Establishment of endoderm progenitors by SOX transcription factor expression in human embryonic stem cells
about
Epigenetic regulation of CpG promoter methylation in invasive prostate cancer cellsInterplay of Oct4 with Sox2 and Sox17: a molecular switch from stem cell pluripotency to specifying a cardiac fateDifferential response of epiblast stem cells to Nodal and Activin signalling: a paradigm of early endoderm development in the embryoHuman serum-derived protein removes the need for coating in defined human pluripotent stem cell culture.An Implantable Vascularized Protein Gel Construct That Supports Human Fetal Hepatoblast Survival and Infection by Hepatitis C Virus in MiceQuantitative comparison of constitutive promoters in human ES cellsThe primitive endoderm lineage of the mouse blastocyst: sequential transcription factor activation and regulation of differentiation by Sox17.Sox17 promotes differentiation in mouse embryonic stem cells by directly regulating extraembryonic gene expression and indirectly antagonizing self-renewalSequence-specific regulator Prdm14 safeguards mouse ESCs from entering extraembryonic endoderm fates.Transciptome analysis of the gill and swimbladder of Takifugu rubripes by RNA-Seq.Protein kinase C mediated extraembryonic endoderm differentiation of human embryonic stem cells.Sox17 promotes cell cycle progression and inhibits TGF-beta/Smad3 signaling to initiate progenitor cell behavior in the respiratory epithelium.Identification of a human splenic marginal zone B cell precursor with NOTCH2-dependent differentiation properties.Human embryonic and rat adult stem cells with primitive endoderm-like phenotype can be fated to definitive endoderm, and finally hepatocyte-like cells.Clinical significance and prognostic value of SOX7 expression in liver and pancreatic carcinoma.A new FACS approach isolates hESC derived endoderm using transcription factors.SOX7: from a developmental regulator to an emerging tumor suppressorEfficient and directive generation of two distinct endoderm lineages from human ESCs and iPSCs by differentiation stage-specific SOX17 transduction.Antibody-directed lentiviral gene transduction for live-cell monitoring and selection of human iPS and hES cells.Klf5 regulates lineage formation in the pre-implantation mouse embryo.Cripto is required for mesoderm and endoderm cell allocation during mouse gastrulation.Regeneration of the aged thymus by a single transcription factor.STELLA facilitates differentiation of germ cell and endodermal lineages of human embryonic stem cells.Tracing the derivation of embryonic stem cells from the inner cell mass by single-cell RNA-Seq analysis.In vitro differentiation and expansion of human pluripotent stem cell-derived pancreatic progenitors.A potential relationship among beta-defensins haplotype, SOX7 duplication and cardiac defects.Mir-184 post-transcriptionally regulates SOX7 expression and promotes cell proliferation in human hepatocellular carcinoma.Increased culture density is linked to decelerated proliferation, prolonged G1 phase, and enhanced propensity for differentiation of self-renewing human pluripotent stem cells.Control of embryonic stem cell lineage commitment by core promoter factor, TAF3.Expression of stanniocalcin 1 in thyroid side population cells and thyroid cancer cellsSox7 is dispensable for primitive endoderm differentiation from mouse ES cellsSry-box (Sox) transcription factors in gastrointestinal physiology and disease.Gata6 potently initiates reprograming of pluripotent and differentiated cells to extraembryonic endoderm stem cells.Late stage definitive endodermal differentiation can be defined by Daf1 expressionDefining Conditions for Sustaining Epiblast Pluripotence Enables Direct Induction of Clinically-Suitable Human Myocardial Grafts from Biologics-Free Human Embryonic Stem Cells.Mouse model reveals the role of SOX7 in the development of congenital diaphragmatic hernia associated with recurrent deletions of 8p23.1.Mass spectrometry-based proteomic analysis of the matrix microenvironment in pluripotent stem cell culture.The role of Sox genes in lung morphogenesis and cancer.Self-renewing endodermal progenitor lines generated from human pluripotent stem cellsThe Use of Induced Pluripotent Stem Cells for the Study and Treatment of Liver Diseases.
P2860
Q24302022-710E0B53-D186-40A0-99D9-4E3AE7D91902Q24314327-DA098889-B973-4560-8EC1-55DFA8B8A21FQ26995657-2A583879-DEB1-418F-9FE6-814151FDC1E0Q27335859-67ACE0D8-F49D-420B-8B1D-E9E6C6A6A8D8Q27491321-72C7E179-9D91-4F0F-AECE-735FE1152152Q28475300-A6C00BD8-5DBE-44D6-971E-29BACB62603DQ28509448-A09EA8D0-9DA3-47B2-AE82-A42B3494E915Q28585188-102C2CA2-EC44-4F55-97A9-0CFFD48D3585Q30176410-3E8C0FF5-8E6B-4300-8CD2-3B34EDA58DCAQ30444246-02E15AD1-4157-47C0-BC62-43D8F4B4951CQ30531062-E621945B-0FF9-4BB1-9A38-86D5EF48BFF8Q33455690-E79B4337-024D-4C1C-B4D6-7812772092ABQ33569820-68BE30F4-F9DF-45F0-9BDB-B074BA2BDAC8Q33658734-4554C607-864B-4869-A5EA-31C57F82AC3CQ33827983-1AD99E84-D517-41AB-9E39-D136F0762A81Q33847252-0809DFF1-DE89-4FA2-929D-974E2D40252FQ33937223-7710D504-A6DE-42DA-8301-D54F22DF544FQ33961501-1783A106-900C-4B9E-A113-D3A617393DB6Q34247065-D2B68DF9-6ECB-44DC-A89D-7ECF452063DFQ34290533-B07293D2-9DA4-4279-95C8-B2745908D93FQ34349479-5A66A918-9831-42AB-8609-E979143C82A1Q34414351-FBA7CBAD-B50A-4BE4-9768-04BD97FD3036Q34607191-274DDBE9-4ABA-43D6-93D7-A4B4BEE45816Q34619418-5D1BFA1B-3F0E-4F20-893E-81E3E233436BQ34972307-C4BDAA80-1B44-4F13-8029-E2505BEFC21AQ34979568-0714626A-08B5-4B7B-AE01-1298FAA70560Q35099688-03A66377-923D-445C-AC78-D595D3CBE681Q35200131-B04F557B-D514-43E8-9DF5-0DB2B19B3B21Q35314562-3174D06C-C0CA-44C2-A423-75FB061C24C9Q35324872-D5311A28-8756-41BB-9F9E-5D7FE0898689Q35811136-2E0BC13E-24E6-4C4E-A50F-D9B0AD5276C3Q35825854-9089B259-3DA2-4A24-A82F-29B95D75BC7AQ35829988-9FDB640C-DADF-4EB4-ACBA-EE2EB87DF502Q36035108-D358F6B7-2618-4EDB-9248-69EF93B6B738Q36165381-9C0FF872-1A8C-4FD7-97E2-9AA3A6806212Q36190985-2E0A3995-C271-4F08-92D3-0BAE73869246Q36455739-FDD6B491-2A93-426F-9C0A-B7D2D06C98D5Q36538306-307747DB-3869-4D5C-B3D7-652ED3A36B54Q36634322-BD0458F5-D545-47D9-BBC7-9F5E206CA655Q36695546-1F2CC1DE-C1C1-4FD7-B483-DCC94D663C92
P2860
Establishment of endoderm progenitors by SOX transcription factor expression in human embryonic stem cells
description
2008 nî lūn-bûn
@nan
2008 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
2008 թվականի օգոստոսին հրատարակված գիտական հոդված
@hy
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
name
Establishment of endoderm prog ...... in human embryonic stem cells
@ast
Establishment of endoderm prog ...... in human embryonic stem cells
@en
Establishment of endoderm prog ...... in human embryonic stem cells
@en-gb
Establishment of endoderm prog ...... in human embryonic stem cells
@nl
type
label
Establishment of endoderm prog ...... in human embryonic stem cells
@ast
Establishment of endoderm prog ...... in human embryonic stem cells
@en
Establishment of endoderm prog ...... in human embryonic stem cells
@en-gb
Establishment of endoderm prog ...... in human embryonic stem cells
@nl
prefLabel
Establishment of endoderm prog ...... in human embryonic stem cells
@ast
Establishment of endoderm prog ...... in human embryonic stem cells
@en
Establishment of endoderm prog ...... in human embryonic stem cells
@en-gb
Establishment of endoderm prog ...... in human embryonic stem cells
@nl
P50
P3181
P1433
P1476
Establishment of endoderm prog ...... in human embryonic stem cells
@en
P2093
Cheryle A Séguin
P304
P3181
P356
10.1016/J.STEM.2008.06.018
P407
P577
2008-08-07T00:00:00Z