piRNA pathwayRNA-binding proteinSmall noncoding RNAsGermline mRNAsGermline developmentNoncoding RNAsRegulatory relationshipsGerm cellsRNAProteinTransposonMajor classesRNA levelsRecent studiesExpressionGenomeSubfamiliesGermlineLncRNAsMajor constituentsMRNARegulation
2018
The Role of Maternal HP1a in Early Drosophila Embryogenesis via Regulation of Maternal Transcript Production
Park AR, Liu N, Neuenkirchen N, Guo Q, Lin H. The Role of Maternal HP1a in Early Drosophila Embryogenesis via Regulation of Maternal Transcript Production. Genetics 2018, 211: 201-217. PMID: 30442760, PMCID: PMC6325692, DOI: 10.1534/genetics.118.301704.Peer-Reviewed Original ResearchConceptsHeterochromatin protein 1aMaternal transcriptsEarly Drosophila embryogenesisGermline developmentDrosophila embryogenesisMRNA splicingCell divisionTranscript productionProtein 1AEpigenetic factorsDownregulates genesEmbryogenesisGenesTranscriptsSplicingOogenesisTranscriptionOrganogenesisRegulationRoleProductionNeurogenesisDivisionDevelopmentTranslation
2017
Post-transcriptional regulation of mouse neurogenesis by Pumilio proteins
Zhang M, Chen D, Xia J, Han W, Cui X, Neuenkirchen N, Hermes G, Sestan N, Lin H. Post-transcriptional regulation of mouse neurogenesis by Pumilio proteins. Genes & Development 2017, 31: 1354-1369. PMID: 28794184, PMCID: PMC5580656, DOI: 10.1101/gad.298752.117.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsCell DifferentiationCytoplasmDentate GyrusFemaleFragile X Mental Retardation ProteinGene Expression Regulation, DevelopmentalGene Knockout TechniquesGene SilencingLearning DisabilitiesMaleMemory DisordersMiceNeural Stem CellsNeurogenesisNeuronsRNA, MessengerRNA-Binding ProteinsStem CellsConceptsPost-transcriptional regulationPost-transcriptional regulatorsNeural stem cellsTarget mRNAsMost target mRNAsRNA-dependent interactionCross-linking immunoprecipitationThousands of mRNAsMental retardation proteinPUM proteinsPumilio proteinsPumilio 1Mouse neurogenesisMammalian neurogenesisPerinatal apoptosisPUM1PUM2Stem cellsProteinCommon targetMRNARegulatorNeurogenesisCell compositionRegulation
2016
Change point analysis of histone modifications reveals epigenetic blocks linking to physical domains
Chen M, Lin H, Zhao H. Change point analysis of histone modifications reveals epigenetic blocks linking to physical domains. The Annals Of Applied Statistics 2016, 10: 506-526. PMID: 27231496, PMCID: PMC4876974, DOI: 10.1214/16-aoas905.Peer-Reviewed Original ResearchHistone modificationsHistone marksLocal chromatin environmentDistribution of genesWhole-genome analysisRelevant biological functionsEnrichment patternsSimilar enrichment patternsHigh-throughput techniquesChromatin environmentChromatin organizationEpigenetic blockTranscriptional outputGene regulationTranscriptional controlOrchestrated regulationEpigenetic mechanismsGO enrichmentTranscription levelsBiological functionsCombinatorial patternsGenomeGenesRegulationEukaryotesPiwi maintains germline stem cells and oogenesis in Drosophila through negative regulation of Polycomb group proteins
Peng JC, Valouev A, Liu N, Lin H. Piwi maintains germline stem cells and oogenesis in Drosophila through negative regulation of Polycomb group proteins. Nature Genetics 2016, 48: 283-291. PMID: 26780607, PMCID: PMC4767590, DOI: 10.1038/ng.3486.Peer-Reviewed Original Research
2014
Posttranscriptional Regulation of Gene Expression by Piwi Proteins and piRNAs
Watanabe T, Lin H. Posttranscriptional Regulation of Gene Expression by Piwi Proteins and piRNAs. Molecular Cell 2014, 56: 18-27. PMID: 25280102, PMCID: PMC4185416, DOI: 10.1016/j.molcel.2014.09.012.Peer-Reviewed Original ResearchConceptsPIWI-interacting RNAsPIWI proteinsPosttranscriptional regulationPiRNA biogenesisPiRNA pathwayTransposon RNARNA regulationSex determinationCell maintenancePosttranscriptional levelGene expressionDevelopmental transitionsBiological processesProteinRNAGametogenesisRegulationRecent findingsMRNAPotential importancePsuedogenesBiogenesisEmbryogenesisTransposonPathwayNoncoding RNAs in the regulation of DNA replication
Ge XQ, Lin H. Noncoding RNAs in the regulation of DNA replication. Trends In Biochemical Sciences 2014, 39: 341-343. PMID: 25027733, PMCID: PMC4265214, DOI: 10.1016/j.tibs.2014.06.003.Peer-Reviewed Original Research
2013
Beyond transposons: the epigenetic and somatic functions of the Piwi-piRNA mechanism
Peng JC, Lin H. Beyond transposons: the epigenetic and somatic functions of the Piwi-piRNA mechanism. Current Opinion In Cell Biology 2013, 25: 190-194. PMID: 23465540, PMCID: PMC3651849, DOI: 10.1016/j.ceb.2013.01.010.Peer-Reviewed Original ResearchConceptsPIWI-interacting RNAsPIWI-piRNA pathwayBiogenesis of piRNAsSmall non-coding RNAsPost-transcriptional regulationNon-coding RNAsPIWI proteinsGene regulationSomatic cellsPiwi familyGene expressionGeneral mechanismSomatic functionsTransposonPathwayRNARegulationNovel classRecent studiesBiogenesisNew findingsProteinMechanismExpressionFunction
2011
The microRNA regulation of stem cells
Huang XA, Lin H. The microRNA regulation of stem cells. Wiley Interdisciplinary Reviews Membrane Transport And Signalling 2011, 1: 83-95. PMID: 23024929, PMCID: PMC3459065, DOI: 10.1002/wdev.5.Peer-Reviewed Original ResearchStem cellsMore mRNA targetsAdult tissue stem cellsDistinct expression profilesEmbryonic stem cellsTissue stem cellsMiRNA pathwayNegative feedback loopGene regulationMicroRNA regulationMRNA targetsTranscription factorsGene expressionRegulatory mechanismsEpigenetic factorsExpression profilesBiological processesDifferent miRNAsConcerted controlRegulatory roleIPS cellsMiRNAsSuch regulationRegulationCellsSmall Noncoding RNAs in the Germline
Saxe JP, Lin H. Small Noncoding RNAs in the Germline. Cold Spring Harbor Perspectives In Biology 2011, 3: a002717. PMID: 21669983, PMCID: PMC3181032, DOI: 10.1101/cshperspect.a002717.Peer-Reviewed Original ResearchConceptsRNA pathwaysSmall noncoding RNAsTarget mRNAsNoncoding RNAsSmall RNA pathwaysPiRNA pathwayGermline specificationMicroRNA pathwayMiRNA pathwayGene regulationMRNA translationSomatic tissuesEpigenetic programmingDiverse functionsGene expressionRegulatory functionsGermlinePotent regulatorPathwayRNAMRNARegulationPiwiBiogenesisTransposon
2004
Nanos Maintains Germline Stem Cell Self-Renewal by Preventing Differentiation
Wang Z, Lin H. Nanos Maintains Germline Stem Cell Self-Renewal by Preventing Differentiation. Science 2004, 303: 2016-2019. PMID: 14976263, DOI: 10.1126/science.1093983.Peer-Reviewed Original ResearchConceptsGermline stem cellsPrimordial germ cellsGermline cystsStem Cell Self-RenewalTranslational repressor NanosCell Self-RenewalStem cellsDrosophila ovaryGene regulationExtrinsic signalingPrecocious entrySelf-RenewalGerm cellsCell typesDifferentiation factorCellsCystoblastsOogenesisSignalingDifferentiationRegulationOvariesTranslation