Molecular mechanisms of micronucleus, nucleoplasmic bridge and nuclear bud formation in mammalian and human cells
Michael Fenech
1
,
M. Kirsch-Volders
2
,
A. T. Natarajan
3
,
J. Surrallés
4
,
J W Crott
5
,
J. Parry
6
,
Hannu Norppa
7
,
D.A Eastmond
8
,
J. D. Tucker
9
,
Philip B. Thomas
10
Publication type: Journal Article
Publication date: 2010-12-16
scimago Q2
wos Q1
SJR: 0.932
CiteScore: 6.4
Impact factor: 4.3
ISSN: 02678357, 14643804
PubMed ID:
21164193
Genetics
Health, Toxicology and Mutagenesis
Toxicology
Genetics (clinical)
Abstract
Micronuclei (MN) and other nuclear anomalies such as nucleoplasmic bridges (NPBs) and nuclear buds (NBUDs) are biomarkers of genotoxic events and chromosomal instability. These genome damage events can be measured simultaneously in the cytokinesis-block micronucleus cytome (CBMNcyt) assay. The molecular mechanisms leading to these events have been investigated over the past two decades using molecular probes and genetically engineered cells. In this brief review, we summarise the wealth of knowledge currently available that best explains the formation of these important nuclear anomalies that are commonly seen in cancer and are indicative of genome damage events that could increase the risk of developmental and degenerative diseases. MN can originate during anaphase from lagging acentric chromosome or chromatid fragments caused by misrepair of DNA breaks or unrepaired DNA breaks. Malsegregation of whole chromosomes at anaphase may also lead to MN formation as a result of hypomethylation of repeat sequences in centromeric and pericentromeric DNA, defects in kinetochore proteins or assembly, dysfunctional spindle and defective anaphase checkpoint genes. NPB originate from dicentric chromosomes, which may occur due to misrepair of DNA breaks, telomere end fusions, and could also be observed when defective separation of sister chromatids at anaphase occurs due to failure of decatenation. NBUD represent the process of elimination of amplified DNA, DNA repair complexes and possibly excess chromosomes from aneuploid cells.
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Metrics
967
Total citations:
967
Citations from 2024:
130
(13.45%)
The most citing journal
Citations in journal:
54
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Fenech M. et al. Molecular mechanisms of micronucleus, nucleoplasmic bridge and nuclear bud formation in mammalian and human cells // Mutagenesis. 2010. Vol. 26. No. 1. pp. 125-132.
GOST all authors (up to 50)
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Fenech M., Kirsch-Volders M., Natarajan A. T., Surrallés J., Crott J. W., Parry J., Norppa H., Eastmond D., Tucker J. D., Thomas P. B. Molecular mechanisms of micronucleus, nucleoplasmic bridge and nuclear bud formation in mammalian and human cells // Mutagenesis. 2010. Vol. 26. No. 1. pp. 125-132.
Cite this
RIS
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TY - JOUR
DO - 10.1093/mutage/geq052
UR - https://doi.org/10.1093/mutage/geq052
TI - Molecular mechanisms of micronucleus, nucleoplasmic bridge and nuclear bud formation in mammalian and human cells
T2 - Mutagenesis
AU - Fenech, Michael
AU - Kirsch-Volders, M.
AU - Natarajan, A. T.
AU - Surrallés, J.
AU - Crott, J W
AU - Parry, J.
AU - Norppa, Hannu
AU - Eastmond, D.A
AU - Tucker, J. D.
AU - Thomas, Philip B.
PY - 2010
DA - 2010/12/16
PB - Oxford University Press
SP - 125-132
IS - 1
VL - 26
PMID - 21164193
SN - 0267-8357
SN - 1464-3804
ER -
Cite this
BibTex (up to 50 authors)
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@article{2010_Fenech,
author = {Michael Fenech and M. Kirsch-Volders and A. T. Natarajan and J. Surrallés and J W Crott and J. Parry and Hannu Norppa and D.A Eastmond and J. D. Tucker and Philip B. Thomas},
title = {Molecular mechanisms of micronucleus, nucleoplasmic bridge and nuclear bud formation in mammalian and human cells},
journal = {Mutagenesis},
year = {2010},
volume = {26},
publisher = {Oxford University Press},
month = {dec},
url = {https://doi.org/10.1093/mutage/geq052},
number = {1},
pages = {125--132},
doi = {10.1093/mutage/geq052}
}
Cite this
MLA
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Fenech, Michael, et al. “Molecular mechanisms of micronucleus, nucleoplasmic bridge and nuclear bud formation in mammalian and human cells.” Mutagenesis, vol. 26, no. 1, Dec. 2010, pp. 125-132. https://doi.org/10.1093/mutage/geq052.