Enhancer hubs and loop collisions identified from single-allele topologies
Allahyar, Amin; Vermeulen, Carlo; Bouwman, Britta A M; Krijger, Peter H L; Verstegen, Marjon J A M; Geeven, Geert; van Kranenburg, Melissa; Pieterse, Mark; Straver, Roy; Haarhuis, Judith H I; Jalink, Kees; Teunissen, Hans; Renkens, Ivo J; Kloosterman, Wigard P; Rowland, Benjamin D; de Wit, Elzo; de Ridder, Jeroen; de Laat, Wouter
(2018) Nature Genetics, volume 50, issue 8, pp. 1151 - 1160
(Article)
Abstract
Chromatin folding contributes to the regulation of genomic processes such as gene activity. Existing conformation capture methods characterize genome topology through analysis of pairwise chromatin contacts in populations of cells but cannot discern whether individual interactions occur simultaneously or competitively. Here we present multi-contact 4C (MC-4C), which applies Nanopore sequencing
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to study multi-way DNA conformations of individual alleles. MC-4C distinguishes cooperative from random and competing interactions and identifies previously missed structures in subpopulations of cells. We show that individual elements of the β-globin superenhancer can aggregate into an enhancer hub that can simultaneously accommodate two genes. Neighboring chromatin domain loops can form rosette-like structures through collision of their CTCF-bound anchors, as seen most prominently in cells lacking the cohesin-unloading factor WAPL. Here, massive collision of CTCF-anchored chromatin loops is believed to reflect ‘cohesin traffic jams’. Single-allele topology studies thus help us understand the mechanisms underlying genome folding and functioning.
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Keywords: Alleles, Animals, CCCTC-Binding Factor/genetics, Chromatin/genetics, Enhancer Elements, Genetic/genetics, Mice, Nucleic Acid Conformation, Regulatory Sequences, Nucleic Acid/genetics, beta-Globins/genetics, Genetics, Journal Article, Research Support, N.I.H., Extramural, Research Support, Non-U.S. Gov't
ISSN: 1061-4036
Publisher: Nature Publishing Group
Note: Funding Information: We thank the Utrecht Sequencing Facility for providing sequencing data and service, E. Schijlen for help with initial Pacific Biosciences sequencing, and D. Leyton-Puig for help with imaging. We thank N. Geijsen and P. Shang (Hubrecht Institute) for providing Cas9 protein. This work was supported by an NWO VIDI grant (639.072.715) to J.d.R. and an NWO/CW TOP grant (714.012.002) and NWO VICI grant (724.012.003) to W.d.L. and by the NIH Common Fund Program, grant U01CA200147, as a Transformative Collaborative Project Award (TCPA, TCPA-2017-DE-LAAT). Publisher Copyright: © 2018, The Author(s).
(Peer reviewed)