2020
PIWIL1 promotes gastric cancer via a piRNA-independent mechanism
Shi S, Yang ZZ, Liu S, Yang F, Lin H. PIWIL1 promotes gastric cancer via a piRNA-independent mechanism. Proceedings Of The National Academy Of Sciences Of The United States Of America 2020, 117: 22390-22401. PMID: 32848063, PMCID: PMC7486755, DOI: 10.1073/pnas.2008724117.Peer-Reviewed Original ResearchConceptsPIWI-interacting RNAsPIWI proteinsGastric cancer cellsNonsense-mediated mRNA decay mechanismPiRNA-independent mechanismDomain protein familyMRNA decay mechanismMammalian somatic tissuesRNA deep sequencingGastric cancer cell line SNU-1Cancer cellsGastric cancer cell proliferationRNA pathwaysPPD proteinsProtein familyPiwil1 geneSomatic tissuesSomatic cancersCancer cell proliferationDeep sequencingRegulatory mechanismsOncogenic functionPIWIL1Gastric cancer tissuesDetectable functionPumilio proteins utilize distinct regulatory mechanisms to achieve complementary functions required for pluripotency and embryogenesis
Uyhazi KE, Yang Y, Liu N, Qi H, Huang XA, Mak W, Weatherbee SD, de Prisco N, Gennarino VA, Song X, Lin H. Pumilio proteins utilize distinct regulatory mechanisms to achieve complementary functions required for pluripotency and embryogenesis. Proceedings Of The National Academy Of Sciences Of The United States Of America 2020, 117: 7851-7862. PMID: 32198202, PMCID: PMC7148564, DOI: 10.1073/pnas.1916471117.Peer-Reviewed Original ResearchConceptsEmbryonic stem cellsTarget messenger RNAsPumilio proteinsPUM proteinsMessenger RNAEssential functionsStem cell maintenanceDistinct regulatory mechanismsEmbryonic day 8.5ESC pluripotencyTranslational regulatorPluripotency genesGene regulationEarly embryogenesisDifferentiation genesPosttranscriptional levelHigh homologyMRNA stabilityRegulatory mechanismsDouble mutant micePluripotencyDay 8.5Morula stagePluripotency markersEmbryogenesis
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 regulationRegulationCells
2009
Mili Interacts with Tudor Domain-Containing Protein 1 in Regulating Spermatogenesis
Wang J, Saxe JP, Tanaka T, Chuma S, Lin H. Mili Interacts with Tudor Domain-Containing Protein 1 in Regulating Spermatogenesis. Current Biology 2009, 19: 640-644. PMID: 19345100, PMCID: PMC2704239, DOI: 10.1016/j.cub.2009.02.061.Peer-Reviewed Original ResearchConceptsPIWI-interacting RNAsPiRNA biogenesisPIWI proteinsTudor domainChromatoid bodyMammalian Piwi proteinsMultiple Tudor domainsGermline-specific organelleTudor domain–containing protein-1Domain-containing protein 1RNA-independent interactionSmall noncoding RNAsProtein 1N-terminal regionGermline developmentGermline proteinsEpigenetic regulationNoncoding RNAsTerminal domainMILIRegulatory mechanismsMolecular mechanismsSpermatogenic defectsProteinBiogenesis