MRI Is a DNA Damage Response Adaptor during Classical Non-homologous End Joining

Putzer J. Hung; Britney Johnson; Bo-Ruei Chen; Andrea K. Byrum; Andrea L. Bredemeyer; William T. Yewdell; Tanya E. Johnson; Brian J. Lee; Shruthi Deivasigamani; Issa Hindi; Parmeshwar Amatya; Michael L. Gross; Tanya T. Paull; David J. Pisapia; Jayanta Chaudhuri; John J.H. Petrini; Nima Mosammaparast; Gaya K. Amarasinghe; Shan Zha; Jessica K. Tyler; Barry P. Sleckman

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MRI Is a DNA Damage Response Adaptor during Classical Non-homologous End Joining

机译：MRI在经典非同源终端连接期间是一种DNA损伤响应适配器

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The modulator of retrovirus infection (MRI or CYREN) is a 30-kDa protein with a conserved N-terminal Ku-binding motif (KBM) and a C-terminal XLF-like motif (XLM). We show that MRI is intrinsically disordered and interacts with many DNA damage response (DDR) proteins, including the kinases ataxia telangiectasia mutated (ATM) and DNA-PKcs and the classical non-homologous end joining (cNHEJ) factors Ku70, Ku80, XRCC4, XLF, PAXX, and XRCC4. MRI forms large multimeric complexes that depend on its N and C termini and localizes to DNA double-strand breaks (DSBs), where it promotes the retention of DDR factors. Mice deficient in MRI and XLF exhibit embryonic lethality at a stage similar to those deficient in the core cNHEJ factors XRCC4 or DNA ligase IV. Moreover, MRI is required for cNHEJ-mediated DSB repair in XLF-deficient lymphocytes. We propose that MRI is an adaptor that, through multivalent interactions, increases the avidity of DDR factors to DSB-associated chromatin to promote cNHEJ.

机译：逆转录病毒感染（MRI或Cyren）的调节剂是一种30kDa蛋白，具有保守的N-末端Ku结合基序（KBM）和C末端XLF样图案（XLM）。我们表明MRI本质上紊乱并与许多DNA损伤反应（DDR）蛋白质相互作用，包括激酶Ataxia Telanciectasia突变（ATM）和DNA-PKCS和经典的非同源终端连接（CNHEJ）因子Ku70，Ku80，XRCC4， XLF，paxx和XRCC4。 MRI形成大型多聚体复合物，取决于其N和C Termini，并定位为DNA双链断裂（DSB），在那里促进DDR因子的保留。 MRI和XLF缺乏的小鼠在类似于核心CNHEJ因子XRCC4或DNA连接酶IV的阶段表明胚胎致死性。此外，在XLF缺陷型淋巴细胞中CNHEJ介导的DSB修复需要MRI。我们提出，MRI是一种适配器，通过多价相互作用，将DDR因子的耐潮性增加给DSB相关的染色质，以促进CNHEJ。

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来源
《Molecular cell》 |2018年第2期|共11页
作者
Putzer J. Hung; Britney Johnson; Bo-Ruei Chen; Andrea K. Byrum; Andrea L. Bredemeyer; William T. Yewdell; Tanya E. Johnson; Brian J. Lee; Shruthi Deivasigamani; Issa Hindi; Parmeshwar Amatya; Michael L. Gross; Tanya T. Paull; David J. Pisapia; Jayanta Chaudhuri; John J.H. Petrini; Nima Mosammaparast; Gaya K. Amarasinghe; Shan Zha; Jessica K. Tyler; Barry P. Sleckman;
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作者单位

Department of Pathology and Laboratory Medicine Weill Cornell Medical College;

Department of Pathology and Immunology Washington University School of Medicine;

Department of Pathology and Laboratory Medicine Weill Cornell Medical College;

Department of Pathology and Immunology Washington University School of Medicine;

Department of Pathology and Immunology Washington University School of Medicine;

Immunology Program Memorial Sloan Kettering Cancer Center;

The Department of Molecular Biosciences and the Howard Hughes Medical Institute The University of;

Institute for Cancer Genetics Columbia University College of Physicians and Surgeons;

Department of Pathology and Laboratory Medicine Weill Cornell Medical College;

Department of Pathology and Laboratory Medicine Weill Cornell Medical College;

Department of Pathology and Immunology Washington University School of Medicine;

Department of Chemistry Washington University One Brookings Drive;

The Department of Molecular Biosciences and the Howard Hughes Medical Institute The University of;

Department of Pathology and Laboratory Medicine Weill Cornell Medical College;

Immunology Program Memorial Sloan Kettering Cancer Center;

Molecular Biology Program Memorial Sloan Kettering Cancer Center;

Department of Pathology and Immunology Washington University School of Medicine;

Department of Pathology and Immunology Washington University School of Medicine;

Institute for Cancer Genetics Columbia University College of Physicians and Surgeons;

Department of Pathology and Laboratory Medicine Weill Cornell Medical College;

Department of Pathology and Laboratory Medicine Weill Cornell Medical College;

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原文格式 PDF
正文语种 eng
中图分类细胞生物学;
关键词
non-homologous end joining; V(D)J recombination; DNA double-strand break repair; MRI; adaptor protein; CYREN;

机译：非同源终端连接;V（d）J重组;DNA双链断裂修复;MRI;适配器蛋白;Cyren;

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专利

1. MRI Is a DNA Damage Response Adaptor during Classical Non-homologous End Joining [J] . Putzer J. Hung, Britney Johnson, Bo-Ruei Chen, Molecular cell . 2018,第2期

机译：MRI在经典非同源终端连接期间是一种DNA损伤响应适配器
2. The role of Schizosaccharomyces pombe Rad32, the Mre11 homologue, and other DNA damage response proteins in non-homologous end joining and telomere length maintenance [J] . Deborah L. Taylor, Felicity Z. Watts, Nicholas Warr, Nucleic acids research . 1999,第13期

机译：裂殖酵母Rad32，Mre11同源物和其他DNA损伤反应蛋白在非同源末端连接和端粒长度维持中的作用
3. R-Roscovitine (Seliciclib) prevents DNA damage-induced cyclin A1 upregulation and hinders non-homologous end-joining (NHEJ) DNA repair [J] . Mario Federico, Catherine E Symonds, Luigi Bagella, Molecular Cancer . 2010,第2期

机译：R-Roscovitine（Seliciclib）防止DNA损伤诱导的细胞周期蛋白A1上调并阻碍非同源末端连接（NHEJ）DNA修复
4. Repairing DNA double-strand breaks by the prokaryotic non-homologous end-joining pathway [C] . Nigel C. Brissett, Aidan J. Doherty Biochemical Society Symposium . 2009

机译：通过原核非同源终端连接途径修复DNA双链断裂
5. DNA Damage Response Factors from Diverse Pathways Mediate Alternative End Joining. [D] . Howard, Sean Michael. 2016

机译：来自多种途径的DNA损伤反应因子介导了替代末端连接。
6. MRI is a DNA Damage Response Adaptor during Classical Non-Homologous End Joining [O] . Putzer J. Hung, Britney Johnson, Bo-Ruei Chen, -1

机译：MRI是经典非同源末端连接过程中的DNA损伤响应适配器
7. ATM orchestrates the DNA-damage response to counter toxic non-homologous end-joining at broken replication forks [O] . Gabriel Balmus, Domenic Pilger, Julia Coates, 2019

机译：ATM通过在破碎的复制叉时弯曲DNA损伤响应，以对抗毒性无同源终端连接

MRI Is a DNA Damage Response Adaptor during Classical Non-homologous End Joining

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