Litcius/Paper detail

Crossover or non-crossover outcomes: tailored processing of homologous recombination intermediates

Aurore Sanchez, Giordano Reginato, Petr Ćejka

2021Current Opinion in Genetics & Development24 citationsDOIOpen Access PDF

Abstract

DNA breaks may arise accidentally in vegetative cells or in a programmed manner in meiosis. The usage of a DNA template makes homologous recombination potentially error-free, however, recombination is not always accurate. Cells possess a remarkable capacity to tailor processing of recombination intermediates to fulfill a particular need. Vegetatively growing cells aim to maintain genome stability and therefore repair accidental breaks largely accurately, using sister chromatids as templates, into mostly non-crossovers products. Recombination in meiotic cells is instead more likely to employ homologous chromosomes as templates and result in crossovers to allow proper chromosome segregation and promote genetic diversity. Here we review models explaining the processing of recombination intermediates in vegetative and meiotic cells and its regulation, with a focus on MLH1-MLH3-dependent crossing-over during meiotic recombination.

Topics & Concepts

Homologous recombinationMeiosisBiologyHomologous chromosomeGenetic recombinationSister chromatidsGeneticsEctopic recombinationRecombinationChromosome segregationChromosomal crossoverMitotic crossoverNon-allelic homologous recombinationChromosomeDNAGeneDNA Repair MechanismsCRISPR and Genetic EngineeringPlant Genetic and Mutation Studies