Active promoters give rise to false positive 'Phantom Peaks' in ChIP-seq experiments.
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Role of TET enzymes in DNA methylation, development, and cancerGenome-Wide Mapping Targets of the Metazoan Chromatin Remodeling Factor NURF Reveals Nucleosome Remodeling at Enhancers, Core Promoters and Gene InsulatorsGenome-Scale Mapping of Escherichia coli σ54 Reveals Widespread, Conserved Intragenic BindingDetecting and correcting the binding-affinity bias in ChIP-seq data using inter-species information.Retrieving Chromatin Patterns from Deep Sequencing Data Using Correlation Functions.Genome-wide studies reveal novel and distinct biological pathways regulated by SIN3 isoforms.Regulation of the BMP Signaling-Responsive Transcriptional Network in the Drosophila Embryo.A role for tuned levels of nucleosome remodeler subunit ACF1 during Drosophila oogenesisZ-DNA-forming sites identified by ChIP-Seq are associated with actively transcribed regions in the human genome.Differential cytokine sensitivities of STAT5-dependent enhancers rely on Stat5 autoregulation.LIM domain-binding 1 maintains the terminally differentiated state of pancreatic β cells.Lineage-Specific and Non-specific Cytokine-Sensing Genes Respond Differentially to the Master Regulator STAT5.Alternative Oxidase Transcription Factors AOD2 and AOD5 of Neurospora crassa Control the Expression of Genes Involved in Energy Production and Metabolism.An efficient targeted nuclease strategy for high-resolution mapping of DNA binding sites.In vivo binding of PRDM9 reveals interactions with noncanonical genomic sites.Recent advances in ChIP-seq analysis: from quality management to whole-genome annotation.Cofactor squelching: Artifact or fact?Past Roadblocks and New Opportunities in Transcription Factor Network Mapping.Dynamic enhancer function in the chromatin context.A Quantitative Proteomic Analysis of In Vitro Assembled ChromatinDNA Shape Features Improve Transcription Factor Binding Site Predictions In Vivo.A cut above.High-intensity UV laser ChIP-seq for the study of protein-DNA interactions in living cells.A map of human PRDM9 binding provides evidence for novel behaviors of PRDM9 and other zinc-finger proteins in meiosis.Binding of high mobility group A proteins to the mammalian genome occurs as a function of AT-content.CBP Regulates Recruitment and Release of Promoter-Proximal RNA Polymerase II.Enzymatic methods for genome-wide profiling of protein binding sites.Unexpected conformational variations of the human centromeric chromatin complex.High-resolution TADs reveal DNA sequences underlying genome organization in flies.Genome-wide Mapping of Protein-DNA Interactions with ChEC-seq in Saccharomyces cerevisiae.Mapping transcription factor occupancy using minimal numbers of cells in vitro and in vivo.Chromatin reprogramming in breast cancer.Implications of CpG islands on chromosomal architectures and modes of global gene regulation.DIVERSITY in binding, regulation, and evolution revealed from high-throughput ChIP.Divergence in DNA Specificity among Paralogous Transcription Factors Contributes to Their Differential In Vivo Binding.Transcription factor profiling reveals molecular choreography and key regulators of human retrotransposon expression.Facultative dosage compensation of developmental genes on autosomes in Drosophila and mouse embryonic stem cells
P2860
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P2860
Active promoters give rise to false positive 'Phantom Peaks' in ChIP-seq experiments.
description
2015 nî lūn-bûn
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2015 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
2015 թվականի հունիսին հրատարակված գիտական հոդված
@hy
2015年の論文
@ja
2015年論文
@yue
2015年論文
@zh-hant
2015年論文
@zh-hk
2015年論文
@zh-mo
2015年論文
@zh-tw
2015年论文
@wuu
name
Active promoters give rise to false positive 'Phantom Peaks' in ChIP-seq experiments.
@ast
Active promoters give rise to false positive 'Phantom Peaks' in ChIP-seq experiments.
@en
type
label
Active promoters give rise to false positive 'Phantom Peaks' in ChIP-seq experiments.
@ast
Active promoters give rise to false positive 'Phantom Peaks' in ChIP-seq experiments.
@en
prefLabel
Active promoters give rise to false positive 'Phantom Peaks' in ChIP-seq experiments.
@ast
Active promoters give rise to false positive 'Phantom Peaks' in ChIP-seq experiments.
@en
P2860
P50
P356
P1476
Active promoters give rise to false positive 'Phantom Peaks' in ChIP-seq experiments
@en
P2093
Angelika Zabel
Sandro Baldi
P2860
P304
P356
10.1093/NAR/GKV637
P407
P577
2015-06-27T00:00:00Z