Suppression of Erk signalling promotes ground state pluripotency in the mouse embryo.
about
FGF signalling: diverse roles during early vertebrate embryogenesisAnatomy of a blastocyst: cell behaviors driving cell fate choice and morphogenesis in the early mouse embryoPluripotency Factors on Their Lineage MoveFrom blastocyst to gastrula: gene regulatory networks of embryonic stem cells and early mouse embryogenesisEx uno plures: molecular designs for embryonic pluripotencyThe transcriptional regulation of pluripotencyCell lineage allocation within the inner cell mass of the mouse blastocystTroika of the mouse blastocyst: lineage segregation and stem cellsConcise review: Bone marrow meets blastocyst: lessons from an unlikely encounterIntercellular interactions, position, and polarity in establishing blastocyst cell lineages and embryonic axesCurrent perspectives of the signaling pathways directing neural crest inductionFrom pluripotency to forebrain patterning: an in vitro journey astride embryonic stem cellsVirtual-'light-sheet' single-molecule localisation microscopy enables quantitative optical sectioning for super-resolution imaging.The ability of inner-cell-mass cells to self-renew as embryonic stem cells is acquired following epiblast specificationHeterogeneities in Nanog Expression Drive Stable Commitment to Pluripotency in the Mouse BlastocystGenetic insights into the mechanisms of Fgf signalingSingle cells get together: High-resolution approaches to study the dynamics of early mouse developmentMolecular basis of embryonic stem cell self-renewal: from signaling pathways to pluripotency networkGermline transmission of an embryonic stem cell line derived from BALB/c cataract miceEstablishment of trophoblast stem cells under defined culture conditions in miceCross-species genome wide expression analysis during pluripotent cell determination in mouse and rat preimplantation embryosExit from pluripotency is gated by intracellular redistribution of the bHLH transcription factor Tfe3Mammalian genes induce partially reprogrammed pluripotent stem cells in non-mammalian vertebrate and invertebrate speciesThe PluriNetWork: an electronic representation of the network underlying pluripotency in mouse, and its applicationsOSKM Induce Extraembryonic Endoderm Stem Cells in Parallel to Induced Pluripotent Stem CellsEmbryonic germ cells from mice and rats exhibit properties consistent with a generic pluripotent ground state.A role for PDGF signaling in expansion of the extra-embryonic endoderm lineage of the mouse blastocyst.Protein kinase C mediated extraembryonic endoderm differentiation of human embryonic stem cells.FGF4 is required for lineage restriction and salt-and-pepper distribution of primitive endoderm factors but not their initial expression in the mouse.Atypical protein kinase C couples cell sorting with primitive endoderm maturation in the mouse blastocyst.Cell-to-cell expression variability followed by signal reinforcement progressively segregates early mouse lineages.PDGF signaling is required for primitive endoderm cell survival in the inner cell mass of the mouse blastocyst.Stochastic promoter activation affects Nanog expression variability in mouse embryonic stem cellsDynamic migration and cell-cell interactions of early reprogramming revealed by high-resolution time-lapse imaging.Rho-associated kinase activity is required for proper morphogenesis of the inner cell mass in the mouse blastocyst.Isolation of Oct4-expressing extraembryonic endoderm precursor cell linesFunctional heterogeneity of embryonic stem cells revealed through translational amplification of an early endodermal transcript.Primate embryogenesis predicts the hallmarks of human naïve pluripotency.Stat3 phosphorylation is required for embryonic stem cells ground state maintenance in 2i culture mediaGeneration and characterization of leukemia inhibitory factor-dependent equine induced pluripotent stem cells from adult dermal fibroblasts.
P2860
Q24630591-C8AA5E3D-D7AD-4D7C-B853-F8CFDE58CECBQ24631741-3845EC72-F605-432F-B327-A211FB8A52E5Q26771912-FE871DB1-B268-4D6D-9F6D-8B9743997590Q26827792-ED6A1C70-41C9-4B23-A0C7-535E0808789DQ26860750-AA284531-2373-4EBE-B6C7-25C234392CC0Q26866571-B52A81EC-28BC-4A6D-9A62-60D8AE0CB5FFQ26998683-CCA2E193-260D-4099-A871-614C69DFDFB1Q27005860-9A5A3302-07B0-47C2-B5F6-B5B628CDB74AQ27015727-32B29E38-12AD-437C-92FC-14DB95B01CBBQ27022008-F2A533AE-3F15-4444-B832-B5BC612F5122Q27024905-4E15F7B2-4B57-422D-B3F4-B207392B3C96Q27030826-D55CDEF4-B3EC-4939-B28E-3E98F456E598Q27308632-54DF4232-908E-483E-80D5-08B4CFA91EB6Q27313398-C1C16531-DDB1-44FB-904D-EA0E8B0B722EQ27321176-E08CF9F3-FAF4-453E-A8FF-67BD9A49CB74Q28066570-07CCFC2E-62DE-454B-861F-FE42CA3A5A77Q28081131-497B37B0-BD25-4377-98EC-DEE8A6CB68B8Q28084007-EA241ECE-32FD-45D3-88A4-4502459B8DA9Q28540385-EDFBB191-CF4E-43F6-BFF5-DC2516DC9520Q28542898-3FE8EAA4-8B9A-4B23-826D-BA334317EEB4Q28584193-531E563F-316D-4483-8330-DC177A9E601DQ28594750-FE9EC92C-B7C8-4437-8517-CF10215CA8AFQ28681219-616159CA-6608-4C9B-8F2A-077500C6C222Q28744130-A8B18781-C15A-470A-A48D-9A0C155E4754Q28834628-2EB2920F-D449-423F-B5E6-C76525DEDEA0Q30495013-944EEA78-DD9B-44B5-8A57-2F070FF9D443Q30496807-FAE9EEA3-F97A-4CB4-849B-10BEF7934C0EQ30531062-9DD03823-355D-46C2-8F85-E79A6C6F27ACQ30537589-3C7403B4-EA3B-48DC-B943-6AB83C8BA78DQ30577443-3E373ED1-8AAD-4E6B-B810-6563E1FB5BB9Q30581030-D104B4A8-9334-4C77-AFDD-076D83977EF2Q30581041-C1559AB7-7E4B-475C-B147-799BD1DA2C77Q30599987-C75AADCB-6426-4A83-95B5-8D0536B2496BQ30618778-9DA17288-8C8C-4F2F-A810-DA2DDAB6B34FQ30650902-0991ED5E-72E5-45E4-AA5F-02B396A62258Q33507094-ABE501E1-F392-4620-B5BA-BACC6204953DQ33592981-C6722384-5D9D-4E09-A97D-638DB5E92338Q33682621-6C18930E-D1F4-44C4-B4A9-CBB2FCA04045Q33761701-74DF99E6-B2C0-4231-BBC5-A57A5C547C1FQ33788875-6A1265FC-C4F1-4605-B3E7-F386B180E811
P2860
Suppression of Erk signalling promotes ground state pluripotency in the mouse embryo.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 26 August 2009
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Suppression of Erk signalling promotes ground state pluripotency in the mouse embryo.
@en
Suppression of Erk signalling promotes ground state pluripotency in the mouse embryo.
@nl
type
label
Suppression of Erk signalling promotes ground state pluripotency in the mouse embryo.
@en
Suppression of Erk signalling promotes ground state pluripotency in the mouse embryo.
@nl
prefLabel
Suppression of Erk signalling promotes ground state pluripotency in the mouse embryo.
@en
Suppression of Erk signalling promotes ground state pluripotency in the mouse embryo.
@nl
P2860
P356
P1433
P1476
Suppression of Erk signalling promotes ground state pluripotency in the mouse embryo
@en
P2093
Jose Silva
Mila Roode
P2860
P304
P356
10.1242/DEV.038893
P407
P577
2009-08-26T00:00:00Z