Lecture 43. Recombination and Transposons Flashcards
What is recombination?
The breaking and rejoining of DNA into a new combination
Why is recombination important?
Creates genetic diversity
“Easy” to do in eukaryotic cells which are diploid
In bacteria requires fragments of DNA from transformation, transduction and conjugation
What is homologous recombination?
Switching DNA that is similar e.g same gene different allele
What is non-homologous recombination?
Repair of double stranded DNA break by simply joining with another piece of DNA
What does homologous recombination require?
Extensive homology (similarity of sequence)
What can homologous recombination result in?
Faulty gene
Homologous recombination mechanism 1
Alignment - 2 homologous DNA helices align
Breakage - On strand is nicked, E. Coli enzyme RecBCD, often happens at specific sequences
Invasion - Free 3’ end invades the homologous helix, DNA stabilised by SSB protein, catalysed by RecA
What does RecA do and where is it found?
Has functional homologous in ALL known organisms incl. eukaryotes and archaea
Essential for DNA repair
Multiple function: binds single stranded DNA, has two binding sites so can hold two pieces of DNA together, catalyses branch mitigation
What does RecBCD do?
Has nuclease activity and catalyses initial nick in DNA needed for recombination – note requires specific DNA sequence so this is not a random event
Has helicase activity – unwinds DNA after nick so single stranded DNA-binding protein and RecA can bind
Homologous recombination mechanism 2
Cross strand exchange - A second nick in the other piece of DNA
Branch migration - Requires RuvAB helicase, extensive heteroduplexes form can be 1000s of bp long
What is isomerisation?
Crossing and uncrossing of strands
How many outcomes can a Holliday junction result in?
2
What can rescue a double strand break?
Homologous recombination
What are examples of non-homologous recombination?
Insertion and excursion of λ phage
Transposon events
Double stranded break repair
Non-homologous recombination after DS breaks
After double strand break, the ends are either rejoined or joined to the “wrong” ends. If ends have been degraded then sequence may be lost
What are insertion sequences?
Small pieces (~1000 bp) of DNA that can hop from one position to another
What is the hop that an insertion sequence called and what catalyses it?
The hop is called transposition and is catalysed by transposase
Insertion sequence phenotype consequences
Genes can be disrupted due to insertion but there is a high degree of reversion as insertion sequence simply moves somewhere else. If housekeeping gene disrupted, it can be fatal
What are transposons?
Same features as insertion sequences but carry additional genes
Transposon mechanism
- Transposon binds to ends
- Transposon is cut out
- Chromosome is repaired but may be changes to original sequence
- New target sequence found elsewhere and transposon inserts
