Wnt5a can both activate and repress Wnt/β-catenin signaling during mouse embryonic development.
about
WNT-5A: signaling and functions in health and diseaseRole and regulation of β-catenin signaling during physiological liver growthWnt and planar cell polarity signaling in cystic renal diseaseAnalysis of neural crest-derived clones reveals novel aspects of facial development.Non-canonical WNT signalling in the lungActivation of intracellular calcium by multiple Wnt ligands and translocation of β-catenin into the nucleus: a convergent model of Wnt/Ca2+ and Wnt/β-catenin pathwaysDiminution of signal transducer and activator of transcription 3 signaling inhibits vascular permeability and anaphylaxisBoth canonical and non-canonical Wnt signaling independently promote stem cell growth in mammospheresMolecular Signaling of Progesterone, Growth Hormone, Wnt, and HER in Mammary Glands of Dogs, Rodents, and Humans: New Treatment Target Identification.Induction of WNT inhibitory factor 1 expression by Müllerian inhibiting substance/antiMullerian hormone in the Müllerian duct mesenchyme is linked to Müllerian duct regression.Bone marrow mesenchymal stem cell-derived Wnt5a inhibits leukemia cell progression in vitro via activation of the non-canonical Wnt signaling pathway.Expression of Wnt-5a and β-catenin in primary hepatocellular carcinoma.Null and hypomorph Prickle1 alleles in mice phenocopy human Robinow syndrome and disrupt signaling downstream of Wnt5aIntersection of AHR and Wnt signaling in development, health, and disease.Use of a molecular genetic platform technology to produce human Wnt proteins reveals distinct local and distal signaling abilitiesNon-canonical Wnt5a/Ror2 signaling regulates kidney morphogenesis by controlling intermediate mesoderm extension.Dynamic interaction between astrocytes and infiltrating PBMCs in context of neuroAIDSRor2 regulates branching, differentiation, and actin-cytoskeletal dynamics within the mammary epithelium.Wnt5a through noncanonical Wnt/JNK or Wnt/PKC signaling contributes to the differentiation of mesenchymal stem cells into type II alveolar epithelial cells in vitro.Molecular Role of RNF43 in Canonical and Noncanonical Wnt SignalingMesenchymal Wnt signaling promotes formation of sternum and thoracic body wallDiscovery of piRNAs Pathway Associated with Early-Stage Spermatogenesis in Chickenβ-catenin is required in the neural crest and mesencephalon for pituitary gland organogenesis.Expression Pattern of Axin2 During Chicken DevelopmentOver-expression of ROR2 and Wnt5a cooperatively correlates with unfavorable prognosis in patients with non-small cell lung cancer.Molecular mechanism of Hoxd13-mediated congenital malformations in rat embryos.Upregulation of the expression of Wnt5a promotes the proliferation of pancreatic cancer cells in vitro and in a nude mouse modelExpression of Wnt5a and its receptor Fzd2 is changed in the spinal cord of adult amyotrophic lateral sclerosis transgenic mice.A study of the relationship between the Wnt/β-catenin signaling pathway and the gastrointestinal development of rat embryonic and perinatal periods.Discrete somatic niches coordinate proliferation and migration of primordial germ cells via Wnt signaling.The small GTPase ARF6 stimulates β-catenin transcriptional activity during WNT5A-mediated melanoma invasion and metastasis.Wnt signaling during cochlear development.Wnt-signalling in the embryonic mammary gland.Noncanonical Wnt5a enhances Wnt/β-catenin signaling during osteoblastogenesis.Wnt5a regulates the cell proliferation and adipogenesis via MAPK-independent pathway in early stage of obesity.GSK-3β Inhibition Suppresses Instability-induced Osteolysis by a Dual Action on Osteoblast and Osteoclast Differentiation.A Nexus Consisting of Beta-Catenin and Stat3 Attenuates BRAF Inhibitor Efficacy and Mediates Acquired Resistance to Vemurafenib.Vertebrate Axial Patterning: From Egg to Asymmetry.Wnt5a inhibited human trophoblast cell line HTR8/SVneo invasion: implications for early placentation and preeclampsia.The WNT-less wonder: WNT-independent β-catenin signaling.
P2860
Q26777942-2687CEEB-C2DF-47AE-9837-A4DE92259712Q26864289-83D09DDA-D57A-4675-A3D8-8F30CAB7F42EQ26999700-A5BAEBC2-8234-4657-A6D2-ECD2B99B1014Q27333927-F9A71705-BCF7-4AAA-9588-3AAB4562E4D1Q28080483-A0BF38D8-C998-43BE-9C8D-3426BE397A78Q28300858-AD2D437F-684A-4B1C-80C7-7F6C709C7132Q28383324-5AD2505D-068C-45FD-B191-0C9A07BAE5DCQ28540692-EB4C2A5E-2CD4-4BA4-87D9-7A1A471BA8A3Q33559178-85FFF2D7-29AB-42AB-9C87-F49B3F3BC85AQ33719519-84795438-C025-4212-A25C-FB8E2E81627EQ33778512-A69F6A8B-5911-4CEF-BC7F-A374BA221553Q33898617-92915EE0-7B7F-409B-8608-0B6CA66BF3A2Q34178790-5F4EDB5B-EEE0-4C26-A5D7-14F24782477FQ34486670-88C3FA00-779A-425E-9A06-3426C6F1F43FQ34629577-19A42843-29C0-4CF8-9A6A-B4A16F64E594Q34736444-6ACB3827-00CD-4E8A-8A0E-7EBB34E105C2Q34944392-BB5E6C8D-A990-451A-879D-1D8533D675CAQ35042883-E3943E89-87FD-44CB-BB67-7CD67D9F2F5AQ35127975-31B3A569-BA2A-4870-B7B7-CDD111694BC5Q35573020-CAC6BF25-2A1A-4230-85F8-8AE15829A188Q35582565-BAEDFC96-8837-421B-B714-6E317ADE2A2AQ35979803-B0E5C899-94CF-49AD-92B3-EB404DE6DDCEQ36019303-2ADDE46C-7106-4156-A13A-8C8AAC3BCF39Q36146662-FEBE9AD9-1E69-4F37-BBA2-379B4F206624Q36413067-73D48790-55CF-4167-ADEC-587137F06070Q36511664-4F3604C4-9EE5-40BF-9185-B4A8BBA21B78Q36520184-C37E4C46-BC27-43E9-B239-5595A8F37A4DQ36956184-839DAE1D-78B6-4021-91E4-493BB74BA569Q36986060-D2CADB36-1876-480A-AFAB-79BDF1833FD3Q37105060-FD49AD40-FBFD-4522-BE45-24438D997147Q37651978-DE91908A-5706-4CB1-BC45-13F1BB23D84CQ38095242-0C3993CD-FE7F-4BB5-8881-2636BD44A683Q38105461-401C1770-C49B-4A0C-808F-84CC8D88E734Q38534614-6DA9F517-D558-4748-B74C-33A20F311085Q38603554-C9B54CE9-7E91-4C77-9A61-64A8B4A89B44Q38668332-E4B18006-4F38-4781-92B8-EF9087604FD3Q38757495-89C9091A-DD40-4C38-BCDA-B16242984ECCQ38782671-7CFC4064-6879-4377-96B5-D895D59C2BFFQ38795141-99217367-C329-4216-A0E5-2FEC7F3A3A2CQ38867422-55583321-7697-48AF-AA88-5F0068FFEDDA
P2860
Wnt5a can both activate and repress Wnt/β-catenin signaling during mouse embryonic development.
description
2012 nî lūn-bûn
@nan
2012 թուականի Յուլիսին հրատարակուած գիտական յօդուած
@hyw
2012 թվականի հուլիսին հրատարակված գիտական հոդված
@hy
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
name
Wnt5a can both activate and re ...... g mouse embryonic development.
@ast
Wnt5a can both activate and re ...... g mouse embryonic development.
@en
Wnt5a can both activate and re ...... g mouse embryonic development.
@nl
type
label
Wnt5a can both activate and re ...... g mouse embryonic development.
@ast
Wnt5a can both activate and re ...... g mouse embryonic development.
@en
Wnt5a can both activate and re ...... g mouse embryonic development.
@nl
prefLabel
Wnt5a can both activate and re ...... g mouse embryonic development.
@ast
Wnt5a can both activate and re ...... g mouse embryonic development.
@en
Wnt5a can both activate and re ...... g mouse embryonic development.
@nl
P2093
P2860
P1476
Wnt5a can both activate and re ...... g mouse embryonic development.
@en
P2093
Christophe Fuerer
Makiko Mizutani
Renée van Amerongen
Roel Nusse
P2860
P304
P356
10.1016/J.YDBIO.2012.06.020
P407
P577
2012-07-04T00:00:00Z