The initiation factor TFE and the elongation factor Spt4/5 compete for the RNAP clamp during transcription initiation and elongation - Wikidata - awgldk - TriplyDB

The initiation factor TFE and the elongation factor Spt4/5 compete for the RNAP clamp during transcription initiation and elongation

The initiation factor TFE and the elongation factor Spt4/5 compete for the RNAP clamp during transcription initiation and elongation

http://www.wikidata.org/entity/Q35571747

about

Mutual relationships between transcription and pre-mRNA processing in the synthesis of mRNA Promoter clearance by RNA polymerase II Interaction of the Mediator Head Module with RNA Polymerase II Transcription initiation complex structures elucidate DNA opening Architecture of the RNA polymerase II preinitiation complex and mechanism of ATP-dependent promoter opening.Ubiquitous transcription factors display structural plasticity and diverse functions: NusG proteins - Shifting shapes and paradigms A positive feedback loop links opposing functions of P-TEFb/Cdk9 and histone H2B ubiquitylation to regulate transcript elongation in fission yeast Pleiohomeotic interacts with the core transcription elongation factor Spt5 to regulate gene expression in Drosophila Transformation: the next level of regulation.Structural insights into transcription initiation by RNA polymerase II.Architecture of the RNA polymerase II-Paf1C-TFIIS transcription elongation complex.Eukaryotic and archaeal TBP and TFB/TF(II)B follow different promoter DNA bending pathways.RNA-dependent chromatin association of transcription elongation factors and Pol II CTD kinases.Insights into how Spt5 functions in transcription elongation and repressing transcription coupled DNA repair.Simulation vs. reality: a comparison of in silico distance predictions with DEER and FRET measurements Structural visualization of key steps in human transcription initiation.NusG-Spt5 proteins-Universal tools for transcription modification and communication.Inactivated RNA polymerase II open complexes can be reactivated with TFIIE.Emerging Views on the CTD Code Yeast Swd2 is essential because of antagonism between Set1 histone methyltransferase complex and APT (associated with Pta1) termination factor THZ1 Reveals Roles for Cdk7 in Co-transcriptional Capping and Pausing Separate domains of fission yeast Cdk9 (P-TEFb) are required for capping enzyme recruitment and primed (Ser7-phosphorylated) Rpb1 carboxyl-terminal domain substrate recognition.The X-ray crystal structure of the euryarchaeal RNA polymerase in an open-clamp configuration.Site-specific incorporation of probes into RNA polymerase by unnatural-amino-acid mutagenesis and Staudinger-Bertozzi ligation.RNA polymerase III subunit architecture and implications for open promoter complex formation.TFE and Spt4/5 open and close the RNA polymerase clamp during the transcription cycle Cyclin-dependent kinase control of the initiation-to-elongation switch of RNA polymerase II Repression of RNA polymerase by the archaeo-viral regulator ORF145/RIP.Single-molecule FRET supports the two-state model of Argonaute action.Pause, play, repeat: CDKs push RNAP II's buttons.A nexus for gene expression-molecular mechanisms of Spt5 and NusG in the three domains of life.Archaeal transcription: making up for lost time.Archaeology of RNA polymerase: factor swapping during the transcription cycle.Enhancing single-molecule fluorescence with nanophotonics.A starting point for fluorescence-based single-molecule measurements in biomolecular research.Structural basis of transcription initiation by RNA polymerase II.The RNA polymerase II preinitiation complex. Through what pathway is the complex assembled?Transcription Regulation in Archaea.Structural Information from Single-molecule FRET Experiments Using the Fast Nano-positioning System.A global analysis of transcription reveals two modes of Spt4/5 recruitment to archaeal RNA polymerase.

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The initiation factor TFE and the elongation factor Spt4/5 compete for the RNAP clamp during transcription initiation and elongation

http://www.wikidata.org/entity/Q35571747

description

2011 nî lūn-bûn

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2011年の論文

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2011年論文

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The initiation factor TFE and ...... tion initiation and elongation

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The initiation factor TFE and ...... tion initiation and elongation

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The initiation factor TFE and ...... tion initiation and elongation

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The initiation factor TFE and ...... tion initiation and elongation

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J.MOLCEL.2011.05.030

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P1476

The initiation factor TFE and ...... tion initiation and elongation

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Anirban Chakraborty

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Daniel Fielden

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Dina Grohmann

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Jens Michaelis

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Julia Nagy

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P2860

Factor requirements for transcription in the Archaeon Sulfolobus shibatae

Regulator trafficking on bacterial transcription units in vivo

Structure of an archaeal homolog of the eukaryotic RNA polymerase II RPB4/RPB7 complex

An extended winged helix domain in general transcription factor E/IIE alpha

Structural Basis for Converting a General Transcription Factor into an Operon-Specific Virulence Regulator

The X-ray crystal structure of RNA polymerase from Archaea

Two Structurally Independent Domains of E. coli NusG Create Regulatory Plasticity via Distinct Interactions with RNA Polymerase and Regulators

RNA polymerase II-TFIIB structure and mechanism of transcription initiation

Structure of an RNA Polymerase II-TFIIB Complex and the Transcription Initiation Mechanism

Spt4/5 stimulates transcription elongation through the RNA polymerase clamp coiled-coil motif

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263-274

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2

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43

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Richard H. Ebright

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2011-07-01T00:00:00Z

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51510316

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3223566

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