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The Fml1-MHF complex suppresses inter-fork strand annealing in fission yeast.

Io Nam WongJacqueline Ps NeoJudith OehlerSophie SchafhauserFekret OsmanStephen B CarrMatthew C Whitby
Published in: eLife (2019)
Previously we reported that a process called inter-fork strand annealing (IFSA) causes genomic deletions during the termination of DNA replication when an active replication fork converges on a collapsed fork (Morrow et al., 2017). We also identified the FANCM-related DNA helicase Fml1 as a potential suppressor of IFSA. Here, we confirm that Fml1 does indeed suppress IFSA, and show that this function depends on its catalytic activity and ability to interact with Mhf1-Mhf2 via its C-terminal domain. Finally, a plausible mechanism of IFSA suppression is demonstrated by the finding that Fml1 can catalyse regressed fork restoration in vitro.
Keyphrases
  • signaling pathway
  • gene expression
  • dna methylation
  • climate change
  • saccharomyces cerevisiae
  • human health