Canonical Wnt signaling regulates organ-specific assembly and differentiation of CNS vasculature
about
"You Shall Not Pass"-tight junctions of the blood brain barrierThe linear ubiquitin-specific deubiquitinase gumby regulates angiogenesisSkeletal muscle pericyte subtypes differ in their differentiation potentialThe Norrin/Frizzled4 signaling pathway in retinal vascular development and diseasePericytes are required for blood-brain barrier integrity during embryogenesisThe Wnt7's Tale: A story of an orphan who finds her tie to a famous familyThe ETS Factor, ETV2: a Master Regulator for Vascular Endothelial Cell DevelopmentWnt/β-catenin signaling in kidney injury and repair: a double-edged swordVascularisation of the central nervous systemDevelopment, maintenance and disruption of the blood-brain barrierDevelopmental and pathological angiogenesis in the central nervous systemEndothelial expression of TGFβ type II receptor is required to maintain vascular integrity during postnatal development of the central nervous systemAngiogenesis in the developing spinal cord: blood vessel exclusion from neural progenitor region is mediated by VEGF and its antagonistsRadial glial neural progenitors regulate nascent brain vascular network stabilization via inhibition of Wnt signalingHaemodynamics-driven developmental pruning of brain vasculature in zebrafishExcessive vascular sprouting underlies cerebral hemorrhage in mice lacking αVβ8-TGFβ signaling in the brain.Pathophysiology of the neurovascular unit: disease cause or consequence?Blood brain barrier: An overview on strategies in drug delivery, realistic in vitro modeling and in vivo live trackingFrizzled Receptors in Development and DiseaseBrain barriers: Crosstalk between complex tight junctions and adherens junctionsBarrier mechanisms in the Drosophila blood-brain barrierThe molecular constituents of the blood-brain barrierRegulation of the nascent brain vascular network by neural progenitorsROS, Notch, and Wnt signaling pathways: crosstalk between three major regulators of cardiovascular biologyTranscriptome sequencing of gene expression in the brain of the HIV-1 transgenic rat.Essential regulation of CNS angiogenesis by the orphan G protein-coupled receptor GPR124.Mfsd2a is critical for the formation and function of the blood-brain barrierGPR124, an orphan G protein-coupled receptor, is required for CNS-specific vascularization and establishment of the blood-brain barrierWnt activation of immortalized brain endothelial cells as a tool for generating a standardized model of the blood brain barrier in vitroA stable and reproducible human blood-brain barrier model derived from hematopoietic stem cellsGeneration of Brain Microvascular Endothelial-Like Cells from Human Induced Pluripotent Stem Cells by Co-Culture with C6 Glioma CellsNorrin, frizzled-4, and Lrp5 signaling in endothelial cells controls a genetic program for retinal vascularization.Wnt7b Signaling from the Ureteric Bud Epithelium Regulates Medullary Capillary Development.The CNS microvascular pericyte: pericyte-astrocyte crosstalk in the regulation of tissue survival.Canonical WNT signaling components in vascular development and barrier formation.Broad integration of expression maps and co-expression networks compassing novel gene functions in the brain.Regulatory mechanisms of testosterone-stimulated song in the sensorimotor nucleus HVC of female songbirds.Endothelial β-Catenin Signaling Is Required for Maintaining Adult Blood-Brain Barrier Integrity and Central Nervous System Homeostasis.Wnt/β-Catenin Signaling Determines the Vasculogenic Fate of Postnatal Mesenchymal Stem CellsMotor neurons control blood vessel patterning in the developing spinal cord
P2860
Q21129349-83F2EC64-925B-4751-B641-7066134D9F97Q24293633-B112A3D0-A253-4C6E-99C6-D05A23113447Q24618763-865BC4A9-94EA-4DFB-9FE9-EF21D07CCBC8Q24627102-EB854D85-C0E8-4D03-A84D-3B31F9164204Q24627396-CB7A9A17-CAC5-48A0-9198-AF861122F306Q26765041-BEB50095-D57A-47FC-88DA-B051F3183188Q26773466-4F59BED6-EACB-4584-8D90-57856835DE3BQ26774029-FC33114A-34FE-4F80-A458-5353663AD994Q26801786-0F29D829-CB88-4F8F-A7C6-6413AC9B652FQ26829668-2756B453-5581-47DD-82A6-49F5CF27C572Q27023250-E234E83E-F466-40BB-9507-762A8786BB5DQ27300866-BC0DED65-95E6-4FE9-BEFF-4AB6C7EF2684Q27318214-707284FA-DED6-4025-9A4B-5FF6F32B6592Q27318313-BEB4098C-CDE2-4473-920A-0D129E5EF474Q27318761-99CCB4AC-7A9C-4F95-A3F1-AEA173A2B516Q27346828-60F1928C-D3D0-4244-A434-709C969B6CC7Q27690845-DB3DD8ED-2C9A-4D10-B4B7-03FE0CBAA4C8Q28067855-0544B7D2-D3AC-4BFE-9FE6-FD57608A537FQ28071320-1911B5B6-8230-4F66-94A5-56D885EF0D2AQ28083498-85565BDD-CF92-46D2-AE37-E366A4EF7DD9Q28083620-113E0C14-153B-4F81-913E-B2EC43CA17CAQ28087222-1BF90759-9249-4866-A53F-9B7DB56C5EC9Q28088537-312D1921-BB18-4E1E-8E9C-27E75E5A794DQ28396460-31C049CA-A2C9-4292-BB5A-2414D31C1B53Q28488809-25278F05-B540-4B22-AA82-0B6D0FB4F02BQ28507603-6E75E7EB-83F7-4A1C-8188-D6BABED68CD0Q28507996-0F75E146-1AD7-42E7-8674-1F6E870896FEQ28509184-041005EF-1BCF-4AAD-A8DB-885877B8F3CAQ28535094-B10CA411-ED5F-4AD7-B025-D258D44E8E17Q28539764-B632CEDA-8115-4B40-B8BD-DAF7E2143547Q28548080-9E95DA70-CF1F-48F8-BB20-EC1515E5DBA6Q28591418-C4058145-38E0-4192-9139-B355BFD1AD90Q30276333-D8F3DCEE-7451-4279-B258-91D5D24B7CCDQ30476883-F9F2E5AE-A12B-4911-B054-9192C942E2C5Q30586765-823BEDD2-111C-4993-BD2F-9CB504DD5DE8Q30597210-A800341C-0AAC-4F17-BC6D-0BA6C6FF4159Q30606953-DCCA760C-384A-4037-92B4-E3E34535EC17Q30734754-C8A04042-48A9-435E-A189-89301C8F479FQ30840763-E68CF5F0-3001-4E89-9238-05B23DD0FB99Q30841236-41948CC2-4C38-410C-A773-85103BBC5BC3
P2860
Canonical Wnt signaling regulates organ-specific assembly and differentiation of CNS vasculature
description
2008 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
2008 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
article publié dans la revue scientifique Science
@fr
artículu científicu espublizáu en 2008
@ast
im November 2008 veröffentlichter wissenschaftlicher Artikel
@de
scientific journal article
@en
vedecký článok (publikovaný 2008/11/21)
@sk
vědecký článek publikovaný v roce 2008
@cs
wetenschappelijk artikel (gepubliceerd op 2008/11/21)
@nl
наукова стаття, опублікована в листопаді 2008
@uk
name
Canonical Wnt signaling regula ...... erentiation of CNS vasculature
@ast
Canonical Wnt signaling regula ...... erentiation of CNS vasculature
@en
Canonical Wnt signaling regula ...... erentiation of CNS vasculature
@nl
type
label
Canonical Wnt signaling regula ...... erentiation of CNS vasculature
@ast
Canonical Wnt signaling regula ...... erentiation of CNS vasculature
@en
Canonical Wnt signaling regula ...... erentiation of CNS vasculature
@nl
prefLabel
Canonical Wnt signaling regula ...... erentiation of CNS vasculature
@ast
Canonical Wnt signaling regula ...... erentiation of CNS vasculature
@en
Canonical Wnt signaling regula ...... erentiation of CNS vasculature
@nl
P2093
P2860
P921
P3181
P356
P1433
P1476
Canonical Wnt signaling regula ...... erentiation of CNS vasculature
@en
P2093
Andrew P. McMahon
Jan M. Stenman
Jay Rajagopal
Jill McMahon
Makoto Ishibashi
Thomas J. Carroll
P2860
P304
P3181
P356
10.1126/SCIENCE.1164594
P407
P577
2008-11-21T00:00:00Z