Differential roles of phosphorylation in the formation of transcriptional active RNA polymerase I. - Wikidata - wikimedia - TriplyDB

Differential roles of phosphorylation in the formation of transcriptional active RNA polymerase I.

Differential roles of phosphorylation in the formation of transcriptional active RNA polymerase I.

http://www.wikidata.org/entity/Q33951831

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Protein kinase C-related kinase 2 regulates hepatitis C virus RNA polymerase function by phosphorylation Multiple interactions between RNA polymerase I, TIF-IA and TAF(I) subunits regulate preinitiation complex assembly at the ribosomal gene promoter Multiple protein-protein interactions by RNA polymerase I-associated factor PAF49 and role of PAF49 in rRNA transcription The RNA polymerase I transcription machinery Basic mechanisms in RNA polymerase I transcription of the ribosomal RNA genes RNA polymerase I-Rrn3 complex at 4.8 Å resolution.Molecular basis of Rrn3-regulated RNA polymerase I initiation and cell growth RNA polymerase I structure and transcription regulation The transcription elongation factor Spt5 influences transcription by RNA polymerase I positively and negatively.CTD kinase I is involved in RNA polymerase I transcription The RNA polymerase-associated factor 1 complex (Paf1C) directly increases the elongation rate of RNA polymerase I and is required for efficient regulation of rRNA synthesis.Genetic identification of factors that modulate ribosomal DNA transcription in Saccharomyces cerevisiae.Hmo1 is required for TOR-dependent regulation of ribosomal protein gene transcription Ccr4-not regulates RNA polymerase I transcription and couples nutrient signaling to the control of ribosomal RNA biogenesis In exponentially growing Saccharomyces cerevisiae cells, rRNA synthesis is determined by the summed RNA polymerase I loading rate rather than by the number of active genes.Role of histone deacetylase Rpd3 in regulating rRNA gene transcription and nucleolar structure in yeast.Tor pathway regulates Rrn3p-dependent recruitment of yeast RNA polymerase I to the promoter but does not participate in alteration of the number of active genes.Nutrient sensing and signaling in the yeast Saccharomyces cerevisiae.Cdc14 inhibits transcription by RNA polymerase I during anaphase.RNA polymerase I activity is regulated at multiple steps in the transcription cycle: recent insights into factors that influence transcription elongation.RNA-polymerase-I-directed rDNA transcription, life and works.Drosophila TIF-IA is required for ribosome synthesis and cell growth and is regulated by the TOR pathway.Repression of class I transcription by cadmium is mediated by the protein phosphatase 2A.Structure of the initiation-competent RNA polymerase I and its implication for transcription.AMP-activated protein kinase adapts rRNA synthesis to cellular energy supply.TIF-IA: An oncogenic target of pre-ribosomal RNA synthesis.Phosphatidylinositol 3-kinase and mTOR signaling pathways regulate RNA polymerase I transcription in response to IGF-1 and nutrients.Rrn3 becomes inactivated in the process of ribosomal DNA transcription.Rrn3 phosphorylation is a regulatory checkpoint for ribosome biogenesis.Localization of the Escherichia coli RNA polymerase beta' subunit residue phosphorylated by bacteriophage T7 kinase Gp0.7.Characterization of the interactions of mammalian RNA polymerase I associated proteins PAF53 and PAF49.The viral transactivator HBx protein exhibits a high potential for regulation via phosphorylation through an evolutionarily conserved mechanism.Phosphorylation by casein kinase 2 facilitates rRNA gene transcription by promoting dissociation of TIF-IA from elongating RNA polymerase I.The dynamic assembly of distinct RNA polymerase I complexes modulates rDNA transcription.The composition of the RNA polymerase I transcription machinery switches from initiation to elongation mode.Site specific phosphorylation of yeast RNA polymerase I.Inositol pyrophosphates regulate RNA polymerase I-mediated rRNA transcription in Saccharomyces cerevisiae.Photocross-linking of the RNA polymerase I preinitiation and immediate postinitiation complexes: implications for promoter recruitment.RNA polymerase I activation and hibernation: unique mechanisms for unique genes.PAF53 is essential in mammalian cells: CRISPR/Cas9 fails to eliminate PAF53 expression.

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P2860

Differential roles of phosphorylation in the formation of transcriptional active RNA polymerase I.

http://www.wikidata.org/entity/Q33951831

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2001 nî lūn-bûn

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2001 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած

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Differential roles of phosphor ...... ional active RNA polymerase I.

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Differential roles of phosphor ...... ional active RNA polymerase I.

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Differential roles of phosphor ...... ional active RNA polymerase I.

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Differential roles of phosphor ...... ional active RNA polymerase I.

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Proceedings of the National Academy of Sciences of the United States of America

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Differential roles of phosphor ...... ional active RNA polymerase I.

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P2093

C Carles

http://www.w3.org/2001/XMLSchema#string

G Peyroche

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H Tschochner

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M Riva

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P2860

TIF-IA, the factor mediating growth-dependent control of ribosomal RNA synthesis, is the mammalian homolog of yeast Rrn3p

Phosphorylation by G1-specific cdk-cyclin complexes activates the nucleolar transcription factor UBF.

hRRN3 is essential in the SL1-mediated recruitment of RNA Polymerase I to rRNA gene promoters

RNA polymerase I transcription factor Rrn3 is functionally conserved between yeast and human

The role of TBP in rDNA transcription by RNA polymerase I in Saccharomyces cerevisiae: TBP is required for upstream activation factor-dependent recruitment of core factor.

Multiprotein transcription factor UAF interacts with the upstream element of the yeast RNA polymerase I promoter and forms a stable preinitiation complex.

Histones H3 and H4 are components of upstream activation factor required for the high-level transcription of yeast rDNA by RNA polymerase I

RRN6 and RRN7 encode subunits of a multiprotein complex essential for the initiation of rDNA transcription by RNA polymerase I in Saccharomyces cerevisiae.

The TATA-binding protein is required for transcription by all three nuclear RNA polymerases in yeast cells.

Reconstitution of yeast RNA polymerase I transcription in vitro from purified components. TATA-binding protein is not required for basal transcription.

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14334-14339

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10.1073/PNAS.231181398

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25

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98

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2001-11-20T00:00:00Z

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11638771

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11717393

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phosphorylation

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64682

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