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Meiotic DNA breaks drive multifaceted mutagenesis in the human germ line

Robert Hinch, Peter Donnelly, Anjali Gupta Hinch

2023Science60 citationsDOIOpen Access PDF

Abstract

Meiotic recombination commences with hundreds of programmed DNA breaks; however, the degree to which they are accurately repaired remains poorly understood. We report that meiotic break repair is eightfold more mutagenic for single-base substitutions than was previously understood, leading to de novo mutation in one in four sperm and one in 12 eggs. Its impact on indels and structural variants is even higher, with 100- to 1300-fold increases in rates per break. We uncovered new mutational signatures and footprints relative to break sites, which implicate unexpected biochemical processes and error-prone DNA repair mechanisms, including translesion synthesis and end joining in meiotic break repair. We provide evidence that these mechanisms drive mutagenesis in human germ lines and lead to disruption of hundreds of genes genome wide.

Topics & Concepts

BiologyMutagenesisGeneticsMeiosisIndelDNA repairHomologous recombinationDNADNA damageGeneDNA mismatch repairMutationGenotypeSingle-nucleotide polymorphismDNA Repair MechanismsCRISPR and Genetic EngineeringCancer Genomics and Diagnostics
Meiotic DNA breaks drive multifaceted mutagenesis in the human germ line | Litcius