Sister chromatid resolution is an intrinsic part of chromosome organization in prophase.
Sister chromatid resolution is an intrinsic part of chromosome organization in prophase.
The formation of mitotic chromosomes requires both compaction of chromatin and the resolution of replicated sister chromatids. Compaction occurs during mitotic prophase and prometaphase, and in prophase relies on the activity of condensin II complexes1,2. Exactly when and how sister chromatid resolution occurs has been largely unknown, as has its molecular requirements. Here, we established a method to visualize sister resolution by sequential replication labelling with two distinct nucleotide derivatives. Quantitative three-dimensional imaging then allowed us to measure the resolution of sister chromatids throughout mitosis by calculating their non-overlapping volume within the whole chromosome. Unexpectedly, we found that sister chromatid resolution starts already at the beginning of prophase, proceeds concomitantly with chromatin compaction and is largely completed by the end of prophase. Sister chromatid resolution was abolished by inhibition of topoisomerase IIα and by depleting or preventing mitotic activation of condensin II, whereas blocking cohesin dissociation from chromosomes had little effect. Mitotic sister chromatid resolution is thus an intrinsic part of mitotic chromosome formation in prophase that relies largely on DNA decatenation and shares the molecular requirement for condensin II with prophase compaction.
pages692–699
Nagasaka, Kota
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Hossain, MJ
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Roberti, Maria Julia
68fbac1f-9c4f-483e-b133-73cad3afbc61
Ellenberg, Jan
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Hirota, Toru
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1 May 2016
Nagasaka, Kota
1310c13c-f386-484e-98e6-9b8cb4cbc014
Hossain, MJ
bba1b875-7604-462b-a55b-ba0b54f728e8
Roberti, Maria Julia
68fbac1f-9c4f-483e-b133-73cad3afbc61
Ellenberg, Jan
7b8ab9a9-8076-4db1-b7a2-8445accc9b54
Hirota, Toru
f4fda8b9-3274-4346-8de9-52be80e54c29
Nagasaka, Kota, Hossain, MJ, Roberti, Maria Julia, Ellenberg, Jan and Hirota, Toru
(2016)
Sister chromatid resolution is an intrinsic part of chromosome organization in prophase.
Nature Cell Biology, 18, .
(doi:10.1038/ncb3353).
Abstract
The formation of mitotic chromosomes requires both compaction of chromatin and the resolution of replicated sister chromatids. Compaction occurs during mitotic prophase and prometaphase, and in prophase relies on the activity of condensin II complexes1,2. Exactly when and how sister chromatid resolution occurs has been largely unknown, as has its molecular requirements. Here, we established a method to visualize sister resolution by sequential replication labelling with two distinct nucleotide derivatives. Quantitative three-dimensional imaging then allowed us to measure the resolution of sister chromatids throughout mitosis by calculating their non-overlapping volume within the whole chromosome. Unexpectedly, we found that sister chromatid resolution starts already at the beginning of prophase, proceeds concomitantly with chromatin compaction and is largely completed by the end of prophase. Sister chromatid resolution was abolished by inhibition of topoisomerase IIα and by depleting or preventing mitotic activation of condensin II, whereas blocking cohesin dissociation from chromosomes had little effect. Mitotic sister chromatid resolution is thus an intrinsic part of mitotic chromosome formation in prophase that relies largely on DNA decatenation and shares the molecular requirement for condensin II with prophase compaction.
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Published date: 1 May 2016
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Local EPrints ID: 457485
URI: http://eprints.soton.ac.uk/id/eprint/457485
ISSN: 1465-7392
PURE UUID: f0243e92-b079-46fa-8f05-144c3d8354a5
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Date deposited: 09 Jun 2022 17:00
Last modified: 17 Mar 2024 04:12
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Author:
Kota Nagasaka
Author:
MJ Hossain
Author:
Maria Julia Roberti
Author:
Jan Ellenberg
Author:
Toru Hirota
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