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    Mol Cell. 2009 Feb 13;33(3):335-43.

    Chromosome-wide Rad51 spreading and SUMO-H2A.Z-dependent chromosome fixation in response to a persistent DNA double-strand break.

    Kalocsay M, Hiller NJ, Jentsch S.

    Source

    Department of Molecular Cell Biology, Max Planck Institute of Biochemistry, Am Klopferspitz 18, 82152 Martinsried, Germany.

    Abstract

    DNA double-strand breaks (DSBs) are acutely hazardous for cells, as they can cause genome instability. DSB repair involves the sequential recruitment of repair factors to the DSBs, followed by Rad51-mediated homology probing, DNA synthesis, and ligation. However, little is known about how cells react if no homology is found and DSBs persist. Here, by monitoring a single persistent DNA break, we show that, following DNA resection and RPA recruitment, Rad51 spreads chromosome-wide bidirectionally from the DSB but selectively only on the broken chromosome. Remarkably, the persistent DSB is later fixed to the nuclear periphery in a process that requires Rad51, the histone variant H2A.Z, its SUMO modification, and the DNA-damage checkpoint. Indeed, H2A.Z is deposited close to the break early but transiently and directs DNA resection, single DSB-induced checkpoint activation, and DSB anchoring. Thus, a persistent DSB induces a multifaceted response, which is linked to a specific chromatin mark.

    PMID:
    19217407
    [PubMed - indexed for MEDLINE]

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