Quantitative analysis of the transcription control mechanism. - Test2 - elhamkhani - TriplyDB

Quantitative analysis of the transcription control mechanism.

Quantitative analysis of the transcription control mechanism.

http://www.wikidata.org/entity/Q41472569

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From Structural Variation of Gene Molecules to Chromatin Dynamics and Transcriptional Bursting Separating intrinsic from extrinsic fluctuations in dynamic biological systems Single-cell nucleosome mapping reveals the molecular basis of gene expression heterogeneity Occlusion of regulatory sequences by promoter nucleosomes in vivo Teasing apart translational and transcriptional components of stochastic variations in eukaryotic gene expression.Nucleosomes, transcription, and probability.The effect of an intervening promoter nucleosome on gene expression.Nucleosomal promoter variation generates gene expression noise.Cell-cycle dependence of transcription dominates noise in gene expression.Linking stochastic fluctuations in chromatin structure and gene expression.General properties of transcriptional time series in Escherichia coli.In vivo role for the chromatin-remodeling enzyme SWI/SNF in the removal of promoter nucleosomes by disassembly rather than sliding.Multiplex Eukaryotic Transcription (In)activation: Timing, Bursting and Cycling of a Ratchet Clock Mechanism Orthogonal control of expression mean and variance by epigenetic features at different genomic loci Transcription stochasticity of complex gene regulation models.Role of transcription factor-mediated nucleosome disassembly in PHO5 gene expression Promoter-mediated transcriptional dynamics.The yeast PHO5 promoter: from single locus to systems biology of a paradigm for gene regulation through chromatin Mapping the fine structure of a eukaryotic promoter input-output function.mRNA detection in budding yeast with single fluorophores.Mechanistic stochastic model of histone modification pattern formation.Analytical distribution and tunability of noise in a model of promoter progress.An effective method for computing the noise in biochemical networks.An Optogenetic Platform for Real-Time, Single-Cell Interrogation of Stochastic Transcriptional Regulation.Using temporal correlations and full distributions to separate intrinsic and extrinsic fluctuations in biological systems.

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Quantitative analysis of the transcription control mechanism.

http://www.wikidata.org/entity/Q41472569

description

2010 nî lūn-bûn

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2010年の論文

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2010年論文

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2010年論文

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2010年論文

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2010年論文

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2010年論文

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2010年论文

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2010年论文

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2010年论文

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name

Quantitative analysis of the transcription control mechanism.

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type

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Quantitative analysis of the transcription control mechanism.

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Quantitative analysis of the transcription control mechanism.

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Molecular Systems Biology

P1476

Quantitative analysis of the transcription control mechanism.

@en

P2093

Changhui Mao

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

Christopher R Brown

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

Elena Falkovskaia

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Eva Hrabeta-Robinson

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Hinrich Boeger

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Lauren Wenger

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Shawfeng Dong

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

P2860

Stochastic mRNA synthesis in mammalian cells

Single-RNA counting reveals alternative modes of gene expression in yeast

Structure and function of a human TAFII250 double bromodomain module

Mediator as a general transcription factor.

A multiprotein mediator of transcriptional activation and its interaction with the C-terminal repeat domain of RNA polymerase II.

Transcription elongation factors repress transcription initiation from cryptic sites.

Transcriptional activators are dispensable for transcription in the absence of Spt6-mediated chromatin reassembly of promoter regions.

Histone modifications influence the action of Snf2 family remodelling enzymes by different mechanisms.

Yeast Gcn5 functions in two multisubunit complexes to acetylate nucleosomal histones: characterization of an Ada complex and the SAGA (Spt/Ada) complex.

Cooperative Pho2-Pho4 interactions at the PHO5 promoter are critical for binding of Pho4 to UASp1 and for efficient transactivation by Pho4 at UASp2.

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431

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scholarly article

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10.1038/MSB.2010.83

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6

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2010-11-01T00:00:00Z

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47809415

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21081924

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3010110

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