A role for MKP3 in axial patterning of the zebrafish embryo
about
Reciprocal regulation of extracellular signal regulated kinase 1/2 and mitogen activated protein kinase phosphatase-3Distinct and separable activities of the endocytic clathrin-coat components Fcho1/2 and AP-2 in developmental patterningEnhancer trapping in zebrafish using the Sleeping Beauty transposonFormation of the embryonic organizer is restricted by the competitive influences of Fgf signaling and the SoxB1 transcription factorsSpatial and temporal control of transgene expression in zebrafishChemokine GPCR signaling inhibits β-catenin during zebrafish axis formationA MultiSite Gateway Toolkit for Rapid Cloning of Vertebrate Expression Constructs with Diverse Research Applications.The family-wide structure and function of human dual-specificity protein phosphatasesDistinct progression pathways involving the dysfunction of DUSP6/MKP-3 in pancreatic intraepithelial neoplasia and intraductal papillary-mucinous neoplasms of the pancreasOverlapping functions of Pea3 ETS transcription factors in FGF signaling during zebrafish developmentFGF-dependent left-right asymmetry patterning in zebrafish is mediated by Ier2 and Fibp1Lrig3 regulates neural crest formation in Xenopus by modulating Fgf and Wnt signaling pathwaysCombinatorial Fgf and Bmp signalling patterns the gastrula ectoderm into prospective neural and epidermal domainsNaked1 antagonizes Wnt signaling by preventing nuclear accumulation of β-cateninImpaired embryonic motility in dusp27 mutants reveals a developmental defect in myofibril structureGeneration of FGF reporter transgenic zebrafish and their utility in chemical screens.PI3K and Erk MAPK mediate ErbB signaling in Xenopus gastrulation.Lef1 regulates Dusp6 to influence neuromast formation and spacing in the zebrafish posterior lateral line primordium.In vivo structure-activity relationship studies support allosteric targeting of a dual specificity phosphatase.FGF signaling controls caudal hindbrain specification through Ras-ERK1/2 pathway.Zebrafish chemical screening reveals an inhibitor of Dusp6 that expands cardiac cell lineages.microRNA-200a-3p increases 5-fluorouracil resistance by regulating dual specificity phosphatase 6 expression.Correct anteroposterior patterning of the zebrafish neurectoderm in the absence of the early dorsal organizer.A high-content screening assay in transgenic zebrafish identifies two novel activators of fgf signalingSHIP2, a factor associated with diet-induced obesity and insulin sensitivity, attenuates FGF signaling in vivo.RA and FGF signalling are required in the zebrafish otic vesicle to pattern and maintain ventral otic identitiesZebrafish Naked1 and Naked2 antagonize both canonical and non-canonical Wnt signaling.R-spondin 3 regulates dorsoventral and anteroposterior patterning by antagonizing Wnt/β-catenin signaling in zebrafish embryos.Global analysis of hematopoietic and vascular endothelial gene expression by tissue specific microarray profiling in zebrafish.Exogenous fibroblast growth factor-10 induces cystic lung development with altered target gene expression in the presence of heparin in cultures of embryonic rat lung.Artery/vein specification is governed by opposing phosphatidylinositol-3 kinase and MAP kinase/ERK signaling.Chordin expression, mediated by Nodal and FGF signaling, is restricted by redundant function of two beta-catenins in the zebrafish embryo.Dusp6 (Mkp3) is a negative feedback regulator of FGF-stimulated ERK signaling during mouse development.Genetic complementation screen identifies a mitogen-activated protein kinase phosphatase, MKP3, as a regulator of dopamine transporter traffickingProtein tyrosine phosphatase receptor type O (Ptpro) regulates cerebellar formation during zebrafish development through modulating Fgf signaling.Protein tyrosine phosphatases: dual-specificity phosphatases in health and disease.Inhibition of mitogen-activated protein kinase phosphatase 3 activity by interdomain bindingDominant-negative kinase domain mutations in FGFR1 can explain the clinical severity of Hartsfield syndrome.Crucial role of phosphatidylinositol 4-kinase IIIalpha in development of zebrafish pectoral fin is linked to phosphoinositide 3-kinase and FGF signaling.A genetic screen for vascular mutants in zebrafish reveals dynamic roles for Vegf/Plcg1 signaling during artery development.
P2860
Q24310324-79524BA6-5280-4295-8D38-0F4F5A9D7509Q24312010-CFE3A7A0-6920-4F33-9158-A5F8AAEC7654Q24795503-B8136E33-FF24-4F92-B451-C2CF9CD599FBQ27312466-7D347711-2A8C-4560-B6C0-94C6DDE48DF4Q27314688-743429FF-9B61-4AC0-BBF2-DFBAEF467DBFQ27318670-CECC26C6-9408-4E1C-AEAF-038142893AE6Q27334567-B0B8F2F0-BE29-4AED-B9C4-60A2924228D8Q27689086-1D03929E-03AA-4A4B-9809-CEE0227654FBQ28245313-10C4D8CD-9D0F-4DAB-827B-FA27CD1F6FA6Q28312163-12022A49-B129-4943-AEE1-B445761371B1Q28312172-40AB9C1D-3577-4AA8-B26E-BB0960DE9383Q28312188-B5E26D33-CDA3-41AD-9953-D2CD3DB185B5Q28312207-06825F0C-F005-4F4F-B455-0104CCA8D00DQ28477683-ACD76CA5-EDBA-40EE-B748-11007302FEE9Q30443094-57F29E6F-AB75-447E-BC47-C61B6A301997Q30479704-2083CF63-A995-45CE-9A06-2E5AFA3FB0D1Q30480771-7453B51F-A16D-4481-B657-AA91DC0C2676Q30539782-F5A9F4BA-252E-47F1-A6F5-38FDCBC8B463Q30585632-F15ED104-AEB7-4A51-8E2D-B1F1631AD4EAQ30951686-221F0506-323D-4869-85CB-8AB984A97372Q33478364-62F70E72-CE3D-487D-9B55-BBA170A0AD23Q33754032-2EAA3A6E-30C2-4F60-ACC8-D555252447AEQ33901600-8D67F85F-1A95-4B79-A832-752850E9493AQ34024352-AD235394-A805-4291-8980-EB90F7632FE4Q34247674-BDC5D973-FB43-43C8-83CA-5C9316FC7F66Q34452016-A8531FC4-E4F8-48D4-8FB9-C0ACA7AFFE6AQ34661534-0C3863B5-178E-43E0-A712-28F4FA9CDCECQ35185403-FA5F1257-5936-4DB3-BA1B-D13DB4506746Q35606763-A83E80D5-2635-4A3B-8262-B8841ABED4CEQ35789478-A1954C17-34A5-4F02-97C4-A9DF077286E7Q35908545-1BCC9019-FA07-48EF-A34A-E6343BE0C8C0Q36301508-5A781496-CB43-4615-9F44-570F6DDC4539Q36713660-848BF104-81F7-442D-9F0D-9DD1B76BFB14Q36739955-A1863710-3B93-4B43-8819-56BD23561617Q36913455-3E6E4E4E-311F-4D16-BE57-C2A05B780809Q37094068-186F5A51-0FF3-47DA-B2C4-622918A77F02Q37141512-5735603D-786D-49B5-95D6-C93DAA958F52Q37336121-A27F0116-1E90-471F-A54A-C41086A6F947Q37425383-AE31AE5D-D44C-4D6D-825E-2A3D51B8269BQ37468040-ED2E0752-6CA4-42CD-B5F8-08A874ADD62D
P2860
A role for MKP3 in axial patterning of the zebrafish embryo
description
2004 nî lūn-bûn
@nan
2004 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
2004 թվականի հունիսին հրատարակված գիտական հոդված
@hy
2004年の論文
@ja
2004年論文
@yue
2004年論文
@zh-hant
2004年論文
@zh-hk
2004年論文
@zh-mo
2004年論文
@zh-tw
2004年论文
@wuu
name
A role for MKP3 in axial patterning of the zebrafish embryo
@ast
A role for MKP3 in axial patterning of the zebrafish embryo
@en
A role for MKP3 in axial patterning of the zebrafish embryo
@nl
type
label
A role for MKP3 in axial patterning of the zebrafish embryo
@ast
A role for MKP3 in axial patterning of the zebrafish embryo
@en
A role for MKP3 in axial patterning of the zebrafish embryo
@nl
prefLabel
A role for MKP3 in axial patterning of the zebrafish embryo
@ast
A role for MKP3 in axial patterning of the zebrafish embryo
@en
A role for MKP3 in axial patterning of the zebrafish embryo
@nl
P2093
P3181
P356
P1433
P1476
A role for MKP3 in axial patterning of the zebrafish embryo
@en
P2093
Anne Kiang
Eric Weinberg
Raymond Habas
Shingo Maegawa
P304
P3181
P356
10.1242/DEV.01157
P407
P577
2004-06-01T00:00:00Z