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The Multifaceted Roles of Ku70/80

Sayma Zahid, Murielle Seif El Dahan, Florence Iehl, Paloma F. Varela, Marie‐Hélène Le Du, Virginie Ropars, Jean‐Baptiste Charbonnier

2021International Journal of Molecular Sciences94 citationsDOIOpen Access PDF

Abstract

DNA double-strand breaks (DSBs) are accidental lesions generated by various endogenous or exogenous stresses. DSBs are also genetically programmed events during the V(D)J recombination process, meiosis, or other genome rearrangements, and they are intentionally generated to kill cancer during chemo- and radiotherapy. Most DSBs are processed in mammalian cells by the classical nonhomologous end-joining (c-NHEJ) pathway. Understanding the molecular basis of c-NHEJ has major outcomes in several fields, including radiobiology, cancer therapy, immune disease, and genome editing. The heterodimer Ku70/80 (Ku) is a central actor of the c-NHEJ as it rapidly recognizes broken DNA ends in the cell and protects them from nuclease activity. It subsequently recruits many c-NHEJ effectors, including nucleases, polymerases, and the DNA ligase 4 complex. Beyond its DNA repair function, Ku is also involved in several other DNA metabolism processes. Here, we review the structural and functional data on the DNA and RNA recognition properties of Ku implicated in DNA repair and in telomeres maintenance.

Topics & Concepts

Ku70BiologyDNA repairDNA ligaseDNANon-homologous end joiningHomologous recombinationKu80NucleaseTelomereDNA damageCell biologyGenome instabilityDNA repair protein XRCC4EffectorGeneticsComputational biologyNucleotide excision repairGeneDNA-binding proteinTranscription factorDNA Repair MechanismsCRISPR and Genetic EngineeringPARP inhibition in cancer therapy
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