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Merck

Identification of the elementary structural units of the DNA damage response.

Nature communications (2017-06-13)
Francesco Natale, Alexander Rapp, Wei Yu, Andreas Maiser, Hartmann Harz, Annina Scholl, Stephan Grulich, Tobias Anton, David Hörl, Wei Chen, Marco Durante, Gisela Taucher-Scholz, Heinrich Leonhardt, M Cristina Cardoso
ABSTRAKT

Histone H2AX phosphorylation is an early signalling event triggered by DNA double-strand breaks (DSBs). To elucidate the elementary units of phospho-H2AX-labelled chromatin, we integrate super-resolution microscopy of phospho-H2AX during DNA repair in human cells with genome-wide sequencing analyses. Here we identify phospho-H2AX chromatin domains in the nanometre range with median length of ∼75 kb. Correlation analysis with over 60 genomic features shows a time-dependent euchromatin-to-heterochromatin repair trend. After X-ray or CRISPR-Cas9-mediated DSBs, phospho-H2AX-labelled heterochromatin exhibits DNA decondensation while retaining heterochromatic histone marks, indicating that chromatin structural and molecular determinants are uncoupled during repair. The phospho-H2AX nano-domains arrange into higher-order clustered structures of discontinuously phosphorylated chromatin, flanked by CTCF. CTCF knockdown impairs spreading of the phosphorylation throughout the 3D-looped nano-domains. Co-staining of phospho-H2AX with phospho-Ku70 and TUNEL reveals that clusters rather than nano-foci represent single DSBs. Hence, each chromatin loop is a nano-focus, whose clusters correspond to previously known phospho-H2AX foci.

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Sigma-Aldrich
Anti-phospho-Histone H2A.X (Ser139) Antibody, clone JBW301, clone JBW301, Upstate®, from mouse
Roche
In Situ Cell Death Detection Kit, Fluorescein, sufficient for ≤50 tests, suitable for detection
Sigma-Aldrich
Anti-ATM phosphoSer1981 Antibody, clone 10H11.E12, clone 10H11.E12, Chemicon®, from mouse