The nucleus plays a central role in several key cellular processes, including chromosome organisation, DNA replication and gene transcription. Recent work suggests an association between nuclear mechanics and cell-cycle progression, but many aspects of this connection remain unexplored. Here, by monitoring nuclear shape fluctuations at different cell cycle stages, we uncover increasing inward fluctuations in late G2 and in early prophase, which are initially transient, but develop into instabilities when approaching the nuclear-envelope breakdown. We demonstrate that such deformations correlate with chromatin condensation by perturbing both the chromatin and the cytoskeletal structures. We propose that the contrasting forces between an extensile stress and centripetal pulling from chromatin condensation could mechanically link chromosome condensation with nuclear-envelope breakdown, two main nuclear processes occurring during mitosis.Nuclear shape fluctuations during the cell cycle suggest a mechanical link between chromosome condensation and nuclear envelope breakdown during mitosis. Initially fluctuations are symmetric, but in the late G2 phase, they become inward and align with the condensing chromatin.

Centripetal nuclear shape fluctuations associate with chromatin condensation in early prophase / V. Introini, G.R. Kidiyoor, G. Porcella, P. Cicuta, M. Cosentino Lagomarsino. - In: COMMUNICATIONS BIOLOGY. - ISSN 2399-3642. - 6:1(2023 Jul 12), pp. 715.1-715.11. [10.1038/s42003-023-05074-9]

Centripetal nuclear shape fluctuations associate with chromatin condensation in early prophase

G. Porcella;M. Cosentino Lagomarsino
2023

Abstract

The nucleus plays a central role in several key cellular processes, including chromosome organisation, DNA replication and gene transcription. Recent work suggests an association between nuclear mechanics and cell-cycle progression, but many aspects of this connection remain unexplored. Here, by monitoring nuclear shape fluctuations at different cell cycle stages, we uncover increasing inward fluctuations in late G2 and in early prophase, which are initially transient, but develop into instabilities when approaching the nuclear-envelope breakdown. We demonstrate that such deformations correlate with chromatin condensation by perturbing both the chromatin and the cytoskeletal structures. We propose that the contrasting forces between an extensile stress and centripetal pulling from chromatin condensation could mechanically link chromosome condensation with nuclear-envelope breakdown, two main nuclear processes occurring during mitosis.Nuclear shape fluctuations during the cell cycle suggest a mechanical link between chromosome condensation and nuclear envelope breakdown during mitosis. Initially fluctuations are symmetric, but in the late G2 phase, they become inward and align with the condensing chromatin.
Settore FIS/02 - Fisica Teorica, Modelli e Metodi Matematici
Settore BIO/11 - Biologia Molecolare
Settore FIS/07 - Fisica Applicata(Beni Culturali, Ambientali, Biol.e Medicin)
12-lug-2023
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2434/1027684
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