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Global genomic instability caused by reduced expression of DNA polymerase ε in yeast

Ke Zhang, Yang Sui, Wu-Long Li, Gen Chen, Xue‐Chang Wu, Robert J. Kokoska, Thomas D. Petes, Dao‐Qiong Zheng

2022Proceedings of the National Academy of Sciences18 citationsDOIOpen Access PDF

Abstract

SignificanceAlthough most studies of the genetic regulation of genome stability involve an analysis of mutations within the coding sequences of genes required for DNA replication or DNA repair, recent studies in yeast show that reduced levels of wild-type enzymes can also produce a mutator phenotype. By whole-genome sequencing and other methods, we find that reduced levels of the wild-type DNA polymerase ε in yeast greatly increase the rates of mitotic recombination, aneuploidy, and single-base mutations. The observed pattern of genome instability is different from those observed in yeast strains with reduced levels of the other replicative DNA polymerases, Pol α and Pol δ. These observations are relevant to our understanding of cancer and other diseases associated with genetic instability.

Topics & Concepts

Genome instabilityDNA polymeraseBiologyGeneticsDNA replicationDNA polymerase IIMitotic crossoverPolymeraseGeneDNAMolecular biologyMutationDNA damagePolymerase chain reactionReverse transcriptaseDNA Repair MechanismsMicrotubule and mitosis dynamicsFungal and yeast genetics research
Global genomic instability caused by reduced expression of DNA polymerase ε in yeast | Litcius