Centromere Mapping Functions for Aneuploid Meiotic Products: Analysis of rec8, rec10 and rec11 Mutants of the Fission Yeast Schizosaccharomyces pombe

Centromere Mapping Functions for Aneuploid Meiotic Products: Analysis of rec8, rec10 and rec11 Mutants of the Fission Yeast Schizosaccharomyces pombe

Michelle D. Krawchuk^a and Wayne P. Wahls^a
^a Department of Biochemistry, Vanderbilt University School of Medicine, Nashville, Tennessee 37232-0146

Corresponding author: Wayne P. Wahls, Department of Biochemistry, Vanderbilt University School of Medicine, 621 Light Hall, Nashville, TN 37232-0146., wahlswp{at}ctrvax.vanderbilt.edu (E-mail)

Communicating editor: M. LICHTEN

Recent evidence suggests that the position of reciprocal recombinationevents (crossovers) is important for the segregation of homologouschromosomes during meiosis I and sister chromatids during meiosisII. We developed genetic mapping functions that permit the simultaneousanalysis of centromere-proximal crossover recombination andthe type of segregation error leading to aneuploidy. The mappingfunctions were tested in a study of the rec8, rec10, and rec11mutants of fission yeast. In each mutant we monitored each ofthe three chromosome pairs. Between 38 and 100% of the chromosomesegregation errors in the rec8 mutants were due to meiosis Inondisjunction of homologous chromosomes. The remaining segregationerrors were likely the result of precocious separation of sisterchromatids, a previously described defect in the rec8 mutants.Between 47 and 100% of segregation errors in the rec10 and rec11mutants were due to nondisjunction of sister chromatids duringmeiosis II. In addition, centromere-proximal recombination wasreduced as much as 14-fold or more on chromosomes that had experiencednondisjunction. These results demonstrate the utility of thenew mapping functions and support models in which sister chromatidcohesion and crossover position are important determinants forproper chromosome segregation in each meiotic division.

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