2023
Secretory MPP3 reinforce myeloid differentiation trajectory and amplify myeloid cell production
Kang Y, Paik H, Zhang S, Chen J, Olson O, Mitchell C, Collins A, Swann J, Warr M, Fan R, Passegué E. Secretory MPP3 reinforce myeloid differentiation trajectory and amplify myeloid cell production. Journal Of Experimental Medicine 2023, 220: e20230088. PMID: 37115584, PMCID: PMC10140385, DOI: 10.1084/jem.20230088.Peer-Reviewed Original ResearchConceptsGranulocyte/macrophage progenitorsHematopoietic stem cellsMyeloid differentiationMajor functional contributorsNovel regulatory functionLocal bone marrow (BM) microenvironmentSteady-state hematopoiesisDifferentiation trajectoriesRecent lineagesMyeloid cell productionCellular heterogeneityBone marrow microenvironmentRegulatory functionsFunctional contributorsMacrophage progenitorsSecretory cellsStem cellsMPP3Blood productionMarrow microenvironmentCell productionDifferentiationRapid productionDistinct subsetsMyelopoiesis
2014
Single-Crystalline, Nanoporous Gallium Nitride Films With Fine Tuning of Pore Size for Stem Cell Engineering
Han L, Zhou J, Schimert K, Sun Y, Zhang Y, Han J, Fu J, Fan R. Single-Crystalline, Nanoporous Gallium Nitride Films With Fine Tuning of Pore Size for Stem Cell Engineering. Journal Of Nanotechnology In Engineering And Medicine 2014, 5: 040903. PMID: 26199680, PMCID: PMC4492071, DOI: 10.1115/1.4030615.Peer-Reviewed Original ResearchHuman mesenchymal stem cellsPore sizeNanoporous gallium nitrideStem cell engineeringThin filmsGallium nitride thin filmsNitride thin filmsSized nanoporesCell engineeringMesenchymal stem cellsUniform adhesionPore size increasesGallium nitrideOsteogenic differentiationOptimum conditionsFilmsStem cellsNanotopographyFine tuningNitrideSize increasesNanoporesSizeEngineeringAdhesion