Literature DB >> 22682246

Controlling long-range genomic interactions at a native locus by targeted tethering of a looping factor.

Wulan Deng1, Jongjoo Lee, Hongxin Wang, Jeff Miller, Andreas Reik, Philip D Gregory, Ann Dean, Gerd A Blobel.   

Abstract

Chromatin loops juxtapose distal enhancers with active promoters, but their molecular architecture and relationship with transcription remain unclear. In erythroid cells, the locus control region (LCR) and β-globin promoter form a chromatin loop that requires transcription factor GATA1 and the associated molecule Ldb1. We employed artificial zinc fingers (ZF) to tether Ldb1 to the β-globin promoter in GATA1 null erythroblasts, in which the β-globin locus is relaxed and inactive. Remarkably, targeting Ldb1 or only its self-association domain to the β-globin promoter substantially activated β-globin transcription in the absence of GATA1. Promoter-tethered Ldb1 interacted with endogenous Ldb1 complexes at the LCR to form a chromatin loop, causing recruitment and phosphorylation of RNA polymerase II. ZF-Ldb1 proteins were inactive at alleles lacking the LCR, demonstrating that their activities depend on long-range interactions. Our findings establish Ldb1 as a critical effector of GATA1-mediated loop formation and indicate that chromatin looping causally underlies gene regulation.
Copyright © 2012 Elsevier Inc. All rights reserved.

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Year:  2012        PMID: 22682246      PMCID: PMC3372860          DOI: 10.1016/j.cell.2012.03.051

Source DB:  PubMed          Journal:  Cell        ISSN: 0092-8674            Impact factor:   41.582


  49 in total

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2.  Proximity among distant regulatory elements at the beta-globin locus requires GATA-1 and FOG-1.

Authors:  Christopher R Vakoc; Danielle L Letting; Nele Gheldof; Tomoyuki Sawado; M A Bender; Mark Groudine; Mitchell J Weiss; Job Dekker; Gerd A Blobel
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3.  What are the molecular ties that maintain genomic loops?

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Journal:  Trends Genet       Date:  2007-02-05       Impact factor: 11.639

4.  Erythroid-cell-specific properties of transcription factor GATA-1 revealed by phenotypic rescue of a gene-targeted cell line.

Authors:  M J Weiss; C Yu; S H Orkin
Journal:  Mol Cell Biol       Date:  1997-03       Impact factor: 4.272

5.  Functional analysis of the nuclear LIM domain interactor NLI.

Authors:  L W Jurata; G N Gill
Journal:  Mol Cell Biol       Date:  1997-10       Impact factor: 4.272

6.  Capturing chromosome conformation.

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7.  Chip, a widely expressed chromosomal protein required for segmentation and activity of a remote wing margin enhancer in Drosophila.

Authors:  P Morcillo; C Rosen; M K Baylies; D Dorsett
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8.  Erythroid differentiation in chimaeric mice blocked by a targeted mutation in the gene for transcription factor GATA-1.

Authors:  L Pevny; M C Simon; E Robertson; W H Klein; S F Tsai; V D'Agati; S H Orkin; F Costantini
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9.  DNA looping induced by a transcriptional enhancer in vivo.

Authors:  Michael Petrascheck; Dominik Escher; Tokameh Mahmoudi; C Peter Verrijzer; Walter Schaffner; Alcide Barberis
Journal:  Nucleic Acids Res       Date:  2005-07-07       Impact factor: 16.971

10.  Long-range chromosomal interactions regulate the timing of the transition between poised and active gene expression.

Authors:  Douglas Vernimmen; Marco De Gobbi; Jacqueline A Sloane-Stanley; William G Wood; Douglas R Higgs
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  305 in total

1.  Long Noncoding RNAs CUPID1 and CUPID2 Mediate Breast Cancer Risk at 11q13 by Modulating the Response to DNA Damage.

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Journal:  Am J Hum Genet       Date:  2017-08-03       Impact factor: 11.025

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Journal:  Am J Hematol       Date:  2017-08-28       Impact factor: 10.047

3.  GATA1 directly mediates interactions with closely spaced pseudopalindromic but not distantly spaced double GATA sites on DNA.

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Journal:  Protein Sci       Date:  2015-08-20       Impact factor: 6.725

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Authors:  J W Wiley; G A Higgins; B D Athey
Journal:  Neurogastroenterol Motil       Date:  2016-01       Impact factor: 3.598

Review 5.  Genetic treatment of a molecular disorder: gene therapy approaches to sickle cell disease.

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6.  eRNAs promote transcription by establishing chromatin accessibility at defined genomic loci.

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Journal:  Mol Cell       Date:  2013-08-29       Impact factor: 17.970

Review 7.  Manipulating nuclear architecture.

Authors:  Wulan Deng; Gerd A Blobel
Journal:  Curr Opin Genet Dev       Date:  2013-12-12       Impact factor: 5.578

Review 8.  Large-scale chromatin organization: the good, the surprising, and the still perplexing.

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Journal:  Curr Opin Cell Biol       Date:  2013-11-13       Impact factor: 8.382

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Review 10.  Enhancer deregulation in cancer and other diseases.

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