Nucleosome positioning: bringing order to the eukaryotic genome.
about
Chromatin and epigenetic regulation of pre-mRNA processingDNA dynamics and single-molecule biologyISWI and CHD chromatin remodelers bind promoters but act in gene bodiesPathway swapping: Toward modular engineering of essential cellular processes.Different chromatin interfaces of the Drosophila dosage compensation complex revealed by high-shear ChIP-seq.The Arabidopsis nucleosome remodeler DDM1 allows DNA methyltransferases to access H1-containing heterochromatinSingle-cell nucleosome mapping reveals the molecular basis of gene expression heterogeneityNucleosome organization in the vicinity of transcription factor binding sites in the human genome.Insight into the Recent Genome Duplication of the Halophilic Yeast Hortaea werneckii: Combining an Improved Genome with Gene Expression and Chromatin StructureNucleosome positioning: resources and tools online.High-density nucleosome occupancy map of human chromosome 9p21-22 reveals chromatin organization of the type I interferon gene cluster.Poly(dA:dT)-rich DNAs are highly flexible in the context of DNA looping.Non-random fragmentation patterns in circulating cell-free DNA reflect epigenetic regulation.CLOCK:BMAL1 is a pioneer-like transcription factor.DNA sequence-dependent mechanics and protein-assisted bending in repressor-mediated loop formation.Simultaneous mapping of transcript ends at single-nucleotide resolution and identification of widespread promoter-associated non-coding RNA governed by TATA elements.DNA structural properties in the classification of genomic transcription regulation elements.Epigenetic control of skeletal muscle regeneration: Integrating genetic determinants and environmental changesEpigenetics: the language of the cell?The function of chromatin modifiers in lineage commitment and cell fate specification.Nucleosome positioning in yeasts: methods, maps, and mechanisms.CHD1 remodelers regulate nucleosome spacing in vitro and align nucleosomal arrays over gene coding regions in S. pombe.Replication-Coupled Nucleosome Assembly and Positioning by ATP-Dependent Chromatin-Remodeling Enzymes.Chd1 co-localizes with early transcription elongation factors independently of H3K36 methylation and releases stalled RNA polymerase II at introns.Genomes of Multicellular Organisms Have Evolved to Attract Nucleosomes to Promoter Regions.Evidence for DNA Sequence Encoding of an Accessible Nucleosomal Array across Vertebrates.Inter-nucleosomal communication between histone modifications for nucleosome phasing
P2860
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P2860
Nucleosome positioning: bringing order to the eukaryotic genome.
description
2012 nî lūn-bûn
@nan
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
2012年论文
@zh
2012年论文
@zh-cn
name
Nucleosome positioning: bringing order to the eukaryotic genome.
@ast
Nucleosome positioning: bringing order to the eukaryotic genome.
@en
type
label
Nucleosome positioning: bringing order to the eukaryotic genome.
@ast
Nucleosome positioning: bringing order to the eukaryotic genome.
@en
prefLabel
Nucleosome positioning: bringing order to the eukaryotic genome.
@ast
Nucleosome positioning: bringing order to the eukaryotic genome.
@en
P2860
P1476
Nucleosome positioning: bringing order to the eukaryotic genome.
@en
P2093
Vishwanath R Iyer
P2860
P304
P356
10.1016/J.TCB.2012.02.004
P577
2012-03-14T00:00:00Z