Dll1+ secretory progenitor cells revert to stem cells upon crypt damage.
about
Wnt signaling in cancer stem cells and colon cancer metastasisStem Cells in the Intestine: Possible Roles in Pathogenesis of Irritable Bowel SyndromeReserve stem cells: Differentiated cells reprogram to fuel repair, metaplasia, and neoplasia in the adult gastrointestinal tractMeasuring stem cell dynamics in the human colon--where there's a wiggle, there's a wayDedifferentiation and reprogramming: origins of cancer stem cellsLineage selection and plasticity in the intestinal cryptUnderstanding epithelial homeostasis in the intestine: An old battlefield of ideas, recent breakthroughs and remaining controversiesMicroenvironmental control of stem cell fate in intestinal homeostasis and diseaseDefining hierarchies of stemness in the intestine: evidence from biomarkers and regulatory pathwaysInjury-associated reacquiring of intestinal stem cell functionWound healing and cancer stem cells: inflammation as a driver of treatment resistance in breast cancerStem cell competition in the gut: insights from multi-scale computational modellingCurrent understanding concerning intestinal stem cellsBidirectional interconversion of stem and non-stem cancer cell populations: A reassessment of theoretical models for tumor heterogeneityEpigenetic regulation of the intestinal epitheliumGastrointestinal stem cell up-to-dateIntestinal crypt homeostasis revealed at single-stem-cell level by in vivo live imaging.Role of the protein tyrosine phosphatase Shp2 in homeostasis of the intestinal epitheliumA calibrated agent-based computer model of stochastic cell dynamics in normal human colon crypts useful for in silico experiments.Canonical Wnt signals combined with suppressed TGFβ/BMP pathways promote renewal of the native human colonic epithelium.Paneth cell extrusion and release of antimicrobial products is directly controlled by immune cell-derived IFN-γ.Establishment of Gastrointestinal Epithelial Organoids.Cell Adhesion Molecule CD166/ALCAM Functions Within the Crypt to Orchestrate Murine Intestinal Stem Cell Homeostasis.De Novo Prediction of Stem Cell Identity using Single-Cell Transcriptome DataA Case for Distributed Control of Local Stem Cell Behavior in PlantsUnraveling intestinal stem cell behavior with models of crypt dynamicsThe Origins of Gastric Cancer From Gastric Stem Cells: Lessons From Mouse Models.Dedifferentiation of committed epithelial cells into stem cells in vivoYY1 is indispensable for Lgr5+ intestinal stem cell renewal.Dynamic equilibrium of heterogeneous and interconvertible multipotent hematopoietic cell subsets.A genome editing approach to study cancer stem cells in human tumors.Adult cell plasticity in vivo: de-differentiation and transdifferentiation are back in style.GATA4 and GATA6 regulate intestinal epithelial cytodifferentiation during development.Broadly permissive intestinal chromatin underlies lateral inhibition and cell plasticity.Nice neighborhood: emerging concepts of the stem cell niche.Stem cells and the developing mammary gland.Mapping early fate determination in Lgr5+ crypt stem cells using a novel Ki67-RFP alleleThe promise of perfect adult tissue repair and regeneration in mammals: Learning from regenerative amphibians and fish.Modulating the stem cell niche for tissue regeneration.Pioneer factors govern super-enhancer dynamics in stem cell plasticity and lineage choice.
P2860
Q26748552-8EAAB6AF-4747-4BD9-8A43-311A512C8CB0Q26749356-F5B75CCB-DFAF-4C52-883D-1B91EB786670Q26801731-A5286447-ED9F-4532-88F8-50A10F57B782Q26824890-DA528966-9E87-43CA-AC0A-058D1602ABD6Q26826876-BE2DC500-D27A-4CFA-97B0-2B4779F6B688Q26829782-B11986EC-C5E4-4C05-8E03-7A6002872FB0Q26991584-7F0965EF-8416-4140-9D41-C1FBF4B16044Q26999226-C27E79DD-ADC8-4AA6-BADE-CB06D953EBD1Q27006804-CC281B5E-6AE4-454D-99DD-62062B2F2A7DQ27014475-7186F8CE-4276-4EC3-8F8E-5C1EF9581EF6Q27023599-12F61B7E-6739-44C9-86D4-2E8DF4903A1CQ27339348-343A6CB8-1456-485F-A62E-30650B14ADADQ27694486-572BAE0E-E099-42E2-9AF9-80E0942A079AQ28066409-919E2C62-A2C4-49DF-9267-3075D136770AQ28084849-D98D1745-3578-4310-8C95-D25552530E3EQ28088455-FF756D50-6132-41F8-B4D9-5BE943F9703EQ28307731-91D4F480-70BC-4380-96F1-EC7135BF235BQ28508604-16F343F4-EB48-4FF8-BF3D-B85EB6CDAB91Q30561752-0B44DD61-0706-47B0-B4CD-B7B672D8E62AQ30574557-7D66DD72-76A3-4ABE-8CFD-83A3E07D8C60Q30582106-D3BAC9E1-3335-48FD-A764-A33E27AD21D0Q30585782-DB43BA96-9291-4579-A32B-7432EF4B6B2EQ30846910-2DCD5BD0-8779-49CE-ADEA-36DCDC789609Q31110759-501ABC9B-9DEE-4576-B974-E1704BE35A61Q33363962-0021BB4A-200A-4B9D-BF41-7FCFE57FF0F7Q33556378-F834BEDB-283D-4E6A-8B8B-748C9B6DF750Q33600436-3EF0B4D5-4C5D-47C0-9A6A-5CF53B5FE3B9Q33670193-9EA0DA79-5A09-4C07-9A7E-C550CE962C98Q33694349-673B2596-0F2E-403B-A16E-53970AD974E7Q33718926-4D642366-5548-4028-813B-58B3A8B6368DQ33863475-4937B35F-0AEE-46D3-8EA6-7E8A63F1E892Q34046479-0DE7A912-ED2E-488C-B80A-0A5FFDB91C61Q34110172-341C24E3-C8F7-40BC-B95F-209AAE7A6A70Q34118027-687B57C1-9D95-4A69-93A5-E72D756D6034Q34165273-7F93D62F-4D0F-404E-AAFB-86876E6EBDBEQ34166067-5625B383-9A5C-49BC-A749-566F591505C6Q34332458-3D9DBC8D-70AA-4957-BAAF-0EFCA83115A1Q34429947-5991C87B-3AE0-465F-8FCC-85E4F41DF3A8Q34432431-9EF0646F-8FB5-4B58-A275-3F3EB8A3342CQ34468207-FD81F09E-5707-4EB1-8212-F1253D644847
P2860
Dll1+ secretory progenitor cells revert to stem cells upon crypt damage.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 23 September 2012
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Dll1+ secretory progenitor cells revert to stem cells upon crypt damage.
@en
Dll1+ secretory progenitor cells revert to stem cells upon crypt damage.
@nl
type
label
Dll1+ secretory progenitor cells revert to stem cells upon crypt damage.
@en
Dll1+ secretory progenitor cells revert to stem cells upon crypt damage.
@nl
prefLabel
Dll1+ secretory progenitor cells revert to stem cells upon crypt damage.
@en
Dll1+ secretory progenitor cells revert to stem cells upon crypt damage.
@nl
P2093
P2860
P356
P1433
P1476
Dll1+ secretory progenitor cells revert to stem cells upon crypt damage.
@en
P2093
Alex Gregorieff
Alexander van den Oudenaarden
Anna Lyubimova
Anton C M Martens
Hans Clevers
Jeroen Korving
Johan H van Es
Laura Zeinstra
Marc van de Wetering
Toshiro Sato
P2860
P2888
P304
P356
10.1038/NCB2581
P577
2012-09-23T00:00:00Z
P5875
P6179
1011110264