Enhancement of copper resistance and CupI amplification in carcinogen-treated yeast cells

Summary Carcinogen-induced amplification at the CupI locus, coding for a metallothionein protein, was studied in the yeast Saccharomyces cerevisiae. Exposure of cells from three different haploid strains, 4939, DBY746 and 320, to chemical carcinogens such as N-methyl-N-nitro-N-nitrosoguanidine (MNNG), ethylmethanesulfonate (EMS) and 4-nitroquinoline-N-oxide (4NQO) enhanced the frequency of copper-resistant colonies up to several hundred fold. Copper-resistant clones obtained from strains DBY746 and 320, which contain more than one copy of the CupI locus, displayed a four-to eightfold amplification of the CupI sequences. In these clones the amplified CupI sequences were organized in a tandem array. Carcinogen treatment of strain 4939 in which only one copy of the CupI gene is present produced resistant colonies without CupI amplification. The possible use of the yeast system to study gene duplication and amplification is discussed.     

Amplification of plasmid copy number by thymidine kinase expression in Saccharomyces cerevisiae

Summary A 2 m circle-based chimaeric plasmid containing the yeast LEU2 and the Herpes Simplex Virus type 1 thymidine kinase (HSV-1 TK) genes was constructed. Transformants grown under selective conditions for the LEU2 gene harboured the plasmid at about 15 copies per cell whilst selection for the HSV-1 TK gene led to an increase to about 100 copies per cell. Furthermore, the plasmid copy number could be controlled by the stringency of selection for the TK gene, and the increase in TK gene dosage was reflected in an increase in intracellular thymidine kinase activity. The mitotic stability of the plasmid in high-copy and low-copy number cells was determined. High-copy number cells showed a greater mitotic stability. The relationship of TK expression to plasmid copy number may be useful for the isolation of plasmid copy number mutants in yeast and the control of heterologous gene expression.     

Molecular biology of translation in yeast

The combination of genetic, molecular and biochemical approaches have made the yeastSaccharomyces cerevisiae a convenient organism to study translation. The sequence similarity of translation factors from yeast and other organisms suggests a high degree of conservation in the translational machineries. This view is also strengthened by a functional analogy of some proteins implicated in translation. Beautiful genetic experiments have confirmed existing models and added new insights in the mechanism of translation. This review summarizes recent experiments using yeast as a model system for the analysis of this complex process.     

走出青藏高原：拉格啤酒酵母的起源与演化

采用低温底层发酵的拉格(lager)啤酒15世纪开始在德国巴伐利亚地区出现,19世纪初流行至全世界,目前已成为全球产量最高的酒精饮料。目前已阐明,拉格啤酒发酵酵母为巴斯德酿酒酵母(Saccharomyces pastorianus),该种是一个杂交种,由艾尔(ale)啤酒酵母(Saccharomyces cerevisiae)与野生真贝氏酿酒酵母(Saccharomyces eubayanus)杂交而成,后者赋予了拉格啤酒酵母的耐低温能力。近年的群体遗传学和群体基因组学研究表明,拉格啤酒酵母的野生亲本S.eubayanus起源于青藏高原,可能通过丝绸之路传播到了欧洲。比较基因组学研究表明,拉格啤酒酵母包含2个株系,即Ⅰ系/Saaz系和Ⅱ系/Frohberg系,早期分别流行于中欧和西欧地区。前者为近似异源3倍体,后者为近似异源4倍体。2个株系在耐低温、麦芽三糖利用和风味物质产生能力等方面具有明显差异。在中国普通微生物菌种保藏管理中心(China General Microbiological Culture Collection Center,CGMCC)保藏的S.pastorianus...     

Selection in yeast I: Assessing genetic stability and relative fitness of commercial yeasts

Summary The potential for changes in allele frequencies in yeast populations by selection was examined. Cells from the wine yeastSaccharomyces cerevisiae (strain Montrachet) were grown over a large number of generations using two different culturing techniques, each with two variations: serial transfers on WLN agar plates with and without UV irradiation, and continuous culture in autoclaved and in filter-sterilized grape must. A low frequency of variant isozyme patterns was found in samples taken at the end of the experiment. Growth rates in must and on agar plates were also examined, and it was found that all samples were faster-growing than the original strain, to varying degrees. Applications for the selection system developed are discussed.     

Accumulation and secretion of exoglucanase activity in yeast secretory mutants

Representative conditional yeast secretory mutants, blocked in transport of secretory and plasma membrane proteins from the endoplasmic reticulum (sec 18), from the Golgi body (sec 7) and in transport of secretory vesicles (sec 1), accumulated exoglucanase, a constitutive yeast activity, when incubated at the restrictive temperature (37°C). Different proportions of the accumulated activity were released by mutant cells under permissive conditions. The presence or absence of cycloheximide during the secretion period made no differences in the results. More than 90% of the internal activity was bound to membrane in wild type cells. However, only the soluble pool underwent changes during the accumulation or secretion periods. The bulk of secretory invertase accumulated by sec 1 was also soluble. By contrast sec 7 and sec 18 accumulated membrane-bound as well as soluble invertase forms and both were secreted in similar proportions in each mutant. More than 90% of the accumulated invertase was secreted at the permissive temperature in sec 18 cells. That percentage was significantly lower for exoglucanase (<65%). Concomitantly, invertase accumulated by this mutant exited from the cells with a lower half time (t 1/2=150 min). These results may be interpreted assuming that exoglucanase is exported by a passive flow of the soluble pool.Non-standard abbreviations p-NPG p-nitrophenyl--d-glucopyranoside - Con A concanavalin A - Tris tris(hydroxymethyl)-amino-methane     

PKA-dependent regulation of Cdc25 RasGEF localization in budding yeast

In Saccharomyces cerevisiae the Cdc25/Ras/cAMP pathway is involved in cell growth and proliferation regulation. Ras proteins are regulated by Ira1/2 GTPase activating proteins (GAPs) and Cdc25/Sdc25 guanine nucleotide exchange factors (GEFs).Most of cytosolic Cdc25 protein was found on internal membranes in exponentially growing cells, while upon incubation in a buffer with no nutrients it is re-localized to plasma membrane. The overexpression of Tpk1 PKA catalytic subunit also induces Cdc25 export from the nucleus, involving two serine residues near the Nuclear Localization Site (NLS): mutation of Ser⁸²⁵ and Ser⁸²⁶ to glutamate is sufficient to exclude physiologically expressed Cdc25 from the nucleus, mimicking Tpk1 overproduction effect. Mutation of these Ser residues to Ala abolishes the effect of nuclear export induced by Tpk1 overexpression on a Cdc25eGFP fusion. Moreover, mutation of these residues affects PKA-related phenotypes such as heat shock resistance, glycogen content and cell volume.     

Donation: a new, facile method of gene replacement in yeast

Summary We describe here a new method for the introduction of non-selectable alleles into Saccharomyces cerevisiae, gene replacement by donation. This method only requires the availability of an autonomously replicating, selectable plasmid containing the allele to be introduced into yeast. The plasmid is digested at a restriction site (or sites) within this allele, and introduced into yeast by transformation. In the course of double-strand break repair, the entering plasmid donates genetic information to the chromosome, replacing the chromosomal allele in a gene conversion-like event. Gene replacement events are identified by a phenotypic screen of the transformants. When necessary, the transforming plasmid may be subsequently lost by segregation during permissive growth. We have studied several parameters affecting the utility of this protocol as a method of gene replacement. Together with our previous results, the results show gene replacement by donation to be a useful, facile method, yielding gene replacement in up to 1.5% of transformants.     

The role of glutathione in yeast dehydration tolerance

Among the factors that affect cell resistance against dehydration, oxidation is considered to be of great importance. In this work, we verified that both control and glutathione deficient mutant strains were much more oxidized after dehydration. Moreover, cells lacking glutathione showed a twofold higher increase in oxidation and lipid peroxidation than the control strain. While glucose 6-phosphate dehydrogenase and glutathione reductase activities did not change in response to dehydration in the control strain, the mutant strain gsh1 (glutathione deficient) showed a reduction of 50% in both activities, which could explain the high levels of oxidation shown by gsh1 cells. In conformity with these results, the mutant lacking GSH1 showed a high sensitivity to dehydration. Furthermore, the addition of glutathione to gsh1 cells restored survival rates to the levels of the control strain. We conclude that glutathione plays a significant role in the maintenance of intracellular redox balance during dehydration.     

Analytical differentiation of wine fermentations using pure and mixed yeast cultures

Summary Thirty-three fermentations of Pedro Ximénez grapes, collected in three degrees of ripeness, were carried out by inoculation with three types of inoculum: pure cultures ofSaccharomyces cerevisiae races and ofTorulaspora delbrueckii, indigenous yeasts, and mixed cultures of indigenous yeasts enriched with the pure cultures. By means of variance analysis 21 compounds were determined whose final concentrations in the wines significantly depended on the musts, the inocula or both. Eleven products that depended significantly on the inocula were subjected to a discriminant analysis in which most of the pure cultures gathered in a discriminant space area different from that occupied by the indigenous yeasts. The centroids corresponding to most of the mixed cultures were shifted to the central area of the discriminant space, moved away from their corresponding pure cultures and approached the indigenous yeasts. The results show a high similarity between the fermentations carried out with mixed cultures with the addedS. cerevisiae races and those fermentations carried out with the indigenous yeasts, with regard to those compounds which were significantly dependent on the inocula.     

Comparative assay of amyloid and prion contents in yeast cells

Amyloid contents were quantitatively assayed in crude yeast lysates treated with thioflavin T that specifically stained amyloid fibrils. We demonstrated that guanidine hydrochloride (GuHCl) treatment and overexpression of Hsp104p chaperone resulted in the elimination of the [PSI ⁺] factor and that the stable decline in amyloid contents followed from the reduced fluorescence intensity (IF) of thioflavin T. Overexpression of the SUP35 gene coding the protein prionizable to [PSI ⁺] results in the generation of [PSI ⁺] clones with increased thioflavin T IF. Transmission of [PSI ⁺] factor by cytoduction in crossings of recipients with low IF was also accompanied by stable IF enhancement in cytoductants, indicating enriched amyloid contents. Thus, in model experiments, modifying the quantity of [PSI ⁺] factor, a yeast prion amyloid, the change in thioflavin T IF corresponds to the expected shift in amyloid contents, the IF shift behaving as a cytoplasm hereditary determinant. It is concluded that thioflavin T IF allows for the quantitative estimation of amyloid contents in cells. The stable mitotic IF shift induced by agents affecting the prion composition permits the quantitative evaluation of prion contribution into amyloid pool. It is possible to assume that the monitoring of thiophlavin T IF shifts under the exposure of agents affecting prion pattern may be helpful to disclose previously unknown prions in yeast strains.     

Localization of a cruciform cutting endonuclease to yeast mitochondria

We have found a cruciform cutting endonuclease in the yeast, Saccharomyces cerevisiae, which localizes to the mitochondria. This activity apparently is associated with the mitochondrial inner membrane since the activity is not released into solution by osmolysis, in contrast to the matrix enzyme, isocitrate dehydrogenase. The cruciform cutting activity appears to be encoded by CCE1. This gene has been shown to encode one of the major cruciform cutting endonucleases present in a yeast cell. In ccel strains, which lack CCE1 endonuclease activity, the mitochondrial cruciform cutting endonucleolytic activity is also absent. Since CCE1 is allelic to MGT1, a gene required for the highly biased transmission of petite mitochondrial DNA in crosses between ⁺ and hypersuppressive ^– cells, it seems likely that the CCE1 endonuclease functions within mitochondria.     

On the performances of noise filters in the restoration of oscillatory behavior in continuous yeast cultures

Continuous flow microbial fermentations under industrial conditions are subject to the influx of noise, mainly through the feed stream. Noise upsets the normal deterministic behavior. For continuous cultures of Saccharomyces cerevisiae exhibiting oscillatory responses, four kinds of commonly used noise filters, three algorithmic and one neural, have been compared for their ability to restore noise-free oscillations. An auto-associative neural filter was the best, similar to earlier observations for other organisms under non-oscillatory conditions. This enhances the general applicability of neural filters for industrial scale fermentations.     

Enhanced stability in vivo of a thermodynamically stable mutant form of yeast iso-1-cytochrome c

Previous work has established that the N57I amino acid replacement in iso-1-cytochrome c from the yeast Saccharomyces cerevisiae causes an unprecedented increase in thermodynamic stability of the protein in vitro, whereas the N57G replacement diminishes stability. Spectrophotometric measurements of intact cells revealed that the N57I iso-l-cytochrome c is present at higher than normal levels in vivo. Although iso-1-cytochrome c turnover is negligible during aerobic growth, transfer of fully derepressed, aerobically grown cells to anaerobic growth conditions leads to reduction in the levels of all of the cytochromes. Pulsechase experiments carried out under these anaerobic conditions demonstrated that the N57I iso-l-cytochrome c has a longer half-life than the normal protein. This is the first report of enhanced stability in vivo of a mutant form of a protein that has an enhanced thermodynamic stability in vitro. Although the N57I protein concentration is higher than the normal level, reduced growth in lactate medium indicated that the specific activity of this iso-l-cytochrome c in vivo is diminished relative to wild-type. On the other hand, the level of the thermodynamically labile N57G iso-1-cytochrome c was below normal. The in vivo levels of the N57I and N57G iso-l-cytochrome c suggest that proteins in the mitochondrial intermembrane space can be subjected to degradation, and that this degradation may play a role in controlling their normal levels.     

Shochu brewing characteristics and properties of a trichothecin-resistant shochu yeast mutant

An antibiotic-resistant strain of Saccharomyces cerevisiae was isolated from shochu yeast. Three mutants were used for shochu brewing and gave higher ethanol productivities than the parent. The mutants were resistant to cycloheximide, cerulenin, trichothecin and other organic compounds such as lauric acid. In the presence of 20% (v/v) ethanol, the viability of the mutants was 87–96%, but that of the parent was 77%. Zymolyase treatment for 3 h, decreased the viability of the parent by 44% but that of the mutants only by 11–32%. Thus the higher ethanol productivity of these mutants is related to their high ethanol tolerance and resistance to various organic compounds.     

Genetic analysis of inducible sexual agglutination ability in the yeast Saccharomyces cerevisiae

Genetic regulation of the inducibility of sexual agglutination ability in the yeast Saccharomyces cerevisiae was studied. Detailed analysis of the degree of sexual agglutination was carried out; it showed that a greater number of genes are involved in the regulation of inducible sexual agglutination in strain H1-0 than previously assumed. Although dominancy of inducible phenotype over constitutive was confirmed, the effectiveness of one gene changing the constitutive phenotype to the inducible seemed to be somewhat low. Quantity per cell of agglutination substances responsible for sexual agglutination increased as the agglutination ability became greater.     

Mating reaction in yeast protoplasts

Protoplasts prepared from complementary haploid strains ofSaccharomyces cerevisiae were studied with regard to their ability of conjugating. Neither fresh protoplasts nor the growing protoplasts possessing fibrillar walls exhibited sex specific agglutination or fusion. However, they were capable of inducing sexual activation in normal cells of opposite mating type. After completing the regeneration of cell walls the protoplasts could conjugate either with each other or with cells of opposite sex. The frequency of conjugations was low, about 1%, and was largely dependent on the degree of completition of the wall during regeneration. From the results the following conclusions may be drawn: 1. The initiation of mating is dependent on the integrity of the cell wall. 2. The sex specific morphogenetic changes do not occur in wall-less protoplasts but may happen after the protoplasts have regenerated their cell walls. 3. The lysis of cell walls does not occur until the walls come into close contact. 4. The fusion of plasma membranes in sex-activated protoplasts cannot be induced by artefucial agglutination.