about
MicroRNAs: regulators of neuronal fateCord blood-derived neuronal cells by ectopic expression of Sox2 and c-MycInduced neuronal cells: how to make and define a neuronAcute reduction in oxygen tension enhances the induction of neurons from human fibroblastsGeneration of induced neuronal cells by the single reprogramming factor ASCL1Molecular roadblocks for cellular reprogrammingPatient-specific induced pluripotent stem cells in neurological disease modeling: the importance of nonhuman primate modelsThe many roads to Rome: induction of neural precursor cells from fibroblastsHuman pluripotent stem cells for modelling human liver diseases and cell therapyDirect lineage conversion: induced neuronal cells and induced neural stem cellsInducing brain regeneration from within: in vivo reprogramming of endogenous somatic cells into neuronsTransient acquisition of pluripotency during somatic cell transdifferentiation with iPSC reprogramming factors.Direct reprogramming and biomaterials for controlling cell fateInduction of Pluripotency in Mouse Somatic Cells with Lineage SpecifiersHierarchical mechanisms for direct reprogramming of fibroblasts to neuronsAdult tissue sources for new β cells.Expansion and conversion of human pancreatic ductal cells into insulin-secreting endocrine cells.Matrix identity and tractional forces influence indirect cardiac reprogrammingSignaling adaptor protein SH2B1 enhances neurite outgrowth and accelerates the maturation of human induced neuronsIn Situ Pluripotency Factor Expression Promotes Functional Recovery From Cerebral IschemiaPartial Reprogramming of Pluripotent Stem Cell-Derived Cardiomyocytes into Neurons.Generation of neural progenitor cells by chemical cocktails and hypoxiaDirect reprogramming of human fibroblasts to hepatocyte-like cells by synthetic modified mRNAs.Transforming growth factor-beta signaling network regulates plasticity and lineage commitment of lung cancer cells.Induced neuronal reprogramming.Direct lineage reprogramming of post-mitotic callosal neurons into corticofugal neurons in vivoProgramming and reprogramming neuronal subtypes in the central nervous system.Development of Sendai virus vectors and their potential applications in gene therapy and regenerative medicine.Conversion of human fibroblasts to angioblast-like progenitor cells.A blueprint for engineering cell fate: current technologies to reprogram cell identity.Nonviral direct conversion of primary mouse embryonic fibroblasts to neuronal cells.Conversion of human fibroblasts into monocyte-like progenitor cells.Skeletal muscle programming and re-programming.Reprogramming of human fibroblasts toward a cardiac fate.Transcription factors that convert adult cell identity are differentially polycomb repressedETS transcription factor ETV2 directly converts human fibroblasts into functional endothelial cells.Rapid neurogenesis through transcriptional activation in human stem cells.Concise review: hematopoietic stem cell aging and the prospects for rejuvenationLineage specifiers: new players in the induction of pluripotency.Mitosis gives a brief window of opportunity for a change in gene transcription.
P2860
Q24596859-E73A9990-61A4-444B-BBAA-CA3D1ACE2B12Q24623575-305B2799-8053-49C5-A3C1-E9935DA5AF67Q26269839-0DCC1A2E-824B-4031-880E-84DBE5342064Q26269853-65D5060E-CBAA-4F32-AD69-0D4CC9EC47F4Q26269984-FF32C8DA-2970-4678-A6FC-DC1D5E187B6CQ26822585-3A9AE852-825F-40B2-886F-D4E8EC67159EQ26825524-E397620C-C756-4F0E-9A0A-E27FD4771C3FQ26830451-48878F0A-19CE-4EE8-A228-2C5454F0D2C2Q27005360-05B59E6C-17BD-4BD0-B06D-9FF895566E76Q27025605-80DDE6D5-B5B6-406A-AE8F-FD6188C8379DQ27025649-0544D409-1F43-4389-BAAD-9D7BD17D0DA1Q27314024-46BBB64C-EE9C-47C0-B9C1-6E4B6F4160FCQ28076885-197AC863-D49E-4520-89D5-3E981418C5CDQ29540647-D551C7B0-137E-4A64-8622-09A220C0BE0FQ29871108-09D19053-9E0B-4B83-A325-30E715AB5D20Q30356946-EAA422CC-B13B-4F8E-AA62-9A94D8FD3B63Q30416277-E34DA56C-4DF0-43F2-BD66-18E1BCAC4FC9Q30559231-E1EB06BC-4D8B-4EA4-B5EB-FB02FB1DF1C4Q30579310-85B84148-7FF0-4F0C-88CB-C053F0DC2584Q30828997-F70B2E64-E881-4114-8FBA-B6DF7025F371Q30842582-C60D40D5-9755-451D-8694-734F3310B2AEQ33701798-40DD32C1-A908-42E2-945A-E88C6DD369B1Q33806734-397C3FD5-4224-4CD4-B8F3-7E2B330B1EF9Q33858412-EC49EE9F-5989-4FA5-BCD7-C2266AAE4CBDQ33904255-7D2F127D-06FD-4ACA-B9FC-FCC3ED001D7EQ33987528-A4226D38-B606-4C7D-A3A5-4666DC5A4D71Q34010722-EAECD761-FB34-4653-8F1D-5DC874C6B8CBQ34033280-68CB7406-F9EB-478E-9993-1F87C8688AA1Q34314865-77EA9675-74F5-45BD-9719-7977862F4257Q34320191-C9409C95-1E74-4D3A-95AC-F3F79E3DCBD7Q34323979-8B43F459-0BA9-4231-AD36-AF9F71AC0D1BQ34345247-0FA0EBEE-388E-4623-B6B4-9480BC95857EQ34350083-BFD41B11-231C-449E-8F4A-CA60B0FB0E8FQ34619852-F880F468-110C-4900-8C4D-8968CE35259BQ34708573-7DB13A2F-4D49-4C7E-B0F5-CB4D0B5ECF74Q34926403-4E6360C1-5124-4667-9226-F60889EE5159Q34987004-9E8F252A-F827-4108-9C30-52D7AEF6FA86Q35001363-41023A3B-D239-41F3-AF20-33404BDC671EQ35171936-9882BF6D-CA31-433F-8A4D-A5079694C17DQ35214993-DC0D75A8-F5EB-4FBE-9A11-63155DF51503
P2860
description
2011 nî lūn-bûn
@nan
2011 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2011 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
2011年の論文
@ja
2011年学术文章
@wuu
2011年学术文章
@zh-cn
2011年学术文章
@zh-hans
2011年学术文章
@zh-my
2011年学术文章
@zh-sg
2011年學術文章
@yue
name
Direct lineage conversions: unnatural but useful?
@ast
Direct lineage conversions: unnatural but useful?
@en
Direct lineage conversions: unnatural but useful?
@nl
type
label
Direct lineage conversions: unnatural but useful?
@ast
Direct lineage conversions: unnatural but useful?
@en
Direct lineage conversions: unnatural but useful?
@nl
prefLabel
Direct lineage conversions: unnatural but useful?
@ast
Direct lineage conversions: unnatural but useful?
@en
Direct lineage conversions: unnatural but useful?
@nl
P2860
P356
P1433
P1476
Direct lineage conversions: unnatural but useful?
@en
P2093
Thomas Vierbuchen
P2860
P2888
P304
P356
10.1038/NBT.1946
P577
2011-10-01T00:00:00Z