Meiosis is a specialized form of cell division resulting in reproductive cells with a reduced, usually haploid, genome complement. A key step after premeiotic DNA replication is the occurrence of… Click to show full abstract
Meiosis is a specialized form of cell division resulting in reproductive cells with a reduced, usually haploid, genome complement. A key step after premeiotic DNA replication is the occurrence of homologous recombination at multiple places throughout the genome, initiated with the formation of DNA double-strand breaks (DSBs) catalyzed by the topoisomerase-like protein Spo11. DSBs are distributed non-randomly in genomes, and understanding the mechanisms that shape this distribution is important for understanding how meiotic recombination influences heredity and genome evolution. Several methods exist for mapping where Spo11 acts. Of these, sequencing of Spo11-associated oligonucleotides (Spo11 oligos) is the most precise, specifying the locations of DNA breaks to the base pair. In this chapter we detail the steps involved in Spo11-oligo mapping in the SK1 strain of budding yeast Saccharomyces cerevisiae, from harvesting cells of highly synchronous meiotic cultures, through preparation of sequencing libraries, to the mapping pipeline used for processing the data.
               
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