2015
DOI: 10.1016/j.dnarep.2015.09.017
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DNA excision repair at telomeres

Abstract: DNA damage is caused by either endogenous cellular metabolic processes such as hydrolysis, oxidation, alkylation, and DNA base mismatches, or exogenous sources including ultraviolet (UV) light, ionizing radiation, and chemical agents. Damaged DNA that is not properly repaired can lead to genomic instability, driving tumorigenesis. To protect genomic stability, mammalian cells have evolved highly conserved DNA repair mechanisms to remove and repair DNA lesions. Telomeres are composed of long tandem TTAGGG repea… Show more

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Cited by 40 publications
(38 citation statements)
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“…Second, processes that accelerate telomere shortening may also hasten the accumulation of damage to other biomolecules in somatic tissues. For example, oxidative damage can accelerate telomere shortening directly by causing breaks in telomeric DNA, the repair of which may be suppressed to some extent (Jia, Her, & Chai, ; Kawanishi & Oikawa, ; Petersen, Saretzki, & Zglinicki, ; Von Zglinicki, ). Telomere shortening could thereby reflect the correlated accumulation of oxidative damage to other biomolecules in somatic tissues.…”
Section: Introductionmentioning
confidence: 99%
“…Second, processes that accelerate telomere shortening may also hasten the accumulation of damage to other biomolecules in somatic tissues. For example, oxidative damage can accelerate telomere shortening directly by causing breaks in telomeric DNA, the repair of which may be suppressed to some extent (Jia, Her, & Chai, ; Kawanishi & Oikawa, ; Petersen, Saretzki, & Zglinicki, ; Von Zglinicki, ). Telomere shortening could thereby reflect the correlated accumulation of oxidative damage to other biomolecules in somatic tissues.…”
Section: Introductionmentioning
confidence: 99%
“…The telomeric sequence possesses unique features (e.g., long, tandem G‐rich repeats) that predispose telomeres to a variety of DNA damage from intracellular metabolic processes such as hydrolysis, oxidative alkylation and DNA base mismatches, as well as by insult from exogenous sources, which will not be included in this study (e.g., UV light; Jia, Her, & Chai, ). To protect genomic stability, Metazoan cells have evolved highly conserved DNA repair mechanisms to remove and repair such DNA lesions (Ahmed & Lingner, ; Jia et al., ; Kansara & Gupta, ; Tan et al., ). One group of repair pathways for telomeric maintenance is excision and repair of bases (BER), nucleotides (NER) and DNA mismatches (MMR).…”
Section: Introductionmentioning
confidence: 99%
“…One group of repair pathways for telomeric maintenance is excision and repair of bases (BER), nucleotides (NER) and DNA mismatches (MMR). BER is a cellular mechanism that corrects discrete, small DNA base lesions caused by oxidative deamination and, when defective, can elevate mutation rate and cancer risk (Jia et al., ).…”
Section: Introductionmentioning
confidence: 99%
“…This kind of senescence is intuitively linked with changes in telomere length and structure (uncapping), and therefore, is also recognized as telomere-dependent senescence. Telomeric ends are particularly prone to DNA damage, mostly single-strand breaks (SSB) and double-strand breaks (DBS), due to defective DNA repair mechanisms [33]. Gradual decomposition of telomeres through shortening and/or uncapping induces the DNA damage response (DDR) pathway [34], which is responsible for a cell evacuating from the cell cycle.…”
Section: Mechanismsmentioning
confidence: 99%