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Mitotic CDK Promotes Replisome Disassembly, Fork Breakage, and Complex DNA Rearrangements.

Molecular cell (2019-03-09)
Lin Deng, R Alex Wu, Remi Sonneville, Olga V Kochenova, Karim Labib, David Pellman, Johannes C Walter
ABSTRACT

DNA replication errors generate complex chromosomal rearrangements and thereby contribute to tumorigenesis and other human diseases. One mechanism that triggers these errors is mitotic entry before the completion of DNA replication. To address how mitosis might affect DNA replication, we used Xenopus egg extracts. When mitotic CDK (Cyclin B1-CDK1) is used to drive interphase egg extracts into a mitotic state, the replicative CMG (CDC45/MCM2-7/GINS) helicase undergoes ubiquitylation on its MCM7 subunit, dependent on the E3 ubiquitin ligase TRAIP. Whether replisomes have stalled or undergone termination, CMG ubiquitylation is followed by its extraction from chromatin by the CDC48/p97 ATPase. TRAIP-dependent CMG unloading during mitosis is also seen in C. elegans early embryos. At stalled forks, CMG removal results in fork breakage and end joining events involving deletions and templated insertions. Our results identify a mitotic pathway of global replisome disassembly that can trigger replication fork collapse and DNA rearrangements.

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Sigma-Aldrich
Cdk1/cyclin B Protein, active, 10 µg, Active, C-terminal His6-tagged human full length Cdk1 & N-terminal GST-tagged human full length Cyclin B, for use in Kinase Assays.