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首页> 外文期刊>Molecular cell >Comprehensive Mapping of Histone Modifications at DNA Double-Strand Breaks Deciphers Repair Pathway Chromatin Signatures
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Comprehensive Mapping of Histone Modifications at DNA Double-Strand Breaks Deciphers Repair Pathway Chromatin Signatures

机译:DNA双链中的组蛋白修饰的综合映射脱离河迪斯修复途径染色质特征

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摘要

Double-strand breaks (DSBs) are extremely detrimental DNA lesions that can lead to cancer-driving mutations and translocations. Non-homologous end joining (NHEJ) and homologous recombination (HR) represent the two main repair pathways operating in the context of chromatin to ensure genome stability. Despite extensive efforts, our knowledge of DSB-induced chromatin still remains fragmented. Here, we describe the distribution of 20 chromatin features at multiple DSBs spread throughout the human genome using ChIP-seq. We provide the most comprehensive picture of the chromatin landscape set up at DSBs and identify NHEJ-and HR-specific chromatin events. This study revealed the existence of a DSB-induced monoubiquitination-to-acetylation switch on histone H2B lysine 120, likely mediated by the SAGA complex, as well as higher-order signaling at HR-repaired DSBs whereby histone H1 is evicted while ubiquitin and 53BP1 accumulate over the entire gH2AX domains.
机译:双链断裂(DSB)是极其有害的DNA病变,可导致癌症突变和易位。 非同源末端接合(NHEJ)和同源重组(HR)代表在染色蛋白的背景下操作的两个主要修复途径,以确保基因组稳定性。 尽管努力广泛,但我们对DSB诱导的染色质的知识仍然是碎片化的。 在这里,我们描述了使用芯片-SEQ在整个人类基因组的多个DSB中分布的20染色质特征的分布。 我们提供在DSBS中设置的染色质景观最全面的斑点和鉴定NHEJ和HR特异性染色质事件。 该研究揭示了在组蛋白H2B赖氨酸120上的DSB诱导的单体丙酮酰基化开关,其可能由SAGA络合物介导,以及在HR修复的DSB时的高阶信号传导,由此在泛素和53bp1时被驱逐组蛋白H1 累积在整个GH2AX域上。

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  • 来源
    《Molecular cell》 |2018年第2期|共19页
  • 作者

    Clouaire Thomas; Rocher Vincent; Lashgari Anahita; Arnould Coline; Aguirrebengoa Marion; Biernacka Anna; Skrzypczak Magdalena; Aymard Francois; Fongang Bernard; Dojer Norbert; Iacovoni Jason S.; Rowicka Maga; Ginalski Krzysztof; Cote Jacques; Legube Gaelle;

  • 作者单位

    Univ Toulouse UT3 CNRS LBCMCP CBI F-31062 Toulouse France;

    Univ Toulouse UT3 CNRS LBCMCP CBI F-31062 Toulouse France;

    Univ Laval Res Ctr St Patrick Res Grp Basic Oncol Canc Res Ctr Oncol Axis CHU Quebec Quebec;

    Univ Toulouse UT3 CNRS LBCMCP CBI F-31062 Toulouse France;

    Univ Toulouse UT3 CNRS LBCMCP CBI F-31062 Toulouse France;

    Univ Warsaw Ctr New Technol Lab Bioinformat &

    Syst Biol Zwirki i Wigury Warsaw 93 PL-02089;

    Univ Warsaw Ctr New Technol Lab Bioinformat &

    Syst Biol Zwirki i Wigury Warsaw 93 PL-02089;

    Univ Toulouse UT3 CNRS LBCMCP CBI F-31062 Toulouse France;

    Univ Texas Med Branch Dept Biochem &

    Mol Biol Galveston TX 77555 USA;

    Univ Texas Med Branch Dept Biochem &

    Mol Biol Galveston TX 77555 USA;

    INSERM Bioinformat Plateau I2MC F-31062 Toulouse France;

    Univ Texas Med Branch Dept Biochem &

    Mol Biol Galveston TX 77555 USA;

    Univ Warsaw Ctr New Technol Lab Bioinformat &

    Syst Biol Zwirki i Wigury Warsaw 93 PL-02089;

    Univ Laval Res Ctr St Patrick Res Grp Basic Oncol Canc Res Ctr Oncol Axis CHU Quebec Quebec;

    Univ Toulouse UT3 CNRS LBCMCP CBI F-31062 Toulouse France;

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  • 正文语种 eng
  • 中图分类 细胞生物学;
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