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DNA Repair

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DNA Repair & Recombination All 3 genomes in plants constantly being damaged by UV and other forms of radiation, chemicals, and other stresses (e.g., oxidative, heat). – PowerPoint PPT presentation

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Title: DNA Repair


1
DNA Repair Recombination
  • All 3 genomes in plants constantly being damaged
    by UV and other forms of radiation, chemicals,
    and other stresses (e.g., oxidative, heat).
  • Some proteins involved in repair also function
    in recombination
  • e.g., recombination can be used to repair
    double-strand breaks.

2
Types of DNA Damage
  1. Deamination (C ? U and A? hypoxanthine)
  2. Depurination purine base (A or G) lost
  3. T-T and T-C dimers bases become cross- linked,
    T-T more prominent, caused by UV light (UV-C
    (lt280 nm) and UV-B (280-320 nm)
  4. Alkylation an alkyl group (e.g., CH3) gets added
    to bases chemical induced some harmless, some
    cause mutations by mispairing during replication
    or stop polymerase altogether

3
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4
Types of DNA Damage (cont.)
  • 5. Oxidative damage guanine oxidizes to
    8-oxo-guanine, also cause SS and DS breaks, very
    important for organelles
  • 6. Replication errors wrong nucleotide (or
    modified nt) inserted
  • 7. Double-strand breaks (DSB) induced by
    ionizing radiation, transposons, topoisomerases,
    homing endonucleases, and mechanical stress on
    chromosomes

5
Repair of UV-induced dimers in the light
  • Photoreactivation
  • Light-dependent, UV-A ? blue light (360-420 nm)
  • Catalyzed by Photolyases
  • Enzymes that convert the dimers to monomers
  • Use FAD as chromophore and electron donor
  • also have another chromophore that acts as
    antenna
  • 3 classes CPD I and II for T-T dimers, and a 6-4
    photolyase for T-C dimers
  • Arabidopsis has CPD II and 6-4 photolyases
  • Arabidopsis also has a photolyase in the
    chloroplast and possibly one in the mitochondria.

6
Photolyase gene expression also induced or
increased by light.
Fig. 6.12 in Buchanan et al.
7
Plants also repair pyrimidine dimers in the dark
  • Probably by a general Nucleotide Excision Repair
    Pathway (NER).
  • Arabidopsis mutants deficient in dark repair have
    been isolated, but few genes characterized.
  • rad1.
  • Not much biochemistry in plants, but homologues
    of NER genes also occur in Arabidopsis genome
  • ERCC1 and RAD25

8
Nucleotide Excision Repair (in E. coli of a T-T
dimer)
1. UvrA,B 2. UvrC
Endonuclease cuts on either side of damage (20
nt altogether). Strands unwound by helicase.
3. UvrD
Fig. 6.14 in Buchanan et al.
9
Base Excision Repair (BER)
  • Not much known about this pathway in plants
  • Probably important though, based on the
    existence of 16 genes homologous to DNA
    glycosylases, and 3 homologous to AP
    endonucleases in the Arabidopsis genome.

10
Deaminated C
Base Excision Repair (BER)
Variety of DNA glycosylases, for different types
of damaged bases. AP endonuclease recognizes
sites with a missing base cleaves
sugar-phosphate backbone. Deoxyribose
phosphodiesterase removes the sugar-phosphate
lacking the base.
Fig. 6.15
11
Mismatch Repair
  • Problem how do cells know which is the right
    template strand?
  • In E. coli, new DNA not methylated right away
  • Mismatch recognized by mutS, then mutL binds and
    attracts mutH (endonuclease that cleaves mismatch
    and nearest CTAG that is not methylated)
  • Eucaryotes (including Arabidopsis) have mutS and
    mutL homologues, but no mutH
  • Also have the requisite exonucleases, but not
    clear how the strand specificity is determined

12
Mismatch Repair
In E.coli, A of each GATC is methylated.
mutH is endonuclease
13
Repair of Double-strand breaks (DSBs)
  • 2 general ways to repair DSBs
  • Homologous recombination (HR) - repair of broken
    DNA using the intact homologue. Very accurate.
  • Non-homologous end joining (NHEJ) - ligating
    non-homologous ends. Prone to errors, ends can be
    damaged before ligation (genetic material lost),
    or get translocations.
  • Usage NHEJ gtgt HR in plants and animals (in the
    cells nucleus)

14
DSBR by HR
3 SS extensions
RecA/Rad51
Resolvase (recG)
Modified from Fig. 6.18 in Buchanan et al.
15
RecA binds preferentially to SS DNA and will
catalyze invasion of a DS DNA molecule by a SS
homologue. Important for many types of
homologous recombination, such as during meoisis
(in yeast).
Fig. 6.19
16
Genes for Repair of DSBs in Arabidopsis
  • Arabidopsis has rad51, resolvase (recG), and
    repA (SS DNA binding in animals) homologues,
    all needed for HR.
  • Also has homologues of key genes required for
    NHEJ (e.g., Ku70 and Ku80).
  • Processing of DSBs very important they can
    block cell cycle progression and trigger
    apoptosis (programmed cell death).
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