Effects of inoculum size and age on biomass growth and paclitaxel production of elicitor-treated Taxus yunnanensis cell cultures

Suspension cultures of Taxus yunnanensis cells were inoculated with cells of different culture ages (12-24 days) at various densities [50-250 g fresh weight (fw)/l], and treated (on day 7) with a mixture of elicitors, including Ag(+), chitosan and methyl jasmonate. The biomass productivity (during the production stage) increased dramatically with inoculum size, but decreased with inoculum age over 16 days. The volumetric yield and productivity of taxol (paclitaxel) also increased with inoculum size, while the specific taxol yield (per cell) was mainly dependent on inoculum age, with an optimum of 20 days, during the early stationary phase. The highest taxol yield and productivity, 39.8 mg/l and 1.9 mg/l per day, respectively, were obtained with a 20-day-old inoculum at 200 g fw/l. Taxol excretion by the cells increased with inoculum age but decreased with inoculum size. The elicitor-induced activities of catalase (CAT) and phenylalanine ammonia-lyase (PAL) also depended mainly on inoculum age; higher PAL activity and lower CAT activity were obtained with an older inoculum, corresponding to a higher taxol yield. The results show that both inoculum size and age are important variables for taxol production, though the latter more profoundly influences elicitor-induced taxol biosynthesis of the cells. Inoculum size and age are also interrelated and should be optimized together in a two-stage culture process.     

不同因素对岩黄连悬浮细胞生长的影响

目的:建立一个快速生长的岩黄连悬浮细胞培养体系。方法:研究了接种量、基本培养基、初始pH值、不同碳源对岩黄连悬浮细胞生长的影响。结果:合适的接种量是7.5~10%(FW),接种量过少会抑制细胞生长;B5和MS基本培养基均适合岩黄连细胞的生长;最佳初始培养基pH值为6.0,此时获得的细胞生物量最高;岩黄连悬浮细胞培养的生长周期为24d,最大生物量出现在第18d,达到14.1g/l(DW);蔗糖比葡萄糖更有利于岩黄连细胞的生长,添加60g/l蔗糖所获得的生物量最高,达到18.5g/l(DW)。     

Significance of inoculation density control in production of polysaccharide and ganoderic acid by submerged culture of Ganoderma lucidum

Control of inoculation density was significant for cell growth, morphology, and production of polysaccharide and ganoderic acid in submerged culture of the higher fungus Ganoderma lucidum. A maximal cell concentration of 15.7 g dry cell weight (DW)/l was obtained at an inoculation density of 330 mg DW/l. For inoculation density within the range of 70–670 mg DW/l, a large inoculation density led to a small pellet size and high production of extracellular and intracellular polysaccharides, while a relatively big pellet size and high accumulation of ganoderic acid were observed at a low inoculation density. It was also shown that small pellet size resulted in high polysaccharide production, while large pellet size led to high production of ganoderic acid.     

Effect of the culture medium and biotic stimulation on taxane production in Taxus globosa Schltdl in vitro cultures

Taxus globosa is the only species of the Taxus genus that grows in Mexico. In this study, callus cultures from leaves and young shoots of T. globosa were established in Gamborg’s B5 medium supplemented with 2,4-dichlorophenoxiacetic acid (2 mg/L), kinetin (0.5 mg/L) and gibberellic acid (0.25 mg/L). Callus growth and taxane production were evaluated using two culture media: Woody Plant Medium and Gamborg’s B5 supplemented with picloram (2 mg/L), kinetin (0.1 mg/L) and gibberellic acid (0.5 mg/L). The effect of the inoculum size (50, 100 and 150 g FW/L) and culture media (Woody Plant Medium and Gamborg’s B5) with and without the presence of methyl jasmonate (100 μM) on T. globosa cell suspensions was assessed. Taxane analysis revealed that the calli in Gamborg’s B5 produced taxol (50 μg/g DW), baccatin III, 10-deacetyl baccatin III and 10-deacetyl taxol. Woody Plant Medium also induced the production of taxol, although to a lesser extent. The optimum inoculum size was 50 g FW/L. In cell suspension cultures, both media had a significant effect on taxane production when supplemented with methyl jasmonate. In Woody Plant Medium, at day 14, a total concentration of 197.999 μg/L of taxol, 160.622 μg/L of baccatin III, 633.724 μg/L of 10-deacetyl baccatin III and 229.611 μg/L 10-deacetyl taxol were obtained, with total excretion of baccatin III and 10-deacetyl taxol to the culture medium. In Gamborg’s B5, cephalomanine was obtained at a concentration of 91.428 μg/L without elicitation, and all taxanes were excreted to the medium to a variable extent.     

Effects of Zn supplementation on the growth,amino acid composition,polysaccharide yields and anti-tumour activity of <Emphasis Type="Italic">Agaricus brasiliensis</Emphasis>

The effects of Zn supplementation on the growth, amino acid composition, polysaccharide yields and anti-tumour activity of Agaricus brasiliensis were studied. An initial Zn concentration within the range of 0–300 mg/l had a significant effect on the cell growth and Zn biosorption. At an initial Zn concentration of 300 mg/l, a maximal extracellular polysaccharide (EPS) yield of 5.08 ± 0.25 g/l was obtained, as well as a maximal intracellular polysaccharide (IPS) of 12.25 ± 0.31 mg/g DW. Amino acid analysis results showed that the total amino acid contents of mycelia and culture filtrate decreased from 1090.08 ± 0.76 (233.62 ± 0.06) to 1077.40 ± 0.77 mg/100 g DW (229.52 ± 0.05 mg/l), respectively, while the total essential amino acid contents of mycelia and culture filtrate markedly increased from 429.51 ± 0.86 (58.84 ± 0.05) to 476.9 ± 0.85 mg/100 g DW (59.99 ± 0.04 mg/l), respectively. The anti-tumour activity of Zn-enriched mycelial powder against sarcoma 180 in mice showed that the tumour inhibition ratio was 61.5% and was enhanced markedly as compared to normal mycelial powder of 30.8. The fundamental information obtained in this study will be useful for efficient production of Zn-enriched foods or drugs.     

Enhancement of taxol production and release in Taxus chinensis cell cultures by ultrasound,methyl jasmonate and in situ solvent extraction

This study evaluates the use of a novel mechanical stimulus, ultrasound (US), and a putative chemical elicitor, methyl jasmonate (MJ), combined with in situ solvent extraction (two-phase culture), to enhance taxol production by Taxus chinensis cells in suspension culture. The volumetric taxol yield was increased 1.5- to 1.8-fold with 2 min US treatment once or twice during a 4-week culture period, about 5-fold with 60-120 microM MJ, and 7- to 9-fold by in situ solvent extraction of taxol with dibutyl phthalate (DBP) (11% v/v). The percent of extracellular taxol or taxol release was also significantly increased. The combined use of US (day 5 or 9) and MJ treatment (day 7) resulted in taxol yields 20-50% higher than each of the treatments used alone. The most favorable strategy for taxol production was the application of US or MJ treatment, followed by in situ solvent extraction, giving rise to a taxol yield of 33-35 mg/l, about 17-fold higher than the control, at 1.9 mg/l. It was found that the organic solvent DBP, as well as US and MJ, stimulated the enzyme activity of secondary metabolic pathways, which was partially responsible for the enhanced taxol production.     

Quantitative response of cell growth and polysaccharide biosynthesis by the medicinal mushroom Phellinus linteus to NaCl in the medium

The effect of NaCl on cell growth and polysaccharide biosynthesis in the medicinal mushroom Phellinus linteus was studied. With the increase of NaCl concentration between 1 g/l and 7 g/l in the culture medium, the cell growth and intracellular polysaccharide (IPS) accumulation were decreased; extracellular polysaccharide (EPS) concentration was enhanced, with an increase of NaCl concentration from 1 g/l to 3 g/l. Under the optimum NaCl concentration of 3 g/l, the maximum EPS and IPS production reached 2.2±0.15 g/l and 53.6±2.45 mg/g DW on day 12, which improved 32.27% and decreased 16.89% compared to the control, respectively. Both EPS and IPS showed new polysaccharide components by fractionation with DEAE-cellulose ion exchange chromatography compared to the control. The results presented in this study are considered helpful for further investigation on the diversity of polysaccharide biosynthesis of this medicinal fungus under NaCl environments.     

Adventitious root culture of <Emphasis Type="Italic">Polygonum multiflorum</Emphasis> for phenolic compounds and its pilot-scale production in 500 L-tank

Polygonum multiflorum Thunb. is an important medicinal plant that synthesizes an array of phenolic compounds. Its roots are used in a variety of pharmacological and cosmetic formulations, notably as hair dye. In the present study, the inoculum density (3–15 g/L) and culture period (1–7 weeks) were optimized in a 3 L bioreactor. High root biomass (14.18 g/L dry weight (DW)) was recorded with an inoculum of 7 g/L (p?≤?0.05), which is consistent with the results for 5 and 10 g/L. However, significantly higher yield of bioactive compounds (53.87 mg/g DW total phenolics and 27.96 mg/g DW total flavonoids) with high free radical scavenging activity was obtained in root samples from 5 g/L inoculum density. A 4 week culture period was sufficient for optimum root growth and metabolite production. The optimized conditions were used for large-scale (5 and 20 L) and pilot-scale (500 L) studies. Considering that the continuous aeration of root cultures may lead to oxidative stress, antioxidant enzyme activity and lipid peroxidation also were studied. The results revealed high catalase (CAT) and guaiacol peroxidase (G-POD) activities, and low malondialdehyde (MDA) production, with increasing culture scale (20 and 500 L), which may indicate low-level oxidative damage to the cultures. An optimal yield of 4.01 kg dry root biomass with 287.12 mg/L of total phenolic productivity was achieved in a 500 L pilot-scale bioreactor. This work can pave the way for commercial production of biomass and secondary metabolites at the industrial level, and meet the rising demand for natural ingredients, especially in the pharmaceutical and cosmetic industries.     

Lipase production by recombinant strains of <Emphasis Type="Italic">Aspergillus niger</Emphasis> expressing a lipase-encoding gene from <Emphasis Type="Italic">Thermomyces lanuginosus</Emphasis>

Two recombinant strains of Aspergillus niger (NW 297-14 and NW297-24) producing a heterologous lipase from Thermomyces lanuginosus were constructed. The heterologous lipase was expressed using the TAKA amylase promoter from Aspergillus oryzae. The production kinetics of the two strains on different carbon sources in batch and carbon-limited chemostat cultivations were evaluated. In batch cultivations, the highest total product yield coefficient (Y_{xp total}), given as the sum of extracellular and intracellular yields, was obtained during growth on glucose for the transformant strain NW297-24 (5.7±0.65 KU/g DW), whereas the highest total product yield coefficient was obtained during growth on maltose for the transformant strain NW297-14 (6.3±0.02 KU/g DW). Both transformants were evaluated in glucose-limited chemostat cultures. Strain NW297-14 was found to be the best producer and was thus employed for further analysis of the influence of carbon source in chemostat cultures. Here, the highest total specific lipase productivity (r_{p total}, the sum of extracellular and intracellular lipase productivity) was found to be 1.60±0.81 KU/g DW/h in maltose-limited chemostats at a dilution rate of 0.08 h^–1, compared with a total specific lipase productivity of 1.10±0.41 KU/g DW/h in glucose-limited chemostats. At the highest specific productivity obtained in this study, the heterologous enzyme accounted for about 1% of all cellular protein being produced by the cells, which shows that it is possible to obtain high productivities of heterologous fungal enzymes in A. niger. However, SDS-PAGE analysis showed that most of the produced lipase was bound to the cell wall.     

Influence of Culture Parameters on Biological Hydrogen Production by Clostridium saccharoperbutylacetonicum ATCC 27021

Summary Various medium components (carbon and nitrogen sources, iron, inoculum size) and environmental factors (initial pH and the agitation speed) were evaluated for their effects on the rate and the yield of hydrogen production by Clostridium saccharoperbutylacetonicum. Among the carbon sources assessed, cells grown on disaccharides (lactose, sucrose and maltose) produced on the average more than twice (2.81 mol-H2/mol sugar) as much hydrogen as monosaccharides (1.29 mol-H2/mol sugar), but there was no correlation between the carbon source and the production rate. The highest yield (2.83 mol/mol) was obtained in lactose and sucrose but the highest production rate (1.75 mmol/h) in sucrose. Using glucose as carbon source, yeast extract was the best nitrogen source. A parallel increase between the production rate and the yield was obtained by increasing glucose concentration up to 40 g/l (1.76 mol-H2/mol, 3.39 mmol/h), total nitrogen as yeast extract up to 0.1% (1.41 mol/mol, 1.91 mmol/h) and agitation up to 100 rev/min (1.66 mol-H2/mol, 1.86 mmol/h). On the other hand, higher production rates were favoured in preference to the yield at a neutral initial pH 7 (2.27 mmol/h), 1000 mg iron/l or more (1.99 mmol/h), and a larger inoculum size, 10%, (2.36 mmol/h) whereas an initial alkaline pH of 8.5 (1.72 mol/mol), a lower iron concentration of 25 mg/l (1.74 mol/mol) and smaller inoculum size, 1%, (1.85 mol/mol) promoted higher yield over production rate.     

补料培养与溶氧控制联合应用对红豆杉细胞培养的影响

为进一步提高红豆杉 (Taxuschinensis (Pilg.)Rehd .)细胞培养过程中紫杉醇的产量 ,采用细胞悬浮培养方法研究了补料培养与溶氧控制联合应用对紫杉醇产量的影响。 5L反应器中补料培养研究表明 ,培养过程中第 16天添加含 2 0g/L蔗糖的补料培养液有利于细胞的生长及紫杉醇的合成。 2 0L反应器中补料培养的研究结果表明 :2 0 %饱和度培养时紫杉醇含量最高 (0 .98mg/gDW) ,但 4 0 %～ 6 0 %溶氧饱和度能提高紫杉醇的产量。进一步研究表明 ,细胞在 6 0 %溶氧饱和度培养 2 0d后转入 2 0 %溶氧饱和度继续培养 12d ,能显著提高紫杉醇产量。补料培养与溶氧控制联合应用时 ,2 0L反应器中红豆杉细胞培养紫杉醇产量可达 18.7mg/L。     

Bioreactor application on adventitious root culture of <Emphasis Type="Italic">Astragalus membranaceus</Emphasis>

Astragalus membranaceus is one of the most widely used traditional medicinal herbs in China, but the time required to generate a useful product in the field production is long. The growth of adventitious root cultures was compared between cultures grown in solid, liquid, or a 5-L balloon-type bubble bioreactor. The maximum growth ratio (final dry weight/initial dry weight) was determined for adventitious roots grown in the bioreactor. Studies carried out to optimize biomass production of adventitious roots compared adventitious root growth from various inoculum root lengths, inoculum densities, and aeration volume in the bioreactors. The maximum growth ratio occurred in treatments with a 1.5-cm inoculum root length, with 30 g (fresh weight) of inoculum per bioreactor or with an aeration volume of 0.1 vvm (air volume/culture medium volume per min). The polysaccharide, saponin, and flavonoid content of roots from bioreactor-grown cultures were compared to roots from field-grown plants grown for 1 and 3 yr. Total polysaccharide content of adventitious roots in the bioreactor (30.0 mg g⁻¹ dry weight (DW)) was higher than the roots of 1-yr-old (13.8 mg g⁻¹ DW) and 3-yr-old (21.1 mg g⁻¹ DW) plants in the field. Total saponin (3.4 mg g⁻¹ DW) and flavonoid (6.4 mg g⁻¹ DW) contents were nearly identical to 3-yr-old roots and higher than that of 1-yr-old roots under field cultivation.     

A perfusion air-lift bioreactor for high density plant cell cultivation and secreted protein production

A new bioreactor design that allows continuous perfusion cultivation of plant cell suspensions is described in this paper. This design incorporates an internal cell settling zone with an external-loop air-lift bioreactor. The settling zone is created by inserting a baffle plate into the upper portion of the downcomer. Using this bioreactor, Anchusa officinalis suspension culture was cultivated to a cell density of 27.2 g l⁻¹ DW in 14 days at a perfusion rate of 0.123 per day. The maximum total extracellular protein concentration attained 1.11 g l⁻¹. Complete cell retention was achieved throughout the culture during which the maximum packed cell volume (PCV) exceeded 80%. In comparison, the maximum cell density and extracellular protein concentration in the batch culture were 12.6 g l⁻¹ DW and 0.47 g l⁻¹, respectively. SDS-PAGE of the extracellular protein samples revealed two major bands at 58 and 47 kDa, each accounted for approximately 45% of the total secreted proteins.     

In vitro production of azadirachtin from cell suspension cultures of Azadirachta indica

The present study aimed to elucidate the effect of nutritional alteration on biomass content and azadirachtin production in cell suspensions of the elite neem variety crida-8.Variations in total nitrogen availability in the medium in terms of different ratios of nitrate: ammonium showed that the ratio 4:1 revealed a profound effect, leading to a 1.5-fold increase in the total extracellular azadirachtin production (5.59 mg/l) over the standard MS medium.Reduction in sucrose (15 mg/l) in the medium exhibited a reduction in biomass and absence of azadirachtin, whereas total phosphate reduction raised intracellular azadirachtin production (6.98 mg/l). An altered medium with a nitrate: ammonium ratio of 4:1 coupled with complete elimination of phosphate enhanced biomass by 36% (59.36 g/l).     

Response surface methodology in media optimization for production of β-carotene from <Emphasis Type="Italic">Daucus carota</Emphasis>

Plants are a valuable source of a vast array of chemical compounds including fragrances, flavours, food additives, colours, natural sweeteners, industrial feedstocks, anti-microbials and pharmaceuticals. The present study reports on application of Response Surface Methodology (RSM) in media optimization for suspension culture for the production of β-carotene. Growth kinetics of carrot cells in suspension culture has been carried out to understand the relationship between growth and β-carotene formation. The maximum production of β-carotene obtained using the optimized medium was 13.614 μg/g dry weight cell mass. The μ (specific growth rate) and t _d (doubling time) were found to be higher for 20 g DW/l inoculum size.     

稀土元素对红豆杉细胞悬浮培养及紫杉醇合成的影响

研究了在250mL摇瓶中,不同浓度的硝酸镧、硫酸铈铵、硝酸亚铈3种稀土化合物对细胞生长及紫杉醇分泌和释放的影响。结果表明,在培养初期加入稀土元素。3种不同稀土化合物对细胞生长影响强弱不同,但趋势相似,均使细胞的延迟期缩短。1ppm的Ce^4 促进细胞生长的效果最明显。细胞干重第17d达到10.9g/L。在指数期加入稀土元素。10ppmCe^3 刺激细胞生长的效果最明显,细胞干重最高值达到11.5g/dL,比对照高1.5g/L,而10ppm的La^3 抑制细胞的生长。经稀土元素处理后,细胞胞内和胞外紫杉醇含量都有大幅度的提高,其中以10ppmCe^3 处理,胞外紫杉醇释放率最大,达37.7%。     

Production of adventitious root biomass and secondary metabolites of Hypericum perforatum L. in a balloon type airlift reactor

The effects of inoculum density, aeration volume and culture period on accumulation of biomass and secondary metabolites in adventitious roots of Hypericum perforatum in balloon type airlift bioreactors (3 l capacity) were investigated. The greatest increment of biomass as well as metabolite content occurred at an inoculum density of 3 g l⁻¹ and an aeration volume of 0.1 vvm. After 6 weeks of culture, an approximately 50-fold increase in biomass was recorded containing 60.11 mg g⁻¹ dry weight (DW) of phenolics, 42.7 mg g⁻¹ DW of flavonoids and 0.80 mg g⁻¹ DW of chlorogenic acid. Liquid chromatography–mass spectroscopy/mass spectroscopy demonstrated that the presence of quercetin and hyperoside in adventitious roots at a level of 1.33 and 14.01 μg g⁻¹ DW, respectively after 6 weeks of culture. The results suggest scale-up of adventitious root culture of H. perforatum for the production of chlorogenic acid, quercetin and hyperoside is feasible.     

Shrimp waste fermentation with Pseudomonas aeruginosa A2: optimization of chitin extraction conditions through Plackett-Burman and response surface methodology approaches

A Box-Bhenken design with four variables (shrimp shell concentration (SSC), glucose concentration, incubation time and inoculum size) and three levels was used for the determination of the deproteinization and demineralization efficiencies in fermented shrimp shells by Pseudomonas aeruginosa A2. The fermentation variables were selected in accordance with Plackett-Burman design. Maximum demineralization of 96%, with about 89% of protein removal occurs under the following conditions: SSC 50 g/l, glucose 50 g/l, 5 days and inoculum of 0.05 OD. This environment friendly method (biological treatment) can be considered as an effective pretreatment to produce a high-quality chitin.     

Influence of pH and undissociated butyric acid on the production of acetone and butanol in batch cultures of Clostridium acetobutylicum

Summary The kinetics of growth and acid and solvent production are examined in batch fermentation of Clostridium acetobutylicum at pH between 4.5 and 6.0. At the lower pH, growth occurs in two consecutive phases and solvents are the main excreted metabolites. At the higher pH, there is a single growth phase with only acid formation. The influence of the pH can be correlated with a critical role of the concentration of undissociated butyric acid in the medium: cellular growth is inhibited above 0.5 g/l and solvent production starts at an undissociated acid level of 1.5 g/l. Reducing the intracellular acid dissociation by lowering the intracellular pH also favours the production of acetone and butanol.     

Salicylic acid-induced taxol production and isopentenyl pyrophosphate biosynthesis in suspension cultures of Taxus chinensis var. mairei

The influences of salicylic acid (SA) on taxol production and isopentenyl pyrophosphate (IPP) biosynthesis pathways in suspension cultures of Taxus chinensis var. mairei were investigated by adding SA and mevastatin (MVS), a highly specific inhibitor of 3-hydroxy-3-methylglutaryl-CoA reductase in the mevalonate pathway for IPP biosynthesis, into the culture systems. The cell death and taxol production were induced upon the introduction of SA, and 20mg/l was proved to be the optimal SA concentration in terms of the less damage to Taxus cells and marked activation of phenylalanine ammonia lyase (PAL). In the coexistence of SA (20mg/l) and MVS (100 nmol/l), the taxol content (1.626 mg/g dry wt) was higher than that (0.252 mg/g dry wt) of the MVS-treated system but almost equal to that (1.581 mg/g dry wt) of the SA-treated system. It is thus inferred that the activated non-mevalonate pathway should be responsible for the formation of IPP in taxol biosynthesis in the presence of SA.