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Centromere DNA Decatenation Depends on Cohesin Removal and is Required for Mammalian Cell Division

Overview
Journal J Cell Sci
Specialty Cell Biology
Date 2010 Feb 11
PMID 20144989
Citations 63
Authors
Lily Hui-Ching Wang
Bernd Mayer
Olaf Stemmann
Erich A Nigg
Affiliations
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Abstract

Sister chromatid cohesion is mediated by DNA catenation and proteinaceous cohesin complexes. The recent visualization of PICH (Plk1-interacting checkpoint helicase)-coated DNA threads in anaphase cells raises new questions as to the role of DNA catenation and its regulation in time and space. In the present study we show that persistent DNA catenation induced by inhibition of Topoisomerase-IIalpha can contribute to sister chromatid cohesion in the absence of cohesin complexes and that resolution of catenation is essential for abscission. Furthermore, we use an in vitro chromatid separation assay to investigate the temporal and functional relationship between cohesin removal and Topoisomerase-IIalpha-mediated decatenation. Our data suggest that centromere decatenation can occur only after separase activation and cohesin removal, providing a plausible explanation for the persistence of centromere threads after anaphase onset.

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