Structural Basis of Transcription: Backtracked RNA Polymerase II at 3.4 Angstrom Resolution
about
The bridge helix coordinates movements of modules in RNA polymeraseStructural mimicry in transcription regulation of human RNA polymerase II by the DNA helicase RECQL5Tagetitoxin inhibits RNA polymerase through trapping of the trigger loopEffect of a monofunctional phenanthriplatin-DNA adduct on RNA polymerase II transcriptional fidelity and translesion synthesisThe Spt4-Spt5 complex: a multi-faceted regulator of transcription elongationBridge helix bending promotes RNA polymerase II backtracking through a critical and conserved threonine residueX-ray structure and mechanism of RNA polymerase II stalled at an antineoplastic monofunctional platinum-DNA adductCrystal structure of bacterial RNA polymerase bound with a transcription inhibitor proteinStructural basis of RNA polymerase II backtracking, arrest and reactivationEvolution of Two Modes of Intrinsic RNA Polymerase Transcript CleavageStructural basis of transcriptional pausing in bacteria.Structures of RNA polymerase II complexes with Bye1, a chromatin-binding PHF3/DIDO homologueStructural basis for promoter specificity switching of RNA polymerase by a phage factorNon-canonical DNA transcription enzymes and the conservation of two-barrel RNA polymerasesStructure of a backtracked state reveals conformational changes similar to the state following nucleotide incorporation in human norovirus polymeraseA genetic assay for transcription errors reveals multilayer control of RNA polymerase II fidelityStructural Model of RNA Polymerase II Elongation Complex with Complete Transcription Bubble Reveals NTP Entry RoutesRNA polymerase II trigger loop residues stabilize and position the incoming nucleotide triphosphate in transcription.Templated nucleoside triphosphate binding to a noncatalytic site on RNA polymerase regulates transcription.Trigger loop folding determines transcription rate of Escherichia coli's RNA polymeraseControl of transcriptional fidelity by active center tuning as derived from RNA polymerase endonuclease reactionTranscription factors TFIIF and TFIIS promote transcript elongation by RNA polymerase II by synergistic and independent mechanisms.Dissecting the chemical interactions and substrate structural signatures governing RNA polymerase II trigger loop closure by synthetic nucleic acid analogues.Central role of the RNA polymerase trigger loop in intrinsic RNA hydrolysis.Strand-specific (asymmetric) contribution of phosphodiester linkages on RNA polymerase II transcriptional efficiency and fidelity.Network models for molecular kinetics and their initial applications to human healthMutations in POLR3A and POLR3B encoding RNA Polymerase III subunits cause an autosomal-recessive hypomyelinating leukoencephalopathyTranscription elongation. Heterogeneous tracking of RNA polymerase and its biological implications.Trigger-helix folding pathway and SI3 mediate catalysis and hairpin-stabilized pausing by Escherichia coli RNA polymerase.Modulation of RNA polymerase activity through the trigger loop foldingPreferential repair of oxidized base damage in the transcribed genes of mammalian cellsRNA polymerase II transcription elongation control.The TFIIF-like Rpc37/53 dimer lies at the center of a protein network to connect TFIIIC, Bdp1, and the RNA polymerase III active centerImpact of template backbone heterogeneity on RNA polymerase II transcription.Molecular dynamics simulation study of conformational changes of transcription factor TFIIS during RNA polymerase II transcriptional arrest and reactivation.Widespread RNA and DNA sequence differences in the human transcriptome.Ccr4-Not and TFIIS Function Cooperatively To Rescue Arrested RNA Polymerase IIDNA template dependent accuracy variation of nucleotide selection in transcription.A small post-translocation energy bias aids nucleotide selection in T7 RNA polymerase transcriptionGenomic insights into the different layers of gene regulation in yeast.
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P2860
Structural Basis of Transcription: Backtracked RNA Polymerase II at 3.4 Angstrom Resolution
description
2009 nî lūn-bûn
@nan
2009 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
2009 թվականի մայիսին հրատարակված գիտական հոդված
@hy
2009年の論文
@ja
2009年論文
@yue
2009年論文
@zh-hant
2009年論文
@zh-hk
2009年論文
@zh-mo
2009年論文
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2009年论文
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name
Structural Basis of Transcript ...... II at 3.4 Angstrom Resolution
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Structural Basis of Transcript ...... II at 3.4 Angstrom Resolution
@en
Structural Basis of Transcript ...... II at 3.4 Angstrom Resolution
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type
label
Structural Basis of Transcript ...... II at 3.4 Angstrom Resolution
@ast
Structural Basis of Transcript ...... II at 3.4 Angstrom Resolution
@en
Structural Basis of Transcript ...... II at 3.4 Angstrom Resolution
@nl
prefLabel
Structural Basis of Transcript ...... II at 3.4 Angstrom Resolution
@ast
Structural Basis of Transcript ...... II at 3.4 Angstrom Resolution
@en
Structural Basis of Transcript ...... II at 3.4 Angstrom Resolution
@nl
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Structural Basis of Transcript ...... II at 3.4 Angstrom Resolution
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Kenneth D Westover
P2860
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P3181
P356
10.1126/SCIENCE.1168729
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P577
2009-05-29T00:00:00Z