Cytokinesis breaks dicentric chromosomes preferentially at pericentromeric regions and telomere fusions

Dicentric chromosomes are unstable products of erroneous DNA repair events that can lead to further genome rearrangements and extended gene copy number variations. During mitosis, they form anaphase bridges, resulting in chromosome breakage by an unknown mechanism. In budding yeast, dicentrics gener...

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Bibliographic Details
Published in:Genes & development 2015-02, Vol.29 (3), p.322-336
Main Authors: Lopez, Virginia, Barinova, Natalja, Onishi, Masayuki, Pobiega, Sabrina, Pringle, John R, Dubrana, Karine, Marcand, Stéphane
Format: Article
Language:English
Subjects:
Cell Nucleus Division
Centromere - genetics
Chromosome Breakage
Chromosomes, Fungal - genetics
Cytokinesis
Mitosis
Research Paper
Saccharomyces cerevisiae
Saccharomyces cerevisiae - genetics
Telomere - metabolism
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Summary:Dicentric chromosomes are unstable products of erroneous DNA repair events that can lead to further genome rearrangements and extended gene copy number variations. During mitosis, they form anaphase bridges, resulting in chromosome breakage by an unknown mechanism. In budding yeast, dicentrics generated by telomere fusion break at the fusion, a process that restores the parental karyotype and protects cells from rare accidental telomere fusion. Here, we observed that dicentrics lacking telomere fusion preferentially break within a 25- to 30-kb-long region next to the centromeres. In all cases, dicentric breakage requires anaphase exit, ruling out stretching by the elongated mitotic spindle as the cause of breakage. Instead, breakage requires cytokinesis. In the presence of dicentrics, the cytokinetic septa pinch the nucleus, suggesting that dicentrics are severed after actomyosin ring contraction. At this time, centromeres and spindle pole bodies relocate to the bud neck, explaining how cytokinesis can sever dicentrics near centromeres.
ISSN:0890-9369
1549-5477
DOI:10.1101/gad.254664.114