Regulating the ratio of photoautotrophic to heterotrophic metabolic activities in photoheterotrophic culture of Euglena gracilis and its application to α-tocopherol production

Methods of regulating the ratio of photoautotrophic to heterotrophic growth rates in photoheterotrophic culture of Euglena gracilis were investigated. In normal photoheterotrophic culture (in the presence of excess organic carbon), the cells grew mainly by organic carbon assimilation (heterotrophic metabolism). The relative contribution of photoautotrophic metabolism increased with the increase in the light supply coefficient, the increase in the CO₂ concentration in the aeration gas and the decrease in the feed rate of organic carbon source. However, limiting the organic carbon supply was the most effective method of shifting the metabolic balance to the photoautotrophic side. In the presence of excess organic carbon source, the -tocopherol contents of the cells in photoheterotrophic culture were low even when the light supply coefficient and CO₂ concentration in the aeration gas were high. By limiting the organic carbon supply to the photoheterotrophic culture, the intracellular content of -tocopherol increased to the same level as those obtained in photoautotrophic cultures.     

Photosynthetically active suspension cultures of potato spindle tuber viroid infected tomato cells as tools for studying viroid — host cell interaction

Photosynthetically active callus and cell suspension cultures were established from uninfected Lycopersicon peruvianum plants and from uninfected and potato spindle tuber viroid (PSTVd) infected plants of Lycopersicon esculentum cv. Rutgers. Viroid infection was maintained in photoheterotrophic culture on media containing 3% sucrose, but during continuous photo-mixotrophic culture in low sucrose media (1% sucrose), the level of PSTVd accumulation decreased. Photoautotrophic cell suspensions could be established with uninfected, but not with viroid infected tomato cells. As compared to uninfected cells, PSTVd infected cells grew slowly, were morphologically different in size and shape, and formed tight cell aggregates. Electronmicroscopy showed that starch accumulation in chloroplasts, deformation of the chloroplast envelope and irregular plasmalemmasomes at the cell membrane were associated with PSTVd infection.Abbreviations 2,4-D 2,4-Dichlorophenoxyacetic acid - BAP 6-benzylaminopurine - CEVd citrus exocortis viroid - CSVd chrysanthemum stunt viroid - PSTVd potato spindle tuber viroid - TMV tobacco mosaic virus - phc photoheterotrophic cell culture - mcc photomixotrophic cell culture - pcc photoautotrophic cell culture     

Cytological changes associated with induction of anthraquinone synthesis in photoautotrophic cell suspension cultures of Morinda lucida

Differences in subcellular structures between anthraquinone-producing and non-producing cells were investigated using photoautotrophic and photoheterotrophic cell suspension cultures of Morinda lucida. Irregular or distorted plastids containing starch grains were observed in the anthraquinone-producing cells, together with a highly elongated rough endoplasmic reticulum. The possible participation of plastids and rough endoplasmic reticulum in the anthraquinone biosynthesis is discussed.     

Interaction of sulfate and glutathione transport in cultured tobacco cells

Photoheterotrophic and heterotrophic suspension cultures of tobacco (Nicotiana tabacum L.) were grown with 1 mM glutathione (reduced; GSH) as sole source of sulfur. Addition of sulfate to both cultures did not alter the rate of exponential growth, but affected the removal of GSH and sulfate in different ways. In photoheterotrophic suspensions, addition of sulfate caused a decline in the net uptake of GSH, whereas sulfate was taken up by the green cells immediately. In heterotrophic suspensions, however, addition of sulfate did not affect the net uptake of GSH and sulfate was only taken up by the cells after the GSH supply in the medium had been exhausted. Apparently, GSH uptake in photoheterotrophic cells is inhibited by sulfate, whereas sulfate uptake is inhibited by GSH in heterotrophic cells. The differences in the effect of GSH on sulfate uptake in photoheterotrophic and heterotrophic tobacco suspensions cannot be attributed to differences in the kinetic properties of sulfate carriers. In short-time transport experiments, both cultures took up sulfate almost entirely by an active-transport system as shown by experiments with metabolic inhibitors; sulfate transport of both cultures obeyed monophasic Michaelis-Menten kinetics with similar app. K_m (photoheterotrophic cells: 16.0±2.0 M; heterotrophic cells: 11.8±1.8 M) and V_max (photoheterotrophic cells: 323±50 nmol·min^-1·g^-1 dry weight; heterotrophic cells: 233±3 nmol·min^-1·g^-1 dry weight). Temperature- and pH-dependence of sulfate transport showed almost identical patterns. However, the cultures exhibited remarkable differences in the inhibition of sulfur influx by GSH in short-time transport experiments. Whereas 1 mM GSH inhibited sulfate transport into heterotrophic tobacco cells completely, sulfate transport into photoheterotrophic cells proceeded at more than two-thirds of its maximum velocity at this GSH concentration. The mode of action of GSH on sulfate transport in chloroplast-free tobacco cell does not appear to be direct: a 14-h exposure to 1 mM GSH was found to be necessary to completely block sulfate transport; a 4-h time of exposure did not affect this process. Consequently, glutathione does not seem to be a product of sulfur metabolism acting on sulfate-carrier entities by negative feedback control. When transferred to the whole plant, the observed differences in sulfate and glutathione influx into green and chloroplast-free cells may be interpreted as a regulatory device to prevent the uptake of excess sulfate by plants.Abbreviations DCCD N,N-dicyclohexylcarbodiimide - DNP dinitrophenol - DW dry weight - FW fresh weight - GSH reduced glutathione     

Ferric chelate reduction by suspension culture cells and roots of soybean: A kinetic comparison

The abilities of suspension cultures and intact roots of soybean (Glycine max L. cv. Hawkeye) to reduce ferric chelate were compared. Ferric chelate was supplied as ferric hydroxyethylethylenediaminetriacetic acid (FeHEDTA) and reduction was measured spectrophotometrically using bathophenan-throlinedisulfonic acid (BPDS) as the ferrous scavenger. Ferric chelate reduction by cell suspension cultures showed typical saturation kinetics; however, no difference was observed between cells that had been continuously grown with Fe (+Fe) and those that had been grown for four days without added Fe (–Fe). Values for K_m and V_max, determined from a Lineweaver-Burk plot, were 57 M and nmoles mg^-1 dry weight for the +Fe cells and 50 M and 22 nmoles mg^-1 dry weight for the -Fe cells, respectively. Ferric chelate reduction by Fe-deficient roots also exhibited saturation kinetics, while roots grown with adequate Fe did not reduce ferric chelate. The K_m and V_max values for Fe-deficient roots were 45 M and 20 nmoles mg^-1 dry weight, respectively, and did not differ from values obtained for cells in culture. This study offers strong evidence that the mechanism responsible for the reduction of ferric chelate is the same for cultured cells and roots and that the process is controlled at the cellular level. We propose that suspension cultures can be used as an alternative to intact roots in the study of ferric chelate reduction.     

Interactions between photoautotrophic and heterotrophic metabolism in photoheterotrophic cultures of Euglena gracilis

Interactions between photoautotrophic and heterotrophic metabolism in photoheterotrophic culture of Euglena gracilis were studied. Under a low light supply coefficient, these two metabolic activities seem to proceed independently. The cell growth rate in photoheterotrophic culture was about the sum of the growth rates in pure photoautotrophic and heterotrophic cultures. However under a high light supply coefficient, both photoautotrophic and heterotrophic (glucose assimilation) metabolic activities were inhibited, resulting in a low photoheterotrophic growth rate. The photoheterotrophic culture was more sensitive to photoinhibition compared to the pure photoautotrophic culture. Inhibition of glucose assimilation in the photoheterotrophic culture was due to both direct and indirect (through photosynthesis) effects of high light intensity. Cell growth, glucose assimilation and alpha-tocopherol content of the cells were higher when ambient air was used for aeration than when a mixture of carbon dioxide and air was used. Even when photosynthesis was inhibited by addition of 3-(3,4-dichlorophenyl)- 1,1-dimethylurea to photoheterotrophic culture, light stimulated alpha-tocopherol synthesis by E. gracilis.     

Production of higher levels of trigonelline by cell cultures of Trigonella foenum-graecum than by the differentiated plant

Callus cultures of Trigonella foenum-graecum contained 3 to 4 times more trigonelline than the seeds of this plant and 12 to 13 times more than the roots and shoots. Even higher levels of this alkaloid were produced by suspension cultures. This high productivity was maintained during successive subculturing of calli and cell suspensions for eight months. Thus, trigonelline is to be added to the group of the few metabolites whose synthesis in cell cultures exceeds its production in the differentiated plants. Media that had supported the growth of suspension cultures contained one third or more of the total alkaloid, whereas media of callus cultures contained about one tenth of this substance. Trigonelline accumulated in callus and suspension cultures with aging. Raising the level of nicotinic acid in the nutrient medium resulted in some increase of trigonelline production by the culture.Abbreviations 2.4 D 2.4-dichlorophenoxyacetic acid - IAA indoleacetic acid - IPA indolepropionic acid - NAA -naphthaleneacetic acid - GA Gibberellic acid - K kinetin     

Flow cytometric analysis of protein content in Taxus protoplasts and single cells as compared to aggregated suspension cultures

Plant suspension cultures are highly aggregated, preventing the direct application of flow cytometry for the study of population dynamics. The utility of single cells to accurately represent aggregated suspension cultures was tested through the analysis of total protein content. Specifically, protein content of two Taxus cuspidata suspension culture lines was studied using the Bradford assay for aggregated suspension cultures, and flow cytometry with fluorescein isothiocyanate staining for protoplasts and single cells. Taxus protein levels were measured at 75–160 mg per gram dry weight via the Bradford assay. Aggregated suspension cultures, protoplasts, and single cells predicted the same trend of protein content over the culture period (21 days). Normalized protein content of isolated single cells was statistically equivalent to aggregated suspensions for both cell lines. However, normalized protein content of isolated protoplasts showed significant differences from aggregated suspensions for one of the two cell lines. Elicitation with methyl jasmonate (MJ) is commonly utilized to increase paclitaxel accumulation in suspension cultures, and therefore the effect of MJ elicitation on protein content in aggregated suspensions, isolated single cells and protoplasts was assessed. Aggregated suspension cultures, protoplasts, and single cells did not show any change in total protein content following elicitation with MJ at 200 M on day 7. This study illustrates the usefulness of flow cytometry for obtaining culture population information and the value of using intact single cells for the study of plant metabolism.     

Comparison of secondary product accumulation in photoautotrophic,photomixotrophic and heterotrophic Nicotiana tabacum cell suspension cultures

Summary Photoautotrophic, photomixotrophic and heterotrophic Nicotiana tabacum cell suspension cultures were compared for the constitutive accumulation of secondary metabolites and the elicitor-induced formation of the phytoalexin capsidiol. Nicotine and chlorogenic acid were found in high amounts in the heterotrophic cultures and in moderate concentrations in photomixotrophic but not in photoautotrophic cells. Nicotinic acid-N-glucoside occured in all culture types; in photoautotrophic and photomixotrophic cells the formation of N-methylnicotinic acid (trigonelline) was also observed. Treatment with a fungal elicitor led to substantial accumulation of capsidiol in heterotrophic and photomixotrophic cells and in only low levels in photoautotrophic cultures. Elicitor-treated photomixotrophic cells showed a pronounced increase in cell wall-bound phenolics. The levels of nicotine, nicotinic acid-N-glucoside and trigonelline were not affected by elicitation.Abbreviations hcc heterotrophic cell culture - mcc photomixotrophic cell culture - pcc photoautotrophic cell culture - fr.wt. freshweight - nic-N-glc nicotinic acid-N-glucoside - PMG Phytophthora megasperma f. sp. glycínea - HPLC high performance liquid chromatography - GC gas chromatography - TLC thin layer chromatography - 2,4D 2,4-dichlorophenoxyacetic acid - Kin kinetin - BAP 6-benzylaminopurine - NAA -naphthylacetic acid     

Plant regeneration from embryogenic suspension cultures of dune reed

Embryogenic callus, derived from mature seeds of dune reed (Phragmites communisTrinius) was used to establish suspension culture. Green shoot-forming type and albino shoot-forming type embryogenic callus of dune reed were selected carefully by the difference of shape and color of callus growing under light and mechanically dispersed before suspending in liquid MS medium supplemented with 1.0 mg l^–12,4-D. They were subcultured every 5 days to remove mucilaginous material in the early culture stage. Both fine albino and green shoot-forming cell suspension lines of dune reed were composed of rapidly growing small cell aggregates that were densely cytoplasmic and potentially embryogenic. Globular somatic embryos were continuously produced in each liquid medium containing 1.0 mg l^–1 2,4-D. The cell aggregates in fine albino cell suspension line (size below 300 m) were smaller than that of green shoot-forming cell suspension line (size between 300 and 800 m). Following transfer to a differentiation medium, both suspension cultures formed regenerating plants with normal roots and albinotic or green shoots, respectively.     

Influence of exogenous hormones on the growth and secondary metabolite formation in transformed root cultures

Transformed organ cultures formed following transformation of plant tissues with Agrobacterium species owe their phenotypes to alterations in hormone metabolism. Exogenously supplied hormones have been used to probe the relationship between the growth and morphology of transformed root cultures of a number of species and their ability to accumulate secondary products. Auxins in the presence of low levels of kinetin induce the rapid disorganisation of transformed roots of Nicotiana rustica ultimately toform suspension cultures of transformed cells and this process is associated with a decrease in nicotine content of the cells. This is related to cells in the culture losing competence in alkaloid biosynthesis. In contrast, exogenously supplied GA₃ enhanced branching in two transformed root clones of the tropane-alkaloid producing species, Brugmansia candida and so enhanced their typical hairy root phenotype. This growth substance had the effect of reducing the overall alkaloid accumulation but in one case significantly altered the relative concentrations of different tropine esters.In transformed roots of Cucumis sativus, the phenotype of the roots is influenced by the expression of auxin synthesis genes on T_R-DNA resulting in roots with two distinct morphologies. The pattern of expression of the enzyme ascorbate oxidase in populations of control roots of different morphologies is described. The significance of these phenotypic variations on the utility of transformed root cultures for the study of secondary metabolic pathways will be discussed.Abbreviations AO ascorbate oxidase - DW dry weight - FW fresh weight - GA₃ gibberellic acid     

The lipids in photoautotrophic and heterotrophic cell suspension cultures of Chenopodium rubrum

Resembling the lipids in the leaves and other green organs of intact plants, the lipids in photoautotrophic cell cultures of Chenopodium rubrum were found to contain high proportions of monogalactosyldiacylglycerols and digalactosyldiacylglycerols, as well as fair amounts of sulfoquinovosyldiacylglycerols and diacylglycerophosphoglycerols. Conversely, the heterotrophic cell cultures, from which the photoautotrophic cultures had been derived, contained only traces of these compounds. The heterotrophic cultures were rich in sterols, sterol esters, sterol glycosides, and esterified sterol glycosides. The lipids of photoautotrophic cell cultures contained higher proportions of constituent linolenic acid, but lower concentrations of linoleic acid than those of heterotrophic cultures. In the photoautotrophic cultures, as in green leaves, linolenic acid was predominantly estrified in monogalactosyldiacylglycerols and digalactosyldiacylglycerols. This investigation shows that it is possible to select strains of cell cultures, which are capable of grosing photoautotrophically, with the aim of activating the biosynthesis of specific metabolites.     

Growth and rosmarinic acid accumulation in callus,cell suspension,and root cultures of wild Salvia fruticosa

The accumulation of rosmarinic acid (RA) in Salvia fruticosa callus, cell suspension, and root cultures was studied. For callus induction, leaves excised from microshoots were cultured on MS medium containing thidiazuron (TDZ) (0, 2.3, 4.6, 6.9, 9.2, or 11.5 M) and indole-3-acetic acid (IAA) (0 or 3 M). For root culture, hairy roots were cultured in B5 medium containing 2.7 M -naphthaleneacetic acid (NAA) and different concentrations of sucrose or phenylalanine. Induction of callus was completely inhibited in the absence of both TDZ and IAA and the largest callus (0.79 g) was obtained with a combination of 6.9 M TDZ and 3 M IAA. Culture duration of 5 weeks resulted in maximum callus growth and RA yield (2.12 mg/ 100 mg dry weight). Cell suspension growth and RA yield (5.1 mg/ 100 mg dry weight) were maximum after 20 days of culture. The highest root growth and RA yield (2.62 mg/ 100 mg dry weight) was obtained with 4% (w/ v) sucrose. Incorporation of 10 mg l^–1 phenylalanine in the medium increased RA yield in the roots to 4.68 mg/ 100 mg dry weight after 4 weeks of culture. Amounts of RA extracted from in vivo leaves and roots were 0.21 and 0.72 mg/ 100 mg dry weight, respectively.     

Photoautotrophic growth of cell suspension cultures fromChenopodium rubrum in an airlift fermenter

Summary This communication describes the construction and operation of an airlift fermenter for the photoautotrophic growth of cell suspension cultures fromChenopodium rubrum. The basic batch culture unit provides a culture of 1.51 volume, sufficient to permit frequent aseptic sampling. It can be maintained at any desired temperature and aerated to different extents. Using an initial cell density of about 400,000 cells per ml suspension, the increase in cell number is 270% after a 14 days' growth period, although the stationary phase of growth is not yet reached. The transfer of photoautotrophic cell suspensions fromChenopodium rubrum from stationary growth into the large volume of fresh culture medium in the airlift fermenter results in an immediate protein formation, followed by an exponential phase of cell division, whereas rapid chlorophyll accumulation is delayed by 2 days.The growth capacities of photoautotrophic fermenter cultures including protein and chlorophyll formation as well asin vitro activities of the ribulosebisphosphate carboxylase and the phosphoenolpyruvate carboxylase are greatly lower as compared to photoautotrophic cells propagated in standard two-tier culture vessels using 30 ml culture medium. However the pattern of change in the activities of carboxylation enzymes is quite similar in both culture systems.Photoautotrophic cell suspensions fromChenopodium rubrum grown in an airlift fermenter assimilate about 90 mol CO₂/mg chlorophyll × hour. Dark CO₂ fixation is about 1.5% of the light values.Abbreviations PEF phosphoenolpyruvate - RuDP ribulosebisphosPhate - NS ground glass joints of standardized size made from Duran glass, Schott, Germany     

Polyacetylenes accumulation in <Emphasis Type="Italic">Ambrosia maritima</Emphasis> hairy root and cell cultures after elicitation with methyl jasmonate

Three lines of hairy root culture of Ambrosia maritima induced by Agrobacterium rhizogenes ATCC15834 were established. Thiarubrine A, thiarubrine A epoxide, thiarubrine A diol and their precursor pentayneene were produced by the hairy roots after elicitation with methyl jasmonate, the common signal molecule in the plant defense and development. Thiarubrine A diol was the main form detected in the medium. Maximum yield was achieved when the 13-day-old hairy root cultures were exposed to 40 M methyl jasmonate for 72 h. Callus and cell suspension cultures were established and maintained on Murashige and Skoog medium supplied with -naphthylacetic acid (NAA) and kinetin. When the cell suspension cultures were elicited with methyl jasmonate, pentayneene was the only polyacetylene produced. The yield of pentayneene in hairy root cultures was much higher (9.6 times) than that of cell suspension cultures.     

Establishment and characterization of a betaxanthin-producing cell culture from Portulaca grandiflora

Cell cultures derived from three yellow flowering Portulaca grandiflora genotypes contained betacyanins rather than betaxanthins. A betaxanthin-producing cell culture was obtained by subculturing orange cell clusters isolated from the red-violet cell culture of a violet flowering P. grandiflora genotype. Selection of the most strongly yellow coloured cell material reduced the portion of betacyanins considerably and resulted in a P. grandiflora cell culture characterized by a high concentration of betaxanthins and the occurrence of free betalamic acid. Vulgaxanthin I was the main compound. Besides these pigments carotenoids and flavonoids were detectable.Betaxanthin biosynthesis strongly dependend on light. Product accumulation reached its maximum during the stationary phase of the growth cycle. Excretion of pigments, especially of betalains, could not be detected. Vulgaxanthin I as found in the cell culture was identical with one of two main betaxanthins in the yellow petals of P. grandiflora.The yellow P. grandiflora cells grew well on solid modified Murashige and Skoog medium but failed to grow in liquid medium after a few subcultures. In contrast, white P. grandiflora suspension cultures could be established repeatedly.Abbreviations A absorbance - BX I and BX II betaxanthin fractions - DOPA dihydroxyphenylalanin - DW cell dry weight - molar extinction coefficient - SS solvent system     

Production of steroidal alkaloids by hairy roots of Solanum aviculare and the effect of gibberellic acid

Cultures of Solanum aviculare hairy roots were established after transformation with Agrobacterium rhizogenes A4. High levels of steroidal alkaloids measured as solasodine equivalents were produced in shake-flasks and bioreactor, even though relatively low concentrations are found in roots in vivo. In shake flasks the maximum alkaloid yield was 32 mg g^-1 dry weight; in a 3-1 air-driven bioreactor the yield was 29 mg g^-1. These yields represent a 5-fold increase over previous reports for in vitro production, and are comparable with levels found in the aerial parts of intact S. aviculare plants. Production of steroidal alkaloids was growth-associated. High sugar levels at stationary phase and insensitivity to increased levels of medium components suggest that root cultures were limited by oxygen mass-transfer. In Petri-dish culture with and without exogenous gibberellic acid, root length and number of root tips increased exponentially; growth proceeded with a constant length per root tip of about 35 mm. Addition of gibberellic acid enhanced growth but reduced the specific steroidal-alkaloid level. Taking into account both growth and alkaloid yield, accumulation of steroidal alkaloids was improved by about 40% at gibberellic-acid concentrations of 10 and 100 g l^-1.     

Growth and isoflavonoid accumulation of Pueraria candollei var. candollei and P. candollei var. mirifica cell suspension cultures

We established cell suspension cultures derived from leaf, stem, and root calli of Pueraria candollei var. candollei and P. candollei var. mirifica using liquid Murashige and Skoog (MS) medium supplemented with 0.56 μM 6-benzyladenine (BA) and 4.52 μM 2,4-dichlorophenoxyacetic acid (2,4-D). Growth of the cell suspension cultures progressed to the stationary phase within 15–24 days. Methanolic extracts of cell suspension cultures of both varieties of P. candollei were analyzed using a validated HPLC protocol. All cell lines derived from leaf, stem, and root explants produced four major isoflavonoids: daidzein, daidzin, genistein, and genistin; these isoflavonoids were detected only in the roots of intact plants. Furthermore, the isoflavonoid contents of the cell suspension cultures were higher than those of intact plants. Thus, cell suspension culture of both varieties of P. candollei may be an effective tool for isoflavonoid production.     

A novel approach for efficient plant regeneration from long-term suspension culture of wheat

Summary Hexaploid wheat plants were easily regenerated from young embryo-derived callus for twelve genotypes tested. After a 2.5 years culture period, however, most of the callus cells lost their ability to regenerate into shoots, but not into roots.A novel approach was used to regenerate shoots from the long-term suspension cultured cells. In general, instead of selecting embryogenic callus as source material, this approach requires the inoculation of unselected callus into liquid medium followed by removing the free floating cell portion, selecting out non-root forming cell clumps from the root forming primary suspension culture, and growing the putative shoot-competent clumps in liquid medium with reduced auxin concentrations. We have successfully established shoot-competent wheat suspension cultures for cv. Mustang. High (>80%) frequencies of plant regeneration were observed from plating of 2.5 year suspension cultures. The suspension cultures established by this approach have been utilized to select for heat tolerant variants and will be an ideal source material for protoplast culture and transformation studies. This approach can also be applied to other cereal crops which form roots easily but are unstable in maintaining long term regenerable cultures and which are not easily adaptable to suspension culture.     

Regeneration of protoplast-derived green plants of Kentucky blue grass (Poa pratensis L.)

Summary Green plants were repeatedly regenerated from suspension-derived protoplasts of Kentucky blue grass (Poa pratensis L.) cv. Geronimo. One suspension was capable of donating competent protoplasts during long-term culture i. e. 10–16 months after its establishment. The plating efficiency of the protoplasts from three different suspension lines varied from 0.004% in the lowest up to 1.5% in the highest responding line, using agarose-bedding in nutrition medium devoid of nurse or feeder cultures. Green plants germinated from polyembryos, which developed from 0.4–2.7% of the protoplast-derived microcolonies. A total of 127 plants were successfully transferred to soil.Abbreviations ABA abscisic acid - BAP 6-benzylaminopurine - 2,4-D 2,4-dichlorophenoxyacetic acid - FW fresh weight - PE plating efficiency