Litcius/Paper detail

Strand discrimination in DNA mismatch repair

Christopher D. Putnam

2021DNA repair67 citationsDOIOpen Access PDF

Abstract

DNA mismatch repair (MMR) corrects non-Watson-Crick basepairs generated by replication errors, recombination intermediates, and some forms of chemical damage to DNA. In MutS and MutL homolog-dependent MMR, damaged bases do not identify the error-containing daughter strand that must be excised and resynthesized. In organisms like Escherichia coli that use methyl-directed MMR, transient undermethylation identifies the daughter strand. For other organisms, growing in vitro and in vivo evidence suggest that strand discrimination is mediated by DNA replication-associated daughter strand nicks that direct asymmetric loading of the replicative clamp (the β-clamp in bacteria and the proliferating cell nuclear antigen, PCNA, in eukaryotes). Structural modeling suggests that replicative clamps mediate strand specificity either through the ability of MutL homologs to recognize the fixed orientation of the daughter strand relative to one face of the replicative clamps or through parental strand-specific diffusion of replicative clamps on DNA, which places the daughter strand in the MutL homolog endonuclease active site. Finally, identification of bacteria that appear to lack strand discrimination mediated by a replicative clamp and a pre-existing nick suggest that other strand discrimination mechanisms exist or that these organisms perform MMR by generating a double-stranded DNA break intermediate, which may be analogous to NucS-mediated MMR.

Topics & Concepts

BiologyDNA mismatch repairDNA replicationProliferating cell nuclear antigenDNADNA clampDNA repairGeneticsEndonucleaseHomologous recombinationCell biologyMolecular biologyGenePolymerase chain reactionReverse transcriptaseGenetic factors in colorectal cancerDNA Repair MechanismsCancer Genomics and Diagnostics