From structure to systems: high-resolution, quantitative genetic analysis of RNA polymerase II. - Wikidata - awgldk - TriplyDB

From structure to systems: high-resolution, quantitative genetic analysis of RNA polymerase II.

From structure to systems: high-resolution, quantitative genetic analysis of RNA polymerase II.

http://www.wikidata.org/entity/Q41882250

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Mutual interdependence of splicing and transcription elongation A genetic assay for transcription errors reveals multilayer control of RNA polymerase II fidelity The mutation nrpb1-A325V in the largest subunit of RNA polymerase II suppresses compromised growth of Arabidopsis plants deficient in a function of the general transcription factor IIF.Sub1 contacts the RNA polymerase II stalk to modulate mRNA synthesis.High-resolution network biology: connecting sequence with function.Wide-ranging and unexpected consequences of altered Pol II catalytic activity in vivo.Adventures in time and space: splicing efficiency and RNA polymerase II elongation rate Systems cell biology.Pre-mRNA splicing is facilitated by an optimal RNA polymerase II elongation rate.Relationships of RNA polymerase II genetic interactors to transcription start site usage defects and growth in Saccharomyces cerevisiae.Coupling mRNA processing with transcription in time and space.NTR1 is required for transcription elongation checkpoints at alternative exons in Arabidopsis Chromatin-dependent regulation of RNA polymerases II and III activity throughout the transcription cycle.Quantitative analysis of triple-mutant genetic interactions Genetic interaction mapping reveals a role for the SWI/SNF nucleosome remodeler in spliceosome activation in fission yeast Activation and reactivation of the RNA polymerase II trigger loop for intrinsic RNA cleavage and catalysis.High-Resolution Phenotypic Landscape of the RNA Polymerase II Trigger Loop.Crystal Structure of a Transcribing RNA Polymerase II Complex Reveals a Complete Transcription Bubble.Comparative mapping of host-pathogen protein-protein interactions.Defective histone supply causes changes in RNA polymerase II elongation rate and cotranscriptional pre-mRNA splicing Nascent RNA folding mitigates transcription-associated mutagenesis Histone H3K36 methylation regulates pre-mRNA splicing in Saccharomyces cerevisiae Nonsense-mediated decay regulates key components of homologous recombination.RNA Polymerase II Trigger Loop Mobility: INDIRECT EFFECTS OF Rpb9.Relationships Between RNA Polymerase II Activity and Spt Elongation Factors to Spt- Phenotype and Growth in Saccharomyces cerevisiae.What have single-molecule studies taught us about gene expression?H2B ubiquitylation modulates spliceosome assembly and function in budding yeast.The cancer cell map initiative: defining the hallmark networks of cancer.Molecular basis of transcriptional fidelity and DNA lesion-induced transcriptional mutagenesis.Navigating yeast genome maintenance with functional genomics.RNA polymerase II transcriptional fidelity control and its functional interplay with DNA modifications.Trigger loop of RNA polymerase is a positional, not acid-base, catalyst for both transcription and proofreading.Coupling of RNA Polymerase II Transcription Elongation with Pre-mRNA Splicing.The histone variant H2A.Z promotes efficient cotranscriptional splicing in S. cerevisiae.Genome stability versus transcript diversity.Perfect timing: splicing and transcription rates in living cells.Promoting active learning of graduate student by deep reading in biochemistry and microbiology pharmacy curriculum.Pause & go: from the discovery of RNA polymerase pausing to its functional implications.Sub1/PC4, a multifaceted factor: from transcription to genome stability.Splicing of Nascent RNA Coincides with Intron Exit from RNA Polymerase II.

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From structure to systems: high-resolution, quantitative genetic analysis of RNA polymerase II.

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From structure to systems: hig ...... analysis of RNA polymerase II.

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Chenxi Qiu

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Christine Guthrie

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Erica A Moehle

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Frank C P Holstege

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Fuqu Hu

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Hannes Braberg

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Huiyan Jin

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Leung K Tang

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Dissection of Pol II trigger loop function and Pol II activity-dependent control of start site selection in vivo

Yeast SUB1 is a suppressor of TFIIB mutations and has homology to the human co-activator PC4

Functional organization of the S. cerevisiae phosphorylation network

The RNA polymerase II trigger loop functions in substrate selection and is directly targeted by alpha-amanitin

Structural basis of transcription: RNA polymerase II at 2.8 angstrom resolution

Structural basis of transcription: an RNA polymerase II elongation complex at 3.3 A resolution

Single-molecule mRNA decay measurements reveal promoter- regulated mRNA stability in yeast

Interaction between transcription elongation factors and mRNA 3'-end formation at the Saccharomyces cerevisiae GAL10-GAL7 locus.

Hierarchical modularity and the evolution of genetic interactomes across species.

Position of the general transcription factor TFIIF within the RNA polymerase II transcription preinitiation complex.

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