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Journal Abstract Search

234 related items for PubMed ID: 28155885

  • 1. Regulation of pairing between broken DNA-containing chromatin regions by Ku80, DNA-PKcs, ATM, and 53BP1.
    Yamauchi M, Shibata A, Suzuki K, Suzuki M, Niimi A, Kondo H, Miura M, Hirakawa M, Tsujita K, Yamashita S, Matsuda N.
    Sci Rep; 2017 Feb 03; 7():41812. PubMed ID: 28155885
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  • 3. The influence of heterochromatin on DNA double strand break repair: Getting the strong, silent type to relax.
    Goodarzi AA, Jeggo P, Lobrich M.
    DNA Repair (Amst); 2010 Dec 10; 9(12):1273-82. PubMed ID: 21036673
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  • 4. RNF8 promotes high linear energy transfer carbon-ion-induced DNA double-stranded break repair in serum-starved human cells.
    Nakajima NI, Yamauchi M, Kakoti S, Cuihua L, Kato R, Permata TBM, Iijima M, Yajima H, Yasuhara T, Yamada S, Hasegawa S, Shibata A.
    DNA Repair (Amst); 2020 Dec 10; 91-92():102872. PubMed ID: 32502756
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  • 5. USP14 is a deubiquitinase for Ku70 and critical determinant of non-homologous end joining repair in autophagy and PTEN-deficient cells.
    Sharma A, Alswillah T, Kapoor I, Debjani P, Willard B, Summers MK, Gong Z, Almasan A.
    Nucleic Acids Res; 2020 Jan 24; 48(2):736-747. PubMed ID: 31740976
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  • 6. SCAI promotes DNA double-strand break repair in distinct chromosomal contexts.
    Hansen RK, Mund A, Poulsen SL, Sandoval M, Klement K, Tsouroula K, Tollenaere MA, Räschle M, Soria R, Offermanns S, Worzfeld T, Grosse R, Brandt DT, Rozell B, Mann M, Cole F, Soutoglou E, Goodarzi AA, Daniel JA, Mailand N, Bekker-Jensen S.
    Nat Cell Biol; 2016 Dec 24; 18(12):1357-1366. PubMed ID: 27820601
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  • 7. Beyond repair foci: DNA double-strand break repair in euchromatic and heterochromatic compartments analyzed by transmission electron microscopy.
    Lorat Y, Schanz S, Schuler N, Wennemuth G, Rübe C, Rübe CE.
    PLoS One; 2012 Dec 24; 7(5):e38165. PubMed ID: 22666473
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  • 13. CHD7 and 53BP1 regulate distinct pathways for the re-ligation of DNA double-strand breaks.
    Rother MB, Pellegrino S, Smith R, Gatti M, Meisenberg C, Wiegant WW, Luijsterburg MS, Imhof R, Downs JA, Vertegaal ACO, Huet S, Altmeyer M, van Attikum H.
    Nat Commun; 2020 Nov 13; 11(1):5775. PubMed ID: 33188175
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  • 14. Role of Ku80-dependent end-joining in delayed genomic instability in mammalian cells surviving ionizing radiation.
    Suzuki K, Kodama S, Watanabe M.
    Mutat Res; 2010 Jan 05; 683(1-2):29-34. PubMed ID: 19822159
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  • 16. In vivo formation of gamma-H2AX and 53BP1 DNA repair foci in blood cells after radioiodine therapy of differentiated thyroid cancer.
    Lassmann M, Hänscheid H, Gassen D, Biko J, Meineke V, Reiners C, Scherthan H.
    J Nucl Med; 2010 Aug 05; 51(8):1318-25. PubMed ID: 20660387
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  • 18. MCL-1 Depletion Impairs DNA Double-Strand Break Repair and Reinitiation of Stalled DNA Replication Forks.
    Mattoo AR, Pandita RK, Chakraborty S, Charaka V, Mujoo K, Hunt CR, Pandita TK.
    Mol Cell Biol; 2017 Feb 01; 37(3):. PubMed ID: 27821478
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  • 19. Spatiotemporal characterization of ionizing radiation induced DNA damage foci and their relation to chromatin organization.
    Costes SV, Chiolo I, Pluth JM, Barcellos-Hoff MH, Jakob B.
    Mutat Res; 2010 Feb 01; 704(1-3):78-87. PubMed ID: 20060491
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  • 20. Effect of Chromatin Structure on the Extent and Distribution of DNA Double Strand Breaks Produced by Ionizing Radiation; Comparative Study of hESC and Differentiated Cells Lines.
    Venkatesh P, Panyutin IV, Remeeva E, Neumann RD, Panyutin IG.
    Int J Mol Sci; 2016 Jan 02; 17(1):. PubMed ID: 26729112
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