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DNA double-strand break end synapsis by DNA loop extrusion

Author

Listed:
  • Jin H. Yang

    (Massachusetts Institute of Technology
    The Broad Institute of MIT and Harvard
    Koch Institute for Integrative Cancer Research)

  • Hugo B. Brandão

    (Massachusetts Institute of Technology
    The Broad Institute of MIT and Harvard
    Koch Institute for Integrative Cancer Research
    Illumina Inc.)

  • Anders S. Hansen

    (Massachusetts Institute of Technology
    The Broad Institute of MIT and Harvard
    Koch Institute for Integrative Cancer Research)

Abstract

DNA double-strand breaks (DSBs) occur every cell cycle and must be efficiently repaired. Non-homologous end joining (NHEJ) is the dominant pathway for DSB repair in G1-phase. The first step of NHEJ is to bring the two DSB ends back into proximity (synapsis). Although synapsis is generally assumed to occur through passive diffusion, we show that passive diffusion is unlikely to produce the synapsis speed observed in cells. Instead, we hypothesize that DNA loop extrusion facilitates synapsis. By combining experimentally constrained simulations and theory, we show that a simple loop extrusion model constrained by previous live-cell imaging data only modestly accelerates synapsis. Instead, an expanded loop extrusion model with targeted loading of loop extruding factors (LEFs), a small portion of long-lived LEFs, and LEF stabilization by boundary elements and DSB ends achieves fast synapsis with near 100% efficiency. We propose that loop extrusion contributes to DSB repair by mediating fast synapsis.

Suggested Citation

  • Jin H. Yang & Hugo B. Brandão & Anders S. Hansen, 2023. "DNA double-strand break end synapsis by DNA loop extrusion," Nature Communications, Nature, vol. 14(1), pages 1-14, December.
  • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-37583-w
    DOI: 10.1038/s41467-023-37583-w
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    as
    1. Lei Zhang & Xinran Geng & Fangfang Wang & Jinshan Tang & Yu Ichida & Arishya Sharma & Sora Jin & Mingyue Chen & Mingliang Tang & Franklin Mayca Pozo & Wenxiu Wang & Janet Wang & Michal Wozniak & Xiaox, 2022. "53BP1 regulates heterochromatin through liquid phase separation," Nature Communications, Nature, vol. 13(1), pages 1-16, December.
    2. Jesse R. Dixon & Siddarth Selvaraj & Feng Yue & Audrey Kim & Yan Li & Yin Shen & Ming Hu & Jun S. Liu & Bing Ren, 2012. "Topological domains in mammalian genomes identified by analysis of chromatin interactions," Nature, Nature, vol. 485(7398), pages 376-380, May.
    3. Peter Eastman & Jason Swails & John D Chodera & Robert T McGibbon & Yutong Zhao & Kyle A Beauchamp & Lee-Ping Wang & Andrew C Simmonett & Matthew P Harrigan & Chaya D Stern & Rafal P Wiewiora & Bernar, 2017. "OpenMM 7: Rapid development of high performance algorithms for molecular dynamics," PLOS Computational Biology, Public Library of Science, vol. 13(7), pages 1-17, July.
    4. Patrick L. Collins & Caitlin Purman & Sofia I. Porter & Vincent Nganga & Ankita Saini & Katharina E. Hayer & Greer L. Gurewitz & Barry P. Sleckman & Jeffrey J. Bednarski & Craig H. Bassing & Eugene M., 2020. "DNA double-strand breaks induce H2Ax phosphorylation domains in a contact-dependent manner," Nature Communications, Nature, vol. 11(1), pages 1-9, December.
    5. Yixiao Gong & Charalampos Lazaris & Theodore Sakellaropoulos & Aurelie Lozano & Prabhanjan Kambadur & Panagiotis Ntziachristos & Iannis Aifantis & Aristotelis Tsirigos, 2018. "Stratification of TAD boundaries reveals preferential insulation of super-enhancers by strong boundaries," Nature Communications, Nature, vol. 9(1), pages 1-12, December.
    6. Xuefei Zhang & Yu Zhang & Zhaoqing Ba & Nia Kyritsis & Rafael Casellas & Frederick W. Alt, 2019. "Fundamental roles of chromatin loop extrusion in antibody class switching," Nature, Nature, vol. 575(7782), pages 385-389, November.
    7. Bailin Zhao & Go Watanabe & Michael J. Morten & Dylan A. Reid & Eli Rothenberg & Michael R. Lieber, 2019. "The essential elements for the noncovalent association of two DNA ends during NHEJ synapsis," Nature Communications, Nature, vol. 10(1), pages 1-12, December.
    8. Yu Zhang & Xuefei Zhang & Zhaoqing Ba & Zhuoyi Liang & Edward W. Dring & Hongli Hu & Jiangman Lou & Nia Kyritsis & Jeffrey Zurita & Muhammad S. Shamim & Aviva Presser Aiden & Erez Lieberman Aiden & Fr, 2019. "The fundamental role of chromatin loop extrusion in physiological V(D)J recombination," Nature, Nature, vol. 573(7775), pages 600-604, September.
    9. Ineke Brouwer & Gerrit Sitters & Andrea Candelli & Stephanie J. Heerema & Iddo Heller & Abinadabe J. Melo de & Hongshan Zhang & Davide Normanno & Mauro Modesti & Erwin J. G. Peterman & Gijs J. L. Wuit, 2016. "Sliding sleeves of XRCC4–XLF bridge DNA and connect fragments of broken DNA," Nature, Nature, vol. 535(7613), pages 566-569, July.
    10. Fena Ochs & Gopal Karemore & Ezequiel Miron & Jill Brown & Hana Sedlackova & Maj-Britt Rask & Marko Lampe & Veronica Buckle & Lothar Schermelleh & Jiri Lukas & Claudia Lukas, 2019. "Stabilization of chromatin topology safeguards genome integrity," Nature, Nature, vol. 574(7779), pages 571-574, October.
    11. Lei Zhang & Xinran Geng & Fangfang Wang & Jinshan Tang & Yu Ichida & Arishya Sharma & Sora Jin & Mingyue Chen & Mingliang Tang & Franklin Mayca Pozo & Wenxiu Wang & Janet Wang & Michal Wozniak & Xiaox, 2022. "Author Correction: 53BP1 regulates heterochromatin through liquid phase separation," Nature Communications, Nature, vol. 13(1), pages 1-1, December.
    12. Siyu Chen & Linda Lee & Tasmin Naila & Susan Fishbain & Annie Wang & Alan E. Tomkinson & Susan P. Lees-Miller & Yuan He, 2021. "Structural basis of long-range to short-range synaptic transition in NHEJ," Nature, Nature, vol. 593(7858), pages 294-298, May.
    13. Coline Arnould & Vincent Rocher & Anne-Laure Finoux & Thomas Clouaire & Kevin Li & Felix Zhou & Pierre Caron & Philippe. E. Mangeot & Emiliano P. Ricci & Raphaël Mourad & James E. Haber & Daan Noorder, 2021. "Loop extrusion as a mechanism for formation of DNA damage repair foci," Nature, Nature, vol. 590(7847), pages 660-665, February.
    14. Hai-Qiang Dai & Hongli Hu & Jiangman Lou & Adam Yongxin Ye & Zhaoqing Ba & Xuefei Zhang & Yiwen Zhang & Lijuan Zhao & Hye Suk Yoon & Aimee M. Chapdelaine-Williams & Nia Kyritsis & Huan Chen & Kerstin , 2021. "Loop extrusion mediates physiological Igh locus contraction for RAG scanning," Nature, Nature, vol. 590(7845), pages 338-343, February.
    15. Eugene Kim & Jacob Kerssemakers & Indra A. Shaltiel & Christian H. Haering & Cees Dekker, 2020. "DNA-loop extruding condensin complexes can traverse one another," Nature, Nature, vol. 579(7799), pages 438-442, March.
    16. Nadya Dimitrova & Yi-Chun M. Chen & David L. Spector & Titia de Lange, 2008. "53BP1 promotes non-homologous end joining of telomeres by increasing chromatin mobility," Nature, Nature, vol. 456(7221), pages 524-528, November.
    17. Armelle Lengronne & Yuki Katou & Saori Mori & Shihori Yokobayashi & Gavin P. Kelly & Takehiko Itoh & Yoshinori Watanabe & Katsuhiko Shirahige & Frank Uhlmann, 2004. "Cohesin relocation from sites of chromosomal loading to places of convergent transcription," Nature, Nature, vol. 430(6999), pages 573-578, July.
    18. Yan Li & Judith H. I. Haarhuis & Ángela Sedeño Cacciatore & Roel Oldenkamp & Marjon S. Ruiten & Laureen Willems & Hans Teunissen & Kyle W. Muir & Elzo Wit & Benjamin D. Rowland & Daniel Panne, 2020. "The structural basis for cohesin–CTCF-anchored loops," Nature, Nature, vol. 578(7795), pages 472-476, February.
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