Production of citric acid with immobilized Aspergillus niger

Summary The spores of Aspergillus niger were entrapped in calcium-alginate beads and precultivated in growth media with various amounts of nitrogen. During the following citric acid production in shaking cultures an optimum of acid formation and yield was observed after the precultivation with 100–200 mg/l NH₄NO₃. The productivity of the immobilized Aspergillus was found to be 1.5 times higher than in the case of free pellets. The outgrowth of free mycelia into the medium could be provided by increasing the ratio particle-volume: medium volume, using a 1-l air-lift fermenter, by which means the productivity was increased twice as much as obtained in shaking culture.     

Production of citric acid by Aspergillus niger immobilized in polyacrylamide gels

Summary Living Aspergillus niger cells were entrapped in polyacrylamide gels and employed in both replacement batch and continuous column bioreactors to produce citric acid from sucrose. With the replacement batch bioreactor, increase of citric acid was observed under conditions of higher aeration and of wider surface of immobilized cells. With the continuous bioreactor, the maximum citric acid yield was 39.1 mg/h per 40 g gels. The biocatalyst activity or half-life was 105 days.     

Production of citric acid from starch-hydrolysate by Aspergillus niger

The present investigation explored the possible use of a rarely used agro-industrial by-product, maize starch-hydrolysate, for economic production of citric acid. To achieve this, seventeen strains of Aspergillus niger were screened for their capacity to produce citric acid using starch-hydrolysate as a substrate. The most efficient strain, ITCC-605 was selected for further improvement in citric acid content by mutation. Mutants developed by treatment with EMS and UV, singly and in combination, produced citric acid in the range of 0.51-64.7 g kg(-1) of glucose consumed. The mutant UE-1 produced the maximum citric acid which was about 130 times more than that produced by the parent strain, ITCC-605. For further increase in citric acid production from this substrate, the cultural conditions were optimized: concentration of starch-hydrolysate, 15% (glucose equivalent); ammonium nitrate, 0.25%; KH2PO4, 0.15%; nicotinic acid, 0.0001% and initial pH of 2.0. Under these conditions, the mutant strain UE-1 yielded 490 g citric acid kg(-1) of glucose consumed in 8 days of incubation at 30 degrees C. The productivity of 341 mgl(-1)h(-1) corresponded to 49% substrate conversion to citric acid.     

Stability of calcium-alginate during citric acid production of immobilized Aspergillus niger

Summary This article introduces an easy to handle immobilization apparatus for the entrapment of microbial cells, organelles and enzymes in spherical gel beads.Ca-alginate beads with entrapped cells of Aspergillus niger showed typical shrinking behaviour (from 3.00 mm to 2.25 mm particle diameter). A loss of stability down to 20% of the initial strength during precultivation of the fungus and within the following citric acid production occurred. The observed particle shrinkage was due to the increasing acidification of the medium, whereas the decreased mechanical strength was caused by the entrapped growing microorganism. This was confirmed by electron scanning micrographs, indicating a sponge-like gel structure within the region of enhanced mycelium growth which reduced diffusional resistance of the matrix. Therefore no differences were found between citric acid production of Ca-alginate entrapped Aspergillus niger at 3 mm and 1.5 mm initial particle size.     

Production of citric acid with immobilized Yarrowia lipolytica

Summary Citric acid was produced with immobilized Yarrowia lipolytica yeast in repeated batch-shake-flask and air-lift fermentations. In active and passive immobilization methods calcium alginate, -carrageenan, polyurethane gel, nylon web and polyurethane foams were tested as carriers in repeated-batch fermentations. The highest citric acid productivity of 155 mg l^–1 h^–1 was reached with alginate-bead-immobilized cells in the first batch. A decrease in bead diameter from 5–6 mm to 2–3 mm increased the volumetric citric acid productivity threefold. In an air-lift bioreactor the highest citric acid productivity of 120 mg l^–1 h^–1 with a product concentration of 16.4 g l^–1 was obtained with cells immobilized in -carrageenan beads. Offprint requests to: H. Kautola     

Production of gluconic acid by Aspergillus niger immobilized on polyurethane foam

Production of gluconic acid by cells of Aspergillus niger immobilized on polyurethane foam was studied in repeated-batch shake-flask and bubble-column fermentations. For passive immobilization, various amounts of polyurethane foam and spore suspension were tested in order to obtain a suitable combination for optimal concentration of immobilized biomass. Immobilized cells were sucessfully reused with higher levels of product formation being maintained for longer period (65–70h) than free cells. The highest gluconic acid concentration of about 143 g l^–1 was reached on hydrol-based production medium with 0.3-cm³ foam cubes in the bubble column, where the effect of more suitable aeration and particle volume: medium volume ratio scheme was also investigated.     

Formation of gluconic acid at low pH-values by free and immobilized Aspergillus niger cells during citric acid fermentation

Summary A recently developed immobilization method, characterized by the adsorption of the mycelia onto a glass-carrier in a fixed-bed reactor, was applied for citric acid production by Aspergillus niger ATCC 9142, and compared with conventional culture techniques.In a fixed-bed reactor and in a stirred fermenter a rapid gluconic acid production started immediately after nitrate exhaustion, though the pH was below 2.5 During a second production phase a comparatively small amount of citric acid was formed.In surface and shaken-flask cultures nearly no gluconic acid could be found, whereas citric acid yields were significantly higher than in the fixed-bed reactor and in the stirred fermenter.Manganese (0.8×10^–7 Mol×dm^–3 after 6 days incubation) from the stainless steel parts of the vessel seemed to be responsible for both gluconic acid production and small citric acid yields in the stirred fermenter and in the fixed-bed reactor.     

Comparison of citric acid production byAspergillus niger immobilized in gels and cryogels of polyacrylamide

Aspergillus niger was immobilized in cryogels and in conventional gels of polyacrylamide. The growth of cells entrapped in two kinds of gels and the production of citric acid by the immobilized cells were investigated and compared. Cells immobilized in cryogels were more suitable for citric acid production.     

Aconitase and citric acid fermentation by Aspergillus niger

In view of the often-cited theory that citric acid accumulation is caused by an inhibition of aconitase activity, the equilibrium of the reaction of aconitase was investigated by comparing in vivo steady-state concentrations of citrate and isocitrate in Aspergillus niger grown under various citric acid-producing conditions. With the equilibrium catalyzed by the A. niger enzyme in vitro, similar values were obtained. The validity of our in vivo measurements was verified by the addition of the aconitase inhibitor fluorocitrate, which appreciably elevated the citrate:isocitrate ratio. The results strongly argue against an inhibition of aconitase during citric acid fermentation.     

Influence of sucrose concentration and phosphate limitation on citric acid production by immobilized cells of Aspergillus niger

Summary Immobilized cells of Aspergillus niger needed a lower initial sucrose concentration than free cells in order to obtain maximal yields of citric acid production. High sucrose concentrations led to reduced yields and increased polyol formation (glycerol, erythritol, arabitol). Continuous fermentation with media containing low sugar concentrations prevented the formation of polyols. The change from nitrogen-limited to phosphate-limited precultivation of immobilized spores significantly increased the productivity of the mycelium. The ratio of citric acid to residual sugar in the effluent distinctly lay in the direction of citric acid. Inside the alginate beads mainly large bulbous cells were observed.     

Cyclic AMP and citric acid accumulation by Aspergillus niger

Aspergillus niger accumulated citric acid in the medium under certain conditions. Cyclic AMP concentrations of the order of 10^?6M and higher caused an increase in the rate of citrate synthesis. Adenosine, ATP, and cyclic GMP at 10^?3M also stimulated, but were ineffective at 10^?4M. 5′-AMP had no effect while 5′-GMP and guanosine inhibited slightly. ADP showed a 42% inhibition. Theophylline enhanced the cyclic AMP effect. It is proposed that citric acid accumulation by Aspergillus niger may result from abnormal cyclic AMP metabolism.     

Aconitase and citric acid fermentation by Aspergillus niger.

In view of the often-cited theory that citric acid accumulation is caused by an inhibition of aconitase activity, the equilibrium of the reaction of aconitase was investigated by comparing in vivo steady-state concentrations of citrate and isocitrate in Aspergillus niger grown under various citric acid-producing conditions. With the equilibrium catalyzed by the A. niger enzyme in vitro, similar values were obtained. The validity of our in vivo measurements was verified by the addition of the aconitase inhibitor fluorocitrate, which appreciably elevated the citrate:isocitrate ratio. The results strongly argue against an inhibition of aconitase during citric acid fermentation.     

Parasexual hybridisation and citric acid production by Aspergillus niger

Summary In this investigation hybridisation experiments were performed with two auxotrophic mutants of Aspergillus niger. A heterozygous diploid was derived from them and it produced segregants including parental haploids and a recombinant. Their yield characters were studied.     

Citrate transport during the citric acid fermentation by Aspergillus niger

Summary Aspergillus niger SZ was grown under citric acid accumulation conditions in a 1l bioreactor. Radioactive citric acid was added during the fermentation to the culture medium. The accumulation of radioactive citric acid in the mycellium was measure by measuring radioactive CO₂ in the offgas. Evidence was obtained of significant turnover and metabolism of exogenous citric acid even during the phase of maximum accumulation into the medium.     

Galactose inhibition of citric acid production from glucose by Aspergillus niger

Summary Previous work in this laboratory has demonstrated that although Aspergillus niger can readily utilize galactose, no citric acid is produced from this carbon source (Hossain et al. 1984). Experiments were now conducted where galactose was added at various concentrations to synthetic growth medium containing glucose as carbon source, so that the effect of galactose on citric acid production from glucose could be observed. The results showed that the presence of galactose or a product of galactose metabolism caused inhibition of citric acid production, and also reduced the rate of glucose utilization. Enzyme analyses using mycelial cell-free extracts indicated that galactose interfered with the glucose-repression of the key enzyme 2-oxoglutarate dehydrogenase.     

Production of citric acid from sugars present in wood hemicellulose usingAspergillus niger andSaccharomycopsis lipolytica

Summary One strain each of the fungus,Aspergillus niger, and the yeast,Saccharomycopsis lipolytica, were investigated for their ability to produce citric acid from the sugars present in hemicellulose hydrolysates.S. lipolytica produced citric acid as efficiently from mannose as from glucose, but failed to assimilate xylose, arabinose or galactose.A. niger readily assimilated mannose, xylose and arabinose, and produced citric acid from these sugars although the yields were lower than from glucose. A possible inhibitory effect of arabinose on citric acid production from other sugars was observed usingA. niger.     

Protoplast fusion inAspergillus niger strains accumulating citric acid

Auxotrophic strains ofAspergillus niger were obtained from citric-acid-producing strains of the fungus after irradiation with UV light. Protoplasts were isolated from young hyphae of the auxotrophic strains after treatment with snail enzyme and than treated with polyethylene glycol (30%,W/V), in a Ca²⁺ (10 mmol/L) solution. The pH value of the suspension was adjusted to 9.0. The frequency of the heterokaryons (related to the number of protoplasts reverting after PEG treatment) was 0.67%. Prototrophic heterozygous spores were isolated from a heterokaryon with the frequency of 1.2×10⁻⁶. Citric acid production in the best heterozygous strains was about 15% higher than that of the high-production parent strain.