[Mutational analysis of the starch utilization system in the yeast Saccharomyces cerevisiae]. / Mutatsionnyi analiz sistemy utilizatsii krakhmala u drozhzhei Saccharomyces cerevisiae.

Seven mutants of Saccharomyces cerevisiae deficient in production of extracellular glucoamylase have been analyzed. For each of the seven a monogenic pattern of inheriting the mutant phenotype has been observed. The mutations have been shown to map within five different genetic loci, three independent mutations affecting the STA2 locus and the other four residing in four formerly unidentified genes. As expected, the sta2 mutants recover the wild phenotype when transformed with a STA2-bearing multicopy plasmid. Such reversion has also been observed for the transformed stall mutant. Unlike the others, the sta16 mutant is unable to secrete heterologous alpha-amylase encoded by a plasmid-borne DNA fragment. All the mutants have a moderately reduced ability to secrete the invertase and acid phosphatase.

[Biochemical characteristics of new thermosensitive secretory mutants of yeasts]. / Biokhimicheskaia kharakteristika novykh termochuvstvitel'nykh sekretornykh mutantov drozhzhei.

New thermosensitive mutants of the yeast Saccharomyces cerevisiae which block the secretion of periplasmic enzymes at restriction temperature have been obtained. These mutants accumulate active low molecular weight and mature invertase species in the cell; the buoyant density of the cells in a Percoll gradient is higher than that in the wild strain cells. The mutant cells transferred to permissive temperature (25 degrees C) in the absence of protein synthesis can secrete some amount of accumulated invertase. It was found that the secretory defects of conditional mutants do not affect the activity of cytoplasmic enzymes (e.g., alcohol dehydrogenase) or the level of total protein synthesis and glycosylation and do not induce non-specific disturbances in energy metabolism and plasma membrane functions at restriction temperature. Some strains of new secretory mutants revealed uncoupled defective secretion of periplasmic enzymes and intrinsic membrane proteins (proline permease). The possibility of branching of the secretory pathway for periplasmic enzymes and cytoplasmic membrane proteins is discussed.