Abstract

Meiotic pairing and segregation were studied in three different heterozygous reciprocal translocation strains of the baker's yeast, Saccharomyces cerevisiae. Pachytene translocation quadrivalents were identified by a combination of immunofluorescence and fluorescence in situ hybridization and the karyotypes of meiotic products were determined by pulsed-field gel electrophoresis. The translocations differed with respect to the relative sizes of the chromosomes involved and the positions of translocation breakpoints, and produced translocation quadrivalents of widely different shapes. This allowed us to study the influence of the morphology of quadrivalents on their segregation behaviour. In all cases alternate predominated over adjacent segregation. 3:1 disjunction of chromosomes was more frequent when translocation breakpoints were close to the centromeres. If a translocation breakpoint was distant from the centromere, the occurrence of an intervening chiasma influenced the pattern of segregation. In general, quadrivalent formation and segregation resembled the behaviour of translocation heterozygotes in most higher eukaryotes. We therefore conclude that, although chromosome condensation does not occur in yeast metaphase, centromere orientation and chromosome disjunction are governed in a way similar to that of higher eukaryotes.

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