2. Why DNA needs to be repaired?
RNA and proteins can be replaced by the information encoded
in the DNA molecule, but DNA itself can’t be replaced by a new
DNA when gets damaged.
Unrepaired DNA leads to cancer production.
Thus, needs repair.
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MUTATION: A permanent change in the nucleotide base of the DNA is
called “mutation”.
3. Why DNA needs to be repair?
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Xeroderma pigmentosum
Sickle cell anemia
Consequences of unrepaired DNA
5. How DNA gets damaged?
1. By the external environmental factors.
Example: Ionizing radiations, ultra violet rays of sun,
chemical agents, due to toxicity produced in the body.
2. Gets damaged spontaneously.
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Chemistry of DNA damage is diverse and complex.
Rate of DNA damage: 1 million individual molecular lesion per cell/day.
6. Error made during DNA replication
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7. Chemical reactions known to create
serious DNA damage
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Both depurination and deamination doesn’t breaks phosphodiester bond.
During the time it takes to read this sentence 1012 purine bases will be lost from DNA due to
depurination reaction.
9. Deamination reaction
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Cytosine Uracil
In DNA spontaneously deamination is corrected by removal of uracil by uracil-DNA glycosylase,
generating abasic (AP) site. The resulting AP is recognized by AP endonuclease enzyme that breaks
phosphodiester bond in the DNA, permitting the repair of the resulting lesion by replacement with
another cytosine.
10. What are the changes seen in damaged
DNA?
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Formation of Thymidine dimer, Double stranded break
Xeroderma pigmentosum is the result of thymidine dimer
formation because of sunlight exposure
11. So, how to repair damaged DNA?
Through excision and repair mechanism.
Excision repair is divided into two major categories:
1. Nucleotide excision and repair
2. Base excision and repair
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12. Basic DNA repair mechanism
1st. (Excision): Damage is cut by one of the
series of nucleases each specialized for a type
of DNA damage.
2nd. (Re-synthesis): Original DNA sequence is
restored by a repair DNA polymerase.
3rd. (Ligation): DNA ligase seals the nick left in
the sugar-phosphate backbone of repaired
strand.
(NOTE: Ligation requires ATP as energy source.)
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13. Nucleotide excision repair
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13 Methyl-directed mismatch repair
1. Identification of mismatch strand.
2. Repair of damaged DNA
15. “Mutation in the protein involved
in mismatch repair is associated
with hereditary nonpolyposis
colorectal cancer (HNCC).”
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Lippincott’s Illustrated Review, 5th. Edition
16. Repair of damage caused by
ultraviolet (UV) light
1. Recognition and excision
of dimers by UV-specific
endonuclease
2. UV radiation and cancer
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Example of E.Coli DNA
17. Base excision repair
Bases of DNA can be altered, either spontaneously, as in the case
with cytosine, which slowly undergoes deamination to form uracil, or
by the action of delaminating or alkylating compounds.
Approximately 10,000 purine bases are lost this way per cell per
day.
1. Removal of abnormal bases.
2. Recognition and repair of an AP site.
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Correction of base alterations
18. Correction of base alteration by base
excision repair
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Damage in DNA is recognized by the glycosylase enzyme.
19. Repair of double stranded break
Double stranded breaks are caused by the high energy
radiation or oxidative free radicals.
Such breaks occur naturally during gene rearrangements.
It can’t be corrected by any of the above mentioned
strategies.
But, can be repaired either by:
1. Non-homologous end-joining repair.
2. Homologous recombination repair.
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21. Mutation
Mutation is a sudden and permanent alteration of
nucleotide sequence of the genome of an organism, virus
or extrachromosomal DNA or genetic elements.
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22. Chemical modifications of nucleotide if left
unrepaired leads to mutation
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23. Mutation
Somatic mutation: Occurs in non-reproductive cells and
won’t be passed on to offspring and do not matter for
evolution.
Germ line mutation: occurs in reproductive cells like eggs
and sperm and are called germline mutation and it matters
for evolution.
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24. Mutation on the control gene
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25. Types of Mutation
1. Substitution
2. Insertion
3. Deletion
4. Frameshift
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How about “Silent mutation”?
26. Mismatch repair eliminates replication error
and restores DNA sequence
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DNA mismatch repair corrects 99% of
the replication errors increasing overall
accuracy to one mistake in 109 nucleotide
copied.
27. Failure to repair damaged DNA have severe
consequences
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28. Importance of mutations
Creates the diversity in a population, thus some
group of population with a particular mutation
might be immune to some disease.
Example: Immune to malaria
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29. Summary of DNA repair
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