Sequence-specific recruitment of transcriptional co-repressor Cabin1 by myocyte enhancer factor-2
about
MEF2C DNA-binding activity is inhibited through its interaction with the regulatory protein Ki-1/57Phosphorylation-facilitated sumoylation of MEF2C negatively regulates its transcriptional activityMEF2 transcription factors: developmental regulators and emerging cancer genesCrystal structure of a conserved N-terminal domain of histone deacetylase 4 reveals functional insights into glutamine-rich domainsStructure of the MADS-box/MEF2 Domain of MEF2A Bound to DNA and Its Implication for Myocardin RecruitmentStructure of p300 bound to MEF2 on DNA reveals a mechanism of enhanceosome assemblyInhibition of the function of class IIa HDACs by blocking their interaction with MEF2Caffeine induces hyperacetylation of histones at the MEF2 site on the Glut4 promoter and increases MEF2A binding to the site via a CaMK-dependent mechanismMOSAIC FLORAL ORGANS1, an AGL6-like MADS box gene, regulates floral organ identity and meristem fate in rice.HPC2 and ubinuclein define a novel family of histone chaperones conserved throughout eukaryotes.Meta-coexpression conservation analysis of microarray data: a "subset" approach provides insight into brain-derived neurotrophic factor regulation.The co-existence of transcriptional activator and transcriptional repressor MEF2 complexes influences tumor aggressiveness.Toward transcriptional therapies for the failing heart: chemical screens to modulate genesMyocyte enhancer factor 2 activates promoter sequences of the human AbetaH-J-J locus, encoding aspartyl-beta-hydroxylase, junctin, and junctateClass II histone deacetylases: from sequence to function, regulation, and clinical implication.Conserved and variable correlated mutations in the plant MADS protein network.Sequence motifs in MADS transcription factors responsible for specificity and diversification of protein-protein interaction.Suppression of class I and II histone deacetylases blunts pressure-overload cardiac hypertrophy.MEF2B mutations lead to deregulated expression of the oncogene BCL6 in diffuse large B cell lymphoma.Pattern of MEF2B expression in lymphoid tissues and in malignant lymphomas.Targeting inflammation in heart failure with histone deacetylase inhibitors.Myocyte enhancer factor (MEF)-2 plays essential roles in T-cell transformation associated with HTLV-1 infection by stabilizing complex between Tax and CREBHuman CABIN1 is a functional member of the human HIRA/UBN1/ASF1a histone H3.3 chaperone complex.A Model for Dimerization of the SOX Group E Transcription Factor Family.Myocyte enhancer factor 2A is transcriptionally autoregulatedHDAC-dependent ventricular remodeling.Phase 2 study of panobinostat with or without rituximab in relapsed diffuse large B-cell lymphoma.Calmodulin-dependent phosphatase, kinases, and transcriptional corepressors involved in T-cell activationCREB binds to multiple loci on human chromosome 22.Targeting histone deacetylases for heart failure.BCL6--regulated by AhR/ARNT and wild-type MEF2B--drives expression of germinal center markers MYBL1 and LMO2.A Molecular Prospective for HIRA Complex Assembly and H3.3-Specific Histone Chaperone Function.Calcineurin signaling in the heart: The importance of time and place.TGF-beta-activated Smad3 represses MEF2-dependent transcription in myogenic differentiation.Functional analysis of the Mad1-mSin3A repressor-corepressor interaction reveals determinants of specificity, affinity, and transcriptional response.The CRM1 nuclear export receptor controls pathological cardiac gene expression.SUMO-1 modification of MEF2A regulates its transcriptional activity.S-nitrosylation-mediated redox transcriptional switch modulates neurogenesis and neuronal cell death.Reversal of pathological cardiac hypertrophy via the MEF2-coregulator interface.superwoman1-cleistogamy, a hopeful allele for gene containment in GM rice.
P2860
Q24301051-094F746B-2601-486D-9454-DCCED7785F58Q25256622-EC5DB733-9BD6-46D4-82EB-F62CAC0F428EQ26778515-9DFC09FC-5CAC-4448-90C3-7BC5BF2EC0E0Q27644061-E1738214-FF39-4FD1-9D05-40A2025821D4Q27659516-D47B0D68-154B-4E7F-9CBF-4B579A25DDBAQ27666773-45D17B6B-816D-4462-AC42-1854F524C510Q27677871-D0B35111-405B-4D60-A31C-7964DB5AA07BQ28587321-9F8F0615-7EE6-4CE1-B30B-F403E2269838Q33347986-C77873DE-A339-4BE2-8915-99BC42DF2893Q33410275-787E6A22-7000-42D9-9144-47AB868E1F99Q33500860-E9BD065C-7501-4F64-8929-222FCF3031FFQ33626781-C3F9B3A7-2EDE-4987-BC0A-E44229E021CDQ33683749-BAE13BF2-7D71-49A0-8498-D749A8DF60BBQ33724398-A0D91DB9-AD2E-462C-A5AD-04B233868BDBQ33724483-DDF0C92E-B679-4438-B751-5F14A9860272Q33729839-B25943F2-75CA-498C-9996-9727A4D20FF2Q33760996-7C7B675E-080F-44A9-B5BB-2EE681818BF0Q33929939-17D2CF5A-520D-4E72-B769-DC8C06FD6582Q34366539-BFB9B70E-2512-4F98-B045-C89DFACC5D5EQ34481343-8B781824-7767-46A5-A0DF-FF7B60D3AEF3Q35016989-0594F00D-B658-4DB2-9FA6-4BFD969B477DQ35218631-59767C07-F554-4C83-BE18-EE8CA4713033Q35273985-AEC7D97F-7631-4662-A479-593CBE5B1B94Q36105585-29BA71F0-0F66-429D-BA17-07B3E294A3BEQ36749194-4F59DBF1-AA78-4794-9DC7-E029C7C04F7FQ36945016-24754CED-41ED-4C8B-8259-B41DE838AF6EQ37150016-FC895615-93F9-458A-92AB-C12DC16A8F9EQ37160059-27C8415F-E089-498F-B871-6F2626E8E276Q37424265-36C5E59A-E58D-4908-8AB4-3893995B8AEBQ37494673-A365F4C2-875A-4E4B-A0C2-31F2B879FC64Q38900281-30308F55-0EBD-442A-A381-D40EE3A76DA0Q39015896-A9D7213E-9469-4FCB-A289-DC8E4C310582Q39050949-ADF3E3B5-A105-44CE-BBE2-493B15FFC806Q40573337-FC45B1C3-0F5A-45FB-A4EC-C9EB1121EF55Q40578066-9030DAE8-81C8-4D27-9B1B-650B1A35CEACQ40586178-8F9B7879-97CC-4C6C-BB8C-830467FB8060Q41808181-B2C7FE73-3F2A-43D7-BB39-ED07EFCCD9F0Q42173481-83C08691-1B2F-41B0-A6EC-76A9BAA6BCD2Q42367637-6FF4412F-78EA-409D-AB96-5F1BCCBD4D16Q47572650-238B478E-CC59-405C-AA8A-739954651824
P2860
Sequence-specific recruitment of transcriptional co-repressor Cabin1 by myocyte enhancer factor-2
description
2003 nî lūn-bûn
@nan
2003 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
2003 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
2003年の論文
@ja
2003年論文
@yue
2003年論文
@zh-hant
2003年論文
@zh-hk
2003年論文
@zh-mo
2003年論文
@zh-tw
2003年论文
@wuu
name
Sequence-specific recruitment ...... 1 by myocyte enhancer factor-2
@ast
Sequence-specific recruitment ...... 1 by myocyte enhancer factor-2
@en
Sequence-specific recruitment ...... 1 by myocyte enhancer factor-2
@nl
type
label
Sequence-specific recruitment ...... 1 by myocyte enhancer factor-2
@ast
Sequence-specific recruitment ...... 1 by myocyte enhancer factor-2
@en
Sequence-specific recruitment ...... 1 by myocyte enhancer factor-2
@nl
prefLabel
Sequence-specific recruitment ...... 1 by myocyte enhancer factor-2
@ast
Sequence-specific recruitment ...... 1 by myocyte enhancer factor-2
@en
Sequence-specific recruitment ...... 1 by myocyte enhancer factor-2
@nl
P2093
P2860
P3181
P356
P1433
P1476
Sequence-specific recruitment ...... 1 by myocyte enhancer factor-2
@en
P2093
P2860
P2888
P3181
P356
10.1038/NATURE01555
P407
P577
2003-04-17T00:00:00Z
P6179
1043596093