Preferential strand transfer and hybrid DNA formation at the recombination hotspot ade6-M26 of Schizosaccharomyces pombe

Abstract

The ade6-M26 mutation of Schizosaccharomyces pombe stimulates intragenic and intergenic meiotic recombination. M26 is a single base pair change creating a specific heptanucleotide sequence that is crucial for recombination hotspot activity. This sequence is recognized by proteins that may facilitate rate-limiting steps of recombination at the ade6 locus. To start the elucidation of the intermediate DNA structures formed during M26 recombination. We have analyzed the aberrant segregation patterns of two G to C transversion mutations flanking the heptanucleotide sequence in crosses homozygous for M26. At both sites the level of post-meiotic segregation is typical for G to C transversion mutations in S.pombe in general. Quantitative treatment of the data provides strong evidence for heteroduplex DNA being the major recombination intermediate at the M26 site. We can now exclude a double-strand gap repair mechanism to account for gene conversion across the recombination hotspot. Furthermore, the vast majority (> 95%) of the heteroduplexes covering either of the G to C transversion sites are produced by transfer of the transcribed DNA strand. These results are consistent with ade6-M26 creating an initiation site for gene conversion by the introduction of a single-strand or a double-strand break in its vicinity, followed by transfer of the transcribed DNA strands for heteroduplex DNA formation.