[Study of the stability of hybrid plasmids replicating in Saccharomyces cerevisiae due to DNA fragments from polyoma virus].

Hybrid plasmid pSP97 carrying the entire genome of polyoma virus (PY), inserted into bacterial vector psV3, transforms yeast cells with the frequency 1 x 10(-2). Plasmid pSP97 is capable of autonomous replication in S. cerevisiae, while its structure remains unaltered, the stability of hybrid plasmid in transformants is 44%--100%. Plasmid pSP155 consisting of Ori-containing DNA segment from polyoma, pBR322 and yeast gene arg4, transforms yeast cells with the frequency 5 x 10(-3), the stability of plasmid in transformants is 23%--29%. Two types of plasmids were isolated from transformants: one was identical to SP155, while the another differed structurally and phenotypically from SP155. Plasmids pSP113 and pSP114, in addition to pBR322 and yeast gene arg4, contain a viral DNA segment that encodes genes from small and middle T-antigens. These plasmids transform yeast cells with low frequency (2 x 10(-4), 3 x 10(-5)), the stability of plasmids in yeast transformants is 100%. However, hybrid plasmids identical to pSP113 were isolated from transformants. Structural rearrangements have been observed in pSP114, which carries the arg4 gene in reversed orientation compared to pSP113.