Reversible acetylation of the chromatin remodelling complex NoRC is required for non-coding RNA-dependent silencing
about
Histone recognition and large-scale structural analysis of the human bromodomain familyThe nucleolus under stressThe Epigenetic Pathways to Ribosomal DNA SilencingThe Functional Analysis of Histone Acetyltransferase MOF in TumorigenesisMechanisms of Histone Deacetylase Inhibitor-Regulated Gene Expression in Cancer CellsSirtuins in epigenetic regulationStructure and function of histone acetyltransferase MOFThe histone acetylranseferase hMOF acetylates Nrf2 and regulates anti-drug responses in human non-small cell lung cancerThe chromatin remodelling complex B-WICH changes the chromatin structure and recruits histone acetyl-transferases to active rRNA genes.Biogenesis and function of nuclear bodies.CHD7 functions in the nucleolus as a positive regulator of ribosomal RNA biogenesisThe scaffold protein Nde1 safeguards the brain genome during S phase of early neural progenitor differentiation.Nucleolar follistatin promotes cancer cell survival under glucose-deprived conditions through inhibiting cellular rRNA synthesis.The deacetylase Sir2 from the yeast Clavispora lusitaniae lacks the evolutionarily conserved capacity to generate subtelomeric heterochromatinIntegrative genomic analysis of human ribosomal DNA.Mild Glucose Starvation Induces KDM2A-Mediated H3K36me2 Demethylation through AMPK To Reduce rRNA Transcription and Cell ProliferationA Tox21 Approach to Altered Epigenetic Landscapes: Assessing Epigenetic Toxicity Pathways Leading to Altered Gene Expression and Oncogenic Transformation In VitroSIRT1 is a Highly Networked Protein That Mediates the Adaptation to Chronic Physiological Stress.The NAD+ synthesis enzyme nicotinamide mononucleotide adenylyltransferase (NMNAT1) regulates ribosomal RNA transcriptionThe emerging and diverse roles of sirtuins in cancer: a clinical perspective.Annotating non-coding transcription using functional genomics strategies.hMOF acetylation of DBC1/CCAR2 prevents binding and inhibition of SirT1.MYST-family histone acetyltransferases: beyond chromatin.Dosage compensation in Drosophila melanogaster: epigenetic fine-tuning of chromosome-wide transcription.The bromodomain interaction module.Bromodomains as therapeutic targets in cancer.Bromodomains and their pharmacological inhibitors.Epigenetics: the language of the cell?Regulation of ribosomal gene expression in cancer.Histone and Non-Histone Targets of Dietary Deacetylase Inhibitors.The PML nuclear bodies-associated protein TTRAP regulates ribosome biogenesis in nucleolar cavities upon proteasome inhibition.Interaction of noncoding RNA with the rDNA promoter mediates recruitment of DNMT3b and silencing of rRNA genes.JmjC enzyme KDM2A is a regulator of rRNA transcription in response to starvation.The extended AT-hook is a novel RNA binding motif.Acetylation- and Methylation-Related Epigenetic Proteins in the Context of Their Targets.Molecular basis of histone tail recognition by human TIP5 PHD finger and bromodomain of the chromatin remodeling complex NoRC.pRNA: NoRC-associated RNA of rRNA operons.Disruption of spatiotemporal hypoxic signaling causes congenital heart disease in mice.Sirt7 promotes adipogenesis in the mouse by inhibiting autocatalytic activation of Sirt1.Expansion of the ISWI chromatin remodeler family with new active complexes.
P2860
1369115209221bc4eba2be962c151ac03784f23b1ec3c7252b483c18b4e90221d4e411977d8f71116bfeb7a477de20b0fda37cddf68c2c2be7841a086ce57cccb153477307bdc86420adfa865762cb807d45b7898fcd55e06c2073f26309bd3172be71679d23f1d7d0fe3ffbdca467a9a2f5d6a7daef1833a60a31f38222cee1ada79e9a640c56d999d5ffebebe1eee1ef55713758f0aa3e56cc275eee918d16
P248
Q24310431-84E60851-D8EF-4E13-8984-03D4EBEF1741Q24597470-1DEC093C-7DBE-49C5-8100-E7BF9D4E5A5BQ26744153-EEBF9B17-60A5-4E34-A038-77393722C85CQ26771181-8B8C83EC-4DEE-4019-971F-12B65EABC01EQ27015931-0105BEB0-7675-4FFC-8241-3D364130C766Q27026861-04E0E147-62AE-4B85-A7EF-792931AB20DCQ33657625-94DF6FDB-AE1D-4FAF-945D-003973762A36Q33842719-8539A147-B80D-41EC-94CD-89B151501394Q33895075-45037455-6DF0-4BE9-8B01-21F56887DAD2Q34027349-151AA262-01C5-4CCF-9223-D3046D691F82Q34083664-BE760EDD-AEE2-4224-98C6-F99AE4BC386EQ34219936-16102EEC-14DE-4710-B608-BE237B802A68Q34299252-AE928062-4B96-4C0F-8394-ACEDCCF954BBQ35034408-D097A3B0-E7C4-4E8C-BEB4-CAB1FD0D950EQ35087988-8D7B53FA-8778-4E68-B0F6-3652E2CF8262Q36289555-642EC51C-47AC-4EE9-AE5A-A9C26DAD9D63Q36394208-2A40CB4C-98CD-4A42-B3F9-F0CB2405CCDAQ37150520-EFA5ADEC-F586-4ACA-84D5-C71BF35779C1Q37175088-5E9C3A15-DDC8-4AF0-B654-C9E37F52785EQ37231067-4366B8AA-B6E9-459C-A711-1800CB8E8635Q37387944-F4FE8481-8685-4D0E-ACB8-CE4BCC0CE533Q37469490-81F4DC7B-49CD-4AB7-B92E-81FB5DA1BDDDQ37816250-A6CE7914-4F6C-4807-9ABF-03E107C25071Q37976525-1C19AFC2-F3C1-4D84-B050-AC63162EA268Q38019699-4CDB7E3D-DA53-4ACB-9682-AE74F8E67EAEQ38094645-7B1A52E4-3537-4CCB-A819-2316ED244E6DQ38185355-EA90B977-D487-4FB7-88C6-46884B70EFD4Q38192027-F234ADEB-EE78-43D1-B062-4C64EB88FFDAQ38261874-A463E53C-1CB1-4F41-9DFF-7A196EDF1A11Q38572921-5F28EF75-AB70-41C2-8E7E-3892DBF440ECQ39473144-F4483F24-E51A-4B51-85C3-7A42B3D27016Q39643251-E41A914B-400B-413C-87FC-EDB60D67B0C9Q39716956-A7AD7F92-9918-4E92-A465-719CCF0A0637Q40756726-4EA46BD1-2784-4ECE-9895-4062486A21E2Q41553016-9AC5783A-FEB0-429F-98F4-EA343A496BBDQ41657776-5DF2A4C8-1906-4B13-BD79-49739568DFCCQ41924964-1410A8DB-74EA-4C9D-9BDD-783A8ABFDF73Q42234787-E0D854A1-0F69-41F1-88E6-85549690CC26Q42263658-E0F89B6F-BDD6-483F-93C6-6D5D27A09CA8Q47962320-0D6BC143-79AC-43BC-9252-5ECF674273EF
P2860
Reversible acetylation of the chromatin remodelling complex NoRC is required for non-coding RNA-dependent silencing
description
2009 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
2009 թվականի օգոստոսին հրատարակված գիտական հոդված
@hy
artículu científicu espublizáu en 2009
@ast
im August 2009 veröffentlichter wissenschaftlicher Artikel
@de
scientific journal article
@en
vedecký článok (publikovaný 2009/08/01)
@sk
vědecký článek publikovaný v roce 2009
@cs
wetenschappelijk artikel (gepubliceerd op 2009/08/01)
@nl
наукова стаття, опублікована в серпні 2009
@uk
مقالة علمية (نشرت في أغسطس 2009)
@ar
name
Reversible acetylation of the ...... coding RNA-dependent silencing
@ast
Reversible acetylation of the ...... coding RNA-dependent silencing
@en
Reversible acetylation of the ...... coding RNA-dependent silencing
@nl
type
label
Reversible acetylation of the ...... coding RNA-dependent silencing
@ast
Reversible acetylation of the ...... coding RNA-dependent silencing
@en
Reversible acetylation of the ...... coding RNA-dependent silencing
@nl
prefLabel
Reversible acetylation of the ...... coding RNA-dependent silencing
@ast
Reversible acetylation of the ...... coding RNA-dependent silencing
@en
Reversible acetylation of the ...... coding RNA-dependent silencing
@nl
P2093
P2860
P921
P356
P1433
P1476
Reversible acetylation of the ...... coding RNA-dependent silencing
@en
P2093
Asifa Akhtar
Christine Mayer
Xuejun Yuan
Yonggang Zhou
P2860
P2888
P304
P356
10.1038/NCB1914
P577
2009-08-01T00:00:00Z
P5875
P6179
1009638819