Cell cultures vs. whole plants for measuring phytotoxicity II. Correlations between phytotoxicity in seedlings and calli

The effects of a broad range of compounds were assessed usingboth seedlings and callus cultures of five species. An experimentallyjustified ranking procedure was used to facilitate the comparisonof the inhibitory characteristics at multiple concentrations.When the effects on seedlings of Lycopersicon esculentum, Solanumnigrum, Chrysanthemum segetum and Cirsium arvense were comparedto those on white calli of the same species, some positive correlationswere obtained; photosynthesis inhibitors affected seedlingsmuch more than calli and some compounds affected calli muchmore than seedlings. Better correlations were obtained betweenthe effects on Rumex obtusifolius seedlings and on green Rumexcalli; the only exceptions being those compounds affecting mainlythe calli. Thus callus cultures, especially green ones, havea potential for use to assess possible phytotoxicity as wellas to detect potential toxicity of compounds not penetratinginto or being translocated in whole plants. (Received January 13, 1977; )     

Distribution and Accumulation of Thiophenes in Plants and Calli of Different Tagetes Species

The diversity of thiophenes (natural biocides) and the differencesbetween the concentrations of these compounds in the leavesand roots of Tagetes erecta L., T. patula L. cv. Nana furia,and T. minuta L. (marigolds) indicated the presence of at leasttwo different sites of accumulation: leaves and roots. Leafexplants of Tagetes, however, are used by preference to obtaincallus cultures. Once subcultured, secondary (C₂) calli of T.patula obtained from leaves of 4 to 7-week-old plants, containedhigher amounts of accumulated thiophenes (up to 80% of the amountsin the leaves) than original (C₁) or twice subcultured calli(C₃). The concentrations of thiophenes in C₂ calli of T. minutawere about half those of C₁ calli, while the concentrationsof thiophenes of C₁ calli amounted to 1-2% of the leaf values.Most of the C₃ calli of T. minuta did not contain thiophenesat all. Although C₁ calli of T. erecta also contained considerableamounts of thiophenes, the C₂ calli died, most likely owingto high levels of accumulated polyphenolic compounds. The combinationof species effects and the physiological state of plants andcalli provides adequate information to decide whether Tagetescalli are able to produce thiophenes or not. It is concludedthat the ability to produce thiophenes does not depend on theorgan used, but on the genetic information present in the species,and on the physiological state of plants and calli, particularlytheir age. Key words: Callus, explant selection, Tagetes erecta, Tagetes minuta, Tagetes patula, thiophenes     

Regeneration of fertile Arachis paraguariensis plants from callus and suspension cultures

Highly morphogenic callus cultures were isolated from stamens of a wild peanut species, Arachis paraguariensis. These cultures were initiated on modified N6 medium containing 0.2 mg1l^-1 4amino-3,5,6-trichloro-picolinic acid (picloram) and 0.5 mg l^-1 6-benzylaminopurine (BAP) and were maintained on modified N6 medium with 0.008 mg l^-1 picloram and 0.25 mg l^-1 BAP. Buds formed on the calli growing on the maintenance medium developed into shoots when they were transferred to a MS salts based medium with no hormones. The cultures could also be maintained as a suspension culture in N6 liquid medium. When cell clumps larger tham 840 m were collected from the suspension culture and transferred to MS medium without hormones, they formed shoots in liquid culture. Root formation rarely occurred in agar or liquid cultures. Therefore, grafting to stems of rooted seedlings was used to obtain plants from regenerated shoots. Eight out of 50 field grown plants produced viable seed.     

Shoot regeneration from Glycine canescens tissue cultures

Shoots were reproducibly obtained from calli of both cotyledons and hypocotyls of Glycine canescens, a species related to soybean. A few shoots were also obtained from suspension cultures initiated from the callus tissues. Root formation was observed infrequently so no complete plants were recovered.     

Verbascoside production by plant cell cultures

Verbascoside was found to be produced in all calli derived from eleven species that contained the compound in their leaves. Cell suspension cultures were also established in three species, i.e., Leucosceptrum japonicum f. barbinerve, Syringa josikaea, and Sy. vulgaris, all of which were found to produce verbascoside at more than 1 g/l. Of the three species, suspension cultures of L. japonicum f. barbinerve showed rapid growth and the highest yield of verbascoside (1.89 g/l). In these cultures, the effects of major salt concentration in B5 medium on cell growth and verbascoside production were examined. Maximum cell growth and maximum verbascoside production were both achieved by reducing the major salt concentration to half that of the original medium.     

Plantlet Regeneration from Suspension and Protoplast Cultures of the Tropical Pasture Legume Stylosanthes guyanensis (Aubl.) Sw

Hypocotyl- and leaf-derived suspension cultures of Stylosanthesguyanensis were established and plants were regenerated fromthem, even after several sub-cultures. Protoplasts, enzymaticallyisolated from cell aggregates of a highly morphogenetic suspensionculture, synthesized new cell walls, divided and developed intocalli. Plantlets were regenerated from these calli after successivetransfers to solid maintenance and shoot induction media. Stylosanthes guyanensis (Aubl.) Sw, suspension culture, protoplasts, shoot regeneration, plantlet regeneration     

Somatic embryogenesis from cell suspension cultures in Carica candamarcensis

Cell suspension cultures of Carica candamarcensis derived from hypocotyl calli were tested concerning their in vitro embryogenic capacity to improve asexual propagation rates in this species. Somatic embryos developed in culture from cells in suspension or from microcalli. Responses were affected by nutrient media and phytohormones used. Best results were obtained by growing the cells in suspension in Nitsch and Nitsch medium containing naphthaleneacetic acid and then plating them upon the same medium containing benzyladenine, or combinations of both hormones.     

Development of callus and suspension cultures of potato resistant to NaCl and mannitol and their response to stress

Callus and suspension cultures adapted to various concentrations of NaCl or mannitol were developed from the cultivated potato Solanum tuberosum cv. Desire. Growth of the calli was less inhibited by mannitol than by iso-osmotic concentrations of NaCl. Reduction of growth by both NaCl and mannitol was considerably lower in osmotically adapted calli than in non-adapted ones. Salt-adapted suspension cultures that grew in the medium to which they had been originally adapted had a shorter lag in growth as well as a shorter time required to achieve the maximum growth, as compared with non-adapted cells. Suspension cultures adapted to NaCl concentrations higher than 150 mM were obtained only after preadaptation to osmotic stress. Adaptation of these cells was found to be stable. Accumulation of Na⁺ was lower and level of K⁺ was more stable in osmotically adapted than in non-adapted calli, when both were exposed to salt. Potassium level in NaCl-adapted calli exposed to saline medium was lower than that in non-adapted calli in standard medium. The maximum of Cl^– and Na⁺ accumulation was reached at higher external salt concentration in salt-adapted than in non-adapted suspension cultures. In both callus and suspension cultures, Cl^– accumulated more than Na⁺. Potassium level decreased more in non-adapted than in NaCl-adapted suspension cultures. The decrease of osmotic potential in osmotically adapted calli exposed to mannitol and in salt-adapted calli and suspension cultures exposed to salt was correlated to the increase of the external concentration. Such a correlation was not found in osmotically adapted calli exposed to salt. Non-electrolytes were found to be the main contributors to the decrease is osmotic potential in both callus and suspension cultures.     

In vitro organogenesis in two dioecious species,Rumex acetosella L. and R. acetosa L. (Polygonaceae)

Callus cultures were established from dioecious plant species Rumex acetosella and R. acetosa, using cotyledons, hypocotyls and stem tips of aseptically germinated seedlings as primary explants. Cultures were also established from male and female R. acetosella adult plants, starting from vegetative lateral buds. Cell division was induced using a high 2,4-D concentration, while bud induction and multiplication were stimulated on a medium with high BAP/IAA ratio. Cotyledon fragments of both species produced only rhizogenic calli. Hypocotyl-derived calli of R. acetosella produced buds, while those of R. acetosa showed no bud forming response under these conditions. Bud multiplication occurred in stem tip cultures of both species and in lateral bud cultures of R. acetosella. Calli derived from male plants produced more buds than those from female. Shoots were easily rooted using IBA, and plantlets were effectively transferred to soil. Flowering was not induced in culture. The sex of regenerated male and female plants was not altered by the culture conditions.     

Induction of pistil-like structures in suspension-derived callus cultures of wheat (Triticum aestivum)

In the following a method for the induction of pistil-like structures in wheat suspension cultures (Triticum aestivum L.) is described. In young influorescences of plants, which were artificially infected with the wheat bunt fungi (Tilletia controversa), organogenic calli with pistil-like structures could be induced on loblolly pine medium + 3 mg/l 3,6-dichloro-2-methoxy benzoic acid. The yield of these structures in calli from a five-month-old suspension culture was up to 100 per gram of callus fresh mass.Abbreviations LM Loblolly pine medium - Dicamba 3,6-dichloro-2-methoxy benzoic acid     

Comparison of 2,4-D and picloram for selection of long-term totipotent green callus cultures of sugarcane

Long-term regeneration of sugarcane (Saccharum spp. hybrid and Saccharum spontaneum L.) callus cultures was achieved by selection of green callus on MS agar medium containing 0.5 mgl^-1 picloram or 2,4-D. Newly initiated sugarcane callus cultures were a complex mixture of different tissue types including white, nonregenerative and green, regenerative tissues. The proportion of the tissue types changed as a function of time in culture, genotype, and amount and kind of auxin. Green callus on picloram media always regenerated green plants. Nine hybrids and ten wild relatives of sugarcane produced green calli on picloram media whereas only three hybrids were grown as green calli on 2,4-D media in long-term culture. Green calli were inoculated into liquid MS medium with 0.5 mgl^-1 picloram for suspension culture. These cultures were totipotent after 19 months. For routine culture, we initiated callus cultures on modified MS medium with 3 mgl^-1 2,4-D, then in two to three weeks we subcultured callus on MS medium with 0.5 mgl^-1 picloram and selected for green callus. Green calli regenerated large numbers of green plants after more than four years.     

Structural and metabolic properties of green tissue cultures from a CAM plant, Kalanchoë blossfeldiana hybr. Montezuma

Abstract Crassulacean acid metabolism (CAM) was studied in mixotrophic callus tissue cultures of Kalanchoë blossfeldiana hybr. Montezuma and compared with plants propagated from the calli. The ultrastructural properties of the green callus cells are similar to mesophyll cells of CAM plants except that occasionally abnormal mitochondria were observed. There was permanent net CO₂ output by the calli in light and darkness, which was lower in darkness than in light. The calli exhibited a diurnal rhythm of malic acid, with accumulation during the night and depletion during the day. ¹⁴C previously incorporated by dark CO₂ fixation into malate was transferred upon subsequent illumination into end products of photosynthesis. All these data indicate that CAM operates in the calli tissue. The results revealed that the capacity for CAM is obviously lower in the calli compared with plantlets developing from the calli, or with ‘adult’ plants. The data suggest also that CAM in the calli was not limited by the activities of CAM enzymes.     

Root, Callus, and Cell Suspension Cultures, from Atropa belladonna, L. and Atropa belladonna, Cultivar lutea Doll

Root, callus, and cell suspension cultures have been establishedfrom seedlings of Atropa belladonna, L. and Atropa belladonna,cultivar lutea Döll. The growth of these cultures is described.Callus cultures transferred to auxin (-naphthaleneacetic acid)-freemedium initiated roots and shoots. Excised root cultures havebeen established from such roots and plants from such shoots.Extracts of the cultures have been submitted to the Vitali—Morinreaction and following chromatography, to the Dragendorff reaction.Cultured excised roots and plants raised from shoots initiatedon cultured callus were shown to contain atropine (hyoscyamine)and reactive substances corresponding in Rf to hyoscine andcuscohygrine. These alkaloids were absent from cultured callusand cultured cell suspensions and from leaves when initiatedwithout roots on callus. The cultured calluses and cell suspensionscontained choline (0.022–0.027 g per 100 g dry weightof root callus). The growth of cell suspension cultures wasnot inhibited by incorporating atropine sulphate, L-hyoscyamine,L-hyoscine hydrobromide, or DL-scopoline nitrate in the culturemedium at 250 mg/I. These alkaloids were absorbed by the cells,a high proportion of the added alkaloid could be recovered fromthe cultures even after 4 weeks' growth and no evidence wasobtained of the presence of degradation products of the alkaloids.The suppression of alkaloid formation in actively growing callusand cell suspension cultures is discussed.     

Fertile indica and japonica rice plants regenerated from protoplasts isolated from embryogenic haploid suspension cultures

Summary A system to regenerate fertile rice (Oryza sativa L.) plants (both indica and japonica varieties) from protoplasts isolated from anther-derived embryogenic haploid suspension cultures has been established. Green plants were regenerated from protoplast-derived cell clusters five months after suspension culture initiation. Protoplast yields and subsequent growth of the protoplast-derived microcalli were enhanced by transferring suspension cells into AA medium (Muller et al. 1978) three to four days prior to protoplast isolation. Protoplasts were cultured initially in Kao medium (Kao et al. 1977) and in association with nurse cells for four weeks. Protoplast-derived microcalli were transferred onto N6 (Chu et al. 1975) or MS (Murashige and Skoog 1962) media for callus proliferation. Callus growth was more rapid and the calli were more enbryogenic when grown on N6 medium. The 2,4-D concentration used to develop the suspension culture was important. Cell cultures grown in medium containing 0.5 mg/l 2,4-D released protoplasts whose plating efficiency was higher than for protoplasts obtained from suspension cultures grown in 2.0 mg/l 2,4-D. However, suspension cells grown in 2.0 mg/l 2,4-D were superior with regard to the ability of protoplast-derived calli to regenerate green plants. Amongst several hormone treatments evaluated, a combination of 0.5 mg/l NAA + 5.0 mg/l BAP resulted in the largest number of green plants regenerated. There were no significant differences between BAP or kinetin regarding total number of plants regenerated. More than 200 green plants have been produced form six independently initiated suspension cell lines. The number of regenerated plants per 10⁶ protoplats plated anged from 0.4 to 20.0, and the average seed fertility of single panicles of these R_O plants was about 40%.     

Salvia suspension cultures as production systems for oleanolic and ursolic acid

Oleanolic acid (OA) and ursolic acid (UA) are triterpenic acids with diverse biological activities that are of interest to the pharmaceutical industry. To investigate the scope for producing these compound using cell suspension cultures of Salvia species, calli from Salvia officinalis, S. virgata and S. fruticosa were induced using several plant growth regulator combinations. Eleven lines were selected for suspension induction from a pool of calli. Six suspension cultures were established successfully and cultivated in the respiration activity monitoring system (RAMOS^®) to obtain online data on their growth kinetics and to establish appropriate sampling schedules for the determination of their OA and UA production. Based on their observed growth behaviour, OA and UA contents, and aggregation properties, one suspension culture from each studied Salvia species was selected for further optimisation. The µ_max values for these suspension cultures ranged from 0.20 to 0.37 day^?1, their OA and UA contents were greater than 1.3 and 1.2 mg g^?1, respectively, and they afforded maximum volumetric yields of 21.0 mg l^?1 for OA and 32.8 mg l^?1 for UA. These results will be useful in the development of a refined Salvia suspension-based process for OA and UA production.     

Selection for NaCl tolerance in cell cultures of Medicago sativa and recovery of plants from a NaCl-tolerant cell line

Medicago sativa lines with a high incidence of regeneration were established as suspension cultures and used to select for NaCl tolerant lines. Attempts were then made to regenerate plants from these lines. Regeneration was severely depressed in NaCl tolerant calli and the only plants that were successfully regenerated were from one callus of M. sativa cv. Regen S which grew in 62.5 mM NaCl. Plants from this callus, and new calli derived from the recovered plants, have shown a tolerance to NaCl comparable to calli and plants from the initial seed stock rather than an improved level of tolerance.     

Experimentally Synthesized Plant Chimeras I. In vitro Recovery of Nicotiana tabacum L. Chimeras from Mixed Callus Cultures

Experiments were conducted to develop techniques for synthesizingchimeras between plants of known genotype by utilizing in vitrotechniques Chimeral calli composed of green and albino tobaccocells were obtained by initiating callus tissue from mixturesof albino and green cotyledons, hypocotyls, callus culturesand cell suspensions The most effective mixing of genotypesoccurred when callus was derived from mixed filtered cell suspensionsUpon shoot regeneration, chimeral calli yielded 1317 non-chimeraland four chimeral plants Chimeras may have arisen as a resultof experimental procedures or possibly from spontaneous chromosomalabnormalities since leaves of some albino control plants occasionallyproduced small green islands of cells Explanations for the recoveryof a high percentage of non-chimeral shoots are presented Tobacco, callus cultures, cell suspensions, tissue culture, shoot apical meristems, somatic-crossing over     

Variation in nicotine content of tobacco callus cultures

Plants ofNicotiana tabacum L. cv. Burley 21 which showed no difference in nicotine content were used to establish callus cultures. Cultures were initiated from different plants and from different leaves within each plant. The nicotine content of the calli was determined, and the results subjected to an analysis of variance. Differences between plants and differences within plants significantly affected the nicotine content of the cultures. The differences between plants were transmitted sexually and asexually, providing evidence that they are genetically determined. No such differences in nicotine content were found between the plants from which the cultures were established, indicating that nicotine production in vitro involves additional genes to those which are needed for nicotine production in the plant. The differences within plants were further investigated by establishing callus cultures from pith explants taken from different parts of the stem. Explants from apical pith tissue gave calli having far more nicotine and more roots than cultures derived from basal pith explants. This results may reflect the proximity of the apical pith explants to the site of auxin synthesis in the stem apex. Callus cultures derived from pith explants showed greater growth and nicotine production than those derived from leaf explants when the calli were induced on Murashige-Skoog medium containing -naphthalene acetic acid. This result is in conflict with the widely held belief that explants from different parts of the plant give cultures with similar yields of species-specific compounds.Abbreviations HN High nicotine - LN low nicotine     

Production of chlorogenic acid and isoorientin hypoglycemic compounds in Cecropia obtusifolia calli and in cell suspension cultures with nitrate deficiency

The antidiabetic properties of Cecropia obtusifolia are attributed to chlorogenic acid (CGA) and isoorientin (ISO) phenolic compounds; both compounds possess hypoglycemic, hypolipidemic, and antioxidant properties. As a potential strategy for an adequate supply of authentic plant raw material, the aim of this study was to establish in vitro conditions for the development of cell suspension cultures that produce these bioactive compounds. Callus cultures of leaf explants from acclimatized tree and in vitro plantlets were set up using different auxin levels; treatments with 2,4-dichlorophenoxyacetic acid (2,4-D) and α-naphthalene acetic acid (NAA) to 8.92 μM with 6-benzylaminopurine (BAP) at 2.22 μM stimulate highest callus production. Seedling cotyledon, hypocotyl, leaf, and stem explants developed calli bearing roots with 2,4-D. With NAA, hypocotyl, cotyledon, and leaf explants developed morphogenic calli; 75% of stem explants formed calli, and the remaining calli developed shoots. Determined CGA concentrations in calli were similar to those detected in the leaves of wild trees, and ISO was not produced. Cell suspension cultures were established from leaf explants friable calli with 8.92 μM 2,4-D in combination with 2.22 μM BAP, employing 4 and 5% inocula in fresh weight; CGA levels were maintained and ISO was produced only at the end of logarithmic growth. On diminishing nitrate content in Murashige and Skoog (MS) medium to 8.0 mM, maximum cell biomasses diminished, CGA production is increased and twice with 16.0 and, instead of CGA production is tripled and quadrupled with 16.0 and 8.0 mM nitrates, respectively, and ISO synthesis was induced earlier and for a longer time period, increasing its levels at the end of culture. Two compounds with ultraviolet spectra similar to those of caffeic and ferulic acids were formed. Our results offer a protocol of cell suspension cultures for C. obtusifolia bioactive production and hypoglycemic property conservation.     

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.