about
Tip60 regulates myoblast differentiation by enhancing the transcriptional activity of MyoD via their physical interactionsDistinct roles for miR-1 and miR-133a in the proliferation and differentiation of rhabdomyosarcoma cellsSMYD proteins: key regulators in skeletal and cardiac muscle development and functionDifferential modulation of cell cycle progression distinguishes members of the myogenic regulatory factor family of transcription factorsThe ER-bound RING finger protein 5 (RNF5/RMA1) causes degenerative myopathy in transgenic mice and is deregulated in inclusion body myositisEpistasis of transcriptomes reveals synergism between transcriptional activators Hnf1alpha and Hnf4alphaStructure of the MADS-box/MEF2 Domain of MEF2A Bound to DNA and Its Implication for Myocardin RecruitmentTranscription factor TEAD4 regulates expression of myogenin and the unfolded protein response genes during C2C12 cell differentiationFibroblast growth factor inducible 14 (Fn14) is required for the expression of myogenic regulatory factors and differentiation of myoblasts into myotubes. Evidence for TWEAK-independent functions of Fn14 during myogenesisTranscriptional and Chromatin Dynamics of Muscle Regeneration after Severe TraumaBTB-Kelch protein Krp1 regulates proliferation and differentiation of myoblastsA highly conserved molecular switch binds MSY-3 to regulate myogenin repression in postnatal muscleSignal-dependent incorporation of MyoD-BAF60c into Brg1-based SWI/SNF chromatin-remodelling complexA novel function of the proneural factor Ascl1 in progenitor proliferation identified by genome-wide characterization of its targetsGlucocorticoid-induced leucine zipper (GILZ) and long GILZ inhibit myogenic differentiation and mediate anti-myogenic effects of glucocorticoidsSwitching of the core transcription machinery during myogenesisStress-induced C/EBP homology protein (CHOP) represses MyoD transcription to delay myoblast differentiationPrimary cilia control hedgehog signaling during muscle differentiation and are deregulated in rhabdomyosarcomaMyomaxin is a novel transcriptional target of MEF2A that encodes a Xin-related alpha-actinin-interacting proteinAnalysis of early C2C12 myogenesis identifies stably and differentially expressed transcriptional regulators whose knock-down inhibits myoblast differentiationUTX mediates demethylation of H3K27me3 at muscle-specific genes during myogenesisA systems approach reveals that the myogenesis genome network is regulated by the transcriptional repressor RP58Histone methyltransferase Suv39h1 represses MyoD-stimulated myogenic differentiationCentronuclear myopathy in mice lacking a novel muscle-specific protein kinase transcriptionally regulated by MEF2Brn3a target gene recognition in embryonic sensory neuronsThe positive transcription elongation factor b is an essential cofactor for the activation of transcription by myocyte enhancer factor 2Comparative expression profiling identifies differential roles for Myogenin and p38α MAPK signaling in myogenesisRNA-Binding Protein AUF1 Promotes Myogenesis by Regulating MEF2C Expression LevelsMulti-tasking role of the mechanosensing protein Ankrd2 in the signaling network of striated muscle.Notch3 and Mef2c proteins are mutually antagonistic via Mkp1 protein and miR-1/206 microRNAs in differentiating myoblastsAnalysis of human muscle stem cells reveals a differentiation-resistant progenitor cell population expressing Pax7 capable of self-renewal.Unraveling condition specific gene transcriptional regulatory networks in Saccharomyces cerevisiaeCharacterizing disease states from topological properties of transcriptional regulatory networks.Reciprocal regulation of p63 by C/EBP delta in human keratinocytes.Identification of genes differentially expressed during prenatal development of skeletal muscle in two pig breeds differing in muscularityFunctional genomic delineation of TLR-induced transcriptional networks.Motif-directed network component analysis for regulatory network inference.Multistable decision switches for flexible control of epigenetic differentiation.Semi-supervised gene shaving method for predicting low variation biological pathways from genome-wide dataInferring the transcriptional landscape of bovine skeletal muscle by integrating co-expression networks.
P2860
Q24338410-F37B50A0-A515-4216-AFE2-E9C5A0048BF8Q24632284-3B294F78-33F3-40CF-A5FD-73837FA15032Q26865167-CA2CC9E5-F5C4-4D1D-BB6A-95773AEB3F66Q27022808-26D2F560-807A-4ABC-BFA9-6CE254103DB4Q27301955-0120E18A-9837-4F44-87B6-AB32A3DBE1D6Q27347312-2B2ED24D-BFE7-4960-9217-0A8FABDF0F0FQ27659516-0BCFB118-BC9C-46AD-BB28-11E5F022C06FQ28241609-A43DC556-F40F-46FA-B544-68BA726B1E05Q28294844-58E56F32-C38B-4379-93AB-8125B08C4733Q28393992-F83A6B4F-9D6B-4F04-840F-349DD2BAA92AQ28505113-C0ED64B5-DBC7-4AAE-A0C1-12ECF0BB55BCQ28505520-FB59AE96-B114-443B-BF35-7836B88B1112Q28506817-31DE9A71-32CD-4461-A1C4-1C80D2F51296Q28508329-5FCCEC1A-FCBE-47B8-80B7-B82976D4DF79Q28509978-001B1B67-100A-4E62-8E2C-A18F0FDF383EQ28510568-DE1BD618-D919-4A07-9A2E-61090BF54943Q28510649-A04EC4E3-07F1-483E-8CE2-FA3B58650381Q28512043-248AAD6E-0029-48E0-868A-7DCA63015C16Q28585105-57119D42-057B-4335-A797-8DE51E504E78Q28586902-BD2EFB7B-4F88-423C-A953-39808D002055Q28587655-83AEFD31-0120-4B54-A8D2-FD1530B308FDQ28587674-BDBB126E-0F0E-4D5F-9E62-75CDF6C000E6Q28588561-833E46F1-7A4C-4BFB-BA49-2A70920E99F0Q28589432-C1BDB62B-ACA6-4061-B58C-CD1D659AE1BCQ28593843-8DE44B5D-660D-41C4-AC57-59CBBB1E622DQ28595060-3833E815-4E04-4F2E-8EAD-7BCAD4926119Q29347275-6AF36796-493E-403E-9BA6-C3377140A2BBQ29395966-99F14CCF-D898-4851-8202-ACE26F95DC7EQ30010222-99CC0BF9-58D1-47CC-AC8F-7FA7408B49A4Q30416251-342F8427-8CE9-467C-987D-38D9649A3BD0Q30492572-6FEEB606-8362-4D54-9A12-432DD1C241F5Q33237187-B1D22909-447E-4037-8280-3065195DF05FQ33241989-9A992AEB-000B-4BAE-AC7D-44611EF33E3AQ33300780-FF8D0433-29A8-421A-A6A6-859FAE0F1F66Q33301044-5733FB6A-A216-40F6-BAF0-11C2A0D09D11Q33304240-247DFB2C-BD8C-4BB8-977B-D9A56FDD7555Q33322210-BE43FBD9-3919-4859-8331-7C4555A1161AQ33388197-40D08985-26BE-4636-8FB1-865A1EADE4B6Q33407889-658D267A-FDD9-4A60-B8B0-ECB5D19E3020Q33507905-C4DB5295-DA5E-4713-9DEB-7E21E2121321
P2860
description
2005 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
2005 թվականի մարտին հրատարակված գիտական հոդված
@hy
artículu científicu espublizáu en 2005
@ast
im März 2005 veröffentlichter wissenschaftlicher Artikel
@de
scientific journal article
@en
vedecký článok (publikovaný 2005/03/01)
@sk
vědecký článek publikovaný v roce 2005
@cs
wetenschappelijk artikel (gepubliceerd op 2005/03/01)
@nl
наукова стаття, опублікована в березні 2005
@uk
مقالة علمية (نشرت في مارس 2005)
@ar
name
An initial blueprint for myogenic differentiation
@ast
An initial blueprint for myogenic differentiation
@en
An initial blueprint for myogenic differentiation
@nl
type
label
An initial blueprint for myogenic differentiation
@ast
An initial blueprint for myogenic differentiation
@en
An initial blueprint for myogenic differentiation
@nl
prefLabel
An initial blueprint for myogenic differentiation
@ast
An initial blueprint for myogenic differentiation
@en
An initial blueprint for myogenic differentiation
@nl
P2093
P2860
P3181
P356
P1433
P1476
An initial blueprint for myogenic differentiation
@en
P2093
Alexandre Blais
Brian David Dynlacht
Mary Tsikitis
Yuval Kluger
P2860
P304
P3181
P356
10.1101/GAD.1281105
P577
2005-02-10T00:00:00Z