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DNA-protein cross-links: Formidable challenges to maintaining genome integrity.

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DNA is associated with proteins that are involved in its folding and transaction processes. When cells are exposed to chemical cross-linking agents or free radical-generating ionizing radiation, DNA-associated proteins are… Click to show full abstract

DNA is associated with proteins that are involved in its folding and transaction processes. When cells are exposed to chemical cross-linking agents or free radical-generating ionizing radiation, DNA-associated proteins are covalently trapped within the DNA to produce DNA-protein cross-links (DPCs). DPCs produced by these agents contain cross-linked proteins in an undisrupted DNA strand. Some DNA-metabolizing enzymes that form covalent reaction intermediates can also be irreversibly trapped in the presence of inhibitors or DNA damage to give rise to abortive DPCs. The abortive DPCs often contain cross-linked proteins attached to the 5' or 3' end of a DNA strand break. In vitro studies show that steric hindrance caused by cross-linked proteins impedes the progression of DNA helicases and polymerases and of RNA polymerases. The modes and consequences by which DPCs impede replication and transcription processes are considerably different from those with conventional DNA lesions. Thus, DPCs are formidable challenges to maintaining genome integrity and faithful gene expression. Current models of DPC repair involve direct and indirect removal of DPCs. The direct mechanism works for DPCs that contain topoisomerase 2 attached to the 5' end of DNA. The Mre11-Rad50-Nbs1 complex cleaves the site internal to the DPC and directly releases a DPC-containing oligonucleotide. The indirect mechanism involves degradation of cross-linked proteins by proteasomes or the recently identified DPC proteases Wss1 and Sprtn to relieve steric hindrance of DPCs. The resulting peptide-cross-links might be processed by translesion synthesis or other canonical repair mechanisms: however, the exact mechanism remains to be elucidated.

Keywords: cross links; dpcs; dna; protein cross; dna protein; cross

Journal Title: DNA repair
Year Published: 2018

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