Multi-tasking on chromatin with the SAGA coactivator complexes.
about
The ubiquitin-specific protease 17 is involved in virus-triggered type I IFN signalingRegulation and cellular roles of ubiquitin-specific deubiquitinating enzymesUbiquitin-specific peptidase 22 functions and its involvement in diseaseComposition of the SAGA complex in plants and its role in controlling gene expression in response to abiotic stressesStructural Insights into the Assembly and Function of the SAGA Deubiquitinating ModuleStructural Basis for Assembly and Activation of the Heterotetrameric SAGA Histone H2B Deubiquitinase ModuleSgf29p facilitates the recruitment of TATA box binding protein but does not alter SAGA's global structural integrity in vivo.Cooperative action of NC2 and Mot1p to regulate TATA-binding protein function across the genomeUncovering the role of Sgf73 in maintaining SAGA deubiquitinating module structure and activity.Activation of a poised RNAPII-dependent promoter requires both SAGA and mediator.Mutational uncoupling of the role of Sus1 in nuclear pore complex targeting of an mRNA export complex and histone H2B deubiquitination.The N-terminus and Tudor domains of Sgf29 are important for its heterochromatin boundary formation function.Yeast Ataxin-7 links histone deubiquitination with gene gating and mRNA export.The yeast SR-like protein Npl3 links chromatin modification to mRNA processingRegulation of Abro1/KIAA0157 during myocardial infarction and cell death reveals a novel cardioprotective mechanism for Lys63-specific deubiquitinationThe distribution of active RNA polymerase II along the transcribed region is gene-specific and controlled by elongation factorsHigh throughput protein-protein interaction data: clues for the architecture of protein complexes.Screening a genome-wide S. pombe deletion library identifies novel genes and pathways involved in genome stability maintenanceCloning, purification, crystallization and preliminary crystallographic analysis of the tandem tudor domain of Sgf29 from Saccharomyces cerevisiae.FACT, the Bur kinase pathway, and the histone co-repressor HirC have overlapping nucleosome-related roles in yeast transcription elongation.Exploring the yeast acetylome using functional genomicsRNA processing and exportUSP22 is useful as a novel molecular marker for predicting disease progression and patient prognosis of oral squamous cell carcinomaDistinct regulatory mechanisms of eukaryotic transcriptional activation by SAGA and TFIID.Functional characterization and gene expression profiling of Drosophila melanogaster short dADA2b isoform-containing dSAGA complexes.A phylogenetic study of SPBP and RAI1: evolutionary conservation of chromatin binding modules.Ubp8 and SAGA regulate Snf1 AMP kinase activity.The role of Candida albicans SPT20 in filamentation, biofilm formation and pathogenesis.Interplay among Gcn5, Sch9 and mitochondria during chronological aging of wine yeast is dependent on growth conditions.Multi-functional regulation of 4E-BP gene expression by the Ccr4-Not complexRoles for Gcn5 in promoting nucleosome assembly and maintaining genome integrity.Spt-Ada-Gcn5-Acetyltransferase (SAGA) Complex in Plants: Genome Wide Identification, Evolutionary Conservation and Functional DeterminationA histone H3K36 chromatin switch coordinates DNA double-strand break repair pathway choice.Characterization of new Spt3 and TATA-binding protein mutants of Saccharomyces cerevisiae: Spt3 TBP allele-specific interactions and bypass of Spt8.Gene regulation through nuclear organization.The S. pombe SAGA complex controls the switch from proliferation to sexual differentiation through the opposing roles of its subunits Gcn5 and Spt8.Genome-wide mapping of the coactivator Ada2p yields insight into the functional roles of SAGA/ADA complex in Candida albicansUntargeted tail acetylation of histones in chromatin: lessons from yeast.The loss of histone H3 lysine 9 acetylation due to dSAGA-specific dAda2b mutation influences the expression of only a small subset of genes.The basal initiation machinery: beyond the general transcription factors.
P2860
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P2860
Multi-tasking on chromatin with the SAGA coactivator complexes.
description
2007 nî lūn-bûn
@nan
2007 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2007 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
name
Multi-tasking on chromatin with the SAGA coactivator complexes.
@ast
Multi-tasking on chromatin with the SAGA coactivator complexes.
@en
type
label
Multi-tasking on chromatin with the SAGA coactivator complexes.
@ast
Multi-tasking on chromatin with the SAGA coactivator complexes.
@en
prefLabel
Multi-tasking on chromatin with the SAGA coactivator complexes.
@ast
Multi-tasking on chromatin with the SAGA coactivator complexes.
@en
P2860
P921
P1433
P1476
Multi-tasking on chromatin with the SAGA coactivator complexes.
@en
P2093
Patrick A Grant
P2860
P304
P356
10.1016/J.MRFMMM.2006.09.008
P407
P577
2007-01-21T00:00:00Z