A DNA binding motif of meiotic recombinase Rec12 (Spo11) defined by essential glycine-202, and persistence of Rec12 protein after completion of recombination.

The Rec12 (Spo11) protein of the fission yeast Schizosaccharomyces pombe is a meiosis-specific ortholog of the catalytic subunit of type VI topoisomerases and is thought to catalyze double-strand DNA breaks that initiate recombination. We tested the hypothesis that the rec12-117 allele affects the choice of pathways by which recombination is resolved. DNA sequence analysis revealed a single missense mutation in the coding region (rec12-G202E). The corresponding glycine-202 residue of Rec12 protein is strictly conserved in proteins of the Rec12/Spo11/Top6A family. It maps to the base of the DNA binding pocket in the crystal structure of the archaeal ortholog, Top6A. The rec12-G202E mutants lacked crossover and non-crossover recombination, demonstrating that rec12-G202E does not affect choice of resolution pathway. Like rec12-D15 null mutants, the rec12-G202E mutants suffered chromosome segregation errors in meiosis I. The Rec12-G202E protein was as stable as wild-type Rec12, demonstrating that glycine-202 is essential for a biochemical activity of Rec12 protein, rather than for its stability. These findings suggest that Rec12 facilitates binding of the meiotic recombinase to its substrate, DNA. Interestingly, the bulk of Rec12 protein persisted until the time of anaphase I, and a portion of Rec12 protein persisted until the time of anaphase II, after which it was undetectable. This suggests that Rec12 protein has additional meiotic functions after completion of recombination in prophase, as inferred previously from genetic studies [Sharif, W.D., Glick, G.G., Davidson, M.K., Wahls, W.P., 2002. Distinct functions of S. pombe Rec12 (Spo11) protein and Rec12-dependent crossover recombination (chiasmata) in meiosis I; and a requirement for Rec12 in meiosis II. Cell Chromo. 1, 1].

Purification, folding, and characterization of Rec12 (Spo11) meiotic recombinase of fission yeast.

Meiotic recombination is initiated by controlled dsDNA breaks (DSBs). Rec12 (Spo11) protein of fission yeast is essential for the formation of meiotic DSBs in vivo, for meiotic recombination, and for segregation of chromosomes during meiosis I. Rec12 is orthologous to Top6A topoisomerase of Archaea and is likely the catalytic subunit of a meiotic recombinase that introduces recombinogenic DSBs. However, despite intensive effort, it has not been possible to produce Rec12 protein in a soluble form required to permit biochemical analyses of function. To obtain purified Rec12 protein for in vitro studies, a rec12(+) cDNA was generated, cloned into vector pET15b(+), and expressed in Escherichia coli. Rec12 protein was produced at moderate levels and it partitioned into insoluble fractions of whole-cell extracts. The protein was enriched based upon its differential solubility in two different denaturants and was further purified by column chromatography. A combinatorial, fractional, factorial approach was used to identify conditions under which Rec12 protein could be refolded. Four parameters were most important and, following optimization, soluble Rec12 protein was obtained. Gel filtration demonstrated that refolded Rec12 protein exists as a monomer in solution, suggesting that additional proteins may be required to assemble biologically-active Rec12 dimers, as inferred previously from genetic data [Cell Chromosome 1 (2002) 1]. The production of refolded Rec12 in a soluble form will allow for characterization in vitro of this key meiotic recombination enzyme.

Distinct functions of S. pombe Rec12 (Spo11) protein and Rec12-dependent crossover recombination (chiasmata) in meiosis I; and a requirement for Rec12 in meiosis II.

BACKGROUND: In most organisms proper reductional chromosome segregation during meiosis I is strongly correlated with the presence of crossover recombination structures (chiasmata); recombination deficient mutants lack crossovers and suffer meiosis I nondisjunction. We report that these functions are separable in the fission yeast Schizosaccharomyces pombe. RESULTS: Intron mapping and expression studies confirmed that Rec12 is a member of the Spo11/Top6A topoisomerase family required for the formation of meiotic dsDNA breaks and recombination. rec12-117, rec12-D15 (null), and rec12-Y98F (active site) mutants lacked most crossover recombination and chromosomes segregated abnormally to generate aneuploid meiotic products. Since S. pombe contains only three chromosome pairs, many of those aneuploid products were viable. The types of aberrant chromosome segregation were inferred from the inheritance patterns of centromere linked markers in diploid meiotic products. The rec12-117 and rec12-D15 mutants manifest segregation errors during both meiosis I and meiosis II. Remarkably, the rec12-Y98F (active site) mutant exhibited essentially normal meiosis I segregation patterns, but still exhibited meiosis II segregation errors. CONCLUSIONS: Rec12 is a 345 amino acid protein required for most crossover recombination and for chiasmatic segregation of chromosomes during meiosis I. Rec12 also participates in a backup distributive (achiasmatic) system of chromosome segregation during meiosis I. In addition, catalytically-active Rec12 mediates some signal that is required for faithful equational segregation of chromosomes during meiosis II.