The number of PML nuclear bodies increases in early S phase by a fission mechanism

Graham Dellaire; Reagan W. Ching; Hesam Dehghani; Ying Ren; David P. Bazett-Jones

doi:10.1242/jcs.02816

The number of PML nuclear bodies increases in early S phase by a fission mechanism

Graham Dellaire, Reagan W. Ching, Hesam Dehghani, Ying Ren, David P. Bazett-Jones

Research output: Contribution to journal › Article › peer-review

81 Citations (Scopus)

Abstract

Promyelocytic leukemia (PML) nuclear bodies have been implicated in a variety of cellular processes including apoptosis, tumour suppression, anti-viral response, DNA repair and transcriptional regulation. PML nuclear bodies are both positionally and structurally stable over extended periods of interphase. As demonstrated in this study, the structural stability is lost as cells enter S phase, evidenced both by distortions in shape and by fission and fusion events. At the end of this period of structural instability, the number of PML nuclear bodies has increased by a factor of twofold. Association of the fission products with chromatin implies that the PML nuclear bodies respond to changes in chromatin organisation or topology, and thus could play a role in monitoring genome integrity during DNA synthesis or in the continued maintenance of functional chromosomal domains prior to mitosis.

Original language	English
Pages (from-to)	1026-1033
Number of pages	8
Journal	Journal of Cell Science
Volume	119
Issue number	6
DOIs	https://doi.org/10.1242/jcs.02816
Publication status	Published - Mar 15 2006
Externally published	Yes

ASJC Scopus Subject Areas

Cell Biology

PubMed: MeSH publication types

Journal Article
Research Support, Non-U.S. Gov't

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abstract = "Promyelocytic leukemia (PML) nuclear bodies have been implicated in a variety of cellular processes including apoptosis, tumour suppression, anti-viral response, DNA repair and transcriptional regulation. PML nuclear bodies are both positionally and structurally stable over extended periods of interphase. As demonstrated in this study, the structural stability is lost as cells enter S phase, evidenced both by distortions in shape and by fission and fusion events. At the end of this period of structural instability, the number of PML nuclear bodies has increased by a factor of twofold. Association of the fission products with chromatin implies that the PML nuclear bodies respond to changes in chromatin organisation or topology, and thus could play a role in monitoring genome integrity during DNA synthesis or in the continued maintenance of functional chromosomal domains prior to mitosis.",

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AU - Dellaire, Graham

AU - Ching, Reagan W.

AU - Dehghani, Hesam

AU - Ren, Ying

AU - Bazett-Jones, David P.

PY - 2006/3/15

Y1 - 2006/3/15

N2 - Promyelocytic leukemia (PML) nuclear bodies have been implicated in a variety of cellular processes including apoptosis, tumour suppression, anti-viral response, DNA repair and transcriptional regulation. PML nuclear bodies are both positionally and structurally stable over extended periods of interphase. As demonstrated in this study, the structural stability is lost as cells enter S phase, evidenced both by distortions in shape and by fission and fusion events. At the end of this period of structural instability, the number of PML nuclear bodies has increased by a factor of twofold. Association of the fission products with chromatin implies that the PML nuclear bodies respond to changes in chromatin organisation or topology, and thus could play a role in monitoring genome integrity during DNA synthesis or in the continued maintenance of functional chromosomal domains prior to mitosis.

AB - Promyelocytic leukemia (PML) nuclear bodies have been implicated in a variety of cellular processes including apoptosis, tumour suppression, anti-viral response, DNA repair and transcriptional regulation. PML nuclear bodies are both positionally and structurally stable over extended periods of interphase. As demonstrated in this study, the structural stability is lost as cells enter S phase, evidenced both by distortions in shape and by fission and fusion events. At the end of this period of structural instability, the number of PML nuclear bodies has increased by a factor of twofold. Association of the fission products with chromatin implies that the PML nuclear bodies respond to changes in chromatin organisation or topology, and thus could play a role in monitoring genome integrity during DNA synthesis or in the continued maintenance of functional chromosomal domains prior to mitosis.

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The number of PML nuclear bodies increases in early S phase by a fission mechanism

Abstract

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