In vitro generation of neuromesodermal progenitors reveals distinct roles for wnt signalling in the specification of spinal cord and paraxial mesoderm identity
about
Neuromesodermal progenitors and the making of the spinal cordModeling ALS with motor neurons derived from human induced pluripotent stem cellsTales of Tails (and Trunks): Forming the Posterior Body in Vertebrate EmbryosDifferentiation of pluripotent stem cells to muscle fiber to model Duchenne muscular dystrophyOrganoids and the genetically encoded self-assembly of embryonic stem cellsDevelopment-on-chip: in vitro neural tube patterning with a microfluidic deviceA Gene Regulatory Network Balances Neural and Mesoderm Specification during Vertebrate Trunk Development.The many faces of Pluripotency: in vitro adaptations of a continuum of in vivo states.Wnt/β-catenin and FGF signalling direct the specification and maintenance of a neuromesodermal axial progenitor in ensembles of mouse embryonic stem cellsFunctional Connectivity under Optogenetic Control Allows Modeling of Human Neuromuscular Disease.Hox genes control vertebrate body elongation by collinear Wnt repression.Deterministic HOX patterning in human pluripotent stem cell-derived neuroectodermWnt signaling and tbx16 form a bistable switch to commit bipotential progenitors to mesodermGeneration of serotonin neurons from human pluripotent stem cellsThe zebrafish tailbud contains two independent populations of midline progenitor cells that maintain long-term germ layer plasticity and differentiate in response to local signaling cues.WNT/β-catenin signaling mediates human neural crest induction via a pre-neural border intermediate.Methods for Precisely Localized Transfer of Cells or DNA into Early Postimplantation Mouse Embryos.Co-expression of Foxa.a, Foxd and Fgf9/16/20 defines a transient mesendoderm regulatory state in ascidian embryos.Neural tube morphogenesis in synthetic 3D microenvironments.Cholesterol activates the G-protein coupled receptor Smoothened to promote Hedgehog signaling.Early molecular events during retinoic acid induced differentiation of neuromesodermal progenitors.Generation of human muscle fibers and satellite-like cells from human pluripotent stem cells in vitro.Axial level-dependent molecular and cellular mechanisms underlying the genesis of the embryonic neural plate.Neural Subtype Specification from Human Pluripotent Stem Cells.Mapping body-building potentialPosition-dependent plasticity of distinct progenitor types in the primitive streakThe Multiple Roles of FGF Signaling in the Developing Spinal Cord.Different Concentrations of FGF Ligands, FGF2 or FGF8 Determine Distinct States of WNT-Induced Presomitic Mesoderm.Assessing the bipotency of in vitro-derived neuromesodermal progenitors.Cbx3 maintains lineage specificity during neural differentiationPervasive translational regulation of the cell signalling circuitry underlies mammalian development.A novel cold-sensitive mutant of ntla reveals temporal roles of brachyury in zebrafish.Neural-mesodermal progenitor interactions in pattern formation: an introduction to the collection.FGF and canonical Wnt signaling cooperate to induce paraxial mesoderm from tailbud neuromesodermal progenitors through regulation of a two-step epithelial to mesenchymal transition.A post-transcriptional program coordinated by CSDE1 prevents intrinsic neural differentiation of human embryonic stem cells.CRISPR Screens Uncover Genes that Regulate Target Cell Sensitivity to the Morphogen Sonic Hedgehog.Myogenic progenitor specification from pluripotent stem cells.A stepwise model of reaction-diffusion and positional information governs self-organized human peri-gastrulation-like patterning.The TAF10-containing TFIID and SAGA transcriptional complexes are dispensable for early somitogenesis in the mouse embryo.Current Advances and Limitations in Modeling ALS/FTD in a Dish Using Induced Pluripotent Stem Cells.
P2860
Q26795449-90BC5648-3890-4CEA-96B8-39626E2D4AEEQ28076026-23F3502C-3914-480C-9A66-FF7622791240Q28077571-5C5638F6-18F9-4CBD-9F4A-3EF6910AD804Q28265827-51B90899-03B4-4AD4-B6B4-6520E5F5FA90Q28271001-40DE89E9-411D-4C1A-86C1-1C1D8547E89EQ28828958-4B88F29A-D307-4434-B1A0-E58606B08093Q33658152-5DD18E3A-7DF0-492F-B02F-B5A0C1C1F260Q33796203-BA2EC60E-BC95-411B-8414-ED868F75D9E3Q34446332-659D7A5E-CBF2-401C-86A9-826C208D27BAQ34501054-AB224BCF-4333-4DBE-A5B9-002EC7F1D1E1Q35261823-62950A20-3250-46DC-800A-08EAE762DFBCQ35453975-0B4B5F97-F89D-4058-90CA-C2C3AB93F993Q35878141-1579A3DD-A082-473A-8C99-4AFE185CAF0CQ36459308-9E3E1664-0F19-4264-8889-7544058716B8Q36497733-66195D98-C170-496A-9A91-00630D743E70Q36597429-909F29CE-E708-463F-88EA-CC6245FE5423Q36659571-2B7488F8-8ACD-4010-9BDF-D8A50D47AAE8Q37095287-ABC246ED-A4F9-4C05-B690-D3F1126120E0Q37398120-A659B1A3-84D9-49A3-BD2C-98E8A7FC5AD9Q37441853-39433573-69A0-4199-89D2-0534591B2DFCQ37545446-11C9E026-77FA-4E7D-9210-F3A5F9152C1FQ38748704-35D9A3E4-D11D-4A28-9866-A5B655992BA7Q38859697-37DF1F8F-BAFB-4229-B7F0-3267E9161596Q38998787-CE539E89-EA68-47AE-A06B-41B849D55D1DQ39188341-24C1F8FA-EBC3-4EA7-BA39-50629030410CQ39188500-3EE5D5AE-36B2-4B8A-B5CA-877C9ED9A669Q39381816-78852800-46F6-489B-A2E9-1A5AA35A9503Q39869523-AAE91596-7EEC-450A-884C-8EB191FE4DCAQ41874256-D6D8FFE3-2ED2-44DC-A39A-573CF94671BDQ42315218-54C41CEC-3A8E-46B6-8CF2-7BF0789E5CB4Q42320714-EC470C9D-137B-490F-8279-8AB906E5B444Q42417041-CE9A9026-4F15-49C6-8CB5-EA5696446303Q43098043-13DDBA34-6F2D-4178-A43A-EB511541B4D1Q46411750-8A07969B-96EA-4A9E-8D6D-5E8ECEDBF158Q47153523-6F710AD4-3092-4FFA-9C78-5C37156BC043Q47241729-13AC7D63-9E86-4F93-A8CE-31F54C96FBB6Q47286671-D4278AFA-3679-441A-9743-D3304877C187Q47718096-C134FB63-831A-4E52-ADBF-B7F44A6A91B4Q47820612-0810B4C6-92E2-43AE-AFEC-84AF0B25244DQ47868914-977ED1D3-82F7-4ECE-93C3-BC404EB65CD7
P2860
In vitro generation of neuromesodermal progenitors reveals distinct roles for wnt signalling in the specification of spinal cord and paraxial mesoderm identity
description
2014 nî lūn-bûn
@nan
2014 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
2014 թվականի օգոստոսին հրատարակված գիտական հոդված
@hy
2014年の論文
@ja
2014年論文
@yue
2014年論文
@zh-hant
2014年論文
@zh-hk
2014年論文
@zh-mo
2014年論文
@zh-tw
2014年论文
@wuu
name
In vitro generation of neurome ...... and paraxial mesoderm identity
@ast
In vitro generation of neurome ...... and paraxial mesoderm identity
@en
In vitro generation of neurome ...... and paraxial mesoderm identity
@nl
type
label
In vitro generation of neurome ...... and paraxial mesoderm identity
@ast
In vitro generation of neurome ...... and paraxial mesoderm identity
@en
In vitro generation of neurome ...... and paraxial mesoderm identity
@nl
prefLabel
In vitro generation of neurome ...... and paraxial mesoderm identity
@ast
In vitro generation of neurome ...... and paraxial mesoderm identity
@en
In vitro generation of neurome ...... and paraxial mesoderm identity
@nl
P2093
P2860
P50
P1433
P1476
In vitro generation of neurome ...... and paraxial mesoderm identity
@en
P2093
Filip J Wymeersch
Valerie Wilson
Yali Huang
P2860
P304
P356
10.1371/JOURNAL.PBIO.1001937
P407
P577
2014-08-26T00:00:00Z