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Chapter 14: Mutation & repair

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Presentation on theme: "Chapter 14: Mutation & repair"— Presentation transcript:

1 Chapter 14: Mutation & repair
Fig. 14-1

2

3 Dose-dependent induction of mutation by X-rays
Fig. 14-2

4

5

6 Fig. 14-3

7 Consequences of mutations on RNA and protein
Fig. 14-4

8 Normal keto tautomers Standard base pairing Fig. 14-5

9 Normal keto tautomers Standard base pairing Rare tautomers Alternative base pairing Fig & 6

10 Some analogs increase tautomeric shifts
Fig & 8

11 Alkylated bases have altered pairing possibilities
Fig. 14-9

12 Classic frameshift mutagens
Fig

13 Classic frameshift mutagens
Fig

14 UV-induced pyrimidine crosslinks
Fig

15 Potent carcinogen Synthesized by fungus grown on peanuts Fig & 14

16 Spontaneous mutations by deamination
Fig

17 Producing mutation “hotspots” at 5-methyl cytosine sites
Fig

18 Spontaneous mutation by replication of repeated nucleotide motifs
(frameshift mutations) Fig

19 Resulting in clustered occurrence of frameshifts
Fig

20 DNA repair systems Direct repair of lesion General excision repair
Specific excision repair ds-DNA end-joining Post-replication repair

21 General types of nucleotide repair
Fig

22 Photo-activated thymine dimer repair
Fig

23 Depurination-activated
excision repair (AP site repair) Fig

24 Nucleotide excision repair
Fig

25 Repair of double-strand breaks: nonhomologous end-joining
(non-dividing cells) Error-prone repair Fig

26 Repair of double-strand breaks: homologous recombination
(dividing cells) Error-free repair Fig

27 Fig. 14-

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