A SEAWATER MEDIUM FOR DINOFLAGELLATES AND THE NUTRITION OF CACHONINA NIEI1

Two media have been devised: an enriched seawater medium for culture of dinoflagellates and a defined medium for rapid growth of the dinoflagellate Cachonina niei. A wide range in salinity (10.23–42.38 g/liter NaCl) is tolerated by C. niei. Below 0.6 g/liter MgSO₄, 0.19 g/liter KCl, and 0.22 g/liter CaCl₂, the generation time greatly increases. Increase in MgSO₄ to 7.22 g/liter, KCl to 1.12 g/liter or CaCl₂ to 2.22 g/liter has little effect on generation time. The temperature optimum is 19–23 C. Saturating light intensity for growth is 1000 ft-c and for photosynthesis (determined manometrically) is slightly less than 2000 ft-c. Cachonina niei requires B₁₂ and thiamin. Neither silicate nor its competitive inhibitor germanate affects generation time or cell yield indicating silicon is not required. Of a variety of buffers tested, Tris is the best. Optimal growth occurs at pHs of 7.5–8.3. Glycerol is inhibitory and does not support dark growth.     

A Suspension Culture Method for the Rapid Mass Culture of Cistella japonica Mycelium

Different methods were investigated for the rapid mass culture of Cistella japonica by using water extracts of some nutritional sources. In an agar culture test, there was little difference in mycelial growth in water extracts of wheat bran, rice bran and potato. In suspension culture with wheat bran extract, which is easily and cheaply available, the mycelium of C. japonica increased seven times more than that in agar culture after a month's incubation. C. japonica from suspension culture was pathogenic to Chamaecyparis obtusa. These results suggest that suspension culture in water extract of wheat bran can be adopted for the rapid mass culturing of C. japonica for use in inoculation tests.     

Characteristics of Helianthus annuus Plant Cell Culture as a Producer of Immunologically Active Exopolysaccharides

The aim of this work was to determine relationships between the growth and biosynthesis of exopolysaccharides by sunflower (Helianthus annuus 1805) plant cell culture and the uptake of the main compounds from the nutrient medium through the study of their time courses. It was established that plant cell culture biosynthesized 12.8 g/L biomass and 4.3 g/L exopolysaccharides. The calculated maximum specific growth rate and doubling time were μ_max = 0.21 d^–1 and t_d = 3.31 d, respectively. The productivity of exopolysaccharides in the plant in vitro system was found to be 0.43 g/(L × d). Data regarding the physiology of Helianthus annuus 1805 plant cell culture are presented. On the basis of the achieved results it can be concluded that the plant cell suspension of Helianthus annuus 1805 is a good producer of exopolysaccharides which exhibit immunostimulating activity.     

Effects of Chemical and Physical Conditions on Growth of Camptotheca acuminata Cell Cultures

Callus was induced from Camptotheca acuminata, which produces an antitumor alkaloid, carnptothecin. Using the Murashige and Skoogs’ medium as the basal, cultural conditions were examined for C. acuminata suspension cultures. As a result, a medium, containing 0.1 mg/liter 2,4-D, 3 mg/liter kinetin and 0.05 mg/liter GA₃, was established as a medium that gave the best cell growth in suspension cultures. In addition, conditioning of medium and addition of 0.115 mm l-Trp and l-Phe to medium promoted remarkably growth of cell suspensions.     

Production of Candida utilis protein from peat extracts

Sphagnum peat extracts or hydrolysates have been obtained and used as a culture medium for the production of Candida utilis biomass as single cell proteins. Acid hydrolysis of ground peat (4–60 mesh) in an autoclave operated under a set of conditions for acid strength (0.3-1.5 (v/v) H₂SO₄), holding time (1–4 hr), temperature (100–165°C), and weight ratio of dry peat to solution (3.3–16.7 g dry peat/100 g solution) yielded carbohydrate-rich extracts of different concentrations (1–34g/liter). The best yield (mg total carbohydrate/g dry peat) was obtained for a holding time of I hr and a temperature of 152°C. Low peat concentratio (4.1 g dry peat/100 g solution)resulted in high yield(280mg total carbohydrate/gdry peat) with a corresponding low carbohydrate content in hydrolysate (13 g/liter), while a lower yield with a higher carbohydrate content (34 g/liter)in hydrolysate were found when increasing peat concentration (16.7 g dry peat/100 g solution). Shake-fladk experiments using peat hydrolysates as the culture medium together with NH₄OH (～4.8 g/liter) and K₂HPO₄(5 g/liter) as nitrogen and phosphate supplement, respectively, gave a maximum biomass concentration of 7.5 g/liter after 60 hr at 30°C and 200rpm. Batch cultivation in a fermentor under controlled conditions for aeration (4.2 liter/min), agitation (500rpm), temperature (30°C), and pH (5.0) produced a maximum biomass of 10 g/liter after 20 hr with a specific growth rate of 0.13 hr^?1. For the continuous cultivation, a maximal biomass productivity of 1.24 g/gliter-he was obtained at a dilution rate of 0.125 hr ^?1. Monod's equation's equation has been used for the estimation of the coefficients μ_Max, K_s, and Y. It was found that the yield coefficient Y is not constant during the progress of batch cultivation.     

Effect of Cullural Conditions on the Growth of Agrostemma githago Cells in Suspension Culture and the Concomitant Production of an Anti-Plant Virus Substance

An extract of cultured Agroxieinma githago L. cells was found to show potent inhibitory activity against plans virus infection. The effects of cultural conditions on the growth of the cell suspension and on the production of the inhibitor were examined. Since the production of substance was dependent on growth. experiments were made to improve growth. The optimum temperature was 26 to 30°C and optimum pH of the medium before autoclaving was between 5 and 7. In a medium of higher osmotic pressure, the water content of the cultured cells was lowered markedly. The growth rate in a small volume of the medium was higher than that in a larger volume at an early stage of the cultivation, but it was not changed by different inoculum sizes. The cells required thiamine and 2,4-D for growth but no other vitamins or growth regulators. The optimum level of 2,4-D was 0.1 mg/l. Higher sucrose concentration in the medium gave higher production of cell mass and of the inhibitor. However, 3% of sucrose was selected as the most economical concentration. For normal cell growth, the presence of both NH₄NO₃ and KNO₃ as nitrogen sources was required. The use of a single nitrogen source caused a long lag period or inhibition of the cell growth. KH₂PO₄ stimulated the growth when in was used in the level of 2.5 to 5 mM. The cell adhesion on the surface of the fermentor sometimes causes trouble in a large-scale cultivation. It was found that reducing the Ca²⁺ level in the medium prevented the cell adhesion and foaming remarkably. Based on the results obtained, a modified medium was established which was excellent for shortening the culture period and for efficient production of the anti-plant virus inhibitor.     

Antifeedant effects of in vitro culture extracts of the neem tree,Azadirachta indica against the desert locust (Schistocerca gregaria (Forskål))

Callus and micropropagated shoots were initiated from leaf explants of the neem tree, Azadirachta indica A. Juss. A variety of whole plant and in vitro cell cultures from neem seedlings of Ghanian origin were tested for insect antifeedant compounds using the desert locust (Schistocerca gregaria (Forskål)). Feeding suppression occurred when whole extracts of seed, leaf, callus, suspension and shoot cultures were tested in no-choice feeding bioassays. Controls of sucrose, carrot callus and the plant growth medium showed no feeding deterrence. Azadirachtin, the main known antifeedant in neem seed kernels, was quantified from a seed extract by HPLC but was not detected in any of the other extracts. Antifeedancy was determined during batch growth of a suspension culture which had been in culture for 5 months; results indicated that antifeedants were still being formed and that levels increased after maximum biomass was attained.     

Tissue culture of endod (Phytolacca dodecandra L'Herit): growth and production of ribosome-inactivating proteins

Summary Leaves and stems from endod (Phytolacca dodecandra L'Herit), known to produce the 29 kDa ribosome-inactivating protein (RIP) dodecandrin, were initiated into tissue culture. Callus and suspension cultures were maintained on modified Murashige and Skoog medium plus 1.0 mg/l 2,4-dichlorophenoxyacetic acid. Six callus and two suspension cell lines were screened for dodecandrin production by western blots with affinitypurified antiserum. Antiribosomal activity of culture extracts was tested by in vitro translation assays. One suspension cell line was found to be free of immunoreactive proteins and a ribosome inhibitor. All other cell lines contain a ribosome inhibitor, although only two callus cell lines show detectable amounts of immunoreactive proteins at the same M_r as dodecandrin. Other immuno-reactive proteins were detected in callus (M_r 31000, 33000, 41000 and 43000) and in suspension cells (M_r 23000 and 43000), and may be ribosome inhibitors related to dodecandrin—either other RIPs or dodecandrin at various stages of processing.     

Elicitation with methyl-jasmonate stimulates peruvoside production in cell suspension cultures of <Emphasis Type="Italic">Thevetia peruviana</Emphasis>

Thevetia peruviana is a small tree that produces several compounds with pharmaceutical application, among which peruvoside could be highlighted. However, these compounds are produced in low concentration in the plant, making it important to develop strategies such as plant cell culture and elicitation to obtain higher quantities of the desired product. In this work, cell suspension cultures of T. peruviana were established in four different culture media: Murashige–Skoog (MS), half Murashige–Skoog (half MS), Schenk–Hildebrandt (SH), and Gamborg (B5) to study their effect on cell growth. Cell growth kinetics were studied in SH medium, and the extracellular peruvoside production during the culture time was determined. The best culture medium for the establishment of cell suspension cultures was MS with a growth index of 3.17 ± 0.2 g g⁻¹ inoculum. The cell growth kinetics showed the four characteristic growth phases of a cell culture (lag, exponential, stationary, and death), and during none of these phases was it possible to observe peruvoside production. The elicitor effect of methyl-jasmonate (MeJ) was studied in cell suspension cultures established in SH medium. The effect of MeJ concentration and the time in which it should be applied were determined. The best results were obtained at a concentration of 100 mg l⁻¹ of MeJ applied at the beginning of the culture, which induced a peruvoside production of 8.93 mg l⁻¹ medium. The current results are the first report of an in vitro peruvoside production system.     

Isoquinoline alkaloids from cell suspension cultures of Fumaria capreolata

Fumaria capreolata was taken into cell suspension culture. The culture yielded a biomass of about 12 g dry weight per liter of medium; the dried cells contained ca. 0.1% of alkaloids. Besides choline, the following ten known isoquinoline alkaloids were isolated from the cell extract in crystalline form: coptisine, dehydrocheilanthifoline; (+)-isoboldine; magnoflorine; N-methylcoclaurine; (+)-reticuline; (–)-pallidine; protopine; sanguinarine; (–)-scoulerine. This is the most diverse isoquinoline alkaloid spectrum thus far published for a cell suspension culture.     

The Effective Production of Shikonin by Cultures with an Increased Cell Population

We have studied the efficient production of shikonin derivatives by suspension cultures of Lithospermum erythrorhizon with an increased cell population. The yield of shikonin derivatives was highest (800 mg/liter) when 2.8 g dry wt/liter of the cells was inoculated into the M-2 medium which we had developed for the production, but the excess inoculum lowered the yield.

We investigated suitable conditions for production with the increased cell population. The optimum amount of inoculum rose to 4.9 g dry wt/liter when the concentrations of all the components contained in the M-8 medium, which we developed for increasing the productivity by modification of the M-2 medium, were increased in proportion to the amount of inoculum, and consequently we could increase the yield of the shikonin derivatives from 1400 mg/liter to 1900 mg/liter. Moreover, the increased rate of oxygen supply in addition to the enrichment of the medium made it possible to produce 2300 mg/liter of the shikonin derivatives from a culture for which 5.6 g dry wt/liter of the cells was inoculated.     

Rollinia mucosa cell suspension cultures: Establishment and growth conditions

Different types and concentrations of plant growth regulators were tested in order to obtain the best callus and cell suspension culture growth conditions of Rollinia mucosa (Jacq.) Baill. (Annonaceae). Picloram was shown to be the most efficient for induction and production of friable calluses, independent of the concentration used. Cellular morphology and viability, fresh and dry weights, pH and medium sugar concentration were determined for cell suspension cultures. Dissimilation curves were used for the characterization of the growth of cell suspension cultures. Picloram provided the most rapid growth and produced the highest biomass, with little variation in morphology (differentiated cells). It also provided the highest dissimilation, when compared with cell suspension cultures maintained in media with 2,4-D or NAA + BA + GA₃. Stable cell suspension cultures can be established in MS medium supplemented with 20.8 μM picloram. This revised version was published online in August 2006 with corrections to the Cover Date.     

The effect of dipicolinic acid on maize tissue culture growth is not solely due to inhibition of lysine biosynthesis

Dipicolinic acid, a known inhibitor of an enzyme (dihydrodipicolinic acid reductase) in the maize (Zea mays L.) lysine biosynthetic pathway, inhibits the growth of maize suspension and callus cultures. Inhibited cultures contain somewhat lower free lysine levels, but the inhibition of suspension culture growth was not reversible with simultaneous addition of L-lysine to the culture medium. It is concluded that dipicolinic acid does not act solely as an analog blocking lysine production. Dipicolinic acid thus appears to be unsuitable as a selection for maize tissue culture mutants with lysine overproduction.Abbreviations FW fresh weight - I₅₀ inhibitor concentration at which cell growth is inhibited by 50% - MS Murashige and Skoog (1962) culture medium - ZM Black Mexican Zea mays suspension culture of Chourey and Zurawski (1981)     

An evaluation of suspension culture systems for the growth of murine lymphoblastoid lines expressing TL and Thy-1 alloantigens

As a prelude to our studies on TL and Thy-1 differentiation alloantigens, three murine lymphobhastoid cell lines were examined for expression of these components. Optimal conditions for their mass culture were also determined. Several suspension culture systems were evaluated: (a) 50 ml through 500 ml Wheaton and Bellco spinner flasks as well as 1, 4, and 8 liter Wheaton flasks modified for semicontinuous culture conditions, (b) 3 liter Chemapec Vibrofermentor, and (c) 14 liter New Brunswick fermentor. Utilizing these types of vessels the optimal culture conditions were evaluated as to the effect of: (1) pH, (2) initial concentration of cell inoculum, (3) types of media, and (4) methods of gassing and gas mixtures on the rate of growth and alloantigen expression. This study demonstrated that cells could be cultured on a semicontinuous basis up to densities of 2–4 × 10⁶ cells/ml if a vessel of appropriate dimensions was utilized, the appropriate medium selected, and the pH controlled by CO₂ and air overlay. Once these parameters were established the growth of a given cell line was highly reproducible: Under optimal culture conditions the expression of Thy-1 was maximum while the cells were in the exponential stage of growth and reduced during the lag and stationary phases of growth. The expression of TL did not vary as significantly during the various stages of growth. One cell line grown in medium supplemented with 10% horse serum expressed lass Thy-1 than those grown in medium containing 10% fetal calf serum. The factors affecting cell growth and alloantigen expression have been considered in the design of a large-scale suspension culture facility for culturing 1000 liters of cells per week.     

Production of plant virus inhibitor by Phytolacca americana suspension culture.

The inhibitory activity of tobacco mosaic virus (TMV) infection was assayed with the extracts of various callus tissues derived from the intact plants. Phytolacca americana callus was selected as a producer of the virus inhibitor and its cultural conditions in suspension were examined for cell growth and the inhibitor production. A modified liquid medium containing twofold concentrations of all components in that of Murashige and Skoog plus2,4-D (1.0 mg/liter) and sucrose (6%), but without any vitamins and glycine was chosen for production of higher levels of the inhibitor. TMV infections in tobacco, bean, and tomato plants were markedly inhibited by the introduction of the disrupted whole broth of suspension cultured P. americana.     

Establishment and characterization of <Emphasis Type="Italic">Prosopis laevigata</Emphasis> (Humb. &; Bonpl. ex Willd) M.C. Johnst. cell suspension culture: a biotechnology approach for mesquite gum production

This study presents a protocol for the establishment of Prosopis laevigata cell suspension culture as a strategy to obtain an in vitro mesquite gum productive cell line. The callus used for this purpose was obtained with hypocotyls from 15-day-old plantlets, placed on Murashige–Skoog medium with two different plant growth regulators (PGRs), 2,4,5-trichlorophenoxy acetic acid (2,4,5-T; 5.0 μM) and kinetin (KIN; 5.0 μM). With this PGRs treatment, after four subcultures (30 days each) an exuded gum-like substance was observed on the callus surface. The growth kinetics of the cell suspension culture showed a specific cell growth rate (μ) of 0.14 d⁻¹ and doubling time (t _d) of 6.6 days, respectively. The gum-like substance from callus culture and the broth from cell suspension culture were subjected to chemical analysis and compared with the mesquite gum exuded from wild trees. Both, gum-like substance from callus culture and the broth from cell suspension culture showed the presence of Arabinogalactan-proteins, and their polysaccharide fraction presented the same monosaccharides as those isolated from mesquite gum. In addition, the emulsifying properties of gum-like substance from callus culture and the broth from cell suspension culture were compared to those of mesquite gum and all three samples exhibited similar emulsifying capacity and emulsification stability.     

Pantothenate limitation does not induce uncoupled growth of Zymomonas in chemostat culture

Summary Growth coefficients ofZymomonas mobilis were compared in glucose-limited chemostat culture using a complex medium and a defined minimal growth medium at non inhibitory concentrations of ethanol. Under carbon and energy limited conditions in the complex medium containing yeast extract, the max. molar growth yield (Y_G ^max) and maintenance energy coefficient (m_e) were 10.8 g cell/mol glucose and 8.3 mmol glu/g cell/hr, respectively. Glucose-limited growth in the minimal medium with NH₄Cl as nitrogen source promoted slight energetic uncoupling, as reflected in the decrease in the maximum growth yield. The growth yield with respect to calcium pantothenate was calculated to be 1.4×10⁴ g cell/g Ca-pantothenate. However, pantothenate-limited growth did not result in a decrease in growth yield nor an increase in the specific rate of glucose catabolism. Steady-state growth measurements failed to confirm the previously held view of Belaïchet al. (1972) that pantothenate deficiency induces energetic uncoupling inZymomonas.     

Technological problems in cultivation of plant cells at high density

Using Cudrania tricuspidata cells as model plant cells which have high sensitivity to hydrodynamic stress, technology problems in the cultivation of the plant cells at high density were investigated. Using “shake” flasks on a reciprocal shaker and Erlenmeyer flasks on a rotary shaker and with a high supply of oxygen on order to obtain high cell densities in shaken cultures, particles breakdown and damage to the largest cell aggregate group (above 1981 μm in diameter) occurred and normal cell growth became impeded. The mass-transfer coefficient (K)for a model solid–liquid system (β-naphthol particles and water) in place of a system of plant cells and a liquid medium was proposed as an intensity index of hydrodynamic stress effects on plant cells in subsequent cultures under various conditions in the bioreactor systems. Normal cell growth was obtained under culture conditions for K values less than about 4.4 × 10^?3 cm/sec. The characteristics of various bioreactors used until now were investigated by considering the three main technological factors (capacity of oxygen supply, intensity of hydrodynamic stress effects on plant cells, and intensity of culture broth mixing and air-bubble desperation). The most suitable bioreactor for culturing plant cells at high density was ajar fermentor with a modified paddle-type impeller (J-M). The yield of cell mass in the 10-liter J-M (working volume 5 liter) was about 30 g dry weight per liter of medium.     

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.     

Growth Profile of Crown Gall Cells of Tobacco in Suspension Culture

In order to obtain a basic information of plant cell suspension culture as a step toward the development of large scale culture, culture conditions of crown gall cells (auxin non-requiring cells) were investigated. Addition of yeast extract to culture medium was significantly effective for the growth and cell dispersion.

In experiments on the ability of the cultured cells to utilize sugars as the carbon source, it was observed that galactose, added to the culture medium, markedly inhibited the cell growth.

Pasteurization of the medium containing fructose as carbon source made it brownish by Maillard reaction and the medium apparently restrained the cell growth. However, the fructose medium sterilized by filtration was excellent for the cell growth as well as sucrose or glucose medium. In a jar fermentor, even the glucose medium became brownish by heat sterilization and the brown colored medium restrained the cell growth. Under optimum conditions, the doubling time was 1.1 day in exponential phase and 2.0 g of cell (dry weight) per 100 ml culture was obtained as the maximum yield.