Response surface optimization ofLactobacillus plantarum batch growth

Summary Optimal conditions for batch growth ofLactobacillus plantarum, ATCC 8014, are a pH of 6.0, a temperature of 33°C, and an initial glucose concentration of 24 g/l. A maximum biomass concentration of 6.0 g/l was achieved. Growth parameters were also determined.     

Selection of yeast able to produce ethanol from glucose at 40° C

Summary A total of 55 yeast strains selected from 7 genera known to ferment carbohydrates to ethanol were screened for their ability to ferment glucose to ethanol in shaken flask culture at 37°, 40° and 45°C. Yields of more than 50% of the theoretical maximum were obtained with 28 strains at 37°C, but only 12 at 40°C. Only 6 could grow at 45°C, but they produced poor yields. In general Kluyveromyces strains were more thermotolerant than Saccharomyces and Candida strains, but Saccharomyces strains produced higher ethanol yields. The 8 strains with the highest yields at 40°C were evaluated in batch fermentations. Three of these, two Saccharomyces and one Candida, were able to meet minimum commercial targets set at 8% (v/v) ethanol from 14% (w/v) glucose at 40°C.     

Characterization of a superior thermotolerant mutant ofZymomonas mobilis ZM4 for ethanol production in glucose medium

Summary Nitrosoguanidine-induced, stable theromotolerant mutant (ZMI₂) ofZymomonas mobilis ZM4 was found to possess almost normal cell morphology, and a better ethanol tolerance at 42°C than the parent strain (ZM4). Its kinetic parameters, in converting different concentrations of glucose to ethanol, were comparable to ZM4 at 30°C, and significantly superior at 42°C. In a 200 g/L glucose medium in a pH-stat (5.0) at 42°C, the mutant yielded more ethanol (71.0 g/L) (improved to 73.7 g/L at pH 5.5) and alcohol dehydrogenase (ADH) than the parent strain. The ADH levels in both the strains were repressed, depending upon the increased level of sugar and degree of temperature.     

Effect of temperature on sucrose to ethanol conversion by Zymomonas mobilis strains

Summary Two strains of Zymomonas mobilis were tested for their ability to ferment sucrose to ethanol at elevated temperatures (30–42.5°C). The optimal temperature for efficient sucrose to ethanol conversion was 35°C with 22–27 h fermentation time and 75% conversion efficiency. Increases in magnesium concentration improved one of the strains at 40°C from 38 to 76% ethanol yield efficiency.     

The effect of temperature,pH, and initial glucose concentration on the kinetics of ethanol production by Zymomonas mobilis in batch fermentation

Summary Zymomonas mobilis, strain ATCC 10988, was used to evaluate the effects of pH (5.0 to 8.0), temperature (30°C to 40°C), and initial glucose concentration (75 g/l to 150 g/l) on the kinetics of ethanol production from glucose using batch fermentation. Specific ethanol production rate was maximum and nearly constant over a pH range of 6.0 to 7.5. End-of-batch ethanol yield and specific growth rate were insensitive to pH in the range of 5.0 to 7.5. End-of-batch ethanol yield was maximum and nearly constant between 30°C and 37°C but decreased by 24% between 37°C and 40°C. All other kinetic parameters are greatest at 34°C. End-of-batch ethanol yield is maximum at an initial glucose concentration of 100 g/l. Specific growth rate reaches a maximum at 75 g/l, but specific ethanol production rate decreases throughout the range. The optimum initial glucose concentration of 100 g/l gives the highest ethanol yield at a specific ethanol production rate less than 10% below the maximum observed.     

Continuous culture of a recombinantEscherichia coli and plasmid maintenance for tryptophan production

Summary Production of tryptophan by a temperature sensitive recombinant microorganism (Escherichia coli W3110 trpLDtrpR ^ts tna ^– (pCRT185)) was investigated. In a single-stage continous culture, at an elevated temperature, 42°C (derepressed condition), tryptophan concentration increased in an early phase of the fermentation, and then gradually decreased with time. The reduction in the production rate was mostly due to the segregation of the plasmid and subsequent increase of plasmid-free cells. However, the plasmid could be maintained stable at 37°C, with repressed condition oftrp-operon, over 200 generations. A two-stage continuous culture system, i.e. cell growth was maintained in the first stage at 37°C and gene expression was induced in the second stage at 42°C, was therefore tested to improve the performance of the fermentation system. Operation of the two-stage system showed that the plasmid stability was significantly improved, and the specific rate of tryptophan production was maintained almost constant for more than 500 hours in the second stage.     

Production of ethanol by solid particles of Saccharomyces cerevisiae in a fluidized bed

Summary Carbon dioxide can be used as the fluid continuous phase for the fermentation of 10 to 40 % aqueous solutions of glucose into ethanol with Saccharomyces cerevisiae using a closed circuit consisting of a fluidized bed of small solid yeast particles, a cooled condenser for the sampling of water and ethanol and a blower. At 18°C, a fermentation of 12 moles glucose per min per g dry weight of yeast was achieved.     

Starvation and the metabolism of hepatocytes isolated from the American eel,Anguilla rostrata LeSeur

Summary Gluconeogenic, lipogenic, glycogenic and oxidative rates were estimated from¹⁴C-lactate,¹⁴C-alanine and¹⁴C-aspartate using a hepatocyte preparation isolated from starved immature American eels,Anguilla rostrata. Lactate gluconeogenesis increased significantly during starvation at 5 and 15°C. Alanine gluconeogenesis generally decreased during starvation. At the 2nd month of the starvation at 5 and 15°C, and the 8th month of starvation at 15°C, however, alanine gluconeogenesis was significantly higher than in the fed control. These increases in alanine gluconeogenesis occurred during a period of high glucose demand. Aspartate gluconeogenesis was quantitatively minor when compared to the other two substrates. Glycerol synthesis and esterification from the three substrates increased until the 5th month at 5 and 15°C followed by a gradual decline thereafter. Significant increases in glycogen synthesis occurred between the 3rd and the 5th months at 15°C, but rates were small compared to glucose synthesis. Rates of substrate oxidation appeared sufficient to provide adequate ATP to sustain gluconeogenesis in both the fed and starved eel hepatocyte. Glucagon stimulated lactate gluconeogenesis, but not amino acid gluconeogenesis in late starved eel hepatyocytes. Major changes in metabolite concentrations that occurred during starvation were increases in plasma glucose and amino acids; a significant liver glycogen depletion at the 2nd month followed by a return to control values at the third month; and, a significant protein depletion in white skeletal muscle at the 3rd month. These data suggest that lactate glucogeogenesis, but not amino acid gluconeogenesis or glycogenolysis, is the major source of tissue carbohydrates during eel starvation.This work was supported from operating grants to TWM from the National Research Council of Canada (A6944)     

Catalytic conversion of glucose to 5-hydroxymethyl furfural using inexpensive co-catalysts and solvents

Efficient conversion of glucose to 5-hydroxymethyl furfural (5-HMF), a platform chemical for fuels and materials, was achieved using CrCl₂ or CrCl₃ as the catalysts with inexpensive co-catalysts and solvents including halide salts in dimethyl sulfoxide (DMSO) and several ionic liquids. 5-HMF (54.8%) yield was achieved with the CrCl₂/tetraethyl ammonium chloride system at mild reaction conditions (120 °C and 1 h). The 5-HMF formation reaction was found to be faster in ionic liquids than in the DMSO system. Effects of water in the reaction system, chromium valence and reaction temperature on the conversion of glucose into 5-HMF were discussed in this work.     

Direct fermentation of cellodextrins to ethanol byCandida wickerhamii andC. Lusitaniae

Summary Production of ethanol from cellodextrins, as large as cellohexose, byCandida lusitaniae andC. wickerhamii was studied.C. lusitaniae fermented only glucose and cellobiose, whereasC. wickerhamii efficiently fermented cellodextrins. Maximum ethanol yields of 29.2 g/liter from 54 g/liter cellodextrins were achieved byC. wickerhamii in 3–4 days.     

CMCase production by Spicellum roseum in liquid and solid culture

Summary CMCase was produced by 7 strains of Spicellum roseum in both liquid and wheat bran solid substrate cultures. No growth occurred above 35°C. Maximum enzyme production occurred at 30°C, whereas best enzyme activity occurred at pH 5.0 and 50°C. In liquid cultures of S. roseum, NRRL strains 13103, 13104, and 13106 produced activities of ca. 1.1, 1.5, and 1.5 mg glucose per hr/ml culture supernate at 1 week and 2.9, 1.5, and 2.1, respectively at 3 weeks compared to Trichoderma reesei NRRL 11236 (MCG77), which produced activities of 2.8 and 1.3 at 1 and 3 weeks.The mention of firm names or trade products does not imply that they are endorsed or recommended by the U.S. Department of Agriculture over other firms or similar products not mentioned.     

Higher culture pH is preferable for inclusion body formation of recombinant salmon growth hormone inEsherichia coli

Summary Higher culture pH of 7.6 was shown to be preferable for the inclusion body formation of salmon growth hormone (SGH) inEscherichia coli harboring a recombinant plasmid. High-level formation of SGH inclusion bodies was achieved at 33°C (pH 7.6). Growth inhibition by soluble SGH was also observed.     

Bioemulsifier production by an oleaginous yeastRhodotorula glutinis IIP-30

Summary A locally isolated oleaginous strain ofRhodotorula glutinis strain IIP-30 produced a growth associated extracellular emulsifying agent while utilizing glucose during fed batch fermentation under nitrogen limitation at 30°C and pH 4. 0. Similar optimum conditions were also noted for intracellular lipid accumulation.     

Yeast cells entrapped in low-gelling temperature agarose for the continuous production of ethanol

Summary Continuous ethanol production byS. uvarum immobilized in a low-gelling temperature agarose namely SeaPlaque agarose was studied in a packed bed reactor at 30°C using sugarcane molasses containing 13.5% fermentable sugars as feed. The productivity at 95% conversion was 23 g/l.h (on reactor volume basis). The bioreactor was run continuously at a fixed dilution rate and it retained 60% of its initial activity upto 80 days.     

Ethanol production from glucose byClostridium thermosaccharolyticum strains: Effect of pH and temperature

Summary The fermentation of glucose byClostridium thermosaccharolyticum strains IMG 2811^T, 6544 and 6564 was studied in batch culture in a complex medium at different temperatures in defined and free-floating pH conditions. All the strains ferment 5 g glucose.l^–1 completely. The yield of the fermentation products turned out to be independent of the incubation temperature for strain IMG 2811^T. Strain IMG 6544 produced at 60°C significantly more ethanol and less acetic acid, butyric acid, hydrogen gas and biomass than at lower temperatures. With strain IMG 6564, the opposite effect occurred: ethanol appeared to be the main fermentation product at 45°C; at 60°C less ethanol and more acetic acid, butyric acid and hydrogen gas was formed.Experiments, carried out with strain IMG 6564, at defined pH conditions (between 5.5 and 7) and different temperatures (45, 55 and 60°C) revealed no effect of the incubation temperature, but an important effect of the pH on the product formation. At pH 7, ethanol was the main fermentation product while minor amounts of hydrogen gas, acetic and butyric acid were produced. Lowering the pH gradually to 5.5 resulted in a decrease of ethanol and an increase of biomass, hydrogen gas, acetic, butyric and lactic acids. At pH higher than 7 no growth occurred. Similar conclusions could be drawn for strains IMG 2811^T and 6544.     

Production of ethanol at high temperatures in the fermentation of Jerusalem artichoke juice and a simple medium byKluyveromyces marxianus

Summary Temperatures as high as 36°C and 40°C did not negatively affect the ethanol productivity of Jerusalem artichoke (J.a.) juice batch fermentation and the final concentrations of ethanol were close to those produced at lower temperatures. At higher process temperatures (36–40°C), ethanol toxicity inKluyveromyces marxianus was less important during the fermentation of J.a. juice as compared with a simple medium. In simple medium, the heat-sticking of fermentation was observed and the percentage of unfermented sugars steeply increased from 28°C up to 40°C.     

The effect of temperature on the ethanol tolerance of the yeast,Saccharomyces uvarum

The optimum temperature for fermentation by Saccharomyces uvarum was found to be higher than that for its growth. Fermentation continued at temperatures above the growth maximum (40°C). S.uvarum was most resistant to growth inhibition by ethanol at temperatures 5°C and 10°C below its growth optimum (35°C). Fermentation became more resistant to ethanol inhibition with increasing temperature.     

A cellulase-free xylanase from alkali-tolerantAspergillus fischeri Fxn1

Summary An alkali-tolerant fungusAsperqillus fischeri Fxn1 isolated from xylan enrichment grew in the pH range 5–10 and secreted an extracellular cellulase-free xylanase. Arabinose, lactose, maltose, cellobiose and glucose induced low levels of xylanase (1.8–9.0 IU/ml), whereas xylose, xylan and wheat bran induced higher level (34–45 IU/ml).CMcellulose and FPcellulose did not support growth. The optimum pH of xylanase was 6.0–6.5 and it was stable in a wide range of pH 5–9.5. The optimum temperature was 60°C and it was stable upto 55°C. The half-lives at 50 and 55 °C were 240 and 40 min. respectively. This enzyme released reducing sugars from pulp at pH 9.0 and 40°C.     

Fermentation capabilities ofZymomonas mobilis glycolytic enzymes

Summary Cell-free extracts ofZymomonas mobilis were capable of fermenting glucose to ethanol and CO₂ when stimulated by arsenate to act as an ATP uncoupler. 2M glucose was completely converted resulting in a final concentration of 16.5 % w/v ethanol. 1 M glucose was completely converted at temperatures up to 50°C. The results demonstrate that the glycolytic enzymes are more resistant to temperature and ethanol than are the living cells.     

Effect of glucose starvation on germ-tube production byCandida albicans

By incubating starved and unstarved yeast cells in synthetic media with a pH of 4.5 or 6.7 at 37°C the effect of a 3 hours' glucose starvation on germ-tube production byCandida albicans was evaluated. In addition the endocellular content of total carbohydrates, glycogen, trehalose and proteins after and before the starvation were dosed. The most interesting result was the overcoming of the pH-regulated dimorphism, thanks to the starvation treatment. Infact the starved cultures produced germtubes indifferently in neutral or acid media, whereas the filamentation of the unstarved cultures was more copious in pH 6.7 medium. The endocellular content of trehalose and protein was unchanged, whereas total carbohydrates and glycogen showed a shortage after the 3 hours' glucose starvation. The possible involvements of these metabolic changes in the regulation of dimorphic transition are discussed.