Stimulation of citric acid production in Aspergillus niger by addition of viscous substances in shake culture

When glucose (120mg/ml) was used as a carbon source, Aspergillus niger Yang no. 2. showed a markedly low citric acid productivity in shake culture (15.4 mg/ml) but a high productivity in semi-solid and surface cultures (72.3 mg/ml and 67.6 mg/ml, respectively). Since the viscosity of the medium was assumed to be one of the important factors for citric acid productivity in shake culture, the effects of the addition of viscous substances on citric acid productivity of strain Yang no. 2 were examined. The addition of 2.0–6.0 mg gelatin/ml as a viscous additive to the medium containing glucose as a carbon source increased slightly the medium viscosity but substantially increased the citric acid productivity in shake culture to levels of 52.0–53.3 mg/ml, about 3.4 times as much as that without gelatin. However, no influence of gelatin addition was observed in semi-solid and surface cultures, i.e. under static cultivation conditions. Different mycelial morphologies of the strain were observed when cultivations were done in shake culture with or without the addition of gelatin. Addition of 5.0 mg agar/ml, 5.0 mg carageenan/ml, 2.5 mg carboxymethylcellulose/ml and 2.5 mg polyethylene glycol 6000/ml, to the medium containing glucose as a carbon source also increased the citric acid productivity in shake culture to levels of 39.2–54.7 mg/ml. Since Yang no. 2 does not utilize these viscous substances, these results suggested that the viscous substances functioned as protectants for the mycelium from physiological stresses due to shaking and as a consequence resulted in a remarkably increased citric acid productivity in shake culture.     

Citric acid accumulation by cycloheximide-sensitive mutant strains of Aspergillus niger

 Mutants having impaired protein synthesis, that is cycloheximide-sensitive mutants of a citric-acid-hyper-accumulating strain, were induced from Aspergillus niger WU-2223L. Selection was on the basis of a presumption that the mutants should be more sensitive to cycloheximide than WU-2223L. In shake culture without methanol as a promotor substance, seven mutants accumulated approximately 1.8–3.5 times as much citric acid as WU-2223L. The best mutant, CHM I-C3, accumulated 69.4 mg citric acid/ml from 120 mg glucose/ml in shake culture without methanol, this amount being 1.1 times the amount accumulated by WU-2223L with methanol. Furthermore, under the conditions without methanol the mutants appeared to be more efficient than WU-2223L in employing the consumed glucose for the accumulation of citric acid. It was also confirmed that CHM I-C3 exhibited a significantly increased level of intracellular NH⁺ ₄ accumulation. The addition of 2% (v/v) methanol or 20 μg cycloheximide/ml to the medium caused a remarkable increase of citric acid accumulation by WU-2223L: about 3.1 and 2.4 times respectively. However, the addition of these substances produced negative effects on citric acid accumulation by the mutants. With 2% (v/v) methanol, WU-2223L showed a remarkably decreased level of protein accumulation but a substantially increased level of intracellular NH⁺ ₄ accumulation. However, these phenomena were also observed in CHM I-C3 without methanol. These results indicate that the intracellular circumstances of the cycloheximide-sensitive mutants without methanol were similar to those of WU-2223L with methanol, and that the impairment of protein synthesis contributed to increased citric acid accumulation by the mutants in the absence of methanol. Received: 21 November 1994 / Received last revision: 10 July 1995 / Accepted: 26 July 1995     

Citric acid production from cellobiose by 2-deoxyglucose-resistant mutant strains of Aspergillus niger in semi-solid culture

Citric acid production from cellobiose by Aspergillus niger was studied by a semi-solid culture method using bagasse as a carrier. From the parental strain Yang no. 2, mutant strains showing resistance to 2-deoxy-d-glucose (DG) on minimal medium containing glucose as a carbon source were induced. The representative mutant strain M155 was selected and subjected to further mutation. The new series of mutant strains showing resistance to DG on minimal medium containing cellobiose as a carbon source was induced, and among them the best mutant strain C192 showed higher citric acid productivity than Yang no. 2 in semi-solid culture when glucose was used as a carbon source. Moreover, in semi-solid culture, the strain C192 produced 49.6 g/l of citric acid, 1.6 times as much citric acid as Yang no. 2 produced, from 100 g cellobiose/l and showed enhanced -glucosidase production. In shake culture, the extracellular -glucosidase activity of C192 was higher than that of Yang no. 2 when not only cellobiose but also glucose and glycerol, catabolite repressors, were used as a carbon source. These results indicate that mutant strains such as C192 are insensitive to catabolite repression. Correspondence to: S. Usami     

The kinetics of simultaneous glucose and fructose uptake and product formation by Aspergillus niger in citric acid fermentation

The kinetics of substrate uptake and product formation in the process of citric acid accumulation by Aspergillus niger on sucrose as a sole carbon source are presented. The experiments are aimed at studying if glucose and fructose obtained from the hydrolysis of sucrose are equivalent carbon sources for A. niger and how the presence of the two different carbon substrates might influence the citric acid formation process. Beet sugar was used as a sole carbon source in the first series of experiments conducted in two types of bioreactors: stirred tank and air-lift. The fructose uptake rate was significantly lower than the glucose uptake rate in the late idiophase. A substrate utilisation breakpoint occurred when a large amount of citric acid was accumulated in the fermentation broth. A similar phenomenon was also detected in repeated fed-batch fermentation. This phenomenon was confirmed by the second series of parallel shake culture runs, in which fungal growth and citric acid accumulation by A. niger was simultaneously tested on the media containing the following carbon sources: sucrose, glucose and fructose, with and without addition of concentrated citric acid solution. Finally, it was shown that high concentration of citric acid strongly depleted fructose uptake rate.     

Study on the Optical Rotatory Dispersion of Di-Peptides and its Application to the Recognition of Di-Peptides from Higher Peptides and Amino Acids

During the cource of the investigation of ribotidation of purine and pyrimidine bases by Brevibacterium ammoniagenes ATCC 6872, it was found that a large amount of uridine 5′-monophosphate (UMP) was accumulated in the culture broth when the organism was incubated in a medium containing uracil or orotic acid. The yields of UMP were 83% (4.8 mg/ml) from uracil and 100% (4.3 mg/ml) from orotic acid when each substrate was added at the concentration of 2 mg/ml.

Addition of 6-azauracil or 5-hydroxyuracil to the culture of the organism during cultivation led to the accumulation of both orotidine 5′-monophosphate (OMP) and UMP. The accumulation of OMP seemed to be due to the inhibition of OMP decarboxylase (E. C. 4.1.1.23) by the ribotide formed from each base. The OMP accumulation was enhanced by the addition of orotic acid in addition to 6-azauracil. When 6-azauracil was added to the medium before inoculation, UMP was predominantly accumulated, and when it was added after one day incubation, OMP was predominantly accumulated. A largest accumulation (3.6 mg/ml) of OMP was obtained when 6-azauracil was added on the 1st day and orotic acid was added on the 3rd day.

UMP and OMP accumulated in the medium were isolated from the cultured broth and identified by usual methods.     

Cultivation conditions for extracellular production of penicillinase by Escherichia coli carrying pEAP31 on a semi-large scale

Summary Cultivation conditions for extracellular production of penicillinase on a semi-large scale were established by using Escherichia coli K-12 HB 101 carrying the plasmid pEAP31 with the penicillinase gene from alkalophilic Bacillus sp. no. 170. Extracellular production of the enzyme was affected by several parameters such as concentration of carbohydrates and Nacl, pH value of culture broth, culture temperature, culture volume and shaking speed of the cultivation flask. The organism produced a large amount of the enzyme in culture broth under the optimal conditions established. For example, 180 units/ml of the extracellular enzyme was produced when the organism was inoculated in 300 ml broth in a 500-ml volume cultivation flask and shaken at 30°C on a reciprocal shaker at 172 oscillations/min with 3.2-cm strokes.     

Rubratoxin production by penicillium rubrum when grown in a synthetic medium containing different sources of carbon and nitrogen

A sterile mineral salts broth was fortified with different additives, inoculated with conidia ofPenicillium rubrum P-13, and incubated quiescently for 14 days or with shaking for 3 to 5 days. Maximal fungal growth and rubratoxin production occurred when the broth contained 20% sucrose. Broth with 10% glucose, 10% fructose, 5% maltose, or 1% asparagine supported formation of substantial amounts of rubratoxin (52.9–78.5 mg/100 ml). When the broth was fortified with glucose plus lysine, arginine aspartic acid, cystine, ammonium citrate, or ammonium phosphate, moderate amounts (27.5–39.5 mg/100 ml) of rubratoxin and mycelium (0.1–1.5 g/100 ml) were produced. Presence in the broth of 5% galactose or starch resulted in accumulation of small amounts (22.2 and 24.6 mg/100 ml, respectively) of rubratoxin and mold tissue (0.70 and 0.5 g/ 100 ml, respectively). Whereas some toxin was recovered from mineral salts broth fortified with lactose or ribose, toxin was not recovered when the mold grew in broth containing mannitol or fumarate. With the exception of gluconate which supported some growth and toxin formation and ethanol which permitted formation of small amounts of toxin, other carbon sources resulted in little or no fungal growth and no toxin formation. Yields of rubratoxin decreased with an increase in amount of agitation or length of incubation ofP. rubrum cultures. Mold growth increased and toxin formation decreased with an increase in volume of culture.     

Citric acid production from xylan and xylan hydrolysate by semi-solid culture of Aspergillus niger

Citric acid production from xylan and xylan hydrolysate was done by Aspergillus niger Yang no. 2 cultivated in a semi-solid culture using bagasse as a carrier. Yang no. 2 produced 72.4 g/l and 52.6 g/l of citric acid in 5 d from 140 g/l of xylose and arabinose, respectively. Yang no. 2 produced 51.6 g/l of citric acid in 3 d from a concentrated xylan hydrolysate prepared by cellulase treatment, containing 100 g/l of reducing sugars. Moreover, Yang no. 2 directly produced 39.6 g/l of citric acid maximally in 3 d from 140 g/l of xylan.     

Glycogen and trehalose accumulation during colony development in Streptomyces antibioticus

Streptomyces antibioticus accumulated glycogen and trehalose in a characteristic way during growth on solid medium. Glycogen storage in the substrate mycelium took place during development of the aerial mycelium. The concentration of nitrogen source in the culture medium influenced the time at which accumulation started as well as the maximum levels of polysaccharide stored. Degradation of these glycogen reserves was observed near the beginning of sporulation. The onset of sporogenesis was always accompanied by a new accumulation of glycogen in sporulating hyphae. During spore maturation the accumulated polysaccharide was degraded. No glycogen was observed in aerial non-sporulating hyphae or in mature spores. Trehalose was detected during all phases of colony development. A preferential accumulation was found in aerial hyphae and spores, where it reached levels up to 12% of the cell dry weight. The possible roles of both carbohydrates in the developmental cycle of Streptomyces are discussed.     

Characterization of metabolically active developmental stage of Aspergillus niger cells immobilized in polyacrylamide gel

Summary The in-situ development of Aspergillus niger entrapped in polyacrylamide gel from spores and the gel surface characteristics were studied during the repeated shake flask batch citric acid fermentation. A marked increase in the rate of citric acid production was observed with the periodic replacement of culture with fresh media at an interval of 6 days reducing the fermentation time nearly to half. The metabolically active A. niger cells for citric acid production were characterized by the appearance of thick and bulbous hyphae scattered in and on the gel surface.     

Interaction of cultural conditions and end-product distribution in Bacillus subtilis grown in shake flasks

Summary A culture of Bacillus subtilis, in which the relative production of acetoin (Ac) and butanediol (Bu) is highly sensitive to oxygen tension as well as to mixing conditions, was used to evaluate several culture conditions in 500-ml shake flasks. The concentration ratio of these metabolites (Ac/Bu) produced in a defined period of culture time was used as a parameter for comparative purposes. The influence of working volume, shaking speed, broth viscosity and the presence of baffles were evaluated. Using unbaffled flasks it was found that working volume had the most influence on oxygenation in shake flasks, especially below 10%, where differences in Ac/Bu ratios up to ten times could be measured. Shaking speed played an important role only at values higher than 400 rpm or when small working volumes were used. The addition of xanthan gum decreased the Ac/Bu ratio nearly four times under equivalent working conditions and also diminished the influence of shaking speed. In general, Ac/Bu was higher when sulphite oxygen transfer rate (OTR) values were higher. However, the test culture was able to detect differences which were not evident using the OTR method. Comparing Ac/Bu ratios in stirred fermentors from the literature, it seems that similar oxygenation conditions can be reached in non-baffled shake flasks only at very high shaking speeds using small working volumes. With baffled flasks, our data suggest that better oxygenation and mixing can be achieved in shake flasks if compared with those obtained in stirred fermentors at conventional power inputs.     

Extracellular production of Streptomyces lividans acetyl xylan esterase A in Escherichia coli for rapid detection of activity

Acetyl xylan esterase A (AxeA) from Streptomyces lividans belongs to a large family of industrially relevant polysaccharide esterases. AxeA and its truncated form containing only the catalytically competent domain, AxeA(tr), catalyze both the deacetylation of xylan and the N-deacetylation of chitosan. This broad substrate specificity lends additional interest to their characterization and production. Here, we report three systems for extracellular production of AxeA(tr): secretion from the native host S. lividans with the native signal peptide, extracellular production in Escherichia coli with the native signal peptide, and in E. coli with the OmpA signal peptide. Over five to seven days of a shake flask culture, the native host S. lividans with the native signal peptide secreted AxeA(tr) into the extracellular medium in high yield (388 mg/L) with specific activity of 19 U/mg corresponding to a total of 7000 U/L. Over one day of shake flask culture, E. coli with the native secretion signal peptide produced 84-fold less in the extracellular medium (4.6 mg/L), but the specific activity was higher (100 U/mg) corresponding to a total of 460 U/L. A similar E. coli culture using the OmpA signal peptide, produced 10mg/L with a specific activity of 68 U/mg, corresponding to a total of 680 U/L. In 96-well microtiter plates, extracellular production with E. coli gave approximately 30 and approximately 86 microg/mL in S. lividans. Expression in S. lividans with the native signal peptide is best for high level production, while expression in E. coli using the OmpA secretion signal peptide is best for high-throughput expression and screening of variants in microtiter plate format.     

Citric acid production by Candida strains under intracellular nitrogen limitation

A suitable strain and important factors influencing citric acid formation in yeasts were identified. Candida oleophila ATCC 20177 was chosen as the best citric acid producer from several Candida strains. Yields of 50 g/l citric acid were produced in shake flask and 80 g/l in fed-batch fermentations with 1.5 and 3 g/l NH(4)Cl under non-optimized conditions. Ammonium nitrogen was identified as the limiting substrate for citrate formation. Citric acid excretion begins a few hours after exhaustion of nitrogen in the medium. The importance of intracellular nitrogen limitation was clarified by elemental analysis of C. oleophila biomass. The nitrogen content of C. oleophila biomass decreased from 7.45% during the growth phase to 3.96% in the production phase. The biomass contained less carbon and more trace elements in the growth phase compared with the production phase. Relatively high intracellular NH(4)(+) concentration of about 1.2 mg/g biomass (~37.4 mM) was found during the production phase. The low intracellular nitrogen content and increase of intracellular NH(4)(+) concentration, possibly caused by proteolysis following extracellular nitrogen exhaustion, trigger citric acid production. Intracellular nitrogen limitation and the increase in intracellular NH(4)(+) concentration are the most important factors influencing citric acid formation in yeasts.     

均匀设计法优化发菜细胞悬浮培养条件

通过摇瓶发酵实验研究了培养温度、光照强度等培养条件对发菜细胞悬浮培养生物量和代谢产物发菜多糖累积的影响,通过均匀设计试验对培养条件进行了优化。结果表明:在培养温度24℃、培养基初始pH8.0、光照强度60μmol/(m2.s)、转速150r/min的条件下培养20d,发菜细胞生物量(细胞质量浓度)达到1.34g/L,胞外多糖产量达到208.32mg/L;与优化前相比,发菜细胞生物量和胞外多糖产量分别提高27.3%、111.17%。     

Structures of Cinnzeylanine and Cinnzeylanol,Polyhydroxylated Pentacyclic Diterpenes from Cinnamonum zeylanicum Nees

A bacterium isolated as resistant to alkyldimethylbenzylammonium chloride (benzalkonium chloride, BC) and tentatively identified as Enterobacter cloacae, was induced by BC to produce acidic polysaccharide. The optimum concentration of BC for production of the polysaccharide was 0.1% and the polysaccharide produced amounted to 1.0-2.0 mg per ml of culture broth. The best carbon and nitrogen sources for the polysaccharide production were glycerol and polypeptone.

The acidic polysaccharide was consisted of fucose, galactose, glucose, glucuronic acid, pyruvate, and acetate, like colanic acid. The production of the acidic polysaccharide was not induced by the addition of trimethylbenzylammonium chloride and tetramethylammonium chloride, but it was induced by p-fluorophenylalanine, and the results are discussed.     

Viriditoxin Production by Aspergillus viridi-nutans and Related Species

Bioproduction of viriditoxin on various substrates by strains of the Aspergillus fumigatus group was determined under several incubation conditions. Aspergillus viridi-nutans strains NRRL 4365 and 576 produced the largest quantities of toxin, A. brevipes gave reduced yields, and there was no detectable synthesis by isolates of four related species. After 30 days in static culture at 20 C on various autoclaved agricultural commodities, optimal yields of 440 and 380 mg of toxin were observed per kilogram of sorghum and rice. Toxin levels were reduced on corn, rye, and wheat (40-200 mg/kg); yields were low on cottonseed, barley, and oats. Incubation at 10 C restricted biosynthesis of viriditoxin, and no toxin accumulated on substrates maintained at 5 C for 120 days. In a liquid, yeast extract-sucrose medium, maximal mycotoxin production developed in shake flasks; after 156 h, 10 mg of toxin accumulated per gram of mycelium. Viriditoxin produced in submerged culture was associated with the mycelium; less than 1% was detected in the filtered broth after 156 h of incubation.     

Optimization of tannase biosynthesis by a newly isolated Rhizopus oryzae

A strain isolated locally and identified as Rhizopus oryzae (RO, IIT KGP) was found to synthesise an extracellular enzyme, tanin acyl hydrolase, showing its degradability of tannic acid to gallic acid. For maximizing the enzyme secretion in the fermented broth, the influencing parameters were optimized in shake flask culture. Experiments showed that modified Czapek dox medium with 2% tannic acid, 1% glucose, 0.05% sodium nitrate incubated for 4 days with 2 days old inoculum was the optimum for the synthesis of tannase by Rhizopus oryzae (RO, IIT KGP). Maximum enzyme activity was found to be 6.12 U/ml.     

碱胁迫下耐碱植物星星草体内柠檬酸特异积累现象(英)

对碱胁迫 (0 - 175mmol/LNa2 CO3 )下星星草 (Puccinelliatenuiflora (Griseb .)Scribn .etMerr.)体内柠檬酸的积累规律及其相关胁变指标进行分析测定。实验结果证明 :积累柠檬酸是星星草对碱胁迫特有的生理反应。盐胁迫(0 - 4 0 0mmol/LNaCl)下 ,柠檬酸含量反而稍有下降。柠檬酸积累量随碱胁迫强度增大而增大 ,低胁迫强度时积累量上升缓慢 ,当胁迫强度大于 10 0mmol/LNa2 CO3 时 ,积累量明显上升。柠檬酸积累与胁迫时间之间呈直角曲线关系 ,一定胁迫强度下胁迫 4h后即可测出柠檬酸含量明显上升 ,约 4 8h后渐趋最大值。碱胁迫 14 4h后星星草各部位中柠檬酸含量从高到低的顺序依次是老叶、成熟叶、老叶鞘、幼叶鞘、幼茎、老茎和幼叶。成熟叶中柠檬酸随碱胁迫强度增大而逐渐上升 ,老叶和叶鞘中的柠檬酸在碱胁迫强度大于 12 5mmol/L后急剧上升 ,茎中柠檬酸含量无明显增高 ,幼叶中柠檬酸含量基本不变。实验证明 ,碱胁迫下积累的主要是柠檬酸 ,其他有机酸无明显变化。     

Conditions for Production of Microbial Cell Flocculant by Aspergillus sojae AJ7002

Cultivation is reported on Aspergillus sojae AJ7002 which synthesized an extracellular bio-flocculant. Growth studies in shaking flasks and fermentors were conducted to obtain higher flocculant production. The highest level of polymer accumulation was attained after 48–72 hr cultivation at 30–34°C. The favorable substrates for polymer formation were casein, yeast extract, polypepton and amino acids, such as glutamic acid and alanine. The addition of saccharides to the medium was found to reduce the pH of the culture broths, and hence inhibit the accumulation of flocculant in the culture broth. The finding that the product was a single substance from the early stage of fermentation suggested that the polymer was not a product of cell autolysis. The components of the polymer which were produced by Asp. sojae did not vary even if the medium composition or culture condition changed. The addition of 2-ketogluconic acid, which is one of the constituents of the polymer increased the flocculating activity of the culture medium.     

Citric acid production by the diploid strains of Aspergillus niger obtained by protoplast fusion

Summary Diploid strains were obtained following protoplast fusion between two citric acid producers of Aspergillus niger, one for the solid culture and the other for the shaking culture. In the shaking culture, all the diploid strains exhibited lower productivities than one parental strain. However, in the solid culture, some diploid strains exhibited higher productivities than either parental strain; the best diploid strain produced 1.2 times as much citric acid as the parental strain in solid culture.