SOX2 has a crucial role in the lineage determination and proliferation of mesenchymal stem cells through Dickkopf-1 and c-MYC.
about
Epithelial mesenchymal transition from a natural gestational orchestration to a bizarre cancer disturbanceApplying ligands profiling using multiple extended electron distribution based field templates and feature trees similarity searching in the discovery of new generation of urea-based antineoplastic kinase inhibitorsLow Molecular Weight Fraction of Commercial Human Serum Albumin Induces Morphologic and Transcriptional Changes of Bone Marrow-Derived Mesenchymal Stem CellsBobby Sox homology regulates odontoblast differentiation of human dental pulp stem cells/progenitorsMatrix softness regulates plasticity of tumour-repopulating cells via H3K9 demethylation and Sox2 expressionSOX2 gene regulates the transcriptional network of oncogenes and affects tumorigenesis of human lung cancer cells.Silencing SOX2 induced mesenchymal-epithelial transition and its expression predicts liver and lymph node metastasis of CRC patients.Bioinformatic analysis of the four transcription factors used to induce pluripotent stem cells.The effects of Hedgehog on the RNA-binding protein Msi1 in the proliferation and apoptosis of mesenchymal stem cells.In vitro mesenchymal trilineage differentiation and extracellular matrix production by adipose and bone marrow derived adult equine multipotent stromal cells on a collagen scaffold5-azacytidine improves the osteogenic differentiation potential of aged human adipose-derived mesenchymal stem cells by DNA demethylationDiscovery of a Family of Genomic Sequences Which Interact Specifically with the c-MYC Promoter to Regulate c-MYC Expression.Metastatic Latency and Immune Evasion through Autocrine Inhibition of WNT.Enrichment and characterization of human dermal stem/progenitor cells by intracellular granularityDownregulation of YAP-dependent Nupr1 promotes tumor-repopulating cell growth in soft matrices.Small cell lung cancer: Circulating tumor cells of extended stage patients express a mesenchymal-epithelial transition phenotype.SOX2 regulates YAP1 to maintain stemness and determine cell fate in the osteo-adipo lineage.Sox2 suppression by miR-21 governs human mesenchymal stem cell properties.Mouse Mesenchymal Progenitor Cells Expressing Adipogenic and Osteogenic Transcription Factors Suppress the Macrophage Inflammatory Response.SIRT1 suppresses adipogenesis by activating Wnt/β-catenin signaling in vivo and in vitro.The influence of hypoxia on the differentiation capacities and immunosuppressive properties of clonal mouse mesenchymal stromal cell lines.Korean mistletoe lectin regulates self-renewal of placenta-derived mesenchymal stem cells via autophagic mechanisms.Radioelectric asymmetric conveyed fields and human adipose-derived stem cells obtained with a nonenzymatic method and device: a novel approach to multipotency.NANOG Reverses the Myogenic Differentiation Potential of Senescent Stem Cells by Restoring ACTIN Filamentous Organization and SRF-Dependent Gene Expression.Cellular localization of NRF2 determines the self-renewal and osteogenic differentiation potential of human MSCs via the P53-SIRT1 axis.Extensive characterization of feline intra-abdominal adipose-derived mesenchymal stem cells.Suppression of dedifferentiation and hypertrophy in canine chondrocytes through lentiviral vector expression of Sox9 and induced pluripotency stem cell factors.Therapeutic potential of human minor salivary gland epithelial progenitor cells in liver regeneration.SIRT1 directly regulates SOX2 to maintain self-renewal and multipotency in bone marrow-derived mesenchymal stem cells.Isolation of human dermis derived mesenchymal stem cells using explants culture method: expansion and phenotypical characterization.Low Oxygen Modulates Multiple Signaling Pathways, Increasing Self-Renewal, While Decreasing Differentiation, Senescence, and Apoptosis in Stromal MIAMI Cells.Regulation of Osteogenic Differentiation of Placental-Derived Mesenchymal Stem Cells by Insulin-Like Growth Factors and Low Oxygen Tension.A High-Resolution Proteomic Landscaping of Primary Human Dental Stem Cells: Identification of SHED- and PDLSC-Specific Biomarkers.Morphological and molecular changes of human granulosa cells exposed to 5-azacytidine and addressed toward muscular differentiation.Knockdown of MicroRNA Let-7a Improves the Functionality of Bone Marrow-Derived Mesenchymal Stem Cells in Immunotherapy.POU5F1 (OCT4); SOX2; NANOG bind the DKK1 promoterMesenchymal Stem Cells in Lipogems, a Reverse Story: from Clinical Practice to Basic Science.A circular RNA promotes tumorigenesis by inducing c-myc nuclear translocation.Quantification of serum SOX2 DNA with FQ-PCR potentially provides a diagnostic biomarker for lung cancer.
P2860
Q26826431-AE92C125-BEA5-4263-9677-47927DADCC96Q28485281-706A110C-CF01-4681-88A4-39A029BFA384Q30377976-4A8E3ECB-9AF1-42DC-8A48-15DAE3603931Q30581002-80C3DDE5-191B-4D05-8071-69A1984416EDQ34049100-4B5A7263-18E1-478F-B479-E43290E1BB28Q34277248-5644729A-4D0B-4F8D-A2CA-E1C0539BCF7CQ34388599-D06AB40C-EAC4-402E-AA22-2C0E1E086161Q34534749-C991BE2F-C8E3-409F-AB05-1854D1B5FEAEQ34590146-5008611E-9129-434A-A443-379EE0DD1326Q34871178-039E3AE4-3E17-492C-981A-012F8451112EQ35113277-F0DE8139-8464-4CDA-B554-AEA4BDE2DE9AQ36110185-5E7C7076-460B-4870-90C9-EDB0DD1E0984Q36731080-10C072A2-5986-4274-A10B-3C69D4BD6C9CQ36733616-46A639C9-D4EB-43A0-AC6B-8E3B658E4A89Q36846730-D898A86A-4BCC-49DF-A79F-5A95593BA5ABQ37179512-0D589241-0BBA-429E-B90E-0E22E3454F47Q37317659-15502000-2242-4E18-932D-ACC9BD05FC82Q37516478-F5D880C9-9E53-4523-A44B-8769D4AD35EEQ37612073-07E6B513-A629-46D6-B7F5-A88A9876DF18Q37718426-BCFE0392-5282-423A-9D2C-1AEB2C8FAA8CQ39000634-A85CED16-82EE-40B7-A535-887CA23A05C3Q39290335-ECB614E4-1417-493D-AE1B-597CD6942806Q39348620-C126B581-1959-474D-8A7D-26D730B71082Q39650390-989414FB-5A93-4076-A396-884F3754A6A8Q40757164-3DB9770E-41A0-410C-8981-66E0A27F8CDCQ42050740-5066D86B-7317-463A-A7AD-A9641CDE2757Q42152244-355BE863-6B37-47FD-A792-20BAD8EE2646Q42371033-BA6553ED-78D3-4217-9250-B799E4F4EDB8Q42464134-294DD4BE-331D-4A56-8093-6881707977DAQ42464659-27D048B2-F7C6-4DCA-87A2-0EFFCDFFF85FQ42556916-B840DA47-08B8-473B-B346-19C6332E95E5Q43375908-0EAFF6C7-CA44-4998-9764-52AE3A9957ADQ47198684-A4F50608-CABF-4920-9630-545DDE38C5FFQ47871860-E470AD90-E0DB-476B-AC04-5CD1E5C8529AQ48847725-95D28764-C273-48C7-9F9D-26158388FAADQ50288433-620A2384-E8CB-4363-BFC1-F63C9F333FBDQ51313362-97AA4354-69AC-4086-875C-B0FCB9CCAD81Q53216114-301CD89F-570E-40F8-8664-95A4B6020992Q54239435-98325ADB-513B-42DF-B8E3-B53E07BE5E2D
P2860
SOX2 has a crucial role in the lineage determination and proliferation of mesenchymal stem cells through Dickkopf-1 and c-MYC.
description
2011 nî lūn-bûn
@nan
2011年の論文
@ja
2011年論文
@yue
2011年論文
@zh-hant
2011年論文
@zh-hk
2011年論文
@zh-mo
2011年論文
@zh-tw
2011年论文
@wuu
2011年论文
@zh
2011年论文
@zh-cn
name
SOX2 has a crucial role in the ...... through Dickkopf-1 and c-MYC.
@ast
SOX2 has a crucial role in the ...... through Dickkopf-1 and c-MYC.
@en
type
label
SOX2 has a crucial role in the ...... through Dickkopf-1 and c-MYC.
@ast
SOX2 has a crucial role in the ...... through Dickkopf-1 and c-MYC.
@en
prefLabel
SOX2 has a crucial role in the ...... through Dickkopf-1 and c-MYC.
@ast
SOX2 has a crucial role in the ...... through Dickkopf-1 and c-MYC.
@en
P2093
P2860
P356
P1476
SOX2 has a crucial role in the ...... through Dickkopf-1 and c-MYC.
@en
P2093
P2860
P2888
P304
P356
10.1038/CDD.2011.137
P577
2011-10-21T00:00:00Z