Replication Fork Uncoupling Causes Nascent Strand Degradation and Fork Reversal
AUTHORS
ABSTRACT
Genotoxins cause nascent strand degradation (NSD) and fork reversal during DNA replication. NSD and fork reversal are crucial for genome stability and exploited by chemotherapeutic approaches. However, it is unclear how NSD and fork reversal are triggered. Additionally, the fate of the replicative helicase during these processes is unknown. We developed a biochemical approach to study synchronous, localized NSD and fork reversal using Xenopus egg extracts. We show that replication fork uncoupling stimulates NSD of both nascent strands and progressive conversion of uncoupled forks to reversed forks. The replicative helicase remains bound during NSD and fork reversal, indicating that both processes take place behind the helicase. Unexpectedly, NSD occurs before and after fork reversal, indicating that multiple degradation steps take place. Overall, our data show that uncoupling causes NSD and fork reversal and identify key steps involved in these processes.
https://www.biorxiv.org/content/10.1101/2021.10.13.464136v2
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