Literature DB >> 32213323

Resolving the 3D Landscape of Transcription-Linked Mammalian Chromatin Folding.

Tsung-Han S Hsieh1, Claudia Cattoglio2, Elena Slobodyanyuk2, Anders S Hansen3, Oliver J Rando4, Robert Tjian5, Xavier Darzacq6.   

Abstract

Whereas folding of genomes at the large scale of epigenomic compartments and topologically associating domains (TADs) is now relatively well understood, how chromatin is folded at finer scales remains largely unexplored in mammals. Here, we overcome some limitations of conventional 3C-based methods by using high-resolution Micro-C to probe links between 3D genome organization and transcriptional regulation in mouse stem cells. Combinatorial binding of transcription factors, cofactors, and chromatin modifiers spatially segregates TAD regions into various finer-scale structures with distinct regulatory features including stripes, dots, and domains linking promoters-to-promoters (P-P) or enhancers-to-promoters (E-P) and bundle contacts between Polycomb regions. E-P stripes extending from the edge of domains predominantly link co-expressed loci, often in the absence of CTCF and cohesin occupancy. Acute inhibition of transcription disrupts these gene-related folding features without altering higher-order chromatin structures. Our study uncovers previously obscured finer-scale genome organization, establishing functional links between chromatin folding and gene regulation.
Copyright © 2020 Elsevier Inc. All rights reserved.

Entities:  

Keywords:  30 nm chromatin fiber; 3D genome; CTCF; Micro-C; Pol II; TAD; enhancer-promoter (E-P) interactions; loop extrusion; transcription

Mesh:

Substances:

Year:  2020        PMID: 32213323      PMCID: PMC7703524          DOI: 10.1016/j.molcel.2020.03.002

Source DB:  PubMed          Journal:  Mol Cell        ISSN: 1097-2765            Impact factor:   17.970


  81 in total

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Journal:  Cell Stem Cell       Date:  2015-12-03       Impact factor: 24.633

2.  X-ray structure of a tetranucleosome and its implications for the chromatin fibre.

Authors:  Thomas Schalch; Sylwia Duda; David F Sargent; Timothy J Richmond
Journal:  Nature       Date:  2005-07-07       Impact factor: 49.962

3.  A bivalent chromatin structure marks key developmental genes in embryonic stem cells.

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Journal:  Cell       Date:  2006-04-21       Impact factor: 41.582

4.  Serial genomic inversions induce tissue-specific architectural stripes, gene misexpression and congenital malformations.

Authors:  Katerina Kraft; Andreas Magg; Verena Heinrich; Christina Riemenschneider; Robert Schöpflin; Julia Markowski; Daniel M Ibrahim; Rocío Acuna-Hidalgo; Alexandra Despang; Guillaume Andrey; Lars Wittler; Bernd Timmermann; Martin Vingron; Stefan Mundlos
Journal:  Nat Cell Biol       Date:  2019-02-11       Impact factor: 28.824

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Authors:  Anh Tram Nguyen; Yi Zhang
Journal:  Genes Dev       Date:  2011-07-01       Impact factor: 11.361

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Journal:  Cell       Date:  2013-05-23       Impact factor: 41.582

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9.  Mammalian ISWI and SWI/SNF selectively mediate binding of distinct transcription factors.

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Authors:  Sakthi D Moorthy; Scott Davidson; Virlana M Shchuka; Gurdeep Singh; Nakisa Malek-Gilani; Lida Langroudi; Alexandre Martchenko; Vincent So; Neil N Macpherson; Jennifer A Mitchell
Journal:  Genome Res       Date:  2016-11-28       Impact factor: 9.043
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  105 in total

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5.  High-Resolution Mapping of Multiway Enhancer-Promoter Interactions Regulating Pathogen Detection.

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7.  Cohesin residency determines chromatin loop patterns.

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Review 8.  The Self-Organizing Genome: Principles of Genome Architecture and Function.

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9.  A saturating mutagenesis CRISPR-Cas9-mediated functional genomic screen identifies cis- and trans-regulatory elements of Oct4 in murine ESCs.

Authors:  Matthew C Canver; Pratibha Tripathi; Michael J Bullen; Moshe Olshansky; Yogesh Kumar; Lee H Wong; Stephen J Turner; Samuel Lessard; Luca Pinello; Stuart H Orkin; Partha Pratim Das
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Review 10.  The essential but enigmatic regulatory role of HERVH in pluripotency.

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