DNA repair Flashcards
What is Reversal of Damage?
DNA is repaired without new DNA synthesis
What is Excision Repair?
Damaged base or a stretch of DNA is removed + new DNA is synthesised to replace the damaged DNA
Reversal of Damage Examples
- Photolyases use the energy of light to split pyrimidine dimers - Photoreactivation
- Methyltransferases can remove methyl groups from methylated bases
Base Excision Repair
- Excised by a DNA glycosylase which leaves the N-glycosidic bond forming an AP site
- the AP endonuclease system repairs AP site, cleaving DNA at damage site
- DNA polymerase fills gap + nick in DNA is sealed by DNA ligase
- In bacteria - phosphodiesterase removes sugar-phosphate residue
Nucleotide Excision Repair (NER)
Repairs a range of DNA damage
- Damaged strand is cleaved on either side at the lesion site
- Single-stranded piece of DNA containing damage is displaced
- DNA polymerase synthesises DNA to fill the gap
- DNA ligase to seal the nick
Global NER
XPE and XPC recognise and bind damage
Transcription-couple NER
- RNA polymerase stall at the damage
- Recruits CSA and CSB
Repairing double strand breaks - Nonhomologous end joining (NHEJ)
- Functions in dividing and non-dividing cells
- Error prone - can result in mutations
Repairing double strand breaks - Homologous recombination (HR)
- Uses sequence on the homologous chromosome
- Only functions in dividing cells during the S and G2 phases
Nonhomologous end joining in detail
- Both ends of double-strand break is recognised by Ku70 + Ku80
- Leads to recruitment of proteins inc. exonuclease, DNA polymerase and ligase
- DNA ends are processed to produce blunt ends which is ligated by DNA ligase
Homologous Recombination in detail
1 of 2 main pathways
- 3’ end of 1 broken strand exchanges equivalent sequence on homologous chromosome forming a D loop
- 3’ end is extended then displaced by DNA helicase, allowing it to anneal to other broken end
- Gaps filled by DNA polymerase + ligase
Xeroderma pigmentosum (XP)
Due to mutation in NER system which causes:
- Extreme skin + eye sensitivity to sunlight
- Dry skin (xeroderma)
- Area of hyper- + hypopigmentation (pigmentosum)
- Predisposition to cancer
- Neurological defects
- Accelerated ageing
Cockayne Syndrome
Due to defect in the transcription-couple repair pathway of NER:
- Mainly a developmental + neurological disorder
- Inability to repair damage at stalled transcription sites leading to apoptosis
- Results in premature ageing, short stature, deafness & intellectual disability
