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High-fidelity DNA ligation enforces accurate Okazaki fragment maturation during DNA replication

Jessica S. Williams, Percy Tumbale, Mercedes E. Arana, Julian A. Rana, R. Scott Williams, Thomas A. Kunkel

2021Nature Communications53 citationsDOIOpen Access PDF

Abstract

Abstract DNA ligase 1 (LIG1, Cdc9 in yeast) finalizes eukaryotic nuclear DNA replication by sealing Okazaki fragments using DNA end-joining reactions that strongly discriminate against incorrectly paired DNA substrates. Whether intrinsic ligation fidelity contributes to the accuracy of replication of the nuclear genome is unknown. Here, we show that an engineered low-fidelity LIG1 Cdc9 variant confers a novel mutator phenotype in yeast typified by the accumulation of single base insertion mutations in homonucleotide runs. The rate at which these additions are generated increases upon concomitant inactivation of DNA mismatch repair, or by inactivation of the Fen1 Rad27 Okazaki fragment maturation (OFM) nuclease. Biochemical and structural data establish that LIG1 Cdc9 normally avoids erroneous ligation of DNA polymerase slippage products, and this protection is compromised by mutation of a LIG1 Cdc9 high-fidelity metal binding site. Collectively, our data indicate that high-fidelity DNA ligation is required to prevent insertion mutations, and that this may be particularly critical following strand displacement synthesis during the completion of OFM.

Topics & Concepts

Okazaki fragmentsDNA ligaseDNA replicationDNA mismatch repairDNA polymerase deltaBiologyDNA polymeraseDNA polymerase IDNA clampDNA polymerase IIDNAReplication protein AEukaryotic DNA replicationDNA repairMolecular biologyLigationCell biologyGeneticsPolymerase chain reactionDNA-binding proteinGeneReverse transcriptaseTranscription factorDNA Repair MechanismsCRISPR and Genetic EngineeringCancer Genomics and Diagnostics