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Two independent modes of chromatin organization revealed by cohesin removal

Author

Listed:
  • Wibke Schwarzer

    (Developmental Biology Unit. European Molecular Biology Laboratory)

  • Nezar Abdennur

    (Computational and Systems Biology Program, Massachusetts Institute of Technology)

  • Anton Goloborodko

    (Massachusetts Institute of Technology)

  • Aleksandra Pekowska

    (Genome Biology Unit. European Molecular Biology Laboratory)

  • Geoffrey Fudenberg

    (Institute for Medical Engineering and Sciences, Massachusetts Institute of Technology)

  • Yann Loe-Mie

    (Institut Pasteur, (Epi)genomics of Animal Development Unit
    CNRS, UMR3738)

  • Nuno A Fonseca

    (European Bioinformatics Institute. European Molecular Biology Laboratory. Wellcome Trust Genome Campus)

  • Wolfgang Huber

    (Genome Biology Unit. European Molecular Biology Laboratory)

  • Christian H. Haering

    (Cell Biology and Biophysics Unit, European Molecular Biology Laboratory)

  • Leonid Mirny

    (Massachusetts Institute of Technology
    Institute for Medical Engineering and Sciences, Massachusetts Institute of Technology)

  • Francois Spitz

    (Developmental Biology Unit. European Molecular Biology Laboratory
    Genome Biology Unit. European Molecular Biology Laboratory
    Institut Pasteur, (Epi)genomics of Animal Development Unit
    CNRS, UMR3738)

Abstract

Imaging and chromosome conformation capture studies have revealed several layers of chromosome organization, including segregation into megabase-sized active and inactive compartments, and partitioning into sub-megabase domains (TADs). It remains unclear, however, how these layers of organization form, interact with one another and influence genome function. Here we show that deletion of the cohesin-loading factor Nipbl in mouse liver leads to a marked reorganization of chromosomal folding. TADs and associated Hi-C peaks vanish globally, even in the absence of transcriptional changes. By contrast, compartmental segregation is preserved and even reinforced. Strikingly, the disappearance of TADs unmasks a finer compartment structure that accurately reflects the underlying epigenetic landscape. These observations demonstrate that the three-dimensional organization of the genome results from the interplay of two independent mechanisms: cohesin-independent segregation of the genome into fine-scale compartments, defined by chromatin state; and cohesin-dependent formation of TADs, possibly by loop extrusion, which helps to guide distant enhancers to their target genes.

Suggested Citation

  • Wibke Schwarzer & Nezar Abdennur & Anton Goloborodko & Aleksandra Pekowska & Geoffrey Fudenberg & Yann Loe-Mie & Nuno A Fonseca & Wolfgang Huber & Christian H. Haering & Leonid Mirny & Francois Spitz, 2017. "Two independent modes of chromatin organization revealed by cohesin removal," Nature, Nature, vol. 551(7678), pages 51-56, November.
    • Handle: RePEc:nat:nature:v:551:y:2017:i:7678:d:10.1038_nature24281
    DOI: 10.1038/nature24281
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    Cited by:

    1. Ryuichiro Nakato & Toyonori Sakata & Jiankang Wang & Luis Augusto Eijy Nagai & Yuya Nagaoka & Gina Miku Oba & Masashige Bando & Katsuhiko Shirahige, 2023. "Context-dependent perturbations in chromatin folding and the transcriptome by cohesin and related factors," Nature Communications, Nature, vol. 14(1), pages 1-17, December.
    2. Varvara Lukyanchikova & Miroslav Nuriddinov & Polina Belokopytova & Alena Taskina & Jiangtao Liang & Maarten J. M. F. Reijnders & Livio Ruzzante & Romain Feron & Robert M. Waterhouse & Yang Wu & Chunh, 2022. "Anopheles mosquitoes reveal new principles of 3D genome organization in insects," Nature Communications, Nature, vol. 13(1), pages 1-22, December.
    3. Abrar Aljahani & Peng Hua & Magdalena A. Karpinska & Kimberly Quililan & James O. J. Davies & A. Marieke Oudelaar, 2022. "Analysis of sub-kilobase chromatin topology reveals nano-scale regulatory interactions with variable dependence on cohesin and CTCF," Nature Communications, Nature, vol. 13(1), pages 1-13, December.
    4. Allison P. Siegenfeld & Shelby A. Roseman & Heejin Roh & Nicholas Z. Lue & Corin C. Wagen & Eric Zhou & Sarah E. Johnstone & Martin J. Aryee & Brian B. Liau, 2022. "Polycomb-lamina antagonism partitions heterochromatin at the nuclear periphery," Nature Communications, Nature, vol. 13(1), pages 1-16, December.
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    6. Xiaowen Lyu & M. Jordan Rowley & Michael J. Kulik & Stephen Dalton & Victor G. Corces, 2023. "Regulation of CTCF loop formation during pancreatic cell differentiation," Nature Communications, Nature, vol. 14(1), pages 1-18, December.
    7. Julia Minderjahn & Alexander Fischer & Konstantin Maier & Karina Mendes & Margit Nuetzel & Johanna Raithel & Hanna Stanewsky & Ute Ackermann & Robert Månsson & Claudia Gebhard & Michael Rehli, 2022. "Postmitotic differentiation of human monocytes requires cohesin-structured chromatin," Nature Communications, Nature, vol. 13(1), pages 1-19, December.
    8. Dácil Alonso-Gil & Ana Cuadrado & Daniel Giménez-Llorente & Miriam Rodríguez-Corsino & Ana Losada, 2023. "Different NIPBL requirements of cohesin-STAG1 and cohesin-STAG2," Nature Communications, Nature, vol. 14(1), pages 1-11, December.
    9. Irene Robles-Rebollo & Sergi Cuartero & Adria Canellas-Socias & Sarah Wells & Mohammad M. Karimi & Elisabetta Mereu & Alexandra G. Chivu & Holger Heyn & Chad Whilding & Dirk Dormann & Samuel Marguerat, 2022. "Cohesin couples transcriptional bursting probabilities of inducible enhancers and promoters," Nature Communications, Nature, vol. 13(1), pages 1-16, December.
    10. Zhaowei Chu & Lei Gu & Yeguang Hu & Xiaoyang Zhang & Man Li & Jiajia Chen & Da Teng & Man Huang & Che-Hung Shen & Li Cai & Toshimi Yoshida & Yifeng Qi & Zhixin Niu & Austin Feng & Songmei Geng & Denni, 2022. "STAG2 regulates interferon signaling in melanoma via enhancer loop reprogramming," Nature Communications, Nature, vol. 13(1), pages 1-11, December.
    11. Markus Götz & Olivier Messina & Sergio Espinola & Jean-Bernard Fiche & Marcelo Nollmann, 2022. "Multiple parameters shape the 3D chromatin structure of single nuclei at the doc locus in Drosophila," Nature Communications, Nature, vol. 13(1), pages 1-14, December.
    12. Vinícius G. Contessoto & Olga Dudchenko & Erez Lieberman Aiden & Peter G. Wolynes & José N. Onuchic & Michele Pierro, 2023. "Interphase chromosomes of the Aedes aegypti mosquito are liquid crystalline and can sense mechanical cues," Nature Communications, Nature, vol. 14(1), pages 1-12, December.
    13. Ziad Ibrahim & Tao Wang & Olivier Destaing & Nicola Salvi & Naghmeh Hoghoughi & Clovis Chabert & Alexandra Rusu & Jinjun Gao & Leonardo Feletto & Nicolas Reynoird & Thomas Schalch & Yingming Zhao & Ma, 2022. "Structural insights into p300 regulation and acetylation-dependent genome organisation," Nature Communications, Nature, vol. 13(1), pages 1-23, December.
    14. Dominic D. G. Owens & Giorgio Anselmi & A. Marieke Oudelaar & Damien J. Downes & Alessandro Cavallo & Joe R. Harman & Ron Schwessinger & Akin Bucakci & Lucas Greder & Sara Ornellas & Danuta Jeziorska , 2022. "Dynamic Runx1 chromatin boundaries affect gene expression in hematopoietic development," Nature Communications, Nature, vol. 13(1), pages 1-15, December.
    15. Tomas Zelenka & Antonios Klonizakis & Despina Tsoukatou & Dionysios-Alexandros Papamatheakis & Sören Franzenburg & Petros Tzerpos & Ioannis-Rafail Tzonevrakis & George Papadogkonas & Manouela Kapsetak, 2022. "The 3D enhancer network of the developing T cell genome is shaped by SATB1," Nature Communications, Nature, vol. 13(1), pages 1-22, December.
    16. Louisa Hill & Gordana Wutz & Markus Jaritz & Hiromi Tagoh & Lesly Calderón & Jan-Michael Peters & Anton Goloborodko & Meinrad Busslinger, 2023. "Igh and Igk loci use different folding principles for V gene recombination due to distinct chromosomal architectures of pro-B and pre-B cells," Nature Communications, Nature, vol. 14(1), pages 1-16, December.
    17. Qiliang Ding & Matthew M. Edwards & Ning Wang & Xiang Zhu & Alexa N. Bracci & Michelle L. Hulke & Ya Hu & Yao Tong & Joyce Hsiao & Christine J. Charvet & Sulagna Ghosh & Robert E. Handsaker & Kevin Eg, 2021. "The genetic architecture of DNA replication timing in human pluripotent stem cells," Nature Communications, Nature, vol. 12(1), pages 1-18, December.
    18. Judith H. I. Haarhuis & Robin H. Weide & Vincent A. Blomen & Koen D. Flach & Hans Teunissen & Laureen Willems & Thijn R. Brummelkamp & Benjamin D. Rowland & Elzo Wit, 2022. "A Mediator-cohesin axis controls heterochromatin domain formation," Nature Communications, Nature, vol. 13(1), pages 1-10, December.
    19. Mattia Conte & Ehsan Irani & Andrea M. Chiariello & Alex Abraham & Simona Bianco & Andrea Esposito & Mario Nicodemi, 2022. "Loop-extrusion and polymer phase-separation can co-exist at the single-molecule level to shape chromatin folding," Nature Communications, Nature, vol. 13(1), pages 1-13, December.
    20. Shuai Liu & Yaqiang Cao & Kairong Cui & Qingsong Tang & Keji Zhao, 2022. "Hi-TrAC reveals division of labor of transcription factors in organizing chromatin loops," Nature Communications, Nature, vol. 13(1), pages 1-17, December.

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