During meiotic prophase, assembly of the synaptonemal complex (SC) brings homologous chromosomes into close apposition along their lengths. The Zip1 protein is a major building block of the SC in Saccharomyces cerevisiae. In the absence of Zip1, SC fails to form, cells arrest or delay in meiotic prophase (depending on strain background), and crossing over is reduced. We created a novel allele of ZIP1, zip1-4LA, in which four leucine residues in the central coiled-coil domain have been replaced by alanines. In the zip1-4LA mutant, apparently normal SC assembles with wild-type kinetics; however, crossing over is delayed and decreased compared to wild type. The zip1-4LA Mutant undergoes strong checkpoint-induced arrest in meiotic prophase; the defect in cell cycle progression is even more severe than that of the zip1 null mutant. When the zip1-4LA mutation is combined with the pch2 checkpoint mutation, cells sporulate with wild-type efficiency and crossing over occurs at wild-type levels. This result suggests that the zip1-4LA defect in recombination is an indirect consequence of cell cycle arrest. Previous studies have suggested that the Pch2 protein acts in a checkpoint pathway that monitors chromosome synapsis. We hypothesize that the zip1-4LA mutant assembles aberrant SC that triggers the synapsis checkpoint.

• 出版日期2007-6