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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hRRN3 is essential in the SL1-mediated recruitment of RNA Polymerase I to rRNA gene promotersMultiple protein-protein interactions by RNA polymerase I-associated factor PAF49 and role of PAF49 in rRNA transcriptionRNA polymerase I transcription factor Rrn3 is functionally conserved between yeast and humanTFIIB-related factors in RNA polymerase I transcriptionMolecular basis of Rrn3-regulated RNA polymerase I initiation and cell growthCTD kinase I is involved in RNA polymerase I transcriptionRNA polymerase II elongation factors Spt4p and Spt5p play roles in transcription elongation by RNA polymerase I and rRNA processingRegulation of rRNA synthesis by TATA-binding protein-associated factor Mot1.Transcription of chromosomal rRNA genes by both RNA polymerase I and II in yeast uaf30 mutants lacking the 30 kDa subunit of transcription factor UAFYeast transcription elongation factor Spt5 associates with RNA polymerase I and RNA polymerase II directly.Histones are required for transcription of yeast rRNA genes by RNA polymerase I.The recruitment of RNA polymerase I on rDNA is mediated by the interaction of the A43 subunit with Rrn3Switching from prokaryotic molecular biology to eukaryotic molecular biologySpt6 Is Essential for rRNA Synthesis by RNA Polymerase I.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.Divergent contributions of conserved active site residues to transcription by eukaryotic RNA polymerases I and IITranscription elongation by RNA polymerase I is linked to efficient rRNA processing and ribosome assembly.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.Regulation of ribosome biosynthesis in Escherichia coli and Saccharomyces cerevisiae: diversity and common principlesSurvey and summary: transcription by RNA polymerases I and III.Structural mechanism of ATP-independent transcription initiation by RNA polymerase IRNA polymerase I transcription factors in active yeast rRNA gene promoters enhance UV damage formation and inhibit repair.Differential roles of phosphorylation in the formation of transcriptional active RNA polymerase I.Binding of the termination factor Nsi1 to its cognate DNA site is sufficient to terminate RNA polymerase I transcription in vitro and to induce termination in vivo.Cdc14 inhibits transcription by RNA polymerase I during anaphase.RNA polymerase switch in transcription of yeast rDNA: role of transcription factor UAF (upstream activation factor) in silencing rDNA transcription by RNA polymerase II.Ribosomal RNA genes, RNA polymerases, nucleolar structures, and synthesis of rRNA in the yeast Saccharomyces cerevisiae.RNA polymerase I activity is regulated at multiple steps in the transcription cycle: recent insights into factors that influence transcription elongation.Efficient transcription by RNA polymerase I using recombinant core factor.Association of yeast RNA polymerase I with a nucleolar substructure active in rRNA synthesis and processing.Quantitative analysis of transcription elongation by RNA polymerase I in vitro.RNA polymerase I remains intact without subunit exchange through multiple rounds of transcription in Saccharomyces cerevisiaeMolecular breeding of Saccharomyces cerevisiae with high RNA content by harnessing essential ribosomal RNA transcription regulator.Expression of rRNA genes and nucleolus formation at ectopic chromosomal sites in the yeast Saccharomyces cerevisiae.In vivo binding and hierarchy of assembly of the yeast RNA polymerase I transcription factors.CTD kinase I is required for the integrity of the rDNA tandem arrayAnalysis of S. cerevisiae RNA Polymerase I Transcription In Vitro.Transcription factor UAF, expansion and contraction of ribosomal DNA (rDNA) repeats, and RNA polymerase switch in transcription of yeast rDNATATA binding protein can stimulate core-directed transcription by yeast RNA polymerase I.
P2860
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P248
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P2860
Reconstitution of yeast RNA polymerase I transcription in vitro from purified components. TATA-binding protein is not required for basal transcription.
description
1998 nî lūn-bûn
@nan
1998 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած
@hyw
1998 թվականի դեկտեմբերին հրատարակված գիտական հոդված
@hy
1998年の論文
@ja
1998年学术文章
@wuu
1998年学术文章
@zh-cn
1998年学术文章
@zh-hans
1998年学术文章
@zh-my
1998年学术文章
@zh-sg
1998年學術文章
@yue
name
Reconstitution of yeast RNA po ...... uired for basal transcription.
@ast
Reconstitution of yeast RNA po ...... uired for basal transcription.
@en
Reconstitution of yeast RNA po ...... uired for basal transcription.
@nl
type
label
Reconstitution of yeast RNA po ...... uired for basal transcription.
@ast
Reconstitution of yeast RNA po ...... uired for basal transcription.
@en
Reconstitution of yeast RNA po ...... uired for basal transcription.
@nl
prefLabel
Reconstitution of yeast RNA po ...... uired for basal transcription.
@ast
Reconstitution of yeast RNA po ...... uired for basal transcription.
@en
Reconstitution of yeast RNA po ...... uired for basal transcription.
@nl
P2093
P2860
P356
P1476
Reconstitution of yeast RNA po ...... uired for basal transcription.
@en
P2093
P2860
P304
P356
10.1074/JBC.273.50.33795
P407
P577
1998-12-11T00:00:00Z