3D shortcuts to gene regulation

doi:10.1016/j.ceb.2010.04.005

Review

. 2010 Jun;22(3):305-13.

doi: 10.1016/j.ceb.2010.04.005. Epub 2010 May 11.

3D shortcuts to gene regulation

Ofir Hakim¹, Myong-Hee Sung, Gordon L Hager

Affiliations

PMID: 20466532
PMCID: PMC2916936
DOI: 10.1016/j.ceb.2010.04.005

Review

3D shortcuts to gene regulation

Ofir Hakim et al. Curr Opin Cell Biol. 2010 Jun.

. 2010 Jun;22(3):305-13.

doi: 10.1016/j.ceb.2010.04.005. Epub 2010 May 11.

Authors

Ofir Hakim¹, Myong-Hee Sung, Gordon L Hager

Affiliation

¹ Laboratory of Receptor Biology and Gene Expression, National Cancer Institute, National Institutes of Health, Bethesda, MD 20892, USA.

PMID: 20466532
PMCID: PMC2916936
DOI: 10.1016/j.ceb.2010.04.005

Abstract

Recent technologies have allowed high-resolution genome-wide binding profiles of numerous transcription factors and other proteins. A widespread observation has emerged from studies in diverse mammalian systems: most binding events are located at great distances from gene promoters. It is becoming apparent that the traditional one-dimensional view of gene regulation via the proximal cis regulatory elements is over-simplified. True proximity and functional relevance can be revealed by studying the three-dimensional structure of the genome packaged inside the nucleus. Thus the spatial architecture of the genome has attracted a lot of interest and has intensified its significance in modern cell biology. Here we discuss current methods, concepts, and controversies in this rapidly evolving field.

Published by Elsevier Ltd.

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Figures

**Figure 1**
Microarray profile of long range interactions by 4C. (A) Long-range contacts of the bait across the same chromosome (top profile) and with loci on another chromosome (bottom profile). The peaks represent long-range contacts and their magnitudes indicate the interaction frequency. The dominant peak cluster centered at the bait reflects the high interaction frequency of the locus with the nearby sequences within a few million bp distance. Most of the reported distant regulatory elements are found within this region (panel B). (B) Finer-scale spatial interactions within the bait region. Regulatory sites (ellipses) are in long-range contacts (arrows) with other regulatory sites and genes (gray rectangle), generating a complex network of direct and indirect contacts. (C) The chromosomes are folded in the interphase nucleus into chromosome territories. Chromosomal loci are non-randomly engaged in long-range contacts with other distant loci from the same chromosomes and with loci from other chromosomes creating spatial micro-environments.

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References

1. Simonis M, Kooren J, de Laat W. An evaluation of 3C-based methods to capture DNA interactions. Nat Methods. 2007;4:895–901. - PubMed
1. Ohlsson R, Gondor A. The 4C technique: the ‘Rosetta stone’ for genome biology in 3D? Curr Opin Cell Biol. 2007;19:321–325. - PubMed
1. Lieberman-Aiden E, van Berkum NL, Williams L, Imakaev M, Ragoczy T, Telling A, Amit I, Lajoie BR, Sabo PJ, Dorschner MO, Sandstrom R, Bernstein B, Bender MA, Groudine M, Gnirke A, Stamatoyannopoulos J, Mirny LA, Lander ES, Dekker J. Comprehensive mapping of long-range interactions reveals folding principles of the human genome. Science. 2009;326:289–293. This article describes the Hi-C assay that probes all the chromatin long-range contacts in the cell nucleus. This molecular approach confirmed the organization of chromosomes in territories and further suggests that chromatin conformation at the megabase scale is consistent with a fractal globule, a knot-free, polymer conformation. - PMC - PubMed
1. Simonis M, Klous P, Splinter E, Moshkin Y, Willemsen R, de Wit E, van Steensel B, de Laat W. Nuclear organization of active and inactive chromatin domains uncovered by chromosome conformation capture-on-chip (4C) Nat Genet. 2006;38:1348–1354. - PubMed
1. Palstra RJ, Simonis M, Klous P, Brasset E, Eijkelkamp B, de Laat W. Maintenance of long-range DNA interactions after inhibition of ongoing RNA polymerase II transcription. PLoS One. 2008;3:e1661. - PMC - PubMed

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[1] Simonis M, Kooren J, de Laat W. An evaluation of 3C-based methods to capture DNA interactions. Nat Methods. 2007;4:895–901. - PubMed

[2] Simonis M, Kooren J, de Laat W. An evaluation of 3C-based methods to capture DNA interactions. Nat Methods. 2007;4:895–901. - PubMed

[3] Ohlsson R, Gondor A. The 4C technique: the ‘Rosetta stone’ for genome biology in 3D? Curr Opin Cell Biol. 2007;19:321–325. - PubMed

[4] Ohlsson R, Gondor A. The 4C technique: the ‘Rosetta stone’ for genome biology in 3D? Curr Opin Cell Biol. 2007;19:321–325. - PubMed

[5] Lieberman-Aiden E, van Berkum NL, Williams L, Imakaev M, Ragoczy T, Telling A, Amit I, Lajoie BR, Sabo PJ, Dorschner MO, Sandstrom R, Bernstein B, Bender MA, Groudine M, Gnirke A, Stamatoyannopoulos J, Mirny LA, Lander ES, Dekker J. Comprehensive mapping of long-range interactions reveals folding principles of the human genome. Science. 2009;326:289–293. This article describes the Hi-C assay that probes all the chromatin long-range contacts in the cell nucleus. This molecular approach confirmed the organization of chromosomes in territories and further suggests that chromatin conformation at the megabase scale is consistent with a fractal globule, a knot-free, polymer conformation. - PMC - PubMed

[6] Lieberman-Aiden E, van Berkum NL, Williams L, Imakaev M, Ragoczy T, Telling A, Amit I, Lajoie BR, Sabo PJ, Dorschner MO, Sandstrom R, Bernstein B, Bender MA, Groudine M, Gnirke A, Stamatoyannopoulos J, Mirny LA, Lander ES, Dekker J. Comprehensive mapping of long-range interactions reveals folding principles of the human genome. Science. 2009;326:289–293. This article describes the Hi-C assay that probes all the chromatin long-range contacts in the cell nucleus. This molecular approach confirmed the organization of chromosomes in territories and further suggests that chromatin conformation at the megabase scale is consistent with a fractal globule, a knot-free, polymer conformation. - PMC - PubMed

[7] Simonis M, Klous P, Splinter E, Moshkin Y, Willemsen R, de Wit E, van Steensel B, de Laat W. Nuclear organization of active and inactive chromatin domains uncovered by chromosome conformation capture-on-chip (4C) Nat Genet. 2006;38:1348–1354. - PubMed

[8] Simonis M, Klous P, Splinter E, Moshkin Y, Willemsen R, de Wit E, van Steensel B, de Laat W. Nuclear organization of active and inactive chromatin domains uncovered by chromosome conformation capture-on-chip (4C) Nat Genet. 2006;38:1348–1354. - PubMed

[9] Palstra RJ, Simonis M, Klous P, Brasset E, Eijkelkamp B, de Laat W. Maintenance of long-range DNA interactions after inhibition of ongoing RNA polymerase II transcription. PLoS One. 2008;3:e1661. - PMC - PubMed

[10] Palstra RJ, Simonis M, Klous P, Brasset E, Eijkelkamp B, de Laat W. Maintenance of long-range DNA interactions after inhibition of ongoing RNA polymerase II transcription. PLoS One. 2008;3:e1661. - PMC - PubMed

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3D shortcuts to gene regulation

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3D shortcuts to gene regulation

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