[Genetic control of the number of copies of type K2 killer plasmids in Saccharomyces cerevisiae]. / Geneticheskii kontrol' kopiinosti killernykh plazmid tipa K2 u Saccharomyces cerevisiae.

13 non-linked chromosomal mutations derepress the negative genetic control of copy number of K2 yeast killer plasmids and lead to 1.5-2-fold elevating of copy number of that type plasmids -L2A and M2 virus-like dsRNA. The content of both plasmids is increased 3-5-fold in cells with chromosomal ski5 mutation, as compared to the strains of wild type. Expression of ski5 allele is recessive. The dose effect of this allele is observed on haploid and diploid levels. Dominant ochre nonsense suppressors suppress the action of ski5 and the ski6 allele epistates that of ski5.

[Genetic analysis of the polyauxotrophy of the early mitotic progeny of Saccharomyces cerevisiae zygotes. III. The behavior of the chromosome-III markers in polyauxotrophic clones and their mitotic and meiotic segregants]. / Geneticheskii analiz poliauksotrofnosti u rannego mitoticheskogo potomstva zigot Saccharomyces cerevisiae. Soobshchenie III. Povedenie markerov khromosomy III u poliauksotrofnykh klonov, ikh mitoticheskikh i meioticheskikh segregantov.

Cloning and segregation analysis of polyauxotrophic (PA) progeny, as well as the study of diploid segregants, revealed an unusual state of the diploid genome in these strains. Analysis of linkage markers of chromosome III in all crosses may be expected to illuminate relationships between the homologous chromosomes. All PA strains were assigned to two major classes. In the class of PA strains with recombinant chromosome III, the effect of approachment of third linkage markers was noted. In other strains, transposition of genetic marker metA1 to chromosome III and its linkage to leu2 were discovered. The present study has demonstrated that the unusual state of the diploid genome of PA strains induces multiple nonspecific alterations in chromosome relationship and structure. It is likely that these alterations are the consequence of disturbance in mitotic apparatus of cell.

[Genetic analysis of polyauxotrophy and early mitotic progeny of Saccharomyces cerevisiae zygotes. II. Spore-forming segregants in the mitotic and meiotic progeny of polyauxotrophic clones]. / Geneticheskii analiz poliauksotrofnosti u rannego mitoticheskogo potomstva zigot Saccharomyces cerevisiae. Soobshchenie II. Sporuliruiushchie segreganty v mitoticheskom i meioticheskom potomstve poliauksotrofnykh klonov.

This article continues the investigation of polyauxotrophic (PA) clones formed in early mitotic progeny of zygotes. Cloning and segregation analysis of PA progeny suggest an unusual state of diploid genome in these strains, which is expressed as elimination of the dominance effect of the wild allele and as suppression or conversion of either of two loci of mating type. In PA progeny, except for recombinant haploids, sporulating diploids and unstable clones were detected. The tetrad analysis of the diploids points to homozygotization for individual markers. Over-replication of diploid set of chromosomes, prior to meiosis, and replacement of the haploid nucleus (the product of meiosis) for the diploid nucleus may explain the appearance of sporulating segregants in the diploid meiotic progeny. Unstable segregants may be considered as heterokaryons with complex interaction of nuclei.