Functional interplay between condensin I and topoisomerase Iiα in single-molecule DNA compaction

Functional interplay between condensin I and topoisomerase Iiα in single-molecule DNA compaction

Abstract Condensin I and topoisomerase IIα (topo IIα) are chromosomal ATPases essential for mitotic chromosome assembly. Mechanistically how the two ATPases cooperate to assemble mitotic chromosomes remains unknown. Here we investigate the interplay between condensin I and topo IIα at single-molecul...

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Main Authors: Yuko Tsubota, Keishi Shintomi, Kazuhisa Kinoshita, Yuki Masahara-Negishi, Yuuki Aizawa, Masami Shima, Tatsuya Hirano, Tomoko Nishiyama
Format: Article
Language:English
Published: Nature Portfolio 2025-08-01
Series:Nature Communications
Online Access:https://doi.org/10.1038/s41467-025-62600-5
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author Yuko Tsubota
Keishi Shintomi
Kazuhisa Kinoshita
Yuki Masahara-Negishi
Yuuki Aizawa
Masami Shima
Tatsuya Hirano
Tomoko Nishiyama
author_facet Yuko Tsubota
Keishi Shintomi
Kazuhisa Kinoshita
Yuki Masahara-Negishi
Yuuki Aizawa
Masami Shima
Tatsuya Hirano
Tomoko Nishiyama
author_sort Yuko Tsubota
collection DOAJ
description Abstract Condensin I and topoisomerase IIα (topo IIα) are chromosomal ATPases essential for mitotic chromosome assembly. Mechanistically how the two ATPases cooperate to assemble mitotic chromosomes remains unknown. Here we investigate the interplay between condensin I and topo IIα at single-molecule resolution. While condensin I alone exhibits ATP-dependent DNA loop formation, it generates stable, compact structures (“lumps”) in the presence of topo IIα in a manner dependent on its C-terminal domain. These lumps predominantly contain a single condensin I complex and a single topo IIα dimer. The strand passage activity of topo IIα introduces DNA knots within the lumps, rendering them resistant to protease treatment. An ATP hydrolysis-deficient mutant of condensin I forms smaller lumps, in which the probability of DNA knotting is markedly reduced. Our findings demonstrate that topo IIα-mediated strand passage is functionally coupled with condensin I-mediated loop extrusion, providing insights into the mechanism underlying mitotic chromosome assembly.
format Article
id doaj-art-7ed53e56a44047b1bde6e7cc54d46f9f
institution Kabale University
issn 2041-1723
language English
publishDate 2025-08-01
publisher Nature Portfolio
record_format Article
series Nature Communications
spelling doaj-art-7ed53e56a44047b1bde6e7cc54d46f9f2025-08-20T03:46:09ZengNature PortfolioNature Communications2041-17232025-08-0116111410.1038/s41467-025-62600-5Functional interplay between condensin I and topoisomerase Iiα in single-molecule DNA compactionYuko Tsubota0Keishi Shintomi1Kazuhisa Kinoshita2Yuki Masahara-Negishi3Yuuki Aizawa4Masami Shima5Tatsuya Hirano6Tomoko Nishiyama7Genome Integrity and Control Laboratory, Division of Biology, Graduate School of Science, Kyoto University, SakyoChromosome Dynamics Laboratory, RIKENChromosome Dynamics Laboratory, RIKENChromosome Dynamics Laboratory, RIKENChromosome Dynamics Laboratory, RIKENChromosome Dynamics Laboratory, RIKENChromosome Dynamics Laboratory, RIKENGenome Integrity and Control Laboratory, Division of Biology, Graduate School of Science, Kyoto University, SakyoAbstract Condensin I and topoisomerase IIα (topo IIα) are chromosomal ATPases essential for mitotic chromosome assembly. Mechanistically how the two ATPases cooperate to assemble mitotic chromosomes remains unknown. Here we investigate the interplay between condensin I and topo IIα at single-molecule resolution. While condensin I alone exhibits ATP-dependent DNA loop formation, it generates stable, compact structures (“lumps”) in the presence of topo IIα in a manner dependent on its C-terminal domain. These lumps predominantly contain a single condensin I complex and a single topo IIα dimer. The strand passage activity of topo IIα introduces DNA knots within the lumps, rendering them resistant to protease treatment. An ATP hydrolysis-deficient mutant of condensin I forms smaller lumps, in which the probability of DNA knotting is markedly reduced. Our findings demonstrate that topo IIα-mediated strand passage is functionally coupled with condensin I-mediated loop extrusion, providing insights into the mechanism underlying mitotic chromosome assembly.https://doi.org/10.1038/s41467-025-62600-5
spellingShingle Yuko Tsubota
Keishi Shintomi
Kazuhisa Kinoshita
Yuki Masahara-Negishi
Yuuki Aizawa
Masami Shima
Tatsuya Hirano
Tomoko Nishiyama
Functional interplay between condensin I and topoisomerase Iiα in single-molecule DNA compaction
Nature Communications
title Functional interplay between condensin I and topoisomerase Iiα in single-molecule DNA compaction
title_full Functional interplay between condensin I and topoisomerase Iiα in single-molecule DNA compaction
title_fullStr Functional interplay between condensin I and topoisomerase Iiα in single-molecule DNA compaction
title_full_unstemmed Functional interplay between condensin I and topoisomerase Iiα in single-molecule DNA compaction
title_short Functional interplay between condensin I and topoisomerase Iiα in single-molecule DNA compaction
title_sort functional interplay between condensin i and topoisomerase iiα in single molecule dna compaction
url https://doi.org/10.1038/s41467-025-62600-5
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AT keishishintomi functionalinterplaybetweencondensiniandtopoisomeraseiiainsinglemoleculednacompaction
AT kazuhisakinoshita functionalinterplaybetweencondensiniandtopoisomeraseiiainsinglemoleculednacompaction
AT yukimasaharanegishi functionalinterplaybetweencondensiniandtopoisomeraseiiainsinglemoleculednacompaction
AT yuukiaizawa functionalinterplaybetweencondensiniandtopoisomeraseiiainsinglemoleculednacompaction
AT masamishima functionalinterplaybetweencondensiniandtopoisomeraseiiainsinglemoleculednacompaction
AT tatsuyahirano functionalinterplaybetweencondensiniandtopoisomeraseiiainsinglemoleculednacompaction
AT tomokonishiyama functionalinterplaybetweencondensiniandtopoisomeraseiiainsinglemoleculednacompaction

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