Initiation of recombination in Saccharomyces cerevisiae haploid meiosis.

Abstract

In most eukaryotes during prophase I of meiosis, homologous chromosomes pair and recombine by coordinated molecular and cellular processes. To directly test whether or not the early steps of the initiation of recombination depend on the presence of a homologous chromosome, we have examined the formation and processing of DNA double-strand breaks (DSBs, the earliest physical landmark of recombination initiation) in various haploid Saccharomyces cerevisiae strains capable of entering meiosis. We find that DSBs occur in haploid meiosis, showing that the presence of a homolog is not required for DSB formation. DSBs occur at the same positions in haploid and diploid meioses. However, these two types of meiosis exhibit subtle differences with respect to the timing of formation and levels of DSBs. In haploid meiosis, a slower rate of DSB formation and a reduction in the frequency of DSB (at one of the three sites analyzed) were observed. These results might indicate that interactions between homologs play a role in the formation of meiotic DSBs. Furthermore, haploid strains exhibit a pronounced delay in the disappearance of meiotic DSBs compared to diploid strains, which suggests that sister chromatid interactions for DSB repair are inhibited in haploid meiosis.