Nutrient uptake and growth of an embryogenic and a non-embryogenic cell line of birch (Betula pendula Roth.) in suspension culture

The nutrient uptake of an embryogenic and of a non-embryogenic cell line of birch (Betula pendula Roth.) during cell growth and embryo production was studied in suspension culture. The embryogenic and non-embryogenic cell suspensions grew differently in the same medium. The non-embryogenic cell line started to grow without any lag period after the inoculation. It rapidly hydrolyzed sucrose in the medium to glucose and fructose and consumed the glucose as carbon source. The concentration of fructose in the medium decreased only after the depletion of glucose. The embryogenic cell line also rapidly hydrolyzed the sucrose to glucose and fructose, but the monosaccharides were consumed only after the embryos started to germinate after three weeks of culture. Both monosaccharides were then taken up at the same rate.     

Influence of 2-deoxy-D-glucose upon growth and invertase activity of carrot (Daucus carota L.) cell suspension cultures

Carrot (Daucus carota L.) cell suspension cultures grew well when provided with glucose, fructose, sucrose or raffinose. Galactose and melibiose supported less growth unless supplemented with glucose or fructose. In combination with ten different sugar mixtures, 2-deoxy-D-glucose (dGlc) inhibited culture growth. Inhibitory effects of dGlc were more marked with fructose, melibiose, raffinose or mixtures of these sugars in the culture medium. The presence of glucose or galactose reduced the inhibitory effects of dGlc on culture growth. Experiments with radioactive labelled sugars demonstrated that dGLc uptake was greater in the presence of fructose than glucose, and that growth inhibition of dGlc coincided with its uptake. Reduced protein content was also associated with the inhibitory effects of dGlc. Cultured cells contained lower levels of invertase (EC 3.2.1.26) activity during the active phase of culture growth (up to 25 days after subculture) than when growth had peaked and subsequently declined. Acid and alkaline invertase activities were not greatly reduced by exogenous hexoses. Invertase activity was greatest during periods of low protein content in all cultures and was inhibited by dGlc during the latter phases of the culture period. Free intracellular sugars throughout the culture period consisted mainly of glucose and fructose.     

Modulation of the number of membrane-bound auxin-binding sites during the growth of batch-cultured tobacco cells

We studied the modulation of the number of membrane-bound naphthaleneacetic acid (NAA)-binding sites during the growth cycle of tobacco cells in batch culture. Both cell number and specific NAA-binding increased exponentially, but at different rates and for different periods. This caused a characteristic modulation of the number of binding sites per cell during the growth cycle: During the first day of the lag phase this number decreased; in the exponential phase it rose markedly, and in the stationary phase it was constant.Abbreviations MES 4-morpholinoethanesulphonic acid - NAA 1-naphthaleneacetic acid     

Growth of Cephalotaxus harringtonia plant-cell cultures

Summary Cell cultures of Cephalotaxus harringtonia were examined to characterize growth kinetics. The requirement for an undefined medium supplement (coconut water) was eliminated by maintaining high cell concentrations in semicontinuous and batch growth. Sucrose fed to batch-cultured cells was completely hydrolyzed and a diauxic growth pattern was observed corresponding to first glucose and then fructose uptake. Examination of increases in cell concentrations on the basis of fresh and dry weight showed that a substantial lag period existed between the initiation of substrate uptake and increases in cell volume. Specific growth rates were highest during periods of glucose uptake, but cell yields were comparable for the two sugars. In contrast, studies with glucose or fructose as the sole carbon source indicated that cell yields were significantly lower with fructose but specific growth rates were comparable for the two sugars.Offprint requests to: P. J. Westgate     

Influence of the carbon source on growth and rosmarinic acid production in suspension cultures of Coleus blumei

Suspension cultures of Coleus blumei were characterized with respect to growth and rosmarinic acid formation in media with different sugars and various sugar concentrations. Sucrose is the sugar with the highest stimulating effect on growth and rosmarinic acid accumulation, followed by glucose and fructose. The sugar alcohol mannitol cannot be metabolized by the plant cells. Sucrose is cleaved into glucose and fructose by the Coleus cells. Sucrose concentrations from 1 to 5% have an increasing positive effect on growth and rosmarinic acid synthesis in the cell cultures with a maximum rosmarinic acid content of 12% of the dry weight in medium with 5% sucrose; in medium with 6% sucrose rosmarinic acid accumulation obviously did not reach its highest level in the culture period of 14 days. A very high yield of rosmarinic acid (2 mg ml^-1 suspension) could also be achieved by maintaining a sucrose concentration of 2% during the whole culture period. The start of rosmarinic acid synthesis by the cell cultures seems to be regulated by the growth limitation when a nutrient, e.g. phosphate is depleted from the medium. The rate of rosmarinic acid accumulation is related to the amount of carbon left in the medium when growth ceases.Abbreviations RA rosmarinic acid     

Glucose and fructose consumption in a phosphoglucoseisomeraseless mutant in Saccharomyces cerevisiae

Saccharomyces cerevisiae with a practically complete absence of phosphoglucoseisomerase activity when grown in fructose or glucose minimal medium showed different consumption of fructose and glucose during different periods of the culture. At the beginning of growth, cells had a great quantity of glucose available relative to their requirements and a large quantity of trehalose accumulated from ¹⁴C-glucose in comparison with the wild type strain. A second phase arises when the concentration of glucose in the medium was practically absent and the cells obtain glucose by mobilisation of stored glucose containing compounds. It is very likely that at this moment a balance rate between glucose 6-phosphate formation and consumption occurs. Finally cells reach conditions of glucose starvation and fructose consumption increases in this last stage. The different consumption of fructose throughout different periods of cell growth most probably indicates a strict regulation at the level of sugar uptake.Non Standard Abbreviation pgi phosphoglucoseisomerase     

Uptake of 13C-glucose by cell suspensions of carrot (Daucus carota) measured by in vivo NMR: Cycling of triose-, pentose- and hexose-phosphates

After a lag phase of 2 days, batch-grown cells of carrot ( Daucus carota L.) cv. Flakkese entered the exponential growth phase and started to accumulate sucrose and hexoses. Short-term feeding ¹³C-glucose in this period resulted in only minor labelling of sucrose or fructose. CO₂ production from [1-¹³C]- and [6-¹³C]-glucose revealed, that at least 40% of the added glucose passed through the oxidative pentose phosphate pathway (OPPP), up to 40% through glycolysis leaving only minor ¹³C-glucose for incorporation in various cell components in the exponential growth phase. After about 11 days of culture, the medium sugars were exhausted, cells entered the stationary growth phase and consumed stored sugar. Both neutral and acid invertase (EC 3.2.1.26) and sucrose synthase (EC 2.4.1.13) increased 50% from day 0 to days 11–13; thereafter their levels decreased again. Labelling with ¹³C-glucose resulted in the accumulation of labelled sucrose and fructose during the stationary growth phase. Sucrose labelling was transient, i.e. after 6 h its level started to decrease again. Labelled fructose, however, evolved slower and increased even after 8 h. In sucrose and fructose up to 20% of the ¹³C-label was exchanged from C-1 to C-6 carbons, indicating intensive cycling of at least 40% of the carbon between hexoses and triose phosphates. In the stationary phase only 10% of the labelled glucose passed through the OPPP and about 30% passed through the respiratory pathway; the remaining 60% was incorporated in cell constituents and sugars. Comparing the various cycles revealed that the regulation of the OPPP operated relatively independently from the cytosolic cycling of hexose phosphates through sucrose and from the cycling between hexose phosphates and triose phosphates.     

Effects of sucrose, inoculum density, auxins, and aeration volume on ceil growth ofGymnema sylvestre

To improve the cell protocol forCymnema sylvestre, we investigated the influence of initial sucrose concentration, inoculum density, and optimal concentrations of auxins (IBA and NAA) in flask cultures, as well as the role of aeration volume in bioreactor cultures. Cell growth was enhanced 9-fold when the medium was supplemented with 3% sucrose versus a sucrose-free environment. Increasing the inoculum density to 60 g (wet weight) L^-1, but no further, greatly improved the growth of these cultures. All concentrations of IBA proved inhibitory while supplementation with 5 nig L^-1 NAA was associated with significantly higher dry-cell weights. In our bioreactor cultures, a step-wise increase in aeration volume from 0.05 to 0.40 wm was optimal for cell growth. Although biomass (i.e., fresh weight) accumulated in the bioreactor up until Day 20, the dry-cell weights increased 10-fold, but only through Day 15. The internal dynamics of our culture media indicated that sucrose was preferentially utilized and that its concentration steeply decreased at the log phase. In contrast, both glucose and fructose supplies were exhausted only at the beginning of the declining phase. Our findings suggest that a 15-d culture period is optimal for G.sylvestre cell growth in a bioreactor.     

Differential requirements of two insect cell lines for growth in serum-free medium

Summary The development of a serum-free medium that supports the growth of cells from a Spodoptera frugiperda and a Lymantria dispar cell line is reported. A yeast hydrolysate provided the B-vitamin complex, and a combination of a meat hydrolysate and tryptose provided most of the free amino acids required for cell growth. Supplemental cystine and methionine were required to achieve maximum cell growth. The serum or serum replacements used in earlier formulations were replaced with commercial lipid preparations and increased levels of iron salts. Although the cell growth cycle had a somewhat extended lag phase and the population doubling time of the S. frugiperda cells was longer than on serum-containing medium, the saturation densities were much higher. Spodoptera cells grown in this medium replicated the Autographa californica nuclear polyhedrosis virus well, producing 8.71 × 10⁶ TCID₅₀ extracellular virus and 4.4×10⁸ polyhedra/ml culture. The specific activity of the polyhedra was somewhat less than that of polyhedra produced in insects.     

Kinetics of taxol production, growth, and nutrient uptake in cell suspensions of Taxus cuspidata

Cell culture of Taxus cuspidata may represent an alternative to extraction of bark as a source of taxol and related taxanes. Cell suspensions of a cell line of T. cuspidata were grown for 44 days in shake flasks containing B5C2 medium. Throughout the growth cycle, fresh and dry weight accumulation, taxol yield on a dry weight basis, taxol accumulation in the medium, pH and pigmentation variation in the medium, as well as the uptake of sucrose, glucose, fructose, nitrate, and inorganic phosphate from the culture medium were examined. The results showed that the growth was relatively slow (doubling times of 17 and 20 days for fresh and dry weight, respectively), and taxol accumulation in the cells was non-growth related (higher in the stationary phase) and at relatively low levels (up to 4 mug/g of the extracted dry weight). Taxol concentration in the medium had two peaks: one during the early (0.4mug/mL) and another during the late (0.1-mug/mL) parts of the growth cycle. On a volumetric basis, the average total amount of taxol produced during the stationary phase (day 38) was 0.15 mug/mL, of which approximately 66% was in the medium and 34% was in the cells. Total carbohydrate uptake was closely associated with the increase in dry biomass. Sucrose was apparently extracellularly hydrolyzed after the first 6 days of culture; glucose was used before fructose. Nitrate was assimilated throughout the growth cycle, but phosphate was absorbed within the first week of culture. The pH variation showed an initial drop followed by a trend toward alkalinization for most of the growth period. Dark pigmentation in the medium increased progressively, particularly during the stationary phase. (c) 1994 John Wiley & Sons, Inc.     

Extracellular Protease as a Reversible Adhesion Regulator in Pseudomonas fluorescens

The investigation of growth dynamics and protein content in a batch Pseudomonas fluorescens culture grown in a synthetic medium with glucose as the sole source of carbon and energy showed that cells reversibly adhere to the walls of the cultivation flask during the first 2–3 h of growth. Over this time period, the total protein content of free and bound cells increased exponentially at a rate of 0.25 h^–1, the fraction of proteins in cells being almost the same (60–70%). The protein content in the medium increased from 3 to 50 mg/l, reaching about 30% of the total protein of the culture. The addition of the exponential culture liquid filtrate to the medium together with the inoculum led to the complete inhibition of cell adhesion and a drastic activation of proteolysis, with a concurrent release of more than 80% of cellular proteins into the medium. After 3–5 h of growth, the concentration of extracellular proteins decreased to the control level. Exogenously added proteinase K inhibited cell adhesion, the effect being more pronounced for R-type than for S-type cells. The hypothesis is discussed that the short-term reversible adhesion of cells is regulated with the involvement of a mixture of hydrocarbons, which inactivate the functional activity of bacterial adhesins, and proteases, which digest these adhesins.     

Axenic mass cultivation of the free-living soil amoeba, Acanthamoeba castellanii in a laboratory fermentor

Axenic mass cultivation of Acanthamoeba castellanii in laboratory fermentors (14 l) yielded after 20 days approximately 3 g cells (wet weight). After a short lag phase amoebal cell numbers increased exponentially to a maximum of 3.5×10⁵ cells per ml until cell death occurred after 20 days. Optical density and protein concentrations revealed identical patterns. During amoebal growth only 12–19% of the initially added glucose (100 mM) as sole carbon source was used. Large amounts of ammonia (1 g in 10.5 l culture volume) were excreted into the medium which subsequently raised the pH from 6.6 to 7.7, and from 6.6 to 6.8 in 2 and 20 mM buffered media, respectively. Growth inhibition and cell death could not be explained by a depletion of glucose or oxygen limitations during growth. The production of ammonia had a growth inhibitory effect, however, the sudden termination of the exponential growth phase and cell death could not be explained by the toxic influence of ammonia only.     

Changes in peroxidases in the suspension culture of Rubus fruticosus during growth

The growth parameters of a cell suspension culture of Rubus fruticosus L. were determined over a culture period including exponential growth, stationary phase and a glucose starvation period at the end of the normal culture cycle. Peroxidase activities were measured in the cytoplasm, in the cell wall, and in the culture medium by the guaiacol assay. There is a relationship between the activity found in the spent medium and the dry matter mass of the cells during the exponential growth. In the three compartments a bimodal repartition of peroxidase activities was observed, with the two peaks at day 4 and day 26, respectively. This suggests that the first peak corresponds to actively dividing cells whereas the second is associated with senescence, or stress due to starvation. Fractionation of the peroxidases from the culture mediuim revealed the presence of two sets of cationic isoenzymes, with minor amount of anionic peroxidases. Interestingly, the second peak of cationic enzymes which was of weak intensity at day 10 of the culture, becameprevalent at day 26. This indicates that not only the total amount of peroxidases varies as a function of culture time, but also that the nature of the peroxidases secreted into the medium changes during growth.Abbreviations DW dry weight - FW fresh weight - MV medium volume - SV suspension volume - BSA bovine serum albumin     

Bioreactor studies of growth and nutrient utilization in alfalfa suspension cultures

Alfalfa (Medicago sativa L.) cells were grown in 500 ml, aerated and stirred batch bioreactors using Schenk and Hildebrant medium. For cultures in which the pH was allowed to vary, we observed two fairly distinct growth phases. Evidence is presented which indicates that the two-phase growth is most likely a result of the two nitrogen sources in the medium. The ammonium present in the medium is directly utilized during the first growth phase and ammonium resulting from intracellular nitrate reduction is utilized during the second phase. During the first growth phase, sucrose is completely hydrolyzed to glucose and fructose with some glucose and fructose consumption. In the second growth phase glucose is consumed preferentially over fructose. Attempts at maintaining the pH at 5.5 using 1N NaOH as the base titrant resulted in very little cell growth compared with cultures for which the pH was allowed to vary.     

Establishment and characterization of Pinus pinaster suspension cell cultures

We report the establishment of a Pinus pinaster (Ait.) cell suspension culture in a modified MS medium supplemented with 2 mg ml⁻¹ 2,4-D and 1 mg ml⁻¹ BA. Calli were obtained from seedling root segments and established a friable isodiametric cell suspension, suitable for in vitro studies of maritime pine at the cellular level. Growth (dry weight), cell viability, pH, and nutrient consumption: carbon source (sucrose, fructose and glucose), nitrogen source (ammonia and nitrate) and phosphate were monitored over 24 h. Suspension cells exhibited a 15-day exponential growth stage, during which a biphasic consumption profile was observed for all nutrients. Phosphate was the first limiting nutrient and preferable consumption was observed for glucose over fructose and nitrate over ammonium.     

Carbon and nitrogen metabolism during Dendrobium huoshanense protocorm-like body development in suspension culture

Abstract

The aim of this work was to study carbon and nitrogen metabolism during suspension culture of protocorm-like bodies (PLBs) from Dendrobium huoshanense. No significant lag phase of PLB growth was found, and a maximum biomass of 288.6 g l^?1 was obtained at day 30 of culture. Sucrose concentration was halved as PLB growth proceeded, while no change in glucose and fructose levels in the medium was found in the first 3 days, followed by a gradual increase until day 9 of culture. Conversely, sucrose in PLBs accumulated dramatically in the first 6 days of culture, followed by a rapid decrease. At the same time, glucose and fructose content of PLBs increased, then declined after 9 days of culture. Soluble acidic invertase (soluble acidic IT) and alkaline invertase (alkaline IT) were activated after inoculation, and reached the highest value on day 6 and day 18, respectively whereas cell wall-bound invertase (cell wall-bound IT) seemed to be repressed throughout culture. The maximum value of sucrose synthase (SuSy) activity was observed on day 18, while sucrose phosphate synthase (SPS) stayed low and constant from inoculation to the end of culture. Ammonium concentration in the medium decreased rapidly, and was hardly detectable after 12 days, when the rapid utilization of nitrate began. Conversely, ammonium in PLBs showed a sharp increase in the first 3 days of culture, followed a rapid decrease until day 12, corresponding to nitrate depletion. Peaks in glutamine synthase (GS) and glutamate synthase (GOGAT) activity were observed on day 12 and 15, respectively. Nitrate reductase (NR) was repressed in the early culture stage, and activated from day 9 to 15 of culture. These results suggest that soluble acidic IT, alkaline IT, SuSy, GS, GOGAT and NR control carbon and nitrogen metabolism at different PLB growth stages.     

The effects of copper and zinc on <Emphasis Type="Italic">Spirulina platensis</Emphasis> growth and heavy metal accumulation in its cells

The effects of copper and zinc on Spirulina platensis (Nordst.) Geitl. growth and the capability of this cyanobacterium for accumulation of these heavy metals (HMs) were studied. S. platensis tolerance to HMs was shown to depend on the culture growth phase. When copper was added during the lag phase, its lethal concentration was 5 mg/l, whereas 4 mg/l were lethal during the linear growth phase. Zinc concentration of 8.8 mg/l was lethal during the linear but not lag phase of growth. HM-treated S. platensis cells were capable for accumulation of tenfold more copper and zinc than control cells. Independently of Cu²⁺ content in the medium and of the growth phase, cell cultures accumulated the highest amount of this metal as soon as after 1 h, which may be partially determined by its primary sorption by cell-wall polysaccharides. A subsequent substantial decrease in the intracellular copper content occurred due to it secretion, which was evident from the increased metal concentration in the culturing medium. When zinc was added during the linear growth phase, similar pattern of its accumulation was observed: the highest content after 1 h and its subsequent decrease to the initial level. When the initial density of the culture was low and the cells had much time to adapt to HM, zinc accumulated during the entire linear growth phase, and thereafter the metal was secreted to the medium. The mechanisms of S. platensis tolerance to HM related to both their sorption by the cell walls and secretion of metal excess into the culturing medium and its conversion into the form inaccessible for the cells are discussed.Translated from Fiziologiya Rastenii, Vol. 52, No. 2, 2005, pp. 259–265.Original Russian Text Copyright © 2005 by Nalimova, Popova, Tsoglin, Pronina.This revised version was published online in April 2005 with a corrected cover date.     

Effects of copper on phagocytosis inTetrahymena

Summary Addition of copper, corresponding to 100 ppm, to the normal 2% proteose peptone medium is tolerated byTetrahymena. This concentration of copper stimulates phagocytosis to a maximum value which is reached gradually during the first 1 hour exposure, and which is maintained during continuous exposures. Cell proliferation is resumed after a lag period, although at a decreased rate. Cells exposed to copper contain small refractile granules, previously proposed to represent an ion-regulating system; the number of granules remains constant in proliferating cells. Higher concentrations of copper also resulted in an elevated rate of phagocytosis but at the same time cell mortality was observed; this lack of transition between inhibited phagocytosis and cell mortality may be ascribed to the physiological role of copper. The high amount of organic matter in the growth medium protects against the toxic effects of copper, thus in the absence of organic matterTetrahymena tolerated only a 100-fold lower concentration of copper than that tolerated in the growth medium. However, cells which had initiated granule formation (for example for regulation of calcium) prior to starvation and exposure to copper, were more resistant to copper than cells which had not yet activated this mechanism, perhaps because of the low capacity of starved cells for protein synthesis.     

Observations on the time course of wall development at the surface of isolated protoplasts

The formation of cell wall fibres at the surface of isolated leaf protoplasts has been studied by scanning electron microscopy. Fibres are not formed on incubated protoplasts until a lag period has elapsed. This period is about 8 h for leaf protoplasts of Nicotiana tabacum and about 45 h for leaf protoplasts of Antirrhinum majus. In the case of Antirrhinum protoplasts the length of the lag period is dependent on the concentration of osmoticum present during the incubation period. If regenerating protoplasts are briefly treated with dilute cellulase, the newly formed wall is completely digested. Such protoplasts are capable of producing new fibres at the surface within minutes of their return to a nutrient medium. These results are discussed in terms of the likely source of the lag period and its significance in wall regeneration studies.Abbreviations MS culture medium used at full strength - 0.1 MS culture medium used at one tenth full strength     

Carbon-nitrogen relations during batch growth ofNannochloropsis oculata (Eustigmatophyceae) under alternating light and dark

Nannochloropsis oculata (strain CCAP 849/1) was sampled at least every 12 h over a 26-d period of batch culture growth in a 12 h/12 h light/dark illumination cycle. Exponential cell-specific growth rate was 0.5 d^–1. Cell division occurred during the dark phase, while ammonium uptake, pigment synthesis and cell volume increase occurred mainly during the light. Stationary phase cells were on average larger that the largest exponentially growing cells. The lag phase prior to cell division was short with the C/N ratio returning to 6.25 (from 28) within 2 d of refeeding with ammonium. Significant Chl.a synthesis commenced after this period; net synthesis of Chl.a ceased on exhaustion of the N-source with a 40% fall in levels by the end of the stationary phase. Levels of carotenoids per cell also declined during N-deprivation although per ml of culture levels remained constant. Ammonium-refeeding of N-deprived cells resulted in a very rapid rise in glutamine (Gln) and very high ratios of glutamine/glutamate (Gln/Glu peaking at 35 within 1 h); peak Gln/Glu was lower in cells refed in the dark or after a shorter period of N-deprivation. The major intracellular amino acids during exponential phase were Glu, Gln, alanine and arginine, but on exhaustion of the N-source, levels of Gln fell rapidly (Gln/Glu falling to below 0.1 from 0.5–0.9 in the light and 0.3 in darkness during exponential growth). During N-deprivation tyrosine accumulated within the cells. Comparisons are drawn with the growth ofIsochrysis galbana, another alga used in aquaculture, under identical conditions.Author for correspondence