Abstract
The repair of chromosomal double strand breaks (DSBs) is crucial in the maintenance of genomic integrity. However, the repair of DSBs can also destabilize the genome by causing mutations and chromosomal rearrangements, the driving forces for carcinogenesis and hereditary diseases. Break induced replication (BIR) is one of the DSB repair pathways that is highly prone to genetic instability1–3. BIR proceeds by invasion of one broken end into a homologous DNA sequence followed by replication that can copy hundreds of kilobasepairs of DNA from a donor molecule all the way through its telomere4,5. The resulting repaired chromosome comes at a great cost to the cell, as BIR promotes mutagenesis, loss of heterozygosity, translocations, and copy number variations, all hallmarks of carcinogenesis4–9. BIR employs the majority of known replication proteins to copy large portions of DNA, similar to S-phase replication10,11. It has thus been suggested that BIR proceeds by semiconservative replication; however, the model of a bona-fide, stable replication fork contradicts the known instabilities associated with BIR such as a 1000-fold increase in mutation rate compared to normal replication9. Here we demonstrate that the mechanism of replication during BIR is significantly different from S-phase replication, as it proceeds via an unusual bubble-like replication fork that results in conservative inheritance of the new genetic material. We provide the evidence that this atypical mode of DNA replication, dependent on Pif1 helicase, is responsible for the dramatic increase in BIR-associated mutations. We propose that the BIR-mode of synthesis presents a powerful mechanism that can initiate bursts of genetic instability in eukaryotes including humans.
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