Flanking HS-62.5 and 3' HS1, and regions upstream of the LCR, are not required for beta-globin transcription - Wikidata - wikimedia - TriplyDB

Flanking HS-62.5 and 3' HS1, and regions upstream of the LCR, are not required for beta-globin transcription

Flanking HS-62.5 and 3' HS1, and regions upstream of the LCR, are not required for beta-globin transcription

http://www.wikidata.org/entity/Q41891258

about

CTCF: master weaver of the genome The complex transcription regulatory landscape of our genome: control in three dimensions CTCF: the protein, the binding partners, the binding sites and their chromatin loops Chromosome Conformation Capture Carbon Copy (5C): a massively parallel solution for mapping interactions between genomic elements Maintenance of long-range DNA interactions after inhibition of ongoing RNA polymerase II transcription.Adventitious changes in long-range gene expression caused by polymorphic structural variation and promoter competition Fetal hemoglobin in sickle cell anemia: genome-wide association studies suggest a regulatory region in the 5' olfactory receptor gene cluster Cell type specificity of chromatin organization mediated by CTCF and cohesin.Topology of mammalian developmental enhancers and their regulatory landscapes.Insulated Neighborhoods: Structural and Functional Units of Mammalian Gene Control.In the loop: long range chromatin interactions and gene regulation.Enhancers: the abundance and function of regulatory sequences beyond promoters.Cohesin mediates chromatin interactions that regulate mammalian β-globin expression Distinctive signatures of histone methylation in transcribed coding and noncoding human beta-globin sequences Functional validation of mouse tyrosinase non-coding regulatory DNA elements by CRISPR-Cas9-mediated mutagenesis Long-Range Chromatin Interactions The hypersensitive sites of the murine β-globin locus control region act independently to affect nuclear localization and transcriptional elongation.Deletion of the Scl +19 enhancer increases the blood stem cell compartment without affecting the formation of mature blood lineages.CTCF-mediated transcriptional regulation through cell type-specific chromosome organization in the β-globin locus.Replication-timing boundaries facilitate cell-type and species-specific regulation of a rearranged human chromosome in mouse.Enhancer blocking activity of the insulator at H19-ICR is independent of chromatin barrier establishment.Epigenetics of beta-globin gene regulation β-Globin cis-elements determine differential nuclear targeting through epigenetic modifications.A spectrum of gene regulatory phenomena at mammalian beta-globin gene loci.Gene insulation. Part II: natural strategies in vertebrates.Chromatin insulator elements: establishing barriers to set heterochromatin boundaries.Targeted Degradation of CTCF Decouples Local Insulation of Chromosome Domains from Genomic Compartmentalization.Molecular Diagnosis of Thalassemias and Hemoglobinopathies: An ACLPS Critical Review.DT40 knock-out and knock-in studies determine the regions necessary and sufficient for transcription and epigenetic conversion of the chicken Ig-β gene.Loss of Major DNase I Hypersensitive Sites in Duplicated β-globin Gene Cluster Incompletely Silences HBB Gene Expression.Impaired in vitro erythropoiesis following deletion of the Scl (Tal1) +40 enhancer is largely compensated for in vivo despite a significant reduction in expression Cooperativeness of the higher chromatin structure of the beta-globin locus revealed by the deletion mutations of DNase I hypersensitive site 3 of the LCR.Beta-globin active chromatin Hub formation in differentiating erythroid cells and in p45 NF-E2 knock-out mice.Graphene oxide regulates cox2 in human embryonic kidney 293T cells via epigenetic mechanisms: dynamic chromosomal interactions.

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P2860

Flanking HS-62.5 and 3' HS1, and regions upstream of the LCR, are not required for beta-globin transcription

http://www.wikidata.org/entity/Q41891258

description

2006 nî lūn-bûn

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2006年の論文

@ja

2006年論文

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2006年論文

@zh-hant

2006年論文

@zh-hk

2006年論文

@zh-mo

2006年論文

@zh-tw

2006年论文

@wuu

2006年论文

@zh

2006年论文

@zh-cn

name

Flanking HS-62.5 and 3' HS1, a ...... for beta-globin transcription

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type

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Flanking HS-62.5 and 3' HS1, a ...... for beta-globin transcription

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prefLabel

Flanking HS-62.5 and 3' HS1, a ...... for beta-globin transcription

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Flanking HS-62.5 and 3' HS1, a ...... for beta-globin transcription

@en

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Agnes Telling

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

M A Bender

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

Mark Groudine

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

Michael Bulger

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

Rachel Byron

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

Tobias Ragoczy

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

P2860

Comparative structural and functional analysis of the olfactory receptor genes flanking the human and mouse beta-globin gene clusters

Conserved CTCF insulator elements flank the mouse and human beta-globin loci

The insulation of genes from external enhancers and silencing chromatin.

Conservation of sequence and structure flanking the mouse and human beta-globin loci: the beta-globin genes are embedded within an array of odorant receptor genes

The protein CTCF is required for the enhancer blocking activity of vertebrate insulators

Looping and interaction between hypersensitive sites in the active beta-globin locus

Transitions in histone acetylation reveal boundaries of three separately regulated neighboring loci

HPRT-deficient (Lesch-Nyhan) mouse embryos derived from germline colonization by cultured cells

The monoclonal antibody TER-119 recognizes a molecule associated with glycophorin A and specifically marks the late stages of murine erythroid lineage

PipMaker--a web server for aligning two genomic DNA sequences

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1395-1401

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scholarly article

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10.1182/BLOOD-2006-04-014431

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4

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108

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2006-04-27T00:00:00Z

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16645164

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1895883

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