Mechanisms of global and region-specific control of mutagenesis

Abstract

The rate of mutations in each site of a eukaryotic genome depends on a plethora of factors: nucleotides pools, asymmetry and timing of replication, types of DNA damage and parameters of its repair, translesion DNA synthesis and structure of chromatin. Studies of mutation mechanisms, traditionally performed with model systems, are currently boosted by revolutionary analysis of mutation landscapes of cancer genomes. Etiology of familial and sporadic cancers is connected to mutations in DNA and mismatch genes that unevenly lower the accuracy of replication in different chromosomal regions. Transient appearance of single-stranded DNA makes some genomic sites vulnerable to spontaneous or enzymatic deamination by AID/APOBECs that lead to clustered mutations called kataegis. Of special significance is an impact of cell ploidy on mutagenesis outcomes. Haploid cells with the highest levels of mutagenesis die due to lethal mutations. Descendants of hypermutable cells in diploids, where lethal recessive mutations load is tolerated, could be recovered and analyzed, permitting a glimpse into hitherto hidden mechanisms of mutagenesis.