Rec8 cleavage by separase is required for meiotic nuclear divisions in fission yeast.

Sister chromatid cohesion in meiosis is established by cohesin complexes, including the Rec8 subunit. During meiosis I, sister chromatid cohesion is destroyed along the chromosome arms to release connections of recombined homologous chromosomes (homologues), whereas centromeric cohesion persists until it is finally destroyed at anaphase II. In fission yeast, as in mammals, distinct cohesin complexes are used depending on the chromosomal region; Rec8 forms a complex with Rec11 (equivalent to SA3) mainly along chromosome arms, while Psc3 (equivalent to SA1 and SA2) forms a complex mainly in the vicinity of the centromeres. Here we show that separase activation and resultant Rec8 cleavage are required for meiotic chromosome segregation in fission yeast. A non-cleavable form of Rec8 blocks disjunction of homologues at meiosis I. However, displacing non-cleavable Rec8 restrictively from the chromosome arm by genetically depleting Rec11 alleviated the blockage of homologue segregation, but not of sister segregation. We propose that the segregation of homologues at meiosis I and of sisters at meiosis II requires the cleavage of Rec8 along chromosome arms and at the centromeres, respectively.