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1.
Michio Tsuboi 《Archives of microbiology》1976,111(1-2):13-19
The turnover of nucleic acids and changes in ribonuclease activity during sporulation of Saccharomyces cerevisiae were studied. In the sporulating strains, 37–58% of vegetatively synthesized RNA were degraded during the sporulation process. The degree of degradation of vegetative RNA was proportional to the sporulation ability. In the non-sporulating strains, the degradation of vegetative RNA was less than 28% in the sporulation medium. Accompanied by the degradation of vegetative RNA, a ribonuclease activity increased several times during sporulation. We have found a close relation among the sporulation rate, the degree of the degradation of vegetative RNA and the increase in ribonuclease activity in the sporulation medium, using cells of which sporulation ability was repressed by changing the age or carbon source in various degrees. 相似文献
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Yeast filamentous actin (F-actin) exists mainly as patches and cables. Previously, we investigated the behavior of F-actin
during sporulation of Zygosaccharomyces rouxii and found a novel actin ring localized around the spore periphery in zygotic asci at a late stage of sporulation. To clarify
whether the actin rings are also formed in sporulation in the model yeast Saccharomyces cerevisiae, we observed the distribution of F-actin in sporulating S. cerevisiae by rhodamine-phalloidin staining and confocal laser scanning microscopy. Ringlike actin structures were detected at the peripheral
regions of S. cerevisiae spores in globose asci. When asci of S. cerevisiae were induced to become zygotic, actin rings were more obvious than those in globose asci. These results indicate that S. cerevisiae forms characteristic actin ring structures at a late stage of sporulation, similarly to Z. rouxii. 相似文献
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A kinetic model for glucose and xylose co-substrate uptake in Saccharomyces cerevisiae is presented. The model couples the enzyme kinetics with the glucose-dependent genetic expression of the individual transport proteins. This novel approach implies several options for optimizing the co-substrate utilization. Interestingly, the simulations predict a maximum xylose uptake rate at a glucose concentration >0 g/L, which suggests that the genetic expressions of the considered transport proteins are of importance when optimizing the xylose uptake. This was also evident in fed-batch simulations, where a distinct optimal glucose addition rate >0 g/L x h was found. Strategies for improving the co-substrate utilization by genetic engineering of the transport systems are furthermore suggested based on simulations. 相似文献
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G. R. Zealey A. R. Goodey J. R. Piggott M. E. Watson R. C. Cafferkey S. M. Doel B. L. A. Carter A. E. Wheals 《Molecular & general genetics : MGG》1988,211(1):155-159
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. 相似文献
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The cloning of α-amylase gene ofS. occidentalis and the construction of starch digestible strain of yeast,S. cerevisiae AS. 2. 1364 with ethanol-tolerance and without auxotrophic markers used in fermentation industry were studied. The yeast/E.coli shuttle plasmid YCEp1 partial library ofS. occidentalis DNA was constructed and α-amylase gene was screened in S.cerevisiae by amylolytic activity. Several transformants with amylolysis were obtained and one of the fusion plasmids had an about 5.0
kb inserted DNA fragment, containing the upstream and downstream sequences of α-amylase gene fromS. occidentalis. It was further confirmed by PCR and sequence determination that this 5.0 kb DNA fragment contains the whole coding sequence
of α-amylase. The amylolytic test showed that when this transformant was incubated on plate of YPDS medium containing 1 %
glum and 1 % starch at 30°C for 48 h starch degradation zones could be visualized by staining with iodine vapour. α-amylase
activity of the culture filtratate is 740–780 mU/mL and PAGE shows that the yeast harboring fusion plasmids efficiently secreted
α-amylase into the medium, and the amount of the recombinant α-amylase is more than 12% of the total proteins in the culture
filtrate. These results showed that α-amylase gene can be highly expressed and efficiently secreted inS. cerevisiae AS. 2.1364, and the promotor and the terminator of α-amylase gene fromS. occidentalis work well inS. cercvisiac AS. 2.1364. 相似文献
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Saccharomyces cerevisiae is frequently used in biotechnology, including fermentative processes in food production, heterologous protein production
and high throughput developments for biomedicine. Accurate expression of selected genes is essential for all these areas.
Systems that can be regulated are particularly useful because they allow controlling the timing and levels of gene expression.
We examine here new expression systems that have been described, including improvements of classical ones and new strategies
of artificial gene control that have been applied in functional genomics. 相似文献
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Although suggested in some studies, the mutagenic effect of freezing has not been proved by induction and isolation of mutants. Using a well-defined genetic model, we supply in this communication evidence for the mutagenic effect of freezing on mitochondrial DNA (mtDNA) of the yeast Saccharomyces cerevisiae. The cooling for 2 h at +4 degrees C, followed by freezing for 1 h at -10 degrees C and 16 h at -20 degrees C resulted in induction of respiratory mutations. The immediate freezing in liquid nitrogen was without mutagenic effect. The study of the stepwise procedure showed that the induction of respiratory mutants takes place during the freezing at -10 and -20 degrees C of cells pre-cooled at +4 degrees C. The genetic crosses of freeze-induced mutants evidenced their mitochondrial rho- origin. The freeze-induced rho- mutants are most likely free of simultaneous nuclear mutations. The extracellular presence of cryoprotectants did not prevent the mutagenic effect of freezing while accumulation of cryoprotectors inside cells completely escaped mtDNA from cryodamage. Although the results obtained favor the notion that the mutagenic effect of freezing on yeast mtDNA is due to formation and growth of intracellular ice crystals, other reasons, such as impairment of mtDNA replication or elevated levels of ROS production are discussed as possible explanations of the mutagenic effect of freezing. It is concluded that: (i) freezing can be used as a method for isolation of mitochondrial mutants in S. cerevisiae and (ii) given the substantial development in cryopreservation of cells and tissues, special precautions should be made to avoid mtDNA damage during the cryopreservation procedures. 相似文献
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K. S. Karthikeyan H. Polasa K. Sivarama Sastry Gopal Reddy 《Indian journal of microbiology》2008,48(3):397-400
Saccharomyces cerevisiae which cannot utilize lysine as a sole nitrogen source is shown to metabolize a Lysine 3 Cr3+ (1:1) complex synthesized, as a combined nitrogen and carbon source. It induces rapid uptake of lysine and prevents loss of viability, in contrast with free lysine. That complexation with trivalent chromium has the effect of profoundly influencing intracellular distribution and metabolism of the liganded amino acid is demonstrated. 相似文献
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Invertase liberation from Saccharomyces cerevisiae was detected after application of series of rectangular millisecond electric pulses. Maximal yield (60% from the activity in crude extract) was achieved within 8 h after pulsation. As shown by staining SDS-PAGE for invertase activity, the main part of liberated enzyme is a high molecular weight periplasmic invertase. 相似文献
15.
Papaemmanouil V Georgogiannis N Plega M Lalaki J Lydakis D Dimitriou M Papadimitriou A 《Anaerobe》2011,(6):298-299
Saccharomyces cerevisiae is an ascomycetous yeast, that is traditionally used in wine bread and beer production. Vaginitis caused by S. cerevisiae is rare.The aim of this study was to evaluate the frequency of S. cerevisiae isolation from the vagina in two groups of women and determined the in vitro susceptibility of this fungus.
Subjects and methods
Vaginal samples were collected from a total of262 (asymptomaticandsymptomatic) women with vaginitis attending the centre of family planning of General hospital ofPiraeus. All blastomycetes that isolated from the vaginal samples were examined for microscopic morphological tests and identified by conventional methods: By API 20 C AUX and ID 32 C (Biomerieux). Antifungal susceptility testing for amphotericin B,fluconazole itraconazole,voriconazole, posaconazole and caspofungin was performed by E -test (Ab BIODIKS SWEDEN) against S. cerevisiae.Results
A total of 16 isolates of S. cerevisiae derived from vaginal sample of the referred women, average 6.10%. Susceptibility of 16 isolates of S. cerevisiae to a variety of antimycotic agents were obtained. So all isolates of S. cerevisiae were resistant to fluconazole, posaconazole and intraconazole, but they were sensitive to voriconazole caspofungin and Amphotericin B which were found sensitive (except 1/16 strains). None of the 16 patients had a history of occupational domestic use of baker’s yeast.Conclusions
Vaginitis caused by S. cerevisiae occur, is rising and cannot be ignored. Treatment of Saccharomyces vaginitis constitutes a major challenge and may require selected and often prolonged therapy. 相似文献16.
We have quantified yeast carbon and oxygen consumption fluxes and estimated anabolic fluxes through glyoxylate and gluconeogenic pathways under various conditions of sporulation on acetate. The percentage of sporulation reached a maximum of 55% to 60% after 48 h in sporulation medium, for cells harvested from logarithmic growth in acetate minimal medium. When cells were harvested in the stationary phase of growth before transfer to sporulation medium, the maximum percentage of sporulation decreased to 40% along with the occurrence of meiosis as could be judged by counting of bi- and tetra-nucleated cells. In both experiments, the rates of acetate and oxygen consumption decreased as a function of time when exposed to sporulation medium. Apparently, the decrease of metabolic rates was not due to alkalinization. By systematically varying the cell concentration in sporulation medium from 1.4×107 to 20×107 cell ml-1, the percentage of sporulating cells was found to decrease in parallel with the rate of acetate consumption. When the sporulation efficiency attained under the different experimental conditions was plotted as a function of the rate of acetate consumption, a linear correlation was found. Anabolic fluxes estimation revealed a decrease of the rate through gluconeogenic and glyoxylate pathways occurring during sporulation progression. The pattern of metabolic fluxes progressively evolved toward a predominance of more oxidative catabolic fluxes than those exhibited under growth conditions. The results obtained are discussed in terms of a characteristic pattern of metabolic fluxes and energetics, associated to the development of yeast sporulation.Abbreviations DAPI
4,6-diamidino-2-phenylindole
- dw
dry weight
- OD540
optical density at 540 nm
- SEM
standard error of the mean
- RQ
respiratory quotient 相似文献
17.
A. Hasilik 《Archives of microbiology》1974,101(1):295-301
The activity of chitin synthase extracted from whole cells of Saccharomyces cerevisiae shows reproducible changes during the course of batch cultivation. During exponential growth 5–10% of the enzyme occurs in the active form, whereas in the stationary phase no active enzyme can be detected. Of three yeast proteinases, A, B and C, only B is able to activate pre-chitin synthase and inactivate chitin synthase. A new model of the regulation is presented which accounts for the specific location as well as for termination of chitin synthesis during the budding cycle.These results were reported at the 4th International Symposium on Yeasts in Vienna, July 1974, and are part of doctoral thesis by A.H., University Freiburg (1974). 相似文献
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Malcov M Cesarkas K Stelzer G Shalom S Dicken Y Naor Y Goldstein RS Sagee S Kassir Y Don J 《Developmental biology》2004,276(1):111-123
Our understanding of the molecular mechanisms that operate during differentiation of mitotically dividing spermatogonia cells into spermatocytes lags way behind what is known about other differentiating systems. Given the evolutionary conservation of the meiotic process, we screened for mouse proteins that could specifically activate early meiotic promoters in Saccharomyces cerevisiae yeast cells, when fused to the Gal4 activation domain (Gal4AD). Our screen yielded the Aym1 gene that encodes a short peptide of 45 amino acids. We show that a Gal4AD-AYM1 fusion protein activates expression of reporter genes through the promoters of the early meiosis-specific genes IME2 and HOP1, and that this activation is dependent on the DNA-binding protein Ume6. Aym1 is transcribed predominantly in mouse primary spermatocytes and in gonads of female embryos undergoing the corresponding meiotic divisions. Aym1 immunolocalized to nuclei of primary spermatocytes and oocytes and to specific type A spermatogonia cells, suggesting it might play a role in the processes leading to meiotic competence. The potential functional relationship between AYM1 and yeast proteins that regulate expression of early meiotic genes is discussed. 相似文献
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Beside being an ordinary fermenter, the present equipment was conceived to sample the medium, to store the samples and to record photographs of the yeasts. Ten sensors were used to measure gas exchanges. During the growth of ScM1 (a Saccharomyces cerevisiae strain) on glucose, we could observe two different linear decreases of CO2 production rates (18.17±0.12 mmol CO2 h–2 (g biomass)–1 and 8.67±0.12 mmol CO2 h–2 (g biomass)–1), together with a sudden variation of slope during the respiro-fermentative phase. Nomenclature
Fin
InletairFlowl
h
–1 Fout
OutletgasFlowl
h
–1 in
Inletairtemperature°Cout
Outletgastemperature°CP
atm
AtmosphericPressuremmHgP
in
InletairOverPressuremmHgP
out
OutletgasOverPressuremmHgDODissolvedO
2 mg l–1 pO2
PartialPressureO
2 in Outlet gas % (v/v) pCO2
PartialPressureCO
2 in Outlet gas % (v/v) Int(t) Whole number of hours 相似文献