Dna repair
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Transcript of Dna repair
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Topic: DNA RepairName : Muhammad ShamimRoll No: 13070814-095M.sc :Zoology 3rd
Course : Genetics
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Introduction
• DNA in the living cell is subjected many alternation.
• The genetic information encoded in the DNA hasremain uncorrupted.
• Any chemical change must be corrected
• A failure to repair DNA produces a mutation
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Agents that Damage DNA
• Radiations ; ionizing radiation ( gamma rays and x
rays), Ultraviolet rays
• Highly-reactive oxygen radicals produced during
respiration
• Chemicals in environment….hydrocarbons (found in
cigarette)
• Chemicals use in chemotherapy (cancer)
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Types of DNA Damage
1. All four of the bases in DNA (A, T, C, G) can be
covalently modified at various position, most frequent
loss of amino group (deamination)
2. Mismatches of the normal bases, failure of
proofreading during DNA replication, Common
example: incorporation of the pyrimidine U (normally
found only in RNA) instead of T.
3. Breaks in the backbone ( can be SSB or DSB)
4. Crosslinks Covalent linkages can be formed between
bases ( same strand or opposite strand)
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Repairing Damaged Bases
Damaged bases can be repaired by several mechanisms:
1. Direct chemical reversal of the damage:
2. Excision Repair
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1. Direct Reversal of Base Damage
• Most frequent cause point mutations in human
• Addition of methyl group –CH3 ( example alkylation) to C followed by deamination to a T.
• Changes repair by enzymes (Glycosylases ).
• Remove mismatched T, restore correct C
• Done without need to break DNA backbone
• Some of the drugs used in cancer chemotherapy("chemo") also damage DNA by alkylation.
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Some of the methyl groups can be removed by a protein
encoded by our MGMT gene, the protein can only do it once.
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Excision RepairDamaged bases are removed and then replaced with the
correct ones in a localized burst of DNA synthesis. There are
three modes of excision repair, each of which employs
specialized sets of enzymes.
1. Base Excision Repair (BER)
2. Nucleotide Excision Repair (NER)
3. Mismatch Repair (MMR
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Base Excision Repair (BER)
The steps and some key players:
• removal of the damaged base ……..DNA glycosylase.
• least 8 genes encoding different DNA glycosylases
…………enzyme responsible for identifying and
removing a base damage.
• removal ..its deoxyribose phosphate .. backbone,
producing a gap.
• We have two genes encoding enzymes with this function.
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• replacement with the correct nucleotide.
• This relies on DNA polymerase beta, one of at least 11
DNA polymerases encoded by our genes.
• ligation of the break in the strand. Two enzymes are
known that can do this; both require ATP to provide the
needed energy.
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Nucleotide Excision Repair (NER)
NER differs from BER in several ways.
It uses different enzymes.
only a single "bad" base to correct, its nucleotide is
removed along with many other adjacent nucleotides; that
is, NER removes a large "patch" around the damage.
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The steps and some key players:
• damage recognized by one /more protein factors that assemble
at the location.
• The DNA is unwound producing a "bubble". The enzyme
system that does this is Transcription Factor IIH, TFIIH,;
• Cuts are made on both the 3' side and the 5' side of the
damaged area tract can be removed.
• A fresh burst of DNA synthesis — using the intact (opposite)
strand as a template fills in the correct nucleotides. The DNA
polymerases …………A DNA ligase
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Xeroderma Pigmentosum (XP
XP is a rare inherited disease of humans which, among other
things, predisposes the patient to
• pigmented lesions on areas of the skin exposed to the sun
• an elevated incidence of skin cancer.
XP can be caused by mutations ….one of several genes — all
of which have roles to play in NER. Some of them:
XPA, which encodes a protein that binds the damaged site and
helps assemble the other proteins needed for NER.
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XPB and XPD, which are part of TFIIH. Some mutations
in XPB and XPD also produce signs of premature aging.
XPF, which cuts the backbone on the 5' side of the
damage
XPG, which cuts the backbone on the 3' side.
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Transcription-Coupled NER
Nucleotide-excision repair proceeds most rapidly
in cells whose genes ….actively transcribed
on the DNA strand that is serving ..template for
transcription.
This enhancement of NER involves XPB, XPD, and several
other gene products. The genes for two of them are
designated CSA and CSB (mutations in them cause an
inherited disorder called Cockayne's syndrome).
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• The CSB product associates in the nucleus with RNA
polymerase II, the enzyme responsible for synthesizing
messenger RNA (mRNA), providing a molecular link
between transcription and repair.
• If RNA polymerase II, tracking along the template
(antisense) strand), encounters a damaged base, it can
recruit other proteins,
• e.g., the CSA and CSB proteins, to make a quick fix
before it moves on to complete transcription of the gene.
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Mismatch Repair (MMR
Recognition of a mismatch…proteins…encoded by
MSH2.
Cutting the mismatch………..MLH1.
Mutations in either of these genes predisposes the person to
an inherited form of colon cancer.
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Repairing Strand Breaks(SSBs)a single strand of the DNA molecule are repaired using the same
enzyme systems that are used in Base-Excision Repair (BER).
Double-Strand Breaks (DSBsNonhomologous End-Joining (NHEJ).
Errors in direct joining may be a cause of the various translocations
that are associated with cancers.
Examples:
o Burkitt's lymphoma
o the Philadelphia chromosome in chronic myelogenous
leukemia (CML)
homologous recombination are encoded by the genes BRCA1 and
BRCA2. Inherited mutations in these genes predispose women to breast
and ovarian cancers.
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Defects in the NER mechanism are responsible for several
genetic disorders, including:
Xeroderma pigmentosum: hypersensitivity to sunlight/UV,
resulting in increased skin cancer incidence and premature
aging
Cockayne syndrome: hypersensitivity to UV and chemical
agents
Trichothiodystrophy: sensitive skin, brittle hair and nails
Mental retardation often accompanies the latter two
disorders, suggesting increased vulnerability of
developmental neurons.
Hereditary DNA repair disorders
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Other DNA repair disorders include:
Werner's syndrome: premature aging and retarded growth
Bloom's syndrome: sunlight hypersensitivity, high incidence of malignancies (especially leukemias).
Ataxia telangiectasia: sensitivity to ionizing radiation and some chemical agents .