Influence of some trace metals and stimulants on citric acid production from brewery wastes by Aspergillus niger

The addition of increasing levels of Mn²⁺, Fe³⁺, Zn²⁺, Co²⁺, Cu²⁺, Ca²⁺, sodium monofluoracetate and methanol during citric acid surface fermentation of spent grain liquor by Aspergillus niger (ATCC 9142) was investigated. For spent grain liquor the addition of 51 ppb Mn²⁺, 5 ppb Fe³⁺, 75 ppb Zn²⁺ and 4% (v/va) methanol caused a 4.9, 1.9, 10.9 and 16.8% increase in citric acid yield respectively. In all other fermentations the yield of citric acid was decreased whereas the biomass production in some cases was increased.     

Growth of moderately thermophilic iron-oxidizing bacterium strain TI-1 in synthetic medium

The moderately thermophilic iron-oxidizing bacterium strain TI-1, which lacks enzyme systems involved in CO₂ fixation, grows at 45°C in Fe²⁺ medium supplemented with yeast extract to give a maximum cell growth of 1.0 × 10⁸ cells per ml, but does not grow in Fe²⁺ medium without yeast extract. To elucidate the physiology of the strain, a synthetic medium was developed. It was found that the best synthetic medium was Fe²⁺-6AA, containing Fe²⁺, salts, and the following six l-amino acids: alanine, aspartic acid, glutamic acid, arginine, serine, and histidine. In this medium, strain TI-1 showed a maximum cell growth of 10 × 10⁸ cells/ml. The six amino acids in the Fe²⁺-6AA medium were used not only as a carbon source but also as a source of nitrogen. Inorganic nitrogen sources, such as ammonium ion, hydrazine, hydroxylamine, nitrite, and nitrate, were not used as a sole source of nitrogen, but rather strongly inhibited the utilization of the six amino acids at 1 mM. In the Fe²⁺ (10 mM)-6AA medium supplemented with 21 mM Fe³⁺, reduction of Fe³⁺ to Fe²⁺ that was dependent on the added amino acids was observed, suggesting another role of the amino acids in the growth of strain TI-1. Washed, intact cells of strain TI-1 had the activity to reduce Fe³⁺ to Fe²⁺.     

Inorganic nitrogen source for autotrophic growth of Euglena mutabilis Schmitz

The effect of inorganic nitrogen source on population growth of Euglena mutabilis, an acidophillic benthic protozoa colonizing on the sediment of acid mine drainage, was investigated. Sodium nitrate, ammonium chloride, and ammonium sulfate were tested as nitrogen sources. The population density of E. mutabilis at equilibrium density cultivated in ammonium chloride‐ and ammonium sulfate‐containing media was 9–11 times higher than that in sodium nitrate‐containing medium at the optimal salt medium concentration. The population growth of E. mutabilis in ammonium sulfate‐containing medium was rapid and reached half of the equilibrium density after ca. 228 h, which was ca. 77 h earlier than that in ammonium chloride‐containing medium. Culture medium with ammonium sulfate as the nitrogen source achieved the highest maximum population density and the fastest growth rate among the three nitrogen salts used as nitrogen sources.     

Optimization of date syrup for enhancement of the production of citric acid using immobilized cells of Aspergillus niger

Date syrup as an economical source of carbohydrates and immobilized Aspergillus niger J4, which was entrapped in calcium alginate pellets, were employed for enhancing the production of citric acid. Maximum production was achieved by pre-treating date syrup with 1.5% tricalcium phosphate to remove heavy metals. The production of citric acid using a pretreated medium was 38.87% higher than an untreated one that consumed sugar. The appropriate presence of nitrogen, phosphate and magnesium appeared to be important in order for citric acid to accumulate. The production of citric acid and the consumed sugar was higher when using 0.1% ammonium nitrate as the best source of nitrogen. The production of citric acid increased significantly when 0.1 g/l of KH₂PO₄ was added to the medium of date syrup. The addition of magnesium sulfate at the rate of 0.20 g/l had a stimulating effect on the production of citric acid. Maximum production of citric acid was obtained when calcium chloride was absent. One of the most important benefits of immobilized cells is their ability and stability to produce citric acid under a repeated batch culture. Over four repeated batches, the production of citric acid production was maintained for 24 days when each cycle continued for 144 h. The results obtained in the repeated batch cultivation using date syrup confirmed that date syrup could be used as a medium for the industrial production of citric acid.     

Extracellular cold-active lipase of Microbacterium luteolum isolated from Gangotri glacier,western Himalaya: Isolation,partial purification and characterization

A psychrophilic bacterium producing cold-active lipase upon growth at low temperature was isolated from the soil samples of Gangotri glacier and identified as Microbacterium luteolum. The bacterial strain produced maximum lipase at 15 °C, at a pH of 8.0. Beef extract served as the best organic nitrogen source and ammonium nitrate as inorganic for maximum lipase production. Castor oil served as an inducer and glucose served as an additional carbon source for production of cold-active lipase. Ferric chloride as additional mineral salt in the medium, highly influenced the lipase production with an activity of 8.01 U ml^?1. The cold-active lipase was purified to 35.64-fold by DEAE-cellulose column chromatography. It showed maximum activity at 5 °C and thermostability up to 35 °C. The purified lipase was stable between pH 5 and 9 and the optimal pH for enzymatic hydrolysis was 8.0. Lipase activity was stimulated in presence of all the solvents (5%) tested except with acetonitrile. Lipase activity was inhibited in presence of Mn²⁺, Cu²⁺, and Hg²⁺; whereas Fe⁺, Na⁺ did not have any inhibitory effect on the enzyme activity. The purified lipase was stable in the presence of SDS; however, EDTA and dithiothreitol inhibited enzyme activity. Presence of Ca²⁺ along with inhibitors stabilized lipase activity. The cold active lipase thus exhibiting activity and stability at a low temperature and alkaline pH appears to be practically useful in industrial applications especially in detergent formulations.     

Organic and inorganic nitrogen source effects on the metabolism of Clostridium acetobytulicum

Summary The effects of organic and inorganic nitrogen combinations on cell growth, solvent production and nitrogen utilization by Clostridium acetobutylicum ATCC 824 was studied in batch fermentations. Fermentations in media with 10 mM glutamic acid, as the organic nitrogen source, and 0 mM to 10 mM ammonium chloride, as the inorganic nitrogen source had a solvent yield of 0.8 to 1.08 mmol solvent/mmol glucose used, with a slow fermentation rate (2 mmol solvent/l h^-1). When media contained 20 mM or 30 mM glutamic acid as well as 2.5 to 7.5 mM ammonium chloride the fermentation rate increased (5.5 mmol/l h^-1) while the solvent yield remained constant (0.86 to 0.96 mmol solvent/mmol glucose used). Total solvent production was higher in media containing 20 mM or 30 mM glutamic acid than with 10 mM glutamic acid.     

戊糖乳杆菌发酵培养基氮源条件的优化

对戊糖乳杆菌发酵培养基的氮源条件进行了优化。通过单因素实验及响应面分析优化利用木糖高产乳酸的戊糖乳杆菌发酵培养基的不同氮源组合。优化得到的牛肉膏与柠檬酸氢二铵复合的最佳组成为牛肉膏17.72 g/L,柠檬酸氢二铵1.91 g/L,得到乳酸实际最大产量42.37 g/L。添加玉米浆与酵母粉和无机氮源复合的最佳组成为玉米浆46.54 g/L,酵母粉21.95 g/L,柠檬酸氢二铵9.95 g/L,可得到乳酸最大产量41.06 g/L。通过响应面优化减少了有机氮源的种类。牛肉膏与柠檬酸氢二铵的复合得到了更高的乳酸产量,且减少了有机氮源用量,节约了成本。玉米浆与酵母粉的复合解决了单一玉米浆造成的木糖利用速率过低的问题,同样得到较高浓度的乳酸。     

Optimizing medium constituents and fermentation conditions for citric acid production from palmyra jaggery using response surface method

The quantitative effects of pH, temperature, time of fermentation, sugar concentration, nitrogen concentration and potassium ferrocyanide on citric acid production were investigated using a statistical experimental design. It was found that palmyra jaggery (sugar syrup from the palmyra palm) is a suitable substrate for increasing the yield of citric acid using Aspergillus niger MTCC 281 by submerged fermentation. Regression equations were used to model the fermentation in order to determine optimum fermentation conditions. Higher yields were obtained after optimizing media components and conditions of fermentation. Maximum citric acid production was obtained at pH 5.35, 29.76 °C, 5.7 days of fermentation with 221.66 g of substrate/l, 0.479 g of ammonium nitrate/l and 2.33 g of potassium ferrocyanide/l.     

Effect of nutrients on the accumulation of glutamyl endopeptidase in the culture liquid ofBacillus intermedius 3–19

The effect of nutrients and growth conditions on the accumulation of glutamyl endopeptidase in the culture liquid ofBacillus intermedius 3–19 was studied. Glucose and other readily metabolizable carbon sources were found to suppress the production of the enzyme, whereas inorganic phosphate and ammonium cations enhanced it. Protein substrates, such as casein, gelatin, and hemoglobin, did not affect enzyme production. Some bivalent cations (Ca²⁺, Mg²⁺, Co²⁺) increased the production of glutamyl endopeptidase, but others (Zn²⁺, Fe²⁺, Cu²⁺) acted in the opposite way. The rate of enzyme accumulation in the culture liquid increased as the growth rate of the bacterium decreased, so that the maximum enzyme activity was observed in the stationary growth phase. Based on the results of this investigation, an optimal medium for the maximum production of glutamyl endopeptidase byB. intermedius 3–19 was elaborated.     

Effect of Mycelial Forms on Citric Acid Fermentation in Submerged Mold Culture

A number of reports have been published on the production of citric acid by submerged mold culture. Most of them, however, have laid stresses on the effects of chemical factors, such as metal ions, nitrogen sources, potassium ferrocyanide and methanol, and very little has been reported on the effect of other factors.

The form of mycelia of mold changes depending on the physical characters cf broth, and it was found that Aspergillus niger 93A, which showed a constant activity of citric acid production, could increase its acid production activity when mycelial forms were controlled to filamentous by adding suitable non-ionic surface active agents to the broth.     

Production of citric acid from methanol by a fluoroacetate-resistant mutant of Candida sp. Y-1

Summary Fermentative production of citric acid from methanol by an isolated yeast, Candida sp. Y-1, was investigated using a medium containing fluoroacetate, a potential inhibitor of aconitase. Culture conditions were optimized, and the results showed that efficient production of citric acid required several factors; (1) the optimum concentration of fluoroacetate, (2) an addition of yeast extract with corn steep liquor, (3) a low nitrogen source concentration, and (4) strictly aerobic conditions. We then isolated a fluoroacetate-resistant mutant strain MA92 with threefold higher citric acid productivity than the wild strain. This mutant strain had lower aconitase activity than the wild strain and produced 4.6 g/l citric acid from methanol after 4 days of culture. Offprint requests to: Y. Tani     

Effects of nitrogen source and concentration on growth rate and fatty acid composition of Ellipsoidion sp. (Eustigmatophyta)

In order to study the effects of different nitrogen source and concentrationon the growth rate and fatty acid composition, a marine microalga Ellipsoidion sp. with a high content of eicosapentaenoic acid (EPA) wascultured in media with different nitrogen sources and concentrations.During the pre-logarithmic phase, the alga grew faster with ammoniumas N source than with nitrate, but the reverse applied during thepost-logarithmic phase. The alga grew poorly in N-free mediumor medium with urea as the sole N source. In the same growth phase,ammonium medium resulted in higher yield of total lipid, but the EPA yielddid not differ significantly different from that using nitrate medium. Themaximum growth rate occurred in medium containing 1.28 mmolL^-1 sodium nitrate, while maximum EPA and total lipid contents werereached at 1.92 mmol L^-1, when EPA accounted for 27.9% totalfatty acids. The growth rate kept stable when NH₄Cl ranged from0.64 to 2.56 mmol L^-1, and the maximum content of total lipidand EPA occurred in the medium with 2.56 mmol L^-1NH₄Cl. The EPA content was higher in the pre- thanpost-logarithmic phase, though the total lipid content was lower. Thehighest EPA content expressed as percent total fatty acid was 27.9% innitrate medium and and 39.0% in ammonium medium.     

An organic solvent-tolerant protease from Pseudomonas aeruginosa strain K: Nutritional factors affecting protease production

An organic solvent-tolerant bacterium producing an organic solvent-stable protease was isolated from soil and identified as Pseudomonas aeruginosa strain K. Nutritional requirements for optimized protease production by this strain were investigated. Maximum protease activity was achieved with sorbitol as the sole carbon source, followed by starch and lactose at pH 7.0 and 37 °C. Dextrose, sucrose and glycerol greatly reduced the protease production. The best organic nitrogen source was casamino acid. Tryptone, soytone and yeast extract supported protease production while corn steep liquor and beef extract inhibited the protease activity. Significant protease production was observed with sodium nitrate as a sole nitrogen source however, ammonium nitrate completely inhibit it. More than 62% drop in production occurred in the presence of amino acids. Addition of metal ions such as K⁺, Mg²⁺ and Ca²⁺ maximized the enzyme production.     

Channelling of glucose by methanol for citric acid production from Aspergillus niger

Citric acid produced by Aspergillus niger was increased from 4.6g l^-1 to 7.8gl^-1 by supplementing basal medium with methanol (30mll^-1). While stimulating citric acid production, methanol did not improve membrane permeability of the fungus for citric acid. Methanol inhibited the germination of Aspergillus spores. An increase in glucose concentration from 50gl^-1 to 100gl^-1 in the presence of methanol (30mll^-1) improved citric acid production (1.6-fold) while at higher levels of glucose concentration methanol had no effect on citic acid production.     

Bioconversion of palm oil mill effluent for citric acid production: statistical optimization of fermentation media and time by central composite design

A laboratory-scale study was conducted to evaluate the feasibility of using palm oil mill effluent (POME) as a major substrate and other nutrients for maximum production of citric acid using the potential fungal strain Aspergillus niger (A103). Statistical optimization of medium composition (substrate–POME, co-substrates–wheat flour and glucose, and nitrogen source–ammonium nitrate) and fermentation time was carried out by central composite design (CCD) to develop a polynomial regression model through the effects of linear, quadratic, and interaction of the factors. The statistical analysis of the results showed that, in the range studied, ammonium nitrate had no significant effect whereas substrate, co-substrates and fermentation time had significant effects on citric acid production. The optimized medium containing 2% (w/w) of substrate concentration (POME), 4% (w/w) of wheat flour concentration, 4% (w/w) of glucose concentration, 0% (w/v) of ammonium nitrate and 5 days fermentation time gave the maximum predicted citric acid of 5.37 g/l which was found to be 1.5 g/l in the experimental run. The determination of coefficient (R ²) from the analysis observed was 0.964, indicating a satisfactory adjustment of the model with the response. The analysis showed that the major substrate POME (P < 0.05), glucose (P < 0.01), nutrient (P < 0.05), and fermentation time (P < 0.01) was more significant for citric acid production. The bioconversion of POME for citric acid production using optimal conditions showed the higher removal of chemical oxygen demand (82%) with the production of citric acid (5.2 g/l) on the final day of fermentation process (7 days). The pH and biosolids accumulation were observed during the bioconversion process.     

Optimized medium for the efficient production ofBacillus intermedius glutamyl endopeptidase by the recombinantBacillus subtilis strain AJ73

A nutrient medium was elaborated for the efficient production of glutamyl endopeptidase by the recombinantBacillus subtilis strain AJ73 bearing theBacillus intermedius 3–19 glutamyl endopeptidase gene within a multicopy plasmid. Optimal concentrations of the main nutrients, peptone and inorganic phosphate, were found using a multifactor approach. To provide for active growth and efficient glutamyl endopeptidase production, the cultivation medium of the recombinant strain should be enriched in phosphorus, organic and inorganic nitrogen sources, and yeast extract. Complex protein substrates, such as casein and gelatin, enhanced the biosynthesis of glutamyl endopeptidase. At the same time, easily metabolizable carbon sources suppressed it. The production of glutamyl endopeptidase was stimulated by the bivalent cations Ca²⁺, Mg²⁺, and Co²⁺.     

Mass production of poly-β-hydroxybutyric acid by fully automatic fed-batch culture of methylotroph

Summary Fifty-one methylotrophs were checked with respect to their ability of poly--hydroxybutyric acid (PHB) production from methanol. One of them, Pseudomonas sp. K, was chosen from its good growth on a minimum synthetic medium. Optimal temperature and pH for its growth were 30° C and 7.0, respectively. Concentrations of PO ₄ ^3- and NH ₄ ⁺ in the medium should be kept at low levels. PHB formation was stimulated by deficiency of nutrient such as NH ₄ ⁺ , SO ₄ ^2- , Mg²⁺, Fe²⁺ or Mn²⁺. Among them, nitrogen deficiency was chosen from its effectiveness and easiness for PHB accumulation.The microorganism was cultivated to produce a large amount of poly--hydroxybutyric acid (PHB) from methanol by means of microcomputer-aided fully automatic fed-batch culture technique. During the cultivation, temperature, dissolved oxygen concentration (DO), and methanol concentration in the culture broth were maintained at 30° C 2.5±0.5 ppm and 0.5±0.2 g/l, respectively. Other nutrients, nitrogen source and mineral ions, were also controlled to maintain their initial concentrations in the medium during cell growth phase. When the high cell concentration was achieved (160 g/l), feedings of ammonia and minerals were stopped and only methanol was supplied successively to accumulate PHB. At 175 h, high concentration of PHB (136 g/l) was obtained and total cell concentration became 206 g/l. DO must be maintained above the critical level during the PHB formation phase, too. PHB yield from methanol (g PHB/g methanol) was 0.18 and the maximum PHB content reached 66% of dry weight. Solid PHB produced by the strain had the melting point of 176° C and the average molecular weight of 3.0x10⁵.     

Purification and characterization of extracellular tannin acyl hydrolase from <Emphasis Type="Italic">Aspergillus heteromorphus</Emphasis> MTCC 8818

A tannase (E.C. 3.1.1.20) producing fungal strain was isolated from soil and identified as Aspergillus heteromorphus MTCC 8818. Maximum tannase production was achieved on Czapek Dox minimal medium containing 1% tannic acid at a pH of 4.5 and 30°C after 48 h incubation. The crude enzyme was purified by ammonium sulfate precipitation and ion exchange chromatography. Diethylaminoethyl-cellulose column chromatography led to an overall purification of 39.74-fold with a yield of 19.29%. Optimum temperature and pH for tannase activity were 50°C and 5.5 respectively. Metal ions such as Ca²⁺, Fe²⁺, Cu¹⁺, and Cu²⁺ increased tannase activity, whereas Hg²⁺, Na¹⁺, K¹⁺, Zn²⁺, Ag¹⁺, Mg²⁺, and Cd²⁺ acted as enzyme inhibitors. Various organic solvents such as isopropanol, isoamyl alcohol, benzene, methanol, ethanol, toluene, and glycerol also inhibited enzyme activity. Among the surfactants and chelators studied, Tween 20, Tween 80, Triton X-100, EDTA, and 1, 10-o-phenanthrolein inhibited tannase activity, whereas sodium lauryl sulfate enhanced tannase activity at 1% (w/v).     

Citric acid fermentation from starch and dextrose syrups by a trace metal resistant mutant of Aspergillus niger

Potato starch and both untreated and decationized dextrose syrups were used as substrates for submerged citric acid biosynthesis using a mutant of Aspergillus niger. The same yield of product (80%) was achieved with both syrups and the starch despite having different trace metals content. The obtained mutant was more sensitive than the parent to Cd²⁺, Mo²⁺, and As³⁺, with decreasing yields of citric acid at 10 mg of ions l^–1. Fe²⁺, Mn²⁺, V²⁺ below 50 mg l^–1 and Cr³⁺, Ni²⁺, Cu²⁺ up to 100 mg l^–1, did not significantly inhibit citric acid production.     

Utilization of Amino Acids as a Sole Source of Nitrogen by Obligate Chemolithoautotroph Thiobacillus ferrooxidans

An obligate chemolithoautotroph, Thiobacillus ferrooxidans API 9–3, could utilize amino acids, other than glycine, methionine and phenylalanine, as a sole source of nitrogen. However, both the growth rate and growth yield were lower than those in Fe²⁺-NH4 -salts medium, suggesting that the ammonium ion was a superior nitrogen source for the strain compared to amino acids. Methionine and phenylalanine strongly inhibited the cell growth on Fe²⁺-NH4-salts medium at 10 mm. [¹⁴C]Glycine could not be taken up into the cells, and this meant the strain could not use glycine as a sole source of nitrogen. The uptake of [¹⁴C]leucine into the cells was dependent on the presence of Fe^{2 +}. When the strain was cultured on Fe^{2 +} - leucine (lOmm)-salts medium lacking an inorganic nitrogen source for 5 days at 30°C, 83.5% and 16.5% of the cellular carbon were derived from carbon dioxide and leucine, respectively, indicating that carbon dioxide was a superior carbon source for the bacterium compared to leucine. The ammonium ion did not inhibit the utilization of leucine for cellular carbon. Leucine uptake was markedly inhibited by inhibitors of protein synthesis, such as chloramphenicol (94.3% at 1 mm), streptomycin (57.2% at 5mm) and rifampin (77.2% at 0.1 mm), respectively. Carbon dioxide uptake was also completely inhibited by chloramphenicol at 4mm. These results suggest that the transport of both amino acids and carbon dioxide into the cells was dependent on protein synthesis.