The cells of Saccharomyces cerevisiae were transformed by plasmid pYG-007 treated in vitro with o-methylhydroxylamine. The plasmid consists of a portion of the bacterial plasmid with genes of resistance to ampicillin, chloramphenicol and tetracycline, 2 mkm yeast DNA and yeast genes ADE2 and LEU2. The collection of mutants containing a mutant allele of ADE2 gene within the plasmid was obtained. Interallelic complementation and that induced by suppression were studied in these ade 2 mutants. It was shown that all these induced ade 2 mutations were base-pair substitutions. Using the mechanism of conversion we managed to transfer the plasmid ade 2 mutations into the chromosome. Three pairs of strains carrying similar mutation in plasmid and chromosome were created. Analysis of frequency of reversions induced by UV-light and hydroxylaminopurine in the mutant ade2 locus comprised in the plasmid and chromosome showed that the former induced reversions in plasmid alleles less effectively than the latter.