Alginate promotes production of various enzymes by Catharanthus roseus cells

When 1.0 g/l of alginate was added to a Catharanthus roseus L. cell culture, many proteins were released from the cells as detected by SDS polyacrylamide gel electrophoresis. In particular, production and/or release of 5′-phosphodiesterase (5′-PDase), catalase and chitinase by C. roseus L. cells were promoted by the addition of alginate. The promotive effects of alginate on 5′-PDase production were observed for various C. roseus cell lines and similar results were obtained when different alginates with various mannuronate/guluronate ratios and viscosities were used. In contrast, agar, agarose, and chitosan did not promote 5′-PDase production. The promotion of 5′-PDase production was not due to cell mutation, the alginate acted rather as a kind of elicitor. During 82 subcultures (577 days) in Murashige and Skoog medium containing 1.0 g/l of alginate, production and release of 5′-PDase by C. roseus L. cells were promoted without inhibition of cell growth. Received: 27 February 1997 / Revision received: 10 July 1997 / Accepted: 20 July 1997     

Endogenous elicitor-like effects of alginate on physiological activities of plant cells

 The effects of alginate on the physiological activities of plant cells were studied. Addition of alginate oligomer (AO) to the suspension culture of Catharanthus roseus L. or Wasabia japonica cells promoted the production of antibiotic enzymes such as 5′-phosphodiesterase or chitinase respectively. Ajmalicine (a secondary metabolite) production by C. roseus CP3 cells was also promoted when AO was added to the suspension culture. On the basis of these results, we assumed that alginate is an elicitor-like substance. We therefore compared the effect of AO on C. roseus L. and W. japonica cells with those of chitosan oligomer (CO) and oligo-galacturonic acid (OGA), which are well known as an exogenous elicitor and endogenous elicitor respectively. The effects of various concentrations of AO, OGA, and CO on the physiological activities, membrane permeability and protoplast formation of C. roseus L. or W. japonica cells were investigated. AO and OGA showed similar physiological effects, which were quite different from those of CO. Since alginate appeared to have similar effects to galacturonic acid, we concluded that alginate acts as an endogenous elicitor. Both alginate and galacturonic acid are uronic acids, and we considered their structural similarity. The effects of esterification of the carboxylic groups of alginate by propylene oxide were also studied. The greater the degree of esterification, the less the secretion of 5′-phosphodiesterase. Hence we assumed that carboxylic groups have an important role in the initiation of the elicitation reaction in plant cells, as shown in the case of galacturonic acid. Received: 18 January 1999 / Received revision: 2 April 1999 / Accepted: 1 May 1999     

Preparation of mixed alginate elicitors with high activity for the efficient production of 5′-phosphodiesterase by Catharanthus roseus cells

When various autoclaved microbial cells suspensions (exogenous elicitors) were added to Catharanthus roseus cell cultures, its growth was inhibited but 5′-phosphodiesterase (PDase) production was stimulated. The greatest effect was with autoclaved Alteromonas macleodii: the dry cell concentration decreased from 13 to 10.9 mg/ml while PDase production increased from 0.022 to 0.235 U/ml. A combination of A. macleodii (as exogenous elicitor) and 0.1%(w/v) alginate oligomers (AO: acting as both endogenous elicitor and scavenger of active oxygen species) minimized the cell growth inhibition but enhanced PDase production (0.474 U/ml) about 20 times higher than the control (no addition). The method for the preparation of mixed alginate elicitors with high activities containing exogenous elicitor (autoclaved A. macleodii), endogenous elicitor (AO), and trans-4,5-dihydroxy-2-cyclopenten-1-one was developed. The mixed alginate elicitors significantly promoted PDase production (2.67 U/ml) by C. roseus, and the productivity was increased 120-fold compared to the control without cell growth inhibition.     

Distribution of alginate oligomers in Catharanthus roseus and Wasabia japonica cells cultured in a medium containing alginate oligomers

Distribution of alginate oligomers (AO) which are endogenous elicitor-like substances, in cultured plant cells were investigated by using AO conjugated with monopotassium 7-amino-1,3-naphthalenedisulfonate (ANDS). When AO-ANDS was added at 0.5 g l^–1 to the Catharanthus roseus cell culture, it adhered to the cells as observed by fluorescence microscopy. Using protoplasts of C. roseus, AO-ANDS was found not only in the cell walls but also in the cell membrane and cytoplasm. When C. roseus was cultivated in a medium containing oligo-galacturonic acids, as an endogenous elicitor, this was also found in the cell wall, cell membrane and cytoplasm of C. roseus cells. Similar results were also obtained with Wasabia japonica cells.     

Enhancement of growth and secondary metabolite biosynthesis: Effect of elicitors derived from plants and insects

Plant-derived natural products have been and will continue to be valuable sources. Elicitors have been employed to modify cell metabolism in order to enhance the productivity of useful metabolites in plant cell/tissue cultures. In this study, several elicitors were used to improve the productivity of useful metabolites and to reduce culture time for archiving high concentration inP. ginseng hairy root cultures. The addition of chitosan, chitosan oligosaccharide and alginate oligosaccharide to the culture ofP. ginseng hairy roots caused growth to be inhibited with the increase in elicitor concentration. The usage of the chitosan elicitor andd-glucosamine caused a slight decrease in hairy root growth, whereas total ginseng saponin accumulated slightly with the increase in elicitor concentration. When gel beads were added to the culture medium at the initial period, hairy root growth was enhanced. The maximum growth was 1.35 times higher than that of the control at 1% (w/v). Total ginseng saponin content decreased due to the addition of alginate beads. This would result in consistent diffusion of lower levels of calcium ions during the culture period that promotes biomass growth.     

Azadirachtin production by hairy root cultivation of Azadirachta indica in a modified stirred tank reactor

Present investigation involves hairy root cultivation of Azadirachta indica in a modified stirred tank reactor under optimized culture conditions for maximum volumetric productivity of azadirachtin. The selected hairy root line (Az-35) was induced via Agrobacterium rhizogenes LBA 920-mediated transformation of A. indica leaf explants (Coimbatore variety, India). Liquid culture of the hairy roots was developed in a modified Murashige and Skoog medium (MM2). To further enhance the productivity of azadirachtin, selected growth regulators (1.0?mg/l IAA and 0.025?mg/l GA₃), permeabilizing agent (0.5?% v/v DNBP), a biotic elicitor (1?% v/v Curvularia (culture filtrate)) and an indirectly linked biosynthetic precursor (50?mg/l cholesterol) were added in the growth medium on 15th day of the hairy root cultivation period in shake flask. Highest azadirachtin production (113?mg/l) was obtained on 25th day of the growth cycle with a biomass of 21?g/l DW. Further, batch cultivation of hairy roots was carried out in a novel liquid-phase bioreactor configuration (modified stirred tank reactor with polyurethane foam as root support) to investigate the possible scale-up of the established A. indica hairy root culture. A biomass production of 15.2?g/l with azadirachtin accumulation in the hairy roots of 6.4?mg/g (97.28?mg/l) could be achieved after 25?days of the batch cultivation period, which was ~27 and ~14?% less biomass and azadirachtin concentration obtained respectively, in shake flasks. An overall volumetric productivity of 3.89?mg/(l?day) of azadirachtin was obtained in the bioreactor.     

Improved β-thujaplicin production in Cupressus lusitanica suspension cultures by fungal elicitor and methyl jasmonate

Production of a novel antimicrobial tropolone, beta-thujaplicin, in Cupressus lusitanica suspension cultures was studied by using a variety of chemicals and fungal elicitors. Sodium alginate, chitin, and methyl jasmonate resulted in 2-, 2.5-, and 3-fold higher beta-thujaplicin production, respectively, than in the control. Significantly improved beta-thujaplicin production (187 mg l(-1)) was obtained using a high cell density (180-200 g l(-1)) and fungal elicitor treatment [10 mg (g fresh cells)(-1)] in a production medium with a high ferrous ion concentration (0.3 mM). This improved volumetric productivity was 3- to 4-fold higher than obtained under standard conditions. A synergistic effect of fungal elicitor and ferrous ion on beta-thujaplicin production was also suggested by our study. Plant cell culture technology is a promising alternative for producing a large variety of secondary metabolites that are widely used as food additives, pharmaceuticals, and dairy products (Verpoorte et al. 1999). Thus, beta-thujaplicin production by plant cell cultures was developed with the goal of commercial application (Berlin and Witte 1988; Itose and Sakai 1997; Ono et al. 1998). However, the production of beta-thujaplicin by plant cell cultures is still not competitive for use in industrial applications. In this study, we assessed the effects of methyl jasmonate, alginate, chitin, and fungal elicitor on beta-thujaplicin production; we obtained a significantly elevated beta-thujaplicin production by using an improved culture strategy.     

The influence of methyl jasmonate,cholesterol and l‐arginine on solasodine production in hairy root culture of Solanum mammosum

The increasing demand of diosgenin for high‐revenue synthesis of steroid hormones by the pharmaceutical industries has driven researchers to look for other alternatives. Solasodine which was reported to be present in Solanum mammosum is known to be a potential source. The present study highlighted that added methyl jasmonate, cholesterol and l ‐arginine into the modified liquid full‐strength Murashige and Skoog (MS) medium (with ammonium to nitrate ratio 10.3 mM: 39.4 mM, and 4% (w/v) sucrose) could influence the solasodine production in the hairy roots of S. mammosum. The findings showed that both hairy root line‐ATCC31798 and line‐A4 (which were separately induced by Agrobacterium rhizogenes strain ATCC31798 and A4) acquired solasodine productivity of 4.5 mg/g dry weight roots with average dry biomass of 190 mg after 32 days culture, when using 50 mg fresh weight roots as initial inoculum size, with 100 mM cholesterol, 1000 μM l ‐arginine and 300 μM methyl jasmonate added simultaneously into the culture medium on day 20 of culture. The amount of solasodine obtained was five times higher than those without both the elicitor and precursor treatment. The improved solasodine production with a high‐biomass growth could reduce the production cost of steroid synthesis in the long run.     

A High Performance Fermentation Process for Citric Acid Production by Aspergillus niger NGGCB-101, Using Vermiculite as an Additive in a Stirred Bioreactor

The present study describes the use of vermiculite for enhanced citric acid productivity by a mutant strain of Aspergillus niger NG^GCB-101 in a stirred bioreactor of 15.0 l capacity. The maximum amount of citric acid (96.10 g/l) was obtained with the control 144 h after mycelial inoculation. To enhance citric acid production, varying levels of vermiculite were added as an additive into the fermentation medium. The best results were observed when 0.20 g/l vermiculite was added into the medium 24 h after inoculation resulting in the production of 146.88 g citric acid monohydrate/l. The dry cell mass and residual sugar were 11.75 and 55.90 g/l, respectively. Mixed mycelial pellets (1.08–1.28 mm, dia) were observed in the fermented culture broth. When the culture grown at different vermiculite levels was monitored for Q _p , Q _s and q _p , there was a significant enhancement (P 0.05) in these variables over the control (vermiculite-free). Based on these results, it is concluded that vermiculite might affect mycelial morphology and subsequent TCA cycle performance to improve carbon source utilization by the mould, basic parameters for high performance citric acid fermentation.     

Ethanol production at 45°C by Kluyveromyces marxianus IMB3 immobilized in magnetically responsive alginate matrices

Summary The thermotolerant yeast, Kluyveromyces marxianus IMB3 produced 11g ethanol/l during growth at 45°C on media containing 4% (w/v) lactose when immobilized in alginate beads whereas the free cells produced 5g ethanol/l. A magnetically responsive biocatalyst, prepared by incorporating Fe₃O₄ into the alginate matrix increased ethanol production to 12g/l in batch-fed reactors. Ethanol concentrations were further increased to a maximum of 18g/l by immobilization of the endogenous K. marxianus -galactosidase to the Fe₃O₄ particles prior to inclusion into the alginate matrix. Maximum ethanol productivity by the system was 87% of the maximum theoretical yield.     

Enhancement of Taxol production and excretion in Taxus chinensis cell culture by fungal elicitation and medium renewal

An endophytic fungus, Aspergillus niger, isolated from the inner bark of a Taxus chinensis tree, was used as an elicitor to stimulate the Taxol (paclitaxel) production in a Taxus chinensis cell suspension culture. Different elicitor doses and elicitation times were tested in a batch culture; and the highest volumetric Taxol yield was achieved when 40 mg of the fungal elicitor (carbohydrate equivalent) l(-1) was added to the culture during the late exponential-growth phase. The elicitation resulted in a more than two-fold increase in the Taxol yield and about a six-fold increase in total secretion. The Taxol yield was further improved substantially by applying medium renewal and re-elicitation to the culture. In particular, with repeated medium renewal (in a way similar to medium perfusion) and a second elicitation of the culture, the volumetric Taxol yield was increased to 67.1+/-7.5 mg l(-1), which was about seven times the amount obtained in the non-elicited batch culture. The Taxol productivity of the perfusion-like culture with repeated fungal elicitation was 1.5 mg l(-1) day(-1), which was about 40% higher than that of the elicitor-treated batch culture and three times the productivity of the non-elicited batch culture.     

Patterns of protein expression upon adding sugar and elicitor to the cell culture of Eschscholtzia californica

The optimal timing of elicitation was determined for the production of benzophenanthridine alkaloids (BPAs) by Eschscholtzia californica cell culture. Upon elicitation, 7-day old cells produced more alkaloids than 14-day old cells (5.1 times for sanguinarine and 2.7 times for dihydrosanguinarine). We presumed that these alkaloids are growth-rate-associated secondary metabolites in E. californica cell culture. Although the specific productivity of alkaloids were higher in 7-day old culture, the total cell mass of 7-day old culture was about half that of 14-day old culture. In order to increase the overall productivity, sucrose was added to the 14-day old culture before the addition of elicitor. By this way, cells in the stationary phase (14-day old culture) could be switched to the cells in the logarithmic growth phase (similar to 7-day old culture). Total production of alkaloids was increased by adding sucrose; especially the production of sanguinarine was increased as high as 5.7 times of the control. To find out the protein level changed by the elicitation, proteins extracted from whole cell were separated by using two-dimensional gel electrophoresis. The patterns of the gels were different and little correlation among the proteins could be observed. And Western blotting was employed to check the expression level of selected five enzymes, these enzymes believed to be involved in BPAs production, resulting in up-regulated with elicitor addition.     

Critical factors affecting ethanol production by immobilized Pichia stipitis using corn cob hemicellulosic hydrolysate

Fermentation of xylose from hydrolysate of acid-treated corn cob by Pichia stipitis is inhibited by acetic acid and lignin derivatives. In the present study, we have designed and implemented an immobilized cell culture for xylose to ethanol conversion from acid-treated corn cob hydrolysate without the removal of fermentation inhibitors. In this study, cultivations of suspended and immobilized Pichia were compared in terms of ethanol yield and productivity to investigate whether the cell immobilization could improve resistance to inhibitors. Cell immobilization clearly favored the fermentative metabolism in nondetoxified corn cob hydrolysate leading to an improvement of twofold ethanol productivity as compared to that achieved with suspension culture. Calcium alginate as an immobilization matrix was selected to immobilize Pichia cells. Concentrations of sodium alginate, calcium chloride, and fermentor agitation speed were optimized for ethanol production using statistical method. Statistical analysis showed that agitation speed had maximum influence on ethanol production by immobilized Pichia cells. In comparison to suspension culture, immobilization had a positive impact on the fermentative metabolism of Pichia, improving the ethanol yield from 0.40 to 0.43?g/g and productivity from 0.31 to 0.51?g/L/h for acid-treated corn cob hydrolysate.     

Dose responses for Colletotrichum lindemuthianum elicitor-mediated enzyme induction in French bean cell suspension cultures

The induction of L-phenylalanine ammonialyase (PAL, EC 4.3.1.5) and flavanone synthase in French bean cell suspension cultures in response to heat-released elicitor from cell walls of the phytopathogenic fungus Colletotrichum lindemuthianum is highly dependent upon elicitor concentration. The elicitor dose-response curve for PAL induction shows two maxima at around 17.5 and 50 g elicitor carbohydrate per ml culture, whereas the flavanone synthase response shows one maximum at around 100 g ml^-1. The PAL response is independent of the elicitor concentration present during the lag phase of enzyme induction; if the initial elicitor concentration is increased after 2 h by addition of extra elicitor, or decreased by dilution of the cultures, the dose response curves obtained reflect the concentration of elicitor present at the time of harvest. PAL induction is not prevented by addition of methyl sugar derivatives to the cultures; -methyl-D-glucoside, itself a weak elicitor of PAL activity, elicits a multiphasic PAL response when increasing concentrations are added in the presence of Colletotrichum elicitor. Eight fractions with different monosaccharide compositions, obtained from the crude elicitor by gel-filtration, each elicit different dose-responses for PAL induction; the response to unfractionated elicitor is not the sum of the response to the isolated fractions. There is no correlation between the ability of the fractions to induce PAL in the cultures and their ability to act as elicitors of isoflavonoid phytoalexin accumulation in bean hypocotyls.Abbreviations PAL phenylalanine ammonia-lyase - PMS Phytophthora megasperma var sojae     

Production of a plasmin inhibitory substance by Scopolia japonica suspension cultures

A potent inhibitory agent against human plasmin, fibrinolytic proteinase, has been found in the extracts of callus tissue of Scopolia japonica. Effects of cultural conditions on cell growth and production of the plasmin inhibitory substance by this cell line in suspension cultures were examined in MurashigeSkoog's medium. More than l.5 mg of the inhibitor, as t-amino cyclohexane carboxylic acid, a synthetic plasmin inhibitor, were observed to accumulate per ml of medium containing 0.83 g of NH₄NO₃ and 7.6 g of KNO₃ per liter as well as suitable levels of growth hormones. Addiction of antibiotics and deformers were examined in preliminary tests for large scale cultivation. Semicontinuous culture on a small scale in a glass cylinder, was also tested and growth rate of 1.29 g/liter/day (by dry wt) was obtained. Plasmin inhibitory activities in the extracts of the results intact plant and in cultured cells of S. japonica were compared and the results indicated that cell suspension culture was superior to extraction the natural plant for inhibitor production.     

Enhancement of tryptophan production by Escherichia coli as an application of genetic engineering

Summary A feedback resistant trp operon plasmid that transformed a multiple mutant (trpR tnaA) of Escherichia coli was found to enhance remarkably the production of tryptophan in a bench-scale fermentor. 5.5 g of tryptophan was accumulated per litre of culture medium at 24th hr in batch. The productivity was 0.229 g/l/hr. This productivity is the highest among those ever reported by other workers. The recombinant plasmid (Tc^r Trp⁺ I^-) used was completely stable in each run when tetracycline was added by 10 g/l into the medium.     

Production of androsta-1,4-diene-3,17-dione from cholesterol using immobilized growing cells of Mycobacterium sp. NRRL B-3683 adsorbed on solid carriers

Summary Living cells of Mycobacterium sp. NRRL B-3683 were immobilized by adsorption on different types of solid carriers in order to produce androsta-1,4-diene-3,17-dione (ADD) from cholesterol. Activated alumina proved to be the most preferred carrier for long-term operation when glucose and peptone were added to the reaction medium. In a repeated-batch process, the maximum productivity of ADD was about 0.19 g/l per day with a molar conversion rate of 77% when 1.0 g/l of cholesterol was added to the reaction medium. The half-life of the immobilized cells was more than 45 days and the system could be reactivated by incubating the immobilized cells in a cell growth medium.     

Proline enhances <Emphasis Type="Italic">Torulopsis glabrata</Emphasis> growth during hyperosmotic stress

This study investigated that the importing of compatible solute proline could enhance the growth of the yeast Torulopsis glabrata under hyperosmotic stress. Osmolarity progressively increased from 860 to 2,603 mOsmol/kg by accumulation of sodium pyruvate in the culture broth, leading to a significant decrease in cell growth. When 1.0 g/L of proline as a compatible solute was added to the culture medium, it was imported and enhanced cell growth by 59.0% at 2,603 mOsmol/kg. By addition of proline during pyruvate production, the concentration, productivity, and yield of pyruvate increased 22.1, 38.4, and 14.3%, respectively. These results suggested that T. glabrata can import proline as an osmoprotectant against high osmotic stress, thus enhance pyruvate productivity. The improvement of yeast growth and viability under hyperosmotic stress by the addition of proline provided an alternative approach to enhance the organic acids production by yeast.     

Itaconic acid production by immobilizedAspergillus terreus from xylose and glucose

Summary Aspergillus terreus NRRC 1960 spores were entrapped in calcium alginate gel beads or alternotely the fungal mycelium was immobilized either on Celite R-626 or in agar gel cubes, and the biocatalyst was employed both in repeated batch and in continuous column reactors to produce itaconic acid from D-xylose or D-glucose. The highest itaconic acid yield obtained in a submerged culture batch fermentation was 54.5% based on total initial glucose (55 g/l) with a volumetric productivity of 0.32 g/l h, and 44.8% from xylose (67 g/l) with a productivity of 0.20 g/l h. In a repeated batch fermentation mycelium immobilized in agar gel had a productivity of 0.112 g/l h, and mycelium grown from spores immobilized in calcium alginate gel 0.06 g/l h, both from xylose (60 g/l). With the best immobilized biocatalyst system used employing Celite R-626 as a carrier, volumetric productivities of 1.2 g/l h from glucose and 0.56 g/l h from xylose (both at 60 g/l) were obtained in continuous column operation for more than 2 weeks.     

Flow rate and bead size as critical parameters for immobilized-yeast reactors

The productivity of immobilized yeast cell reactors varies with a number of parameters, including flow, amount and growth rate of yeast, bead size and type of medium. Variation of these parameters has a pronounced effect on reaction rate. This paper presents typical ranges for these productivities and demonstrates the patterns of changes that take place when bead size, flow and reaction medium are varied. Saccharomyces cerevisiae cells were immobilized in calcium alginate beads for the production of ethanol. The productivity of immobilized yeast in a batch reactor (0.2 g ethanol/g yeast · h) was only two-thirds that of free cells suspended at an equivalent cell density (0.3 g ethanol/g yeast · h). Different flow rates and bead sizes were used to ‘optimize’ the productivity. The productivity of 3.34 mm beads at a flow rate of 8.8 litre h^?1(superficial velocity: 0.12 cm s^?1) was 95% higher than that at 1.0 l h^?1. Maximum productivities of 0.34, 0.27, 0.22 g/g yeast· h were obtained (at a flow rate of 8.8 l h^?1) for 9.2% yeast-immobilized beads of 3.34, 4.45 and 5.65 mm in diameter, respectively.