Direct observation of stalled fork restart via fork regression in the T4 replication system.

Publication Type:

Journal Article


Science (New York, N.Y.), Volume 338, Issue 6111, p.1217-20 (2012)




Bacteriophage T4; DNA Damage; DNA Helicases; DNA Repair; DNA Replication; DNA, Cruciform; DNA, Viral; Escherichia coli; Holoenzymes; Viral Proteins


The restart of a stalled replication fork is a major challenge for DNA replication. Depending on the nature of the damage, different repair processes might be triggered; one is template switching, which is a bypass of a leading-strand lesion via fork regression. Using magnetic tweezers to study the T4 bacteriophage enzymes, we have reproduced in vitro the complete process of template switching. We show that the UvsW DNA helicase in cooperation with the T4 holoenzyme can overcome leading-strand lesion damage by a pseudostochastic process, periodically forming and migrating a four-way Holliday junction. The initiation of the repair process requires partial replisome disassembly via the departure of the replicative helicase. The results support the role of fork regression pathways in DNA repair.

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