1. Meiotic segregation of a homeologous chromosome pair.
- Author
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Maxfield Boumil R, Kemp B, Angelichio M, Nilsson-Tillgren T, and Dawson DS
- Subjects
- Base Sequence, Chromosome Breakage, Chromosome Pairing, Crossing Over, Genetic, DNA, Fungal genetics, Recombination, Genetic, Species Specificity, Chromosome Segregation, Chromosomes, Fungal genetics, Meiosis genetics, Saccharomyces genetics, Saccharomyces cerevisiae genetics
- Abstract
During meiosis, the alignment of homologous chromosomes facilitates their subsequent migration away from one another to opposite spindle poles at anaphase I. Recombination is part of the mechanism by which chromosomes identify their homologous partners, and serves to link the homologs in a way that, in some organisms, has been shown to promote proper attachment to the meiotic spindle. We have built a diploid strain that contains a pair of homeologous chromosomes V': one is derived from Saccharomyces cerevisiae and one originates from S. carlsbergensis. Sequence analysis reveals that these chromosomes share 71% sequence identity. The homeologs experience high levels of meiotic double-stranded breaks. Despite their relatedness and their competence to initiate recombination, the meiotic segregation behavior of the homeologous chromosomes suggests that, in most meioses, they are partitioned by a meiotic segregation system that has been shown previously to partition non-exchange chromosomes and pairs with no homology. Though the homeologous chromosomes show a degree of meiotic segregation fidelity similar to that of other non-exchange pairs, our data provide evidence that their limited sequence homology may provide some bias in meiotic partner choice.
- Published
- 2003
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