| Literature DB >> 28575661 |
Stefano Di Marco1, Zdenka Hasanova2, Radhakrishnan Kanagaraj1, Nagaraja Chappidi1, Veronika Altmannova3, Shruti Menon1, Hana Sedlackova2, Jana Langhoff1, Kalpana Surendranath4, Daniela Hühn1, Rahul Bhowmick5, Victoria Marini2, Stefano Ferrari1, Ian D Hickson5, Lumir Krejci6, Pavel Janscak7.
Abstract
The MUS81-EME1 endonuclease cleaves late replication intermediates at common fragile sites (CFSs) during early mitosis to trigger DNA-repair synthesis that ensures faithful chromosome segregation. Here, we show that these DNA transactions are promoted by RECQ5 DNA helicase in a manner dependent on its Ser727 phosphorylation by CDK1. Upon replication stress, RECQ5 associates with CFSs in early mitosis through its physical interaction with MUS81 and promotes MUS81-dependent mitotic DNA synthesis. RECQ5 depletion or mutational inactivation of its ATP-binding site, RAD51-interacting domain, or phosphorylation site causes excessive binding of RAD51 to CFS loci and impairs CFS expression. This leads to defective chromosome segregation and accumulation of CFS-associated DNA damage in G1 cells. Biochemically, RECQ5 alleviates the inhibitory effect of RAD51 on 3'-flap DNA cleavage by MUS81-EME1 through its RAD51 filament disruption activity. These data suggest that RECQ5 removes RAD51 filaments stabilizing stalled replication forks at CFSs and hence facilitates CFS cleavage by MUS81-EME1.Entities:
Keywords: MUS81; RAD51 filament; RECQ5; common fragile sites; genomic instability; mitotic DNA synthesis; replication stress
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Year: 2017 PMID: 28575661 DOI: 10.1016/j.molcel.2017.05.006
Source DB: PubMed Journal: Mol Cell ISSN: 1097-2765 Impact factor: 17.970