Macromolecular Synthesis in Saccharomyces cerevisiae in Different Growth Media

Synthesis of ribonucleic acid (RNA), deoxyribonucleic acid (DNA), and protein was determined in Saccharomyces cerevisiae during amino acid and pyrimidine starvation and during shift-up and shift-down conditions. During amino acid starvation, cell mass, cell number, and RNA continued to increase for varying periods. During amino acid and pyrimidine starvation, cell mass and RNA showed little increase, whereas total DNA increased 11 to 17%. After a shift from broth medium to a minimal defined medium, increase in RNA and protein remained at the preshift rate before assuming a lower rate. DNA increase remained at an intermediate rate during shift-down, and then dropped to a low rate. During shift-up from minimal to broth medium, increase in cell number, protein, and DNA showed varying lag periods before increasing to the new rate characteristic of broth medium; each of these quantities exhibited a step sometime in the first 2 hr after transfer to rich medium, suggesting a partial synchronous division. Immediately after shift-up, RNA synthesis assumed a high rate, and then dropped to a rate characteristic of growth in the rich medium after about 1 hr.     

Enterotoxin B Synthesis by Replicating and Nonreplicating Cells of Staphylococcus aureus

Although 95% of the enterotoxin B produced by Staphylococcus aureus appears during the latter part of the exponential phase of growth, growth per se is not necessary for toxin synthesis. A procedure is described whereby a concentrated suspension (at least 6 x 10(10) cells per ml) of a 16-hr culture of S. aureus was found to be capable of producing toxin, without replication, when air and glucose were present. This technique allows the growth requirement to be separated from toxin formation. Although higher (100 mug/ml) concentrations of toxin appeared in the medium when nitrogen was present, lower levels (30 mug/ml) were produced in the absence of N-Z-amine A. Toxin production proceeded without any net increase in deoxyribonucleic acid, ribonucleic acid, or protein. Chloramphenicol did not inhibit toxin formation in a nitrogen-free medium. The optimal pH for toxin production in a nitrogen-free medium was 8.0 to 8.5; for synthesis in a medium where nitrogen was available, the optimal pH was 7.0 to 7.5. Increasing the rate of aeration increased toxin release during growth, but decreased the amount of toxin subsequently produced when the bacteria were resuspended. These results suggest the presence of a precursor pool in the cells collected after 16 hr of growth.     

Batch Production of Protein from Ethane and Ethane-Methane Mixtures

A culture of Graphium grows upon natural gas and a mineral salt solution. Ethane is the preferred substrate but methane is co-utilized. A stirred-tank type fermentor was used to study batch growth. Maximum production rate of biomass was 80 mg/liter.hr, at pH 4, using simple synthetic supporting medium with ammonium sulfate as a nitrogen source. This rate was observed after 40 hr of fermentation. A doubling time of 3.7 hr was observed. The corresponding specific growth rate was 0.187 per hr. A magnetic drive fermentor was used to study the effect of continuous recycle of gases in a gas-tight system. The rate of oxygen utilization is approximately 2.1 times higher than for ethane. Oxygen must not be allowed to become limiting in recycle gases. The calculated efficiency of overall biomass synthesis averages 30%. Hyphal and unicellular tissue of Graphium contains 52% protein. It compares favorably with standard FAO protein in its content of amino acids.     

Nutrition of eidamella deflexa. IV. Rate of utilization of sugar and amino nitrogen compared with rate of growth and pigment elaboration

Summary The rate of utilization byEidamella deflexa of non-protein nitrogen and dextrose equivalent (reducing sugar) was investigated in each of two media, and compared with rates of growth and pigment elaboration. In a glycine-maltose basal medium the depletion curves for nitrogen and D.E. followed a similar pattern, with the lowest point on the curves corresponding to the period of maximum production of cellular material. With autolysis of cells there was a definite increase in D.E. and a slight increase in amino nitrogen in the medium. In a peptone-sucrose medium both D.E. and amino nitrogen were removed from the medium at a more or less similar and constant rate, but the final amount of each remaining in the medium after eleven days was considerably less than that in the glycinemaltose medium although the latter medium permitted greater growth and pigment elaboration. There seemed to be no correlation between rates of utilization of nitrogen and sugar and the period of maximum growth in the sucrose-peptone medium. In neither medium was there an apparent relation between the rate of onset of pigment production and the rate of utilization of nitrogen and sugar.     

Cysteamine supplementation during in vitro maturation and embryo culture: a useful tool for increasing the efficiency of bovine in vitro embryo production

Cysteamine when added during in vitro maturation (IVM) or in vitro embryo culture (IVC) stimulates glutathione (GSH) synthesis and improves embryo developmental rates. This suggests that GSH synthesis is decreased in the in vitro produced embryo. The present study was carried out to evaluate if addition of cysteamine to culture medium at the same time, during IVM and IVC of bovine oocytes, may promote an overall improvement on the developmental rate and embryo quality. Oocytes were matured in TCM 199 supplemented with 10% (v/v) fetal calf serum, hormones, and 0 or 100 microM of cysteamine for 24 hr. After IVM, the oocytes were fertilized (day 0). Day 2 embryos (2-8 cell) were washed and transferred to fresh IVC medium supplemented with 0, 25, 50, or 100 microM of cysteamine and cultured for 48 hr. After this, embryos were cultured in IVC medium without cysteamine until day 8 of IVC. In the present study, we confirmed our previous results by demonstrating that the percentage of embryos that developed to the blastocyst stage was significantly higher (P < 0.05) when 100 microM of cysteamine was added during IVM, and this was further improved when 100 and 50 microM of cysteamine where present during IVM and IVC, respectively (P < 0.05). After cryopreservation, no differences were observed on embryo development, but a significant increase on embryo hatching was found between unsupplemented and supplemented oocytes with 100 and 50 microM of cysteamine during IVM and IVC, respectively (P < 0.05). We can conclude that GSH synthesis stimulation during bovine IVM with cysteamine, concomitant with GSH stimulation during IVC, will be a useful and simple tool for increasing the efficiency of in vitro bovine embryo production.     

Studies on the energy metabolism of opossum (Didelphis Virginiana) erythrocytes. I. Utilization of carbohydrates and purine nucleosides

Opossum erythrocytes filtered through cellulose columns were used to estimate their permeability to D-glucose and optimum inorganic phosphate requirement for D-glucose utilization at pH 7.4 and 8.1. D-Glucose readily penetrated opossum red cells; there was no measurable difference whether plasma or electrolyte solution served as the suspending medium. Optimum extracellular inorganic phosphate concentration for glucose utilization as indicated by red cell lactate production was pH-dependent, with a sharp optimum of 30 mmol/liter at pH 8.1. Whereas glucose, fructose, mannose, dihydroxyacetone, adenosine, and inosine were readily utilized at pH 7.4 and Pi 30 mmol/liter as shown by net lactate and ATP production by the red cells, galactose and ribose as substrates were not metabolized. In electrolyte, Pi 30 mmol/liter, and pH 7.4 glucose utilization by opossum red cells averaged 3.5 mumol, at pH 8.1, 9.5 mumol/ml cells/hr were utilized. Red cells suspended in leukocyte-free plasma utilized D-glucose at a rate of 3.0 mumol/ml/hr at pH 7.5. Seven percent of D-glucose flowed through the pentose phosphate pathway; this rate increased 11-fold by methylene blue stimulation. The amount of D-glucose recycled through the pentose phosphate pathway increased 300-fold in the presence of the redox dye.     

Extracellular protease production fromXenorhabdus nematophilus, a symbiotic bacterium of entomopathogenic nematodes

Effects of nutrients and growth temperature on the production of an extracellular protease fromXenorhabdus nematophilus, a symbiotic bacterium of entomopathogenic nematodes were studied for batch culture. Tryptone and fructose were most effective nitrogen and carbon sources to produce high level of the protease within 24–28 hr of incubation. The stability of protease was poor during the incubation of the bacteria. The protease activity increased in parallel with cell growth then decreased significantly for extended culture periods of the bacteria over 48 hr at 22–30°C. Autolysis of the protease was not a major cause for the decreased protease activity since no decrease in the protease activity was observed for the whole culture broth of the bacteria which was stored up to 80 hr at 4°C.     

THE EFFECTS OF PLANT GROWTH SUBSTANCES ON IN VITRO FIBER DEVELOPMENT FROM FERTILIZED COTTON OVULES

Cotton ovules were aseptically removed from ovaries 48 hr after anthesis and floated on the surface of liquid medium. Plant growth substances were filter sterilized and added to the medium in which glucose was the principal source of carbohydrate and KNO₃ the sole source of nitrogen. The amount of total fiber produced from the ovule surface was determined colorimetrically from the intensity of a destaining solution to which the ovules had been transferred following their 15-second emersion in a solution of toluidine blue O. Gibberellic acid induced a marked stimulation and kinetin and abscisic acid a marked inhibition of fiber production from fertilized cotton ovules. Indoleacetic acid afforded only a trend of stimulation of fiber production. Gibberellic acid overcame the inhibition of total fiber production induced by both kinetin and abscisic acid. Indoleacetic acid did not overcome the inhibition of total fiber production induced by kinetin but did, to a great extent, overcome the inhibition due to abscisic acid.     

Use of catabolic repression in the selection of the glucoamylase-producer Aspergillus niger

The effect of various carbon sources and cAMP on the glucoamylase synthesis in Aspergillus niger was studied to find carbon sources repressed the enzyme synthesis and conditions for the selection of catabolite stable mutants. Maltose at a concentration of 0.5% stimulated the glucoamylase synthesis, but at a concentration of 4% it repressed not only the enzyme synthesis but the growth of the parental strain on the agar medium. The more active mutant 66 was obtained as a result of treatment of Asp. niger st 6 with NG. This mutant is able to grow on the Czapek's medium containing maltose at concentrations 4 or 6%. The mutant 66 produced about 2.9 times more glucoamylase than its parent when maltose was added at 0.5% concentration to the medium. The glucoamylase synthesis in the parental strain was completely repressed under repressing conditions, while the level of the mutant strain activity was 35% from the level of enzyme activity on the medium without the repressor. The addition of cAMP (5.10(-5] resulted in a partial release of maltose (4%) repression of the glucoamylase synthesis in both strains. The results obtained indicate a possibility to select Asp niger mutants with the partially derepressed glucoamylase synthesis. Other regulation mechanisms in addition to catabolite repression may be involved in the regulation of the glucoamylase synthesis.     

Gratuitous Synthesis of β-Lactamase in Staphylococcus aureus

The synthesis of beta-lactamase in response to 2-(2'-carboxyphenyl)-benzoyl-6-aminopenicillanic acid as inducer was studied in Staphylococcus aureus. The inducer was not detectably hydrolyzed by beta-lactamase and had minimal antibacterial activity. The kinetics of induction showed a lag of 4 to 6 min in a nutrient broth medium and 8 to 12 min in a defined medium, followed by constant differential rates of synthesis of beta-lactamase. The differential rate of beta-lactamase synthesis in nutrient broth was unaltered by supplementing the medium with glucose, galactose, lactose, arabinose, glycerol, or sucrose. Variations in the partial pressure of oxygen did not alter the differential rate of synthesis of beta-lactamase over the range 18 to 50% oxygen in nitrogen. Even when the rate of growth was considerably reduced by high-oxygen tension, the differential rate of synthesis of the enzyme remained the same. The differential rate of beta-lactamase synthesis at low inducer concentration increased after a shift down in growth rate. The effect was observed with several inducers and under different nutritional conditions, but was always preceded by a change in growth rate. It is suggested that the change in growth rate itself causes the increase in differential rate of beta-lactamase synthesis.     

Catabolite repression in Streptomyces venezuelae. Induction of beta-galactosidase, chloramphenicol production, and intracellular cyclic adenosine 3',5'-monophosphate concentrations

Chloramphenicol production was studied in cultures of Streptomyces venezuelae growing in a simple buffered medium with ammonia as the nitrogen source and glucose, lactose, or a glucose-lactose mixture as the sole source of carbon. With each carbon source the antibiotic was formed during growth. In the glucose-lactose medium, the production pattern was biphasic; a marked decrease in the rate of synthesis was associated with depletion of glucose from the medium and a corresponding diauxie pause in growth. Cells of S. venezuelae contained an inducible beta-galactosidase. Induction by lactose was suppressed by glucose. Measurement of the concentration of intracellular adenosine 3',5'-cyclic monophosphate during growth of cultures with glucose or a glucose-lactose mixture as the source of carbon showed no appreciable changes coinciding with depletion of glucose or the onset of chloramphenicol biosynthesis. It is concluded that the cyclic nucleotide does not mediate selective nutrient utilization or control antibiotic biosynthesis in this organism.     

Fermentation of corn starch to ethanol with genetically engineered yeast

Expression of the glucoamylase gene from Aspergillus awamori by laboratory and distiller's strains of Saccharomyces cerevisiae allowed them to ferment soluble starch. Approximately 95% of the carbohydrates in the starch were utilized. Glycerol production was significantly decreased when soluble starch was used instead of glucose. Ethanol yield on soluble starch was higher than that on glucose. The rate of starch fermentation was directly related to the level of glucoamylase activity. Strains with higher levels of glucoamylase expression fermented starch faster. The decline in starch fermentation rates toward the end of the fermentation was associated with accumulation of disaccharides and limit dextrins, poor substrates for glucoamylase. The buildup of these products in continuous fermentations inhibited glucoamylase activity and complete utilization of the starch. Under these conditions maltose-fermenting strains had a significant advantage over nonfermenting strains. The synthesis and secretion of glucoamylase showed no deleterious effects on cell growth rates, fermetation rates, and fermentation products.     

Effect of the products of the vital activity of yeast-like fungi on levorin synthesis

The effect on levorin synthesis of the cells and fermentation broth filtrates of Candida tropicalis after their cultivation in the fermentation medium was studied. It was found that the yeast-like fungi belonging to Candida excreted during their development some products capable of stimulating the synthesis of levorin by 40--60 per cent. When the actinomycete producing levorin was grown on the medium containing 80 per cent of the filtrate the level of levorin synthesis was the same as that observed with mixed cultivation of the actinomycete and C. tropicalis. The study on the conditions providing accumulation of the stimulating substances showed the following: production of the stimulating substances started during the first hours of the yeast growth and reached its maximum by the 48th hour, these substances being consumed by the actinomycete during the fermentation process. Aeration is required for production of the stimulating substances but its high levels are not necessary.     

Catecholamine modulation of embryonic palate mesenchymal cell DNA synthesis

Development of the mammalian embryonic palate depends on the precise temporal and spatial regulation of growth. The factors and mechanisms underlying differential growth patterns in the palate remain elusive. Utilizing quiescent populations of murine embryonic palate mesenchymal (MEPM) cells in vitro, we have begun to investigate hormonal regulation of palatal cell proliferation. MEPM cells in culture were rendered quiescent by 48 hr serum deprivation and were subsequently released from growth arrest by readdition of medium containing 10% (v/v) serum. The progression of cells into S-phase of the cell cycle was monitored by autoradiographic analysis of tritiated thymidine incorporation. Palate mesenchymal cell entry into S-phase was preceded by a 6- to 8-hr prereplicative lag period, after which time DNA synthesis increased and cells reached a maximum labeling index by 22 hr. Addition of 10 microM isoproterenol to cell cultures at the time of release from growth arrest lengthened the prereplicative lag period and delayed cellular entry into S-phase by an additional 2 to 4 hr. The rate of cellular progression through S-phase remained unaltered. The inhibitory effect of isoproterenol on the initiation of MEPM cell DNA synthesis was abolished by pretreatment of cells with propranolol at a concentration (100 microM) that prevented isoproterenol-induced elevations of cAMP. Addition of PGE2 to cell cultures, at a concentration that markedly stimulates cAMP formation, mimicked the inhibitory effect of isoproterenol on cellular progression into S-phase. These findings demonstrate the ability of the beta-adrenergic catecholamine isoproterenol to modulate MEPM cell proliferation in vitro via a receptor-mediated mechanism and raise the possibility that the delayed initiation of DNA synthesis in these cells is a cAMP-dependent phenomenon.     

Cyclic adenosine-3',5-monophosphate in Streptomyces antibioticus and its possible role in regulating oleandomycin biosynthesis and the growth of the culture

When glucose is substituted for sucrose in the fermentation medium for Streptomyces antibioticus, the pH of the cultural broth becomes more acidic, the rate of protein synthesis in the mycelium rises, and the rate of oleandomycin synthesis decreases abruptly. The dynamics of cAMP (cyclic monophosphate) accumulation was studied in the process of biosynthesis by the culture in different media. Most of the synthesized cAMP (80-90%) was shown to be excreted into the medium. Glucose stimulates cAMP synthesis and excretion from the mycelium by a factor of 1.5-3. No distinct correlation was found between cAMP content in S. antibioticus cells and the level of oleandomycin biosynthesis. A correlation between changes in the concentration of exocellular cAMP and protein synthesis in the mycelium suggests that the excreted cAMP may be involved in regulating the growth of the culture producing the antibiotic.     

Effect of Culture Medium Composition and pH on the Production of M Protein and Proteinase by Group A Streptococci

The effects of pH, yeast extract, and neopeptone on the production of extracellular proteinase and M protein by group A streptococci were studied with a type 1 strain capable of producing both M protein and proteinase. The strain DS 2036-66 grew moderately well in a semisynthetic broth. M protein was produced without adding peptides to the medium. When added to a medium with 1% glucose, yeast extract (0.1%) was found to stimulate both growth and proteinase formation. Limiting the glucose to 0.25% prevented a drop in pH below 6.7 and prevented proteinase formation. Although less growth occurred with limited glucose, M protein of high specific activity was produced with an actual increase in acid-extractable M protein during the stationary phase of growth. When the medium was buffered at pH 7.85 with tris(hydroxymethyl)aminomethane buffer, 0.5% neopeptone prevented proteinase formation. This was true even in the presence of 1% glucose and 0.1% yeast extract, which resulted in a fall in pH to about 4.8 by 48 hr. Growth was greater than in Todd Hewitt broth, but the specific activity of M protein was considerably less than that found in the medium with glucose limited to 0.25%. Neopeptone was found to have little direct action on crude streptococcal proteinase. Instead, the evidence suggested that neopeptone somehow prevents proteinase elaboration. Yeast extract, on the other hand, appears to stimulate proteinase elaboration. To prevent proteinase formation, neopeptone must be added early, during the logarithmic phase of growth or at the start. In contrast, when yeast extract was added as late as 24 hr, it resulted in the elaboration of extracellular proteinase and in the decline of M protein. When 38 M nontypable strains from the diagnostic laboratory were tested for proteinase activity under conditions similar to those used in the diagnostic laboratory, only six produced much proteinase.     

Economical glucoamylase production by alginate-immobilized Thermomucor indicae-seudaticae in cane molasses medium

AIMS: The present investigation is aimed at assessing the suitability of cane molasses as a cheaper carbon and energy source for glucoamylase production using alginate-immobilized Thermomucor indicae-seudaticae. METHODS AND RESULTS: The culture variables for glucoamylase production were optimized by 'one-variable-at-a-time' strategy and response surface methodology (RSM). A high glucoamylase titre was attained when 40 alginate beads (c. 5x10(6) immobilized spores) were used to inoculate 50 ml of cane molasses (8%) medium in 250-ml Erlenmeyer flasks. Response surface optimization of fermentation parameters (cane molasses 7%, inoculum level 44 alginate beads per 50 ml of medium and ammonium nitrate 0.25%) resulted in 1.8-fold higher glucoamylase production (27 U ml(-1)) than that in the unoptimized medium (15 U ml(-1)). Enzyme production was also sustainable in 22 l of laboratory air-lift bioreactor. CONCLUSIONS: Cane molasses served as an excellent carbon and energy source for the economical production of glucoamylase, which was almost comparable with that in sucrose yeast-extract broth. The statistical model developed using RSM allowed determination of optimum levels of the variables for improving glucoamylase production. SIGNIFICANCE AND IMPACT OF THE STUDY: The cost of glucoamylase produced in cane molasses supplemented with ammonium nitrate was considerably lower (euro1.43 per million U) than in synthetic medium containing sucrose and yeast-extract (euro35.66 per million U). The reduction in fermentation time in air-lift bioreactor with sustainable glucoamylase titres suggested the feasibility of scale up of the process.     

嗜肺巴斯德杆菌选择性培养基研制及应用

目的　研制一种对嗜肺巴斯德杆菌表现出强选择作用的选择性培养基,用于该菌的常规检测。方法　药敏试验及抗生素最小抑菌浓度测定。结果　研制了嗜肺巴氏杆菌选择性培养基(PPSM培养基)及嗜肺巴斯德杆菌增菌液(PP肉汤)。嗜肺巴斯德杆菌在PPSM培养基上,37℃48h培养,形成1mm左右,凸起、湿润、灰黑色并有金属光泽的特殊菌落;对表皮葡萄球菌和大肠埃氏菌的抑制率为100%,对变形杆菌的抑制率为76%,并能抑制其迁徙生长;通过PP肉汤增菌培养,PPSM培养基使SPF小鼠粪便中嗜肺巴斯德杆菌检出率从0增至67.2%;用小鼠咽拭子接种该培养基,其初代培养物几乎为纯培养物。结论　该培养基对嗜肺巴氏杆菌具有较强的选择作用,使用该培养基对嗜肺巴氏杆菌进行检测可以简化检测程序、防止漏检、在不处死动物的情况下对嗜肺巴斯德杆菌进行常规监测。     

Production of glucoamylase using Aspergillus phoenicus immobilized in calcium alginate beads

Summary As a means of better exploiting the growth-dissociated nature of glucoamylase synthesis, a production process in which the growth phase was separated from the enzyme synthesis phase has been developed. Immobilized mycelia arising from a 6-day-old culture of conidia immobilized in calcium alginate beads could be subsequently used repeatedly to produce glucoamylase in a second step using a Dextran T-10 medium. Glucoamylase production was sustained over five sequential batches in a 19-day period and immobilized mycelia remained confined to the subsurface of the beads. Offprint requests to: C. Kuek