CMG helicase disassembly is essential and driven by two pathways in budding yeast.
The CMG helicase is the stable core of the eukaryotic replisome and is ubiquitylated and disassembled during DNA replication termination. Fungi and animals use different enzymes to ubiquitylate the Mcm7 subunit of CMG, suggesting that CMG ubiquitylation arose repeatedly during eukaryotic evolution. Until now, it was unclear whether cells also ... have ubiquitin-independent pathways for helicase disassembly and whether CMG disassembly is essential for cell viability. Using reconstituted assays with budding yeast CMG, we generated the mcm7-10R allele that compromises ubiquitylation by SCFDia2. mcm7-10R delays helicase disassembly in vivo, driving genome instability in the next cell cycle. These data indicate that defective CMG ubiquitylation explains the major phenotypes of cells lacking Dia2. Notably, the viability of mcm7-10R and dia2? is dependent upon the related Rrm3 and Pif1 DNA helicases that have orthologues in all eukaryotes. We show that Rrm3 acts during S-phase to disassemble old CMG complexes from the previous cell cycle. These findings indicate that CMG disassembly is essential in yeast cells and suggest that Pif1-family helicases might have mediated CMG disassembly in ancestral eukaryotes.
Mesh Terms:
Cell Cycle Proteins, DNA Helicases, DNA Replication, F-Box Proteins, Minichromosome Maintenance Complex Component 7, Minichromosome Maintenance Proteins, Saccharomyces cerevisiae, Saccharomyces cerevisiae Proteins, Ubiquitination
Cell Cycle Proteins, DNA Helicases, DNA Replication, F-Box Proteins, Minichromosome Maintenance Complex Component 7, Minichromosome Maintenance Proteins, Saccharomyces cerevisiae, Saccharomyces cerevisiae Proteins, Ubiquitination
EMBO J
Date: Sep. 01, 2024
PubMed ID: 39039287
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