Transduction of graded Hedgehog signaling by a combination of Gli2 and Gli3 activator functions in the developing spinal cord
about
Mediator modulates Gli3-dependent Sonic hedgehog signalingMice deficient in the fused homolog do not exhibit phenotypes indicative of perturbed hedgehog signaling during embryonic developmentA gradient of Gli activity mediates graded Sonic Hedgehog signaling in the neural tubeEstablishing and interpreting graded Sonic Hedgehog signaling during vertebrate neural tube patterning: the role of negative feedbackFoxn4 acts synergistically with Mash1 to specify subtype identity of V2 interneurons in the spinal cordSonic hedgehog signaling regulates Gli2 transcriptional activity by suppressing its processing and degradationPhosphorylation of Gli2 by protein kinase A is required for Gli2 processing and degradation and the Sonic Hedgehog-regulated mouse developmentProtein kinase A acts at the basal body of the primary cilium to prevent Gli2 activation and ventralization of the mouse neural tubeMolecular specification and patterning of progenitor cells in the lateral and medial ganglionic eminencesVisualized gene network reveals the novel target transcripts Sox2 and Pax6 of neuronal development in trans-placental exposure to bisphenol AMouse Kif7/Costal2 is a cilia-associated protein that regulates Sonic hedgehog signalingEvoD/Vo: the origins of BMP signalling in the neuroectodermTranscriptional profiling of mammary gland side population cells.Threshold-dependent BMP-mediated repression: a model for a conserved mechanism that patterns the neuroectodermPoint mutations in GLI3 lead to misregulation of its subcellular localization.Distinct Sonic Hedgehog signaling dynamics specify floor plate and ventral neuronal progenitors in the vertebrate neural tube.The Gli code: an information nexus regulating cell fate, stemness and cancer.A cell-autonomous requirement for Cip/Kip cyclin-kinase inhibitors in regulating neuronal cell cycle exit but not differentiation in the developing spinal cord.Retinoic Acid-Mediated Regulation of GLI3 Enables Efficient Motoneuron Derivation from Human ESCs in the Absence of Extrinsic SHH ActivationTcf7l2/Tcf4 Transcriptional Repressor Function Requires HDAC Activity in the Developing Vertebrate CNSCraniofacial Ciliopathies Reveal Specific Requirements for GLI Proteins during Development of the Facial Midline.Mechanisms of ventral patterning in the vertebrate nervous system.How do genes regulate simple behaviours? Understanding how different neurons in the vertebrate spinal cord are genetically specified.Floor plate-derived sonic hedgehog regulates glial and ependymal cell fates in the developing spinal cord.Regulatory pathways linking progenitor patterning, cell fates and neurogenesis in the ventral neural tubePrimary cilia regulate hippocampal neurogenesis by mediating sonic hedgehog signaling.Transgenic overexpression of Sox17 promotes oligodendrocyte development and attenuates demyelination.The primary cilium at the crossroads of mammalian hedgehog signalingShh and Gli3 activities are required for timely generation of motor neuron progenitors.Understanding Mechanisms of GLI-Mediated Transcription during Craniofacial Development and Disease Using the Ciliopathic Mutant, talpid2.An epigenetic switch induced by Shh signalling regulates gene activation during development and medulloblastoma growth.Molecular genetic control of cell patterning and fate determination in the developing ventral spinal cord.Transcriptional regulation of graded Hedgehog signalingEph/Ephrin Signaling Controls Progenitor Identities In The Ventral Spinal Cord.Roles of Hedgehog pathway components and retinoic acid signalling in specifying zebrafish ventral spinal cord neurons.Cloning of zebrafish nkx6.2 and a comprehensive analysis of the conserved transcriptional response to Hedgehog/Gli signaling in the zebrafish neural tube.Arx together with FoxA2, regulates Shh floor plate expression.Gli protein activity is controlled by multisite phosphorylation in vertebrate Hedgehog signaling.Gli function is essential for motor neuron induction in zebrafish.A novel Gli3 enhancer controls the Gli3 spatiotemporal expression pattern through a TALE homeodomain protein binding site
P2860
Q24304401-F1B4E8D3-B46E-4DF2-A4C3-90861BE8886CQ24529871-83D1C527-434C-4D7E-A3B9-C862D161DC63Q24556567-CDBEE67E-BA8B-43ED-9446-AC913CA7C16FQ24656671-76B4C4E4-1A23-4D03-84CA-43B26794D6F5Q28505859-647934E9-7957-4EB7-AC02-4F73839937FEQ28507411-B280CECC-E821-4571-95FC-7D2B1A53F27CQ28509768-91F06961-7C95-4041-89A0-998170D83182Q28512810-F0B292F4-DCD5-49F8-A79B-C91230F74F27Q28513284-36437821-6D2A-40E0-8C78-DB239D998516Q28541014-28799029-28FA-4247-A3DC-39C1A60D6B9FQ28589839-84DBC7BA-F4A4-48E4-BAA7-8AAEEFF70324Q28751378-F27DDBC9-E4B6-4FCA-8DDA-8CF3511DC6EAQ33226984-21CCC719-29E0-4FE2-941B-2DC78CC59B8BQ33257262-B11F1C1A-37AE-4069-B908-ABE6D30C9149Q33510677-C8493945-B806-49B6-9E55-8B8E1B255AF4Q33885703-09C9781F-08CB-45B3-9BF1-A9ACF2E2AA97Q34685494-51BCB223-8370-4E97-B94B-A22D9D47ADC3Q35677707-CB1C91B5-E2B7-4400-B3EB-A3BE3FAAECD3Q35968077-DF2B4A1A-B714-4A86-B17E-A754AE9AEC47Q36144705-11E6C9D9-E8B0-4A76-82BA-8CA89929F4DAQ36179242-0A1CED9B-3DFF-488A-BC70-0C318AC7F701Q36374963-527E1961-1535-47B7-854A-26005DC1B4A3Q36428328-9EA237D7-B500-4234-AB48-8398A4868217Q36682992-417A61C8-6E7B-4C9A-B8B3-244A1CE824F8Q36729325-0D3555E1-9C25-4278-ABF1-490416515381Q36861834-AA486072-E8D7-4D04-926C-0D5150226AB9Q37041616-8E7CDB77-99F6-44B8-9C8D-275D7F062903Q37123067-E69C7E11-5995-4812-9B35-CD2BAE62341EQ37245158-B807E0C1-49F2-4652-824E-3EA1976146D9Q37342555-FA365915-C831-4B57-9E9E-F95B4112FD71Q37583341-38A2862C-DF7C-4D15-ADB3-CB3F4EF18252Q38116927-5FD00585-C2D2-4BB1-B431-0105034EDF73Q38215036-EACB7584-7FFE-4062-A465-8AA98E73BF98Q38735817-0A600E5F-D087-43B3-8428-EA0FE2E30C39Q38979241-4783A642-D1F2-4035-BEFA-76AB6DE5F363Q41821677-35AB3CB8-00D8-4BC8-924B-BE47C0EAB1E5Q41841649-0146EDA6-0639-4CDA-B3FD-BFCE36E4EBD1Q41917900-FC1AF324-3FA9-454F-8011-FA29A3B405C1Q42087168-EB78CA4E-803A-4139-ABEE-002D7EC74E67Q42799802-5D5DB3DE-3199-43B7-AA6B-2883C8C3CEE9
P2860
Transduction of graded Hedgehog signaling by a combination of Gli2 and Gli3 activator functions in the developing spinal cord
description
2004 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
2004 թվականի օգոստոսին հրատարակված գիտական հոդված
@hy
artículu científicu espublizáu en 2004
@ast
im August 2004 veröffentlichter wissenschaftlicher Artikel
@de
scientific journal article
@en
vedecký článok (publikovaný 2004/08/01)
@sk
vědecký článek publikovaný v roce 2004
@cs
wetenschappelijk artikel (gepubliceerd op 2004/08/01)
@nl
наукова стаття, опублікована в серпні 2004
@uk
مقالة علمية (نشرت في أغسطس 2004)
@ar
name
Transduction of graded Hedgeho ...... in the developing spinal cord
@ast
Transduction of graded Hedgeho ...... in the developing spinal cord
@en
Transduction of graded Hedgeho ...... in the developing spinal cord
@nl
type
label
Transduction of graded Hedgeho ...... in the developing spinal cord
@ast
Transduction of graded Hedgeho ...... in the developing spinal cord
@en
Transduction of graded Hedgeho ...... in the developing spinal cord
@nl
prefLabel
Transduction of graded Hedgeho ...... in the developing spinal cord
@ast
Transduction of graded Hedgeho ...... in the developing spinal cord
@en
Transduction of graded Hedgeho ...... in the developing spinal cord
@nl
P2093
P3181
P356
P1433
P1476
Transduction of graded Hedgeho ...... in the developing spinal cord
@en
P2093
Alice K. Zelman
P304
P3181
P356
10.1242/DEV.01230
P407
P577
2004-08-01T00:00:00Z