Wnt signaling interacts with Shh to regulate taste papilla development
about
A taste for ATP: neurotransmission in taste budsExpression of genes encoding multi-transmembrane proteins in specific primate taste cell populationsDeveloping a sense of tasteProgress and renewal in gustation: new insights into taste bud developmentCombined in silico and in vivo analyses reveal role of Hes1 in taste cell differentiationCell-autonomous and non-cell-autonomous roles for IRF6 during development of the tongueDevelopment of gustatory papillae in the absence of Six1 and Six4Fuz regulates craniofacial development through tissue specific responses to signaling factorsThe odontode explosion: the origin of tooth-like structures in vertebratesGenome-wide analysis of gene expression in primate taste buds reveals links to diverse processesFactors that regulate embryonic gustatory development.Using mechanistic Bayesian networks to identify downstream targets of the sonic hedgehog pathway.WT1 regulates the development of the posterior taste field.Wnt signaling activates Shh signaling in early postnatal intervertebral discs, and re-activates Shh signaling in old discs in the mouse.The vitamin D receptor: a tumor suppressor in skin.Transcriptome analyses of taste organoids reveal multiple pathways involved in taste cell generation.FGF signaling regulates the number of posterior taste papillae by controlling progenitor field size.Sonic hedgehog acts as a negative regulator of {beta}-catenin signaling in the adult tongue epithelium.Expression of Gpr177, a Wnt trafficking regulator, in mouse embryogenesisVitamin D and the skin: Physiology and pathophysiology.Role of canonical Wnt signaling/ß-catenin via Dermo1 in cranial dermal cell development.Induction of ectopic taste buds by SHH reveals the competency and plasticity of adult lingual epithelium.Single Lgr5- or Lgr6-expressing taste stem/progenitor cells generate taste bud cells ex vivo.Lgr5 Identifies Progenitor Cells Capable of Taste Bud Regeneration after Injury.R-Spondin1 protects mice from chemotherapy or radiation-induced oral mucositis through the canonical Wnt/beta-catenin pathway.Wnt/beta-catenin signaling in oral tissue development and disease.The formation of endoderm-derived taste sensory organs requires a Pax9-dependent expansion of embryonic taste bud progenitor cellsβ-Catenin Signaling Biases Multipotent Lingual Epithelial Progenitors to Differentiate and Acquire Specific Taste Cell Fates.Insulin-Like Growth Factors Are Expressed in the Taste System, but Do Not Maintain Adult Taste BudsCoevolutionary patterning of teeth and taste budsSeparate and distinctive roles for Wnt5a in tongue, lingual tissue and taste papilla development.β-Catenin signaling regulates temporally discrete phases of anterior taste bud development.Lgr5-EGFP marks taste bud stem/progenitor cells in posterior tongue.The adrenal capsule is a signaling center controlling cell renewal and zonation through Rspo3.Wnt/β-catenin and sonic hedgehog pathways interact in the regulation of the development of the dorsal mesenchymal protrusion.Fate mapping of mammalian embryonic taste bud progenitorsDeciphering the function of canonical Wnt signals in development and disease: conditional loss- and gain-of-function mutations of beta-catenin in mice.Follistatin modulates a BMP autoregulatory loop to control the size and patterning of sensory domains in the developing tongueIn vivo fate tracing studies of mammalian taste cell progenitors.Taste bud homeostasis in health, disease, and aging.
P2860
Q21129478-CAD1C82C-2378-4A94-96B4-B96037616FB2Q21142713-13EB03C9-2974-4A79-AE46-A88B65598AB8Q26866064-AD9BC10C-3740-483B-8AFA-6BE27401E4A3Q27009513-60CDEA40-2D8A-4103-98CF-F50CFC4F74E3Q28475079-28FB3448-DA4D-4706-9CEF-D2BB369D29C3Q28486602-9134581C-A480-4E4B-8DA1-F772D5E9AF30Q28585958-31BDF253-C878-4C72-9F7D-F7A12138FC82Q28592233-CE986890-4370-4E6F-8473-928063E0E588Q28743080-9A4804F9-AB9E-4168-889D-50C54C250C1FQ28752223-9EEAFDA9-A100-4E43-80B5-536F8929FCA3Q33300795-6CBB8996-7C2F-4E86-88DF-5387B66B0E6CQ33519739-E36E61DF-CC50-43EB-939E-2DE3B6323AC4Q33666778-5FA3DE65-82FC-442D-9AD1-B3A8E6D315C6Q33706077-E853C18F-1D06-42BF-BA6F-31086353771DQ33806485-1A621E92-7F71-4616-928D-B5838AFFB1C1Q33822431-D5819641-65F0-405A-A155-DF4B93AC5985Q33926839-FE4F1FA6-281B-449C-93D4-DFBE25CC5497Q33947311-F20F783C-A1E2-4B80-98FF-9D533BA3D0C1Q33949717-23A559D2-62B2-4EE4-A6A2-B94247DCC5FDQ33993788-6F506ABA-9A77-441E-8B50-4F3170435302Q34290550-809C8C4D-21C3-4B16-86F9-E8EE40C5A4EFQ34341645-DBE12E77-E522-436D-8A50-0D8D7723A8FDQ34580996-70D30E43-0EEB-4A03-BE68-9898ED3ADE24Q34793199-AE6DE9A4-F5DE-4E2B-9E85-3BD2956FCD6FQ34932642-D5A7E3BB-A3E0-4872-84DA-DEC2DCA882F4Q35119945-C58B7F59-1C15-42EF-AAE0-75FF355331C4Q35317002-A87D9590-9BE4-406B-B0E8-FDBDC3D73C96Q35644959-DDD473D4-0DDE-41E7-9C71-323DEE68ACFBQ35931144-F7BCA20D-C878-4EEB-91D3-DA9D0846E932Q36268737-636D7679-1919-480A-AFAA-7C3F47CD9F9DQ36301662-12E75CE0-CA9A-4743-8F3F-5FFF136D5148Q36398917-D1AC14DF-139F-40BC-AF4B-DBFC8310C1E4Q36798251-149F1F98-2E1A-4F2D-9D35-A6A1129FBCA0Q37051740-82FDAB55-DA64-4764-A65B-74FF2C3BE2B9Q37161496-97F9EC90-CB36-453F-A26E-6E0155454461Q37172004-CB0766A4-8A40-4A7F-8C4D-3CC9EA2CC4B3Q37259094-CA017F32-70D0-426A-B52F-FADAB2E22DFFQ37311663-6D60EA4E-0617-4818-B8CD-3D4A881B4661Q37337205-F78A15B9-696E-442B-8610-6EB7EF051DDFQ37394784-8A07B184-3C75-4E69-A018-037686AB8B14
P2860
Wnt signaling interacts with Shh to regulate taste papilla development
description
2007 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
2007 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
article publié dans les Procee ...... f the United States of America
@fr
artículu científicu espublizáu en 2007
@ast
im Februar 2007 veröffentlichter wissenschaftlicher Artikel
@de
scientific journal article
@en
vedecký článok (publikovaný 2007/02/13)
@sk
vědecký článek publikovaný v roce 2007
@cs
wetenschappelijk artikel (gepubliceerd op 2007/02/13)
@nl
наукова стаття, опублікована в лютому 2007
@uk
name
Wnt signaling interacts with Shh to regulate taste papilla development
@ast
Wnt signaling interacts with Shh to regulate taste papilla development
@en
Wnt signaling interacts with Shh to regulate taste papilla development
@nl
type
label
Wnt signaling interacts with Shh to regulate taste papilla development
@ast
Wnt signaling interacts with Shh to regulate taste papilla development
@en
Wnt signaling interacts with Shh to regulate taste papilla development
@nl
prefLabel
Wnt signaling interacts with Shh to regulate taste papilla development
@ast
Wnt signaling interacts with Shh to regulate taste papilla development
@en
Wnt signaling interacts with Shh to regulate taste papilla development
@nl
P2093
P2860
P921
P356
P1476
Wnt signaling interacts with Shh to regulate taste papilla development
@en
P2093
Albert Grónder
Charlotte M Mistretta
Hong-Xiang Liu
Ken Iwatsuki
Meredith A Singer
Rudolf Grosschedl
Timothy F Lane
P2860
P304
P356
10.1073/PNAS.0607399104
P407
P577
2007-02-06T00:00:00Z