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RESEARCH PRODUCT
Molecular and physiological consequences of faulty eukaryotic ribonucleotide excision repair
Vanessa KellnerBrian Lukesubject
Genome instabilityRibonucleotideDNA RepairDNA repairDNA damageRibonucleotide excision repairRibonuclease HContext (language use)ReviewBiologyGenomic InstabilityGeneral Biochemistry Genetics and Molecular Biology570 Life sciences03 medical and health scienceschemistry.chemical_compound0302 clinical medicineAnimalsHumansMolecular Biology030304 developmental biology0303 health sciencesGeneral Immunology and MicrobiologyGeneral NeuroscienceRNA–DNA hybridDNA Replication Repair & RecombinationEukaryotaDNAtopoisomerase 1ChromatinChromatinCell biologychemistryribonucleotide excision repairGenetic FitnessRNase H2030217 neurology & neurosurgeryDNA570 Biowissenschaftendescription
Abstract The duplication of the eukaryotic genome is an intricate process that has to be tightly safe‐guarded. One of the most frequently occurring errors during DNA synthesis is the mis‐insertion of a ribonucleotide instead of a deoxyribonucleotide. Ribonucleotide excision repair (RER) is initiated by RNase H2 and results in error‐free removal of such mis‐incorporated ribonucleotides. If left unrepaired, DNA‐embedded ribonucleotides result in a variety of alterations within chromosomal DNA, which ultimately lead to genome instability. Here, we review how genomic ribonucleotides lead to chromosomal aberrations and discuss how the tight regulation of RER timing may be important for preventing unwanted DNA damage. We describe the structural impact of unrepaired ribonucleotides on DNA and chromatin and comment on the potential consequences for cellular fitness. In the context of the molecular mechanisms associated with faulty RER, we have placed an emphasis on how and why increased levels of genomic ribonucleotides are associated with severe autoimmune syndromes, neuropathology, and cancer. In addition, we discuss therapeutic directions that could be followed for pathologies associated with defective removal of ribonucleotides from double‐stranded DNA.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2019-12-01 | The EMBO Journal |