A genomic model of condition-specific nucleosome behavior explains transcriptional activity in yeast.
about
Transcription goes digitalInterplay between gene expression noise and regulatory network architectureInfluence of Rotational Nucleosome Positioning on Transcription Start Site Selection in Animal PromotersTwo distinct promoter architectures centered on dynamic nucleosomes control ribosomal protein gene transcriptionPromoter-proximal transcription factor binding is transcriptionally active when coupled with nucleosome repositioning in immediate vicinity.Distinct roles for histone chaperones in the deposition of Htz1 in chromatinEvolution of cis-regulatory elements in yeast de novo and duplicated new genesDynamic remodeling of histone modifications in response to osmotic stress in Saccharomyces cerevisiaeSilencing is noisy: population and cell level noise in telomere-adjacent genes is dependent on telomere position and sir2.Quantitative CRISPR interference screens in yeast identify chemical-genetic interactions and new rules for guide RNA design.Ubiquitous heterogeneity and asymmetry of the chromatin environment at regulatory elementsNucleosome alterations caused by mutations at modifiable histone residues in Saccharomyces cerevisiae.Two independent transcription initiation codes overlap on vertebrate core promotersTopoisomerase II regulates yeast genes with singular chromatin architectures.Genome-wide mapping of nucleosome positions in Saccharomyces cerevisiae in response to different nitrogen conditions.Role of histone modifications and early termination in pervasive transcription and antisense-mediated gene silencing in yeast.Fuzziness and noise in nucleosomal architecture.Regulatory cis-elements are located in accessible promoter regions of the CAT2 promoter and affect activating histone modifications in Arabidopsis thaliana.Nucleosome organization affects the sensitivity of gene expression to promoter mutations.DNA sequence preferences of transcriptional activators correlate more strongly than repressors with nucleosomes.Sense and antisense transcription are associated with distinct chromatin architectures across genes.Gene promoters dictate histone occupancy within genes.Nucleosome architecture throughout the cell cycle.Uncovering the interplay between DNA sequence preferences of transcription factors and nucleosomes.Structure and Chromosomal Organization of Yeast Genes Regulated by Topoisomerase II.Epigenetic and Transcriptional Variability Shape Phenotypic Plasticity.Design principles for nuclease-deficient CRISPR-based transcriptional regulators.
P2860
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P2860
A genomic model of condition-specific nucleosome behavior explains transcriptional activity in yeast.
description
2011 nî lūn-bûn
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2011年の論文
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2011年学术文章
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2011年学术文章
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2011年学术文章
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2011年学术文章
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2011年学术文章
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2011年學術文章
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name
A genomic model of condition-s ...... scriptional activity in yeast.
@en
A genomic model of condition-s ...... scriptional activity in yeast.
@nl
type
label
A genomic model of condition-s ...... scriptional activity in yeast.
@en
A genomic model of condition-s ...... scriptional activity in yeast.
@nl
prefLabel
A genomic model of condition-s ...... scriptional activity in yeast.
@en
A genomic model of condition-s ...... scriptional activity in yeast.
@nl
P2860
P356
P1433
P1476
A genomic model of condition-s ...... nscriptional activity in yeast
@en
P2093
Nicholas M Luscombe
P2860
P356
10.1101/GR.124099.111
P577
2011-09-19T00:00:00Z