What are the key features of all repair pathways? (3)
- Multiple dynamic protein interactions
- ordered hand-off of damaged DNA from one protein (complex) to another
- DNA repair proteins are “modular” (multiple domains)
What is a domain?
stable, independently folding region of a protein with a specific function, often associated with a DNA sequence it binds or a protein-protein interaction it mediates
What does base excision repair do?
repairs DNA when a base of a nucleotide is damaged
What is base excision repair mediated by?
4 types of enzymes…
1. DNA glycosylase
2. Endonuclease
3. DNA polymerase
4. DNA ligase
What does DNA glycosylase do in base excision repair?
specific DNA glycosylase recognizes and excises the damaged base
What does endonuclease do in base excision repair?
it removes 1-10 nucleotides around the abasic site
What is an abasic site and how is it formed?
it is a location in the DNA strad where a purine or pyrimidine base has been removed leaving behind the sugar phosphate backbone
it is formed through spontaneous chemical damage or as it intermediates in cellular processes like base excision repair
What does DNA polymerase do in base excision repair?
replaces missing nucleotides
What does DNA ligase do in base excision repair?
seals the gap
How do DNA repair proteins find the rare sites of damage in a vast expanse of undamaged DNA?
- 3D diffusion
- linear scanning along the DNA backbone
What is the G-specific pocket?
active site pocket of DNA repair enzyme that is shaped to specifically recognize and bind a damaged or altered guanine base when that base is flipped out of the DNA helix
What is a lesion recognition (oxoG) pocket?
a specialized region within a DNA repair enzyme, such as the hOGG1 protein, that is shaped to fit and bind specifically to the altered 8oxoG lesion… allows the enzyme to remove the damage from undamaged DNA
What are the steps of base excision repair?
- damage base removed (abasic site) (DNA glycosylase enzyme recognizes and cuts out the damaged base leaving behind an empty spot in the DNA called an abasic site)
- 5’ or 3’ endonuclease cleavage (DNA backbone is cut at the abasic site now the sugar-phosphate backbone is open for repair)
- nucleotide excision (the leftover sugar and phosphate without the base is removed so the DNA is clean and ready for a new nucleotide)
- repair synthesis (DNA polymerase comes in and inserts the correct nucleotide by using the undamaged strand as a template)
- ligation (DNA ligase seals the last nick in the backbone restoring a continuous double helix)
What is mismatch repair?
Correction of mismatched base pairs
What is the method of strand discrimination in mismatch repair?
ensures the correct strand is repaired
What causes hereditary non-polyposis colon cancer?
inheritance of one inactive mismatch repair allele and somatic loss of wild type allele… accumulation of mismatches (point mutations) during DNA replication
What type of damage does nucleotide excision repair fix?
bulky, helix-distorting DNA damage such as UV induced pyrimidine dimers (thymine dimers) and lesions from chemical agents
What is the key difference between base excision repair and nucleotide excision repair?
NER fixes bulky helix distorting lesions that BER can’t handle
What is the twist open mechanism?
an XPC protein with beta hairpin domain (homologous to yeast Rad4) is the first sensor of DNA distortion and when it encounters a T-T dimer, the beta hairpin wedges into the DNA, flipping out the damaged bases from the helix creating a “twist open” structure where the DNA helix locally unwinds and bends and that distortion signals to the rest of the NER machinery that there’s damage and then other proteins come to cut out a 24-32 nt stretch containing the lesion
What are the recurrent themes in DNA repair?
hand off of damaged DNA from a complex with nuclease activity to a complex with polymerase activity to a complex with ligase activity
What does ionizing radiation do?
damages DNA by directly or indirectly breaking its chemical bonds which generates free radicals
How is ionizing radiation repaired?
Homologous recombination or non-homologous end joining
What does homologous recombination do?
repairs double strand breaks by retrieving genetic information from an undamaged homologous chromosome
What does non-homologous end joining do?
rejoins double strand breaks via direct ligation of the DNA ends without any requirement for sequence homology
-
Lectures 2 & 329
-
Lecture 427
-
Lectures 5 & 643
-
Lectures 7 & 843
-
Lectures 10 & 1148
-
Lecture 1332
-
Study Questions (Exam 1)41
-
Lecture 1429
-
Lecture 1539
-
Lecture 1623
-
Lecture 1823
-
Lecture 1921
-
Lecture 2025
-
Lecture 2117
-
Lecture 2329
-
Lecture 2427
-
Lecture 2623
-
Exam 2 Study Questions65
-
Final Exam Study Questions35
-
Lectures 27 & 2830
-
Lecture 29 & 301
-
Lecture 362
