Here, we show that deficiency of the essential replisome component Mcm10 dramatically elevates (GAA)n repeat instability in a budding yeast model by loss of proper CMG helicase interaction. When repair is inefficient, such as in the case of RPA depletion, breakage of under-replicated repetitive DNA can occur during G2/M, leading to loss of essential genes and cell death. We hypothesize that the CMG-Mcm10 interaction promotes replication through hard-to-replicate regions, assuring genome stability and cell survival.
Tuesday, December 3, 2024
Stabilization of expandable DNA repeats by the replication factor Mcm10 promotes cell viability
Masnovo, C., Paleiov, Z., Dovrat, D. et al. Stabilization of expandable DNA repeats by the replication factor Mcm10 promotes cell viability. Nat Commun 15, 10532 (2024). doi:10.1038/s41467-024-54977-6
