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DNA repair by kk sahu

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KAUSHAL SAHU
KAUSHAL SAHU

INTRODUCTION ■ DNA DAMAGE ■ TYPES OF DNA REPAIR: ►BASE EXCISION REPAIR(BER) ►NUCLEOTIDE EXCISION REPAIR(NER) ►MISMATCH REPAIR ►HOMOLOGOUS RECOMBINATION REPAIR(HRR) ►NON-HOMOLOGOUS END JOINING(NHEJ) ■ CONCLUSION ■ REFERENCES

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“DNA REPAIR” By KAUSHAL KUMAR SAHU Assistant Professor (Ad Hoc) Department of Biotechnology Govt. Digvijay Autonomous P. G. College Raj-Nandgaon ( C. G. )
CONTENTS ■ INTRODUCTION ■ DNA DAMAGE ■ TYPES OF DNA REPAIR: ►BASE EXCISION REPAIR(BER) ►NUCLEOTIDE EXCISION REPAIR(NER) ►MISMATCH REPAIR ►HOMOLOGOUS RECOMBINATION REPAIR(HRR) ►NON-HOMOLOGOUS END JOINING(NHEJ) ■ CONCLUSION ■ REFERENCES
DNA DAMAGE • DNA damage is an alteration in the chemical structure of DNA,such as a break in a strand of DNA,a base missing from backbone of DNA or a chemically modified base. • DNA damage naturally or via environmental factors.
WHAT IS DNA REPAIR? • It is a mechanism for repairing many accidental lesions that DNA continually suffers. • Most such spontaneous changes in DNA are temporary because they are immediately corrected by a set of processes that are collectively called DNA repair.
DIRECT REPAIR • Damaged bases can be repaired directly by specific enzymes. • Photolyase can repair thymine dimers It splits the dimers restoring the DNA to its original condition. • 1.DIRECT REPAIR
• It removes a damaged base. • BER involves the function of variety of enzymes known as DNA N-glycosylases. • This type of enzyme can recognise an abnormal base and cleave the bond between it and the sugar in the DNA backbone,creating an apurinic or apyrimidinic site. • Living organism produce multiple type of DNA N-glcosylase which can eliminate bases such as Uracil,3-Methyladenine,7- methylguanine,and pyrimidine dimers. ☼ (BER is important for the repair of oxidative DNA damages) 2. BASE EXCISION REPAIR(BER)
NUCLEOTIDE EXCISION REPAIR(NER) • NER can repair many different types of large DNA damages (bulky lesions) including thymine dimers,chemically modified bases,missing bases. • In NER,several nucleotides in the damaged strand are removed from the DNA,and the intact strand is used as a template for resynthesis of a normal complementary strand. • NER is found in both eukaryotes and prokaryotes, although its molecular mechanism is better understood in prokaryotes. 3.NUCLEOTIDE EXCISION REPAIR(NER)
NER IN E.coli • In E. coli, the NER system requires four key proteins. ■ These are designated as UrvA, UrvB, UvrC and UvrD. ■ Named as such because they are involved n Ultraviolet light repair of pyrimidine dimers. ■ They are also important in repairing chemically damaged DNA. ■ UvrA, B, C, and D recognises and remove a short segment of damaged DNA. ■ DNA polymerase and ligase finish the repair job.
MISMATCH REPAIR • It recognise and correct a base pair mismatch. • The structure of DNA double helix obeys the AT/GC rule of base pairing. • During DNA replication an incorrect nucleotide may be added to the growing strand by mistake this produces a mismatch between parental and newly synthesised strand. 4.BASE MISMATCH REPAIR
DOUBLE STRANDED BREAK REPAIR
6.HOMOLOGOUS RECOMBINATION REPAIR(HRR) • HRR also called homology directed repair, occurs when homologous dna strand,usually from a sister chromatid,are used to repair a ds break in the other sister chromatid. • First, the DSB is processed by the short digestion of DNA strands at the break site. • This processing event is followed by the exchange of DNA strands between the broken and unbroken sister chromatids. • The unbroken strands are then used as templates to synthesize DNA in the region where the break occurred. Finally, the crisscrossed strands are resolved, which means they are broken and then rejoined in a way that produces separate chromatids.
NON-HOMOLOGOUS END JOINING(NHEJ) • During NHEJ,the two broken ends of DNA are simply pieced back together. • This mechanism requires the participation of several proteins that play key roles in the process. • First, the DSB is recognized by end-binding proteins. These proteins then recognize additional proteins that form a cross- bridge that prevents the two ends from drifting apart. • Next, additional proteins are recruited to the region that may process the ends of the broken chromosome by digesting particular DNA strands. • Finally, any gaps are filled in via DNA polymerase, and the DNA ends are ligated together.
CONCLUSION
REFERENCES

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DNA repair by kk sahu

  • 1. “DNA REPAIR” By KAUSHAL KUMAR SAHU Assistant Professor (Ad Hoc) Department of Biotechnology Govt. Digvijay Autonomous P. G. College Raj-Nandgaon ( C. G. )
  • 2. CONTENTS ■ INTRODUCTION ■ DNA DAMAGE ■ TYPES OF DNA REPAIR: ►BASE EXCISION REPAIR(BER) ►NUCLEOTIDE EXCISION REPAIR(NER) ►MISMATCH REPAIR ►HOMOLOGOUS RECOMBINATION REPAIR(HRR) ►NON-HOMOLOGOUS END JOINING(NHEJ) ■ CONCLUSION ■ REFERENCES
  • 3. DNA DAMAGE • DNA damage is an alteration in the chemical structure of DNA,such as a break in a strand of DNA,a base missing from backbone of DNA or a chemically modified base. • DNA damage naturally or via environmental factors.
  • 4. WHAT IS DNA REPAIR? • It is a mechanism for repairing many accidental lesions that DNA continually suffers. • Most such spontaneous changes in DNA are temporary because they are immediately corrected by a set of processes that are collectively called DNA repair.
  • 5.
  • 6.
  • 7.
  • 8. DIRECT REPAIR • Damaged bases can be repaired directly by specific enzymes. • Photolyase can repair thymine dimers It splits the dimers restoring the DNA to its original condition. • 1.DIRECT REPAIR
  • 9.
  • 10. • It removes a damaged base. • BER involves the function of variety of enzymes known as DNA N-glycosylases. • This type of enzyme can recognise an abnormal base and cleave the bond between it and the sugar in the DNA backbone,creating an apurinic or apyrimidinic site. • Living organism produce multiple type of DNA N-glcosylase which can eliminate bases such as Uracil,3-Methyladenine,7- methylguanine,and pyrimidine dimers. ☼ (BER is important for the repair of oxidative DNA damages) 2. BASE EXCISION REPAIR(BER)
  • 11.
  • 12. NUCLEOTIDE EXCISION REPAIR(NER) • NER can repair many different types of large DNA damages (bulky lesions) including thymine dimers,chemically modified bases,missing bases. • In NER,several nucleotides in the damaged strand are removed from the DNA,and the intact strand is used as a template for resynthesis of a normal complementary strand. • NER is found in both eukaryotes and prokaryotes, although its molecular mechanism is better understood in prokaryotes. 3.NUCLEOTIDE EXCISION REPAIR(NER)
  • 13. NER IN E.coli • In E. coli, the NER system requires four key proteins. ■ These are designated as UrvA, UrvB, UvrC and UvrD. ■ Named as such because they are involved n Ultraviolet light repair of pyrimidine dimers. ■ They are also important in repairing chemically damaged DNA. ■ UvrA, B, C, and D recognises and remove a short segment of damaged DNA. ■ DNA polymerase and ligase finish the repair job.
  • 14.
  • 15. MISMATCH REPAIR • It recognise and correct a base pair mismatch. • The structure of DNA double helix obeys the AT/GC rule of base pairing. • During DNA replication an incorrect nucleotide may be added to the growing strand by mistake this produces a mismatch between parental and newly synthesised strand. 4.BASE MISMATCH REPAIR
  • 16.
  • 18. 6.HOMOLOGOUS RECOMBINATION REPAIR(HRR) • HRR also called homology directed repair, occurs when homologous dna strand,usually from a sister chromatid,are used to repair a ds break in the other sister chromatid. • First, the DSB is processed by the short digestion of DNA strands at the break site. • This processing event is followed by the exchange of DNA strands between the broken and unbroken sister chromatids. • The unbroken strands are then used as templates to synthesize DNA in the region where the break occurred. Finally, the crisscrossed strands are resolved, which means they are broken and then rejoined in a way that produces separate chromatids.
  • 19.
  • 20. NON-HOMOLOGOUS END JOINING(NHEJ) • During NHEJ,the two broken ends of DNA are simply pieced back together. • This mechanism requires the participation of several proteins that play key roles in the process. • First, the DSB is recognized by end-binding proteins. These proteins then recognize additional proteins that form a cross- bridge that prevents the two ends from drifting apart. • Next, additional proteins are recruited to the region that may process the ends of the broken chromosome by digesting particular DNA strands. • Finally, any gaps are filled in via DNA polymerase, and the DNA ends are ligated together.
  • 21.