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Nuclear Organization of Active and Inactive Chromatin Domains Uncovered by Chromosome Conformation Capture-on-chip (4C)

Overview
Journal Nat Genet
Specialty Genetics
Date 2006 Oct 13
PMID 17033623
Citations 686
Authors
Marieke Simonis
Petra Klous
Erik Splinter
Yuri Moshkin
Rob Willemsen
Elzo de Wit
Bas van Steensel
Wouter de Laat
Affiliations
Soon will be listed here.
Abstract

The spatial organization of DNA in the cell nucleus is an emerging key contributor to genomic function. We developed 4C technology (chromosome conformation capture (3C)-on-chip), which allows for an unbiased genome-wide search for DNA loci that contact a given locus in the nuclear space. We demonstrate here that active and inactive genes are engaged in many long-range intrachromosomal interactions and can also form interchromosomal contacts. The active beta-globin locus in fetal liver preferentially contacts transcribed, but not necessarily tissue-specific, loci elsewhere on chromosome 7, whereas the inactive locus in fetal brain contacts different transcriptionally silent loci. A housekeeping gene in a gene-dense region on chromosome 8 forms long-range contacts predominantly with other active gene clusters, both in cis and in trans, and many of these intra- and interchromosomal interactions are conserved between the tissues analyzed. Our data demonstrate that chromosomes fold into areas of active chromatin and areas of inactive chromatin and establish 4C technology as a powerful tool to study nuclear architecture.

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