MBB 267 Week 5: Corrigan 2 Flashcards
What is a mutagen?
Mutation causers
What are examples of mutagens?
Include:
a. Electromagnetic radiation
b. Spontaneous tautomers during replication (Structural ismoers of compounds/molecules)
c. Chemicals;
i. Analogs of bases = look-alike molecules
ii. Base-modifying chemicals; Nitrosoguanidine, nitrous acid
iii. Intercalators insert between base; Cause frameshift mutations
Different types of mutations?
Include;
a. Silent
b. Missense mutation
i. Change one codon to another
c. Nonsense mutations
i. Change a codon to Stop
d. Frameshift mutation
i. Insert or delete a single base
ii. Changes bases read by ribosome
iii. Alters all codons downstream of mutation
What is slip strand mispairing?
a mutation process which occurs during DNA replication
a. When there is a repetitive sequence and the sequence aligns incorrectly. The slipped DNA will have another repeat.
What is the use of slip strand mis pairing?
Used in some pathogenic bacteria to switch expression of surface exposed proteins on or off for immune evasion – PHASE VARIATION
How can insertion/deletion of DNA happen?
3 types
a. Recombination
i. Homologous; alleles swapped
ii. Illegitimate/non-homologous; strands are not lined properly together
b. Site-specific
i. Use lambda-integrase to insert DNA fragment in another DNA genome
c. Transposable elements use replicative recombination
Error-proof DNA repair mechanisms?
Include:
a. Methyl mismatch repair
– Mis-paired base cut out of strand
b. Nucleotide excision repair – thymine dimers – Induced by UV
c. Base excision repair - damaged bases – Excised by specific enzymes
d. Recombinational repair
How does methyl mismatch repair work?
A mismatch in the double stranded DNA isn’t connected
a. Enzyme MutS binds to DNA mismatch
b. MutS attracts MutHL to the mismatch site
c. MutL binds to an adjacent hemimethylated GATC site
d. Causes looping of DNA
e. MutH cleaves unmethylated strand at the 5’ of the GATC
f. UvrD unwids the nicked strand
g. Exonuclease removes damaged strand
h. Polymerase I synthesis a new strand
What is a thymine dimer?
A pair of abnormally chemically bonded adjacent thymine bases in DNA, resulting from damage by ultra-violet irradiation.
How are thymine dimers repaired?
Thymine dimer in DNA
a. UvrAB form a complex and bind to damaged DNA
b. UvrA bends DNA then it leaves
c. UvrB attracts UvrC to damaged site
d. UvrC cleaves the phosphodiester backbone of the damaged backbone at 2 places.
e. UvrD helicase strips the cut region
f. DNA pol I fills the gap
g. DNA ligase seals
How does base excision repair work?
Damaged base
a. DNA glycolase binds to damaged site
b. Excises damaged base
c. Endonuclease cleaves phophodiester backbone
d. DNA pol synthesises new strand
e. DNA ligase seals DNA
How does recombinational repair work?
Part of the DNA is missing
a. How it can happen;
i. Replication fork approaches thymine dimer
ii. DNA polymerase skips damaged region
b. How it is fixed
i. The RecA proteins binds to the sister doubles helices at the missing segment
ii. The undamaged DNA part is cut and placed in the gap (D loop forms)
iii. Gap in undamaged strand is repared by DNA pol
iv. Thymine dimer can be fixed
When does error-prone repair happen?
Example; SOS repair
a. Extensive DNA damage inactivates LexA
b. Activation of many repair genes
c. Rapid polyermisation of DNA
i. Last resort repair
ii. Promotes mutations
How does error-prone repair work?
The repressor LexA binds to target genes which turns the SOS off
a. DNA damage causes accumulation of ssDNA = SOS system turns on
i. RecA binds ssDNA. Coprotease is activated. LexA is auto-digested.
b. In the absence of LexA, the SOS genes are transcribed and DNA damage is repaired.
i. Products of the target genes inhibit cell division, mediate replication across lesions (Pol V) and participate in nucleotide excision repair.
What are the genes included in the SOS system?
Include;
a. SulA = inhibitor of cell division
b. umuDC = Pol V (repair enzyme), error prone
c. uvrA
d. lexA = repressor
