2018
MIWI2 targets RNAs transcribed from piRNA‐dependent regions to drive DNA methylation in mouse prospermatogonia
Watanabe T, Cui X, Yuan Z, Qi H, Lin H. MIWI2 targets RNAs transcribed from piRNA‐dependent regions to drive DNA methylation in mouse prospermatogonia. The EMBO Journal 2018, 37: embj201695329. PMID: 30108053, PMCID: PMC6138435, DOI: 10.15252/embj.201695329.Peer-Reviewed Original ResearchConceptsDNA methylationRetrotransposon sequencesSmall RNAsArgonaute/Piwi proteinsPiwi protein MIWI2Suppressive epigenetic marksMouse prospermatogoniaChromatin statePIWI proteinsUnderlying molecular mechanismsDiverse organismsEpigenetic marksPiRNA clustersNascent RNAEpigenetic regulationTranslational regulationMIWI2RNA degradationRepeat sequencesGene expressionMolecular mechanismsTarget RNAMethylationRNAPiRNAs
2014
Retrotransposons and pseudogenes regulate mRNAs and lncRNAs via the piRNA pathway in the germline
Watanabe T, Cheng EC, Zhong M, Lin H. Retrotransposons and pseudogenes regulate mRNAs and lncRNAs via the piRNA pathway in the germline. Genome Research 2014, 25: 368-380. PMID: 25480952, PMCID: PMC4352877, DOI: 10.1101/gr.180802.114.Peer-Reviewed Original ResearchConceptsPIWI-interacting RNAsPiRNA pathwayRetrotransposon sequencesIntergenic regionMammalian PIWI-interacting RNAsRNA regulatory networkLate spermatocytesVivo functional analysisDegradation of mRNAUTR of mRNAsSlicer activityEukaryotic genomesLncRNA transcriptomeRegulatory networksRegulatory sequencesRepetitive sequencesPseudogenesMRNA stabilityFunctional analysisLncRNAsWidespread expressionSpermatid stageRetrotransposonsMRNATransposon
2011
A High-Resolution Whole-Genome Map of Key Chromatin Modifications in the Adult Drosophila melanogaster
Yin H, Sweeney S, Raha D, Snyder M, Lin H. A High-Resolution Whole-Genome Map of Key Chromatin Modifications in the Adult Drosophila melanogaster. PLOS Genetics 2011, 7: e1002380. PMID: 22194694, PMCID: PMC3240582, DOI: 10.1371/journal.pgen.1002380.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsChromatin Assembly and DisassemblyChromatin ImmunoprecipitationChromosomal Proteins, Non-HistoneChromosome MappingDrosophila melanogasterDrosophila ProteinsEpigenesis, GeneticEuchromatinGenome, InsectHeterochromatinHigh-Throughput Nucleotide SequencingHistonesRepetitive Sequences, Nucleic AcidRetroelementsRNA Polymerase IITranscription Initiation SiteConceptsHeterochromatin protein 1aChromatin modificationsStart siteChromatin modification landscapeKey chromatin modificationKey histone marksCell typesDrosophila cell typesRNA polymerase IIAdult Drosophila melanogasterTranscriptional start siteDiverse cell typesTranscription start siteFunctionality of genesHigh-Resolution WholeEuchromatic marksHistone codeHistone marksModification landscapeDrosophila melanogasterPolymerase IIGenome mapChromatin immunoprecipitationRegulatory sequencesSplicing junctionsRole for piRNAs and Noncoding RNA in de Novo DNA Methylation of the Imprinted Mouse Rasgrf1 Locus
Watanabe T, Tomizawa S, Mitsuya K, Totoki Y, Yamamoto Y, Kuramochi-Miyagawa S, Iida N, Hoki Y, Murphy PJ, Toyoda A, Gotoh K, Hiura H, Arima T, Fujiyama A, Sado T, Shibata T, Nakano T, Lin H, Ichiyanagi K, Soloway PD, Sasaki H. Role for piRNAs and Noncoding RNA in de Novo DNA Methylation of the Imprinted Mouse Rasgrf1 Locus. Science 2011, 332: 848-852. PMID: 21566194, PMCID: PMC3368507, DOI: 10.1126/science.1203919.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsArgonaute ProteinsDNA MethylationGenomic ImprintingMaleMiceMice, Inbred C57BLMitochondrial ProteinsModels, GeneticMutationPhospholipase DProteinsRas-GRF1Repetitive Sequences, Nucleic AcidRetroelementsRNA, Small InterferingRNA, UntranslatedSpermatogoniaTestisTranscription, GeneticConceptsRasgrf1 locusDNA methylationPIWI-interacting RNA (piRNA) pathwayDe novo DNA methylationMonoallelic gene expressionNovo DNA methylationParental germ lineDe novo methylationSequence-specific methylationDifferential DNA methylationRNA pathwaysGenomic imprintingNovo methylationRetrotransposon sequencesGerm lineNoncoding RNAsGene expressionDirect repeatsPiRNAsTarget RNADifferent lociMethylationLociRNASpecific sequencesMITOPLD Is a Mitochondrial Protein Essential for Nuage Formation and piRNA Biogenesis in the Mouse Germline
Watanabe T, Chuma S, Yamamoto Y, Kuramochi-Miyagawa S, Totoki Y, Toyoda A, Hoki Y, Fujiyama A, Shibata T, Sado T, Noce T, Nakano T, Nakatsuji N, Lin H, Sasaki H. MITOPLD Is a Mitochondrial Protein Essential for Nuage Formation and piRNA Biogenesis in the Mouse Germline. Developmental Cell 2011, 20: 364-375. PMID: 21397847, PMCID: PMC3062204, DOI: 10.1016/j.devcel.2011.01.005.Peer-Reviewed Original ResearchConceptsPiRNA biogenesisDerepression of retrotransposonsPrimary piRNA biogenesisSmall RNA biogenesisMutant germ cellsMitochondrial protein essentialMicrotubule-dependent localizationPiRNA pathwayDrosophila homologRNA biogenesisConserved roleMitoPLDDiverse speciesProtein essentialPerinuclear structuresMouse germlineOuter membraneBiogenesisGerm cellsMeiotic arrestPhospholipase DMetabolism/Phosphatidic acidMitochondriaMutant mice