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Somatic structural variant formation is guided by and influences genome architecture

The occurrence and formation of genomic structural variants (SVs) is known to be influenced by the 3D chromatin architecture, but the extent and magnitude have been challenging to study. Here, we apply Hi-C to study chromatin organization before and after induction of chromothripsis in human cells....

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Autores principales: Sidiropoulos, Nikos, Mardin, Balca R., Rodríguez-González, F. Germán, Bochkov, Ivan D., Garg, Shilpa, Stütz, Adrian M., Korbel, Jan O., Aiden, Erez Lieberman, Weischenfeldt, Joachim
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Cold Spring Harbor Laboratory Press 2022
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8997353/
https://www.ncbi.nlm.nih.gov/pubmed/35177558
http://dx.doi.org/10.1101/gr.275790.121
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author Sidiropoulos, Nikos
Mardin, Balca R.
Rodríguez-González, F. Germán
Bochkov, Ivan D.
Garg, Shilpa
Stütz, Adrian M.
Korbel, Jan O.
Aiden, Erez Lieberman
Weischenfeldt, Joachim
author_facet Sidiropoulos, Nikos
Mardin, Balca R.
Rodríguez-González, F. Germán
Bochkov, Ivan D.
Garg, Shilpa
Stütz, Adrian M.
Korbel, Jan O.
Aiden, Erez Lieberman
Weischenfeldt, Joachim
author_sort Sidiropoulos, Nikos
collection PubMed
description The occurrence and formation of genomic structural variants (SVs) is known to be influenced by the 3D chromatin architecture, but the extent and magnitude have been challenging to study. Here, we apply Hi-C to study chromatin organization before and after induction of chromothripsis in human cells. We use Hi-C to manually assemble the derivative chromosomes following the occurrence of massive complex rearrangements, which allows us to study the sources of SV formation and their consequences on gene regulation. We observe an action–reaction interplay whereby the 3D chromatin architecture directly impacts the location and formation of SVs. In turn, the SVs reshape the chromatin organization to alter the local topologies, replication timing, and gene regulation in cis. We show that SVs have a strong tendency to occur between similar chromatin compartments and replication timing regions. Moreover, we find that SVs frequently occur at 3D loop anchors, that SVs can cause a switch in chromatin compartments and replication timing, and that this is a major source of SV-mediated effects on nearby gene expression changes. Finally, we provide evidence for a general mechanistic bias of the 3D chromatin on SV occurrence using data from more than 2700 patient-derived cancer genomes.
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spelling pubmed-89973532022-04-22 Somatic structural variant formation is guided by and influences genome architecture Sidiropoulos, Nikos Mardin, Balca R. Rodríguez-González, F. Germán Bochkov, Ivan D. Garg, Shilpa Stütz, Adrian M. Korbel, Jan O. Aiden, Erez Lieberman Weischenfeldt, Joachim Genome Res Research The occurrence and formation of genomic structural variants (SVs) is known to be influenced by the 3D chromatin architecture, but the extent and magnitude have been challenging to study. Here, we apply Hi-C to study chromatin organization before and after induction of chromothripsis in human cells. We use Hi-C to manually assemble the derivative chromosomes following the occurrence of massive complex rearrangements, which allows us to study the sources of SV formation and their consequences on gene regulation. We observe an action–reaction interplay whereby the 3D chromatin architecture directly impacts the location and formation of SVs. In turn, the SVs reshape the chromatin organization to alter the local topologies, replication timing, and gene regulation in cis. We show that SVs have a strong tendency to occur between similar chromatin compartments and replication timing regions. Moreover, we find that SVs frequently occur at 3D loop anchors, that SVs can cause a switch in chromatin compartments and replication timing, and that this is a major source of SV-mediated effects on nearby gene expression changes. Finally, we provide evidence for a general mechanistic bias of the 3D chromatin on SV occurrence using data from more than 2700 patient-derived cancer genomes. Cold Spring Harbor Laboratory Press 2022-04 /pmc/articles/PMC8997353/ /pubmed/35177558 http://dx.doi.org/10.1101/gr.275790.121 Text en © 2022 Sidiropoulos et al.; Published by Cold Spring Harbor Laboratory Press https://creativecommons.org/licenses/by-nc/4.0/This article, published in Genome Research, is available under a Creative Commons License (Attribution-NonCommercial 4.0 International), as described at http://creativecommons.org/licenses/by-nc/4.0/ (https://creativecommons.org/licenses/by-nc/4.0/) .
spellingShingle Research
Sidiropoulos, Nikos
Mardin, Balca R.
Rodríguez-González, F. Germán
Bochkov, Ivan D.
Garg, Shilpa
Stütz, Adrian M.
Korbel, Jan O.
Aiden, Erez Lieberman
Weischenfeldt, Joachim
Somatic structural variant formation is guided by and influences genome architecture
title Somatic structural variant formation is guided by and influences genome architecture
title_full Somatic structural variant formation is guided by and influences genome architecture
title_fullStr Somatic structural variant formation is guided by and influences genome architecture
title_full_unstemmed Somatic structural variant formation is guided by and influences genome architecture
title_short Somatic structural variant formation is guided by and influences genome architecture
title_sort somatic structural variant formation is guided by and influences genome architecture
topic Research
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8997353/
https://www.ncbi.nlm.nih.gov/pubmed/35177558
http://dx.doi.org/10.1101/gr.275790.121
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