The role of MutS complex and MSH2 protein in the crossover control in plants

Abstract

Crossover  is a reciprocal exchange of chromatid fragments between homologous chromosomes and takes place during second meiotic division. Many factors affect the distribution and frequency of crossovers – for instance, the activity of trans-acting modifiers, chromatin methylation level or the presence of polymorphisms between recombining chromosomes. MMR system, and specifically MSH2 protein, serves to recognize and repair mismatched DNA bases, and prevents recombination between divergent chromosomal regions during meiosis. Unexpectedly, MSH2 displays also a pro-recombination role in plants by detecting polymorphisms and directing crossover events into more diverged regions. In this review, we demonstrate how interhomolog polymorphism may affect crossover chromosomal distribution and, as a consequence, plant genomes evolution. It is especially important for self-fertilizing plants which naturally exhibit high level of homozygosity. If recombination were to occur only in homozygous regions, no new genotypes would be created in subsequent generations, slowing down the evolution of the organisms.