Micropropagation of Aerides maculosum lindl. (Orchidaceae)

Summary Young leaf segments from plants growing both in vivo and in vitro were cultured on Murashige and Skoog (MS) medium supplemented with auxins [naphthaleneacetic acid (NAA), 2,4-dichlorophenoxyacetic acid (2,4-D)], cytokinins [kinetin (KN) and N⁶-benzyladenine (BA)] and coconut liquid endosperm (CW). The explants from mature leaves did not show any growth and turned necrotic, while those obtained from juvenile leaves growing in vitro developed protocorm-like bodies (PLBs) at their cut surfaces within 4–8 wk depending on the growth medium. An optimum of 18 PLBs developed from leaf explants on medium supplemented with 2.0 mg l⁻¹ (8.87 μM) BA. Upon subculture in basal MS medium, the PLBs differentiated into plantlets within 6–8 wk. The resulting plantlets were successfully transferred to vermiculite initially and subsequently to potting mixture; 84% of the plantlets survived after 3 mo. of transplantation.     

Production of Pharmaceuticals from Papaver Cultivars in Vitro

Iranian (Papaver bracteatum Lindl.) and opium poppy (P. somniferum L.) plantlets obtained from germinated seeds grown on a Murashige and Skoog basal medium (BM) readily manifest alkaloids. Temperature had a profound effect on growth and alkaloid production after 8 weeks in culture. Plantlets of poppy cultivars (cvs.) grew best at 18.5 and 20°C compared to 15 or 25°C. An alkaloid survey study with 24 Iranian and 21 opium poppy cvs. revealed that total morphinan alkaloids ranged from 0 to 6.55 mg/g dw. Prolific axillary branching was achieved from poppy cvs. by maintaining shoots on BM containing 1.0 mg/L N⁶‐benzyladenine and 0.01 mg/L α‐naphthalene acetic acid for an additional 16 weeks. The influence of vessel size on the growth response of established shoot clumps was determined by subculture in a variety of culture vessels for 8 weeks. The tested culture vessels included culture tubes (55 mm³ capacity (cap.)), babyfood jars (143 mm³ cap.), Magenta GA‐7 containers (365 mm³ cap.), and polycarbonate jars (1890 mm³ cap.) employing an in vitro hydroponics system (i.e. an automated plant culture system (APCS)). Highest growth rates occurred employing the APCS. The culture vessel capacity had a significant positive correlation on shoot length, fresh weight, number of leaves, and number of shoots. Shoot length, fresh weight, leaves, and shoots grown in the APCS exhibited increases of 1‐, 21.5‐, 7.8‐, and 8.3‐fold, respectively, compared to shoots grown in culture tubes. Higher culture growth rates that occurred in the larger‐size vessels were correlated with lower alkaloid production (mg alkaloids/g dw). However, the overall total alkaloids/vessel [(mg alkaloid/g dw)×g culture dw] increased because of greater biomass production per vessel. The alkaloid content was found to remain stable for shoots grown over a 6–month evaluation period.     

紫茉莉悬浮细胞培养体系的建立

为建立紫茉莉(Mirabilis jalapa L.)悬浮细胞培养体系,以紫茉莉无菌苗叶片诱导的愈伤组织为材料,筛选紫茉莉悬浮细胞的适宜培养体系。结果表明,紫茉莉愈伤组织在MS+2,4-D 1 mg L-1+KT 0.5 mg L-1的液体培养基中悬浮继代培养3~4次,能得到稳定的悬浮细胞系。培养基的pH值为5.5~5.9,蔗糖浓度为30 g L-1更适合悬浮细胞的生长。紫茉莉悬浮细胞的生长曲线大致呈S型。最佳继代培养时间是10 d,培养液的体积为40 mL时,接种量为7.5 mL,可以较好地保持悬浮细胞系。1 L培养液中可提取分泌蛋白(0.42±0.15) g。这些有助于对悬浮细胞提取分泌蛋白的研究。     

The Effects of Photoperiod, Glucose and Gibberellic Acid on Growth In Vitro and Flowering of Chenopodium Murale

In vitro culture of long-day plant Chenopodium murale L was established. The effects of photoperiod, glucose and gibberellic acid (GA₃) on flowering and growth in vitro were investigated. Oscillatory changes of photoperiodic sensitivity were noticeable with regard to plant age. The plants induced at the phase of the 1^st and the 3^rd pair of leaves flowered to higher degree than those induced at the phase of 2^nd pair. Plants induced at the phase of the 1^st pair of leaves flowered to 17 % on 5 % glucose-containing medium and the addition of 5 mg dm^-3 GA₃ resulted in maximum flowering (43 %). Neither glucose nor GA₃ were able to compensate for photoperiodic requirements for flowering. Hypocotyl growth was decreased and the 1^st internode elongation and development of leaves were increased due to inductive photoperiodic conditions, as compared to non-inductive ones.     

Growth and Immunologic Studies on the Culture Forms of Trypanosoma lewisi*

SYNOPSIS. Culture forms of Trypanosoma lewisi grown at 27 C in a diphasic blood agar medium resemble in structure the stage found in the invertebrate host. Cultures inoculated with approximately 1 × 10⁶ trypanosomes/ml attain maximum populations of 2–7 × 10⁷ organisms/ml after 5–6 days of incubation. The stationary phase persists 6–15 days. The decline of the population is of relatively long duration with approximately 1 × 10⁶ viable organisms/ml present after 90 days. Variations in growth were attributed to the preparation of defibrinated heated rabbit blood incorporated into the culture medium. With inocula of 3.0 × 10⁵ trypanosomes/ml there was a lag in growth not observed with larger inocula. Trypanosomes incubated at elevated temperatures had altered growth curves compared to organisms at 27 C. Agitation of cultures did not affect the growth or stationary phases, but hastened the population decline. Heated and unheated 5% (v/v) normal rat serum incorporated in the liquid phase of the medium altered the growth of the organisms. Heated serum caused a decrease in the population and an extended lag phase. The effects on growth were more marked with unheated serum suggesting that both heat-stable and labile components affect growth. Antisera from rats injected with live culture forms included in the liquid phase inhibited, while antisera from rats 24 days after infection with the blood stream forms had no effect on the growth of the culture forms. Antisera from rabbits immunized with sonicates of culture forms also altered the growth of the organisms in culture. Rabbit antisera prepared by immunization with sonicates of dividing and non-dividing blood stream forms had no effect on the in vitro growth. Antisera from animals immunized with rat blood and culture medium were also without effect. The immunologic implications of the data are considered and discussed.     

Plant regeneration from mesophyll protoplasts of lisianthus (Eustoma grandiflorum) by adding activated charcoal into protoplast culture medium

Plant regeneration from isolated protoplasts of 8 cultivars of lisianthus, Eustoma grandiflorum (Griseb.) Schinners, has been established by using activated charcoal. Protoplasts were isolated from lisianthus leaves grown in vitro and started to divide within 3–4 days of culture, but successful colony formation was only achieved by adding gellan gum blocks containing 1% (w/v) activated charcoal immediately after culture. Colonies consisting of as many as 50–100 cells formed after 30 days of culture and were transferred to fresh medium for callus proliferation and shoot regeneration, respectively. These shoots rooted on MS medium containing 0.5 mg l^–1 indolebutyric acid(IBA) and the plantlets were finally transplanted to pots. Morphological characteristics, growth habit and pollen fertility of protoplast-derived plants of one cultivar were not different from those of seed-grown plants as control.Abbreviations BA 6-benzylaminopurine - NAA 1-naphthaleneacetic acid - MS Murashige & Skoog (1962) medium - IBA indolebutyric acid - MES 2-N-morpholinoethane sulfonic acid     

Sago: An Alternative Cheap Gelling Agent for Potato In Vitro Culture

Sago, a processed (gelatinized) edible starch, was successfully used as a gelling agent in culture medium. The efficacy of sago-gelled (80 g dm^–3) medium was studied in ten potato (Solanum tuberosum L.) genotypes during micropropagation and minimal growth conservation. Sago starch provided a firm gelling surface throughout the entire culture period, and fostered optimum plantlet growth in terms of shoot height, number of nodes per plant, number of leaves and fresh mass. No softening of the sago-gelled medium occurred over prolonged (six months) storage. The study showed that sago starch could be used as a substitute to agar in culture medium to substantially reduce the medium cost.     

Plant regeneration from embryogenic cell suspensions and protoplasts in sugarcane (Saccharum spp.hybrid cv. CoL-54)

Embryogenic callus was developed from young leaves of sugarcane (Saccharum spp.hybrid, cv. CoL-54). A good embryogenic callus response was achieved using MS basal medium containing 2.0 mol (0.5 mg l^-1) picloram under dark conditions at 27±1°C. Initiation of fast growing homogeneous cell suspension cultures was achieved in MS and AA media, both supplemented with g mol (2 mg l^-1) 2,4-d and 500 mg l^-1 CH. Embryogenic callus was reinitiated from embryogenic cell suspension cultures using MS medium containing 30 g l^-1 sucrose, 500 mg l^-1 CH and 2.26 mol (0.5 mg l^-1) 2,4-d after 4–6 weeks of culture under 16-h photoperiod conditions. Plant regeneration was achieved after about 4 weeks in MS medium lacking growth regulators but containing CH (500 mg l^-1) and sucrose (60 g l^-1). Rooting was enhanced by transferring regenerated plantlets to half strength MS basal medium.Totipotent protoplasts with an average yield of 2.0×10⁷ to 1.0×10⁸ ml^-1 were obtained from embryogenic cell suspension cultures at log phase, i.e., 4–5 days after transfer to fresh media. The best growth response was achieved when protoplasts were cultured in a modifed KM8P medium at the density of 2.0×10⁵ m l^-1. Protoplasts were mainly embedded in 0.8% sea plaque agarose. Division efficiency of 22.2% was achieved after 20 days of culture and 0.26% of microcolonies continued growth and formed microcalluses after 30 days of culture under dark conditions. Microcalluses were proliferated in MS medium having 2,4-d (2 mg l^-1) under 16-h photoperiod. Transferring these embryogenic calluses in MS medium +9.29 mol kinetin (2 mg l^-1) +5.37 mol NAA (1.0 mg l^-1) + activated charcoal (200 mg l^-1) for 5 weeks favoured plant regeneration. Shoots and roots were further proliferated in half strength MS basal medium for 2–4 weeks. Regenerated plants were transferred to autoclaved sand for 2 weeks under 16-h photoperiod in growth room and transferred to soil in a greenhouse to raise to maturity.Abbreviations MS salts of Murashige & Skoog (1962) basal medium - AA salts of Muller & Grafe (1978) basal medium - N6 saits of Chuet al. (1975) basal medium - 2,4-d 2,4-dichlorophenoxyacetic acid - CH casein hydrolysate - KM8P protoplast culture medium of Kao & Michayluk (1975) - KPR protoplast culture medium of Kao (1977) - P9 protoplast culture medium (Chen & Shih, 1983) - BA Benzyladenine - Picloram 4-amino-3,5,6-trichloropicolinic acid - NAA Naphthalene acetic acid     

Multiplication of Xanthomonas campestris pv. Phaseoli and Intercellular Enzyme Activities in Resistant and Susceptible Beans

In order to assess resistance to common bean blight, populations of two isolates of Xanthomonas campestris pv. phaseoli were monitored in leaves of two Phaseolus vulgaris breeding lines, BLT87-2 (susceptible) and OAC88-1 (partially resistant) and a resistant tepary bean accession, P. acutifolius P. I. 440795. The breeding line OAC88-1 possesses resistance to common bacterial blight which was incorporated from P. acutifolius by an interspecific cross. In susceptible, leaves, bacterial populations increased to 10⁸ CFU/g leaf at 3 wk after inoculation whereas, in resistant leaves, bacterial populations declined to 10¹ - 10³ CFU/g leaf. In partially resistant leaves the population first declined similar to that in resistant P. acutifolius but later increased, and typical bacterial blight symptoms appeared. Cellulase, protease and amylase activities were monitored in culture and intercellular leaf spaces. Only cellulase activity was, clearly related to bacterial growth in the susceptible host; other enzyme activities were variable in their relationship to host resistance and bacterial growth. Differences between strains in cellulase activity inside partially resistant leaves corresponded to their ability to secrete cellulase in culture. Measuring cellulase activity in intercellular wash fluids may be a simple and sensitive method for determining X. c. phaseoli populations in leaves.     

Establishment of in vitro plants, cell and tissue cultures from Oldenlandia affinis for the production of cyclic peptides

In vitro cultured plants from Oldenlandia affinis were established from seeds and grown on a hormone-free medium. In vitro plants produced the cyclic peptide kalata B1 in concentrations of 0.67 mg g⁻¹ dry weight after growth of 30 days. This was approximately 50% of the concentration analysed in green house plants (shoot tips), where different concentrations have been determined in leaves (1.82 mg g⁻¹), shoot tips (1.36 mg g⁻¹), stems (0.36 mg g⁻¹), and in flowers (0.16 mg g⁻¹). Callus and cell suspension cultures could be initiated from aseptic root, stem and leaf explants of O. affinis seedlings and plants. Different light intensities were shown to affect culture growth as well as chlorophyll synthesis. The friable callus was then used for the establishment of a cell suspension culture. Fresh and dry weight measurements showed that growth was optimal on MS medium supplemented with 0.4 mg l⁻¹ 2,4-dichlorophenoxyacetic acid (2,4-d). Leaf suspensions cultured on this medium showed a 4-fold increase of biomass by the first week of incubation. No quantifiable amounts of kalata B1 were produced under these conditions. Morphological differentiation seems to be essential for cyclic peptide production. Therefore, several undifferentiated as well as organised cell lines of O. affinis have been developed. These cell lines will constitute a worthwhile starting point for the optimisation of kalata B1 synthesis in liquid media to the objective of producing cyclic peptides under controlled and defined conditions in bioreactors.     

Structural and Functional State of Thylakoids in a Halophyte Suaeda altissima before and after Disturbance of Salt–Water Balance by Extremely High Concentrations of NaCl

Halophyte plants Suaeda altissima L. were grown in water culture at different concentrations of NaCl in the medium, and their leaves were sampled to examine the ultrastructure of chloroplasts. In parallel tests, the functional state of chloroplasts was assessed from parameters of chlorophyll fluorescence. In addition the effects of NaCl on plant growth and on the contents of Na⁺, K⁺, and water in organs of S. altissima were investigated. At a wide range of external salt concentrations (0–750 mM NaCl), S. altissima plants retained the chloroplast ultrastructure and photosynthetic function in an intact condition. The impairment of thylakoid ultrastructure and the accompanying increase in nonphotochemical quenching of excited states of chlorophyll was only observed at an extremely high concentration of NaCl in the medium (1 M) that led to disruption of ionic homeostasis and lowered water content in tissues.     

The Effect of Nitrogen Supply to Urtica dioica L. Plants on the Distribution of Assimilate Between Shoot and Roots

In this study the influence of nitrogen nutrition on the patterns of carbon distribution was investigated with Urtica dioica. The nettles were grown in sand culture at 3 levels of NO^?₃, namely 3 (low), 15 (medium) and 22 (high) mM. These levels encompassed a range within which nitrogen did not affect total biomass production. The ratio of root: shoot biomass of the low nitrogen plants was, however, significantly higher than that of the nettles grown at medium and high N supply. Carbon allocation from one leaf of each pair of leaves was examined after a ¹⁴CO₂-pulse and a subsequent ¹⁴C distribution period of one night. Only the youngest two leaf pairs did not export assimilates. Carbon (¹⁴C) export to the shoot apex and to the roots, as measured at the individual nodes responded to the nitrogen status: At medium and high nitrogen supply the 3rd, 4th and 5th leaf pairs exported to the shoot apex, while lower leaves exported to the root. At low nitrogen supply only the 3rd leaf exported towards the shoot apex. The results illustrate the plastic response of carbon distribution patterns to the nitrogen supply, even when net photosynthesis, carbon export from the source leaves and biomass production were not affected by the nitrogen supply to the plant.     

Fixation of 14CO2 in tissue cultured red raspberry prior to and after transfer to soil

The ¹⁴CO₂ uptake of an aseptically cultured red raspberry clone (Rubus ideaus L.) was examined prior to and after transfer to soil. Individual leaves of transplants, both persistent from culture and new ones, were tested 5 weeks after transplant for ¹⁴CO₂ uptake capability. Transplant leaves of successive weekly age classes took up ¹⁴CO₂ at increasing rates per unit area, displaying a spectrum of photosynthetic competence from low levels close to that of leaves from culture, to that of control plants. This is illustrative of acclimatization to the soil environment and was related to transplant light intensity.     

Factors affecting callus and shoot formation from in vitro cultures of Lens culinaris Medik.

The influence of culture medium and explant on callus and shoot formation of lentil (Lens culinaris Medik.) has been studied. Three different explants (shoot-tip, first node and first pair of leaves) from three Spanish lentil cultivars were cultivated on two basal media: Murashige and Skoog medium (MS) and medium with mineral salts of MS medium plus vitamins of Gamborg's B5 medium (MSB), supplemented with growth regulators. Media with 2,4-D induced the formation of calli in all explants, but no organ regeneration was obtained from these calli. Multiple shoot formation was obtained from 33% to 92% of the explants in media supplemented with 2.25 mg l^–1 of BA and 0.186 mg l^–1 NAA+2.25 mg l^–1 BA; in the other media one to two shoots per explant were formed in 10 to 98% of the explants. Root formation from explants was achieved only in media with NAA or IAA. Of the explants tested, the best morphogenetic responses were obtained from nodes and the poorest from leaves.     

<Emphasis Type="Italic">In vitro</Emphasis> regeneration and bulblet growth from lily bulbscale explants as affected by retardants,sucrose and irradiance

Bulbscales of oriental lily hybrid Star Gazer were used as the explants. Bulblets were formed on the basal portion of the excised bulbscales on MS medium supplemented with growth retardants, different sucrose concentrations and exposed to continuous light or dark. ^{Alar, Cycocel} and Paclobutrazol in concentration 1 mg dm⁻³ produced higher number of bulblets as compared to the control. The number of bulblets, however, decreased with the increase in concentration of the growth retardants. The number of bulblets was higher at 90 than at 60 g dm⁻³ sucrose and when the bulbscales were exposed to continuous light than to darkness. The growth retardants, higher sucrose concentration and continuous dark stimulated fresh mass of bulblets. The number of bulblets having roots and leaves decreased in medium with Alar, Cycocel and Paclobutrazol as compared to the control. A few bulblets produced roots and leaves in medium with 90 g dm⁻³ sucrose and none of the regenerated bulblets produced leaves under continuous dark.     

Tannase production by Aspergillus fumigatus MA under solid-state fermentation

A tannase yielding fungal culture identified as Aspergillus fumigatus MA was isolated from the effluent collected from a local small scale tannery. The fungal culture produced high yields of extracellular tannase under solid-state fermentation (SSF) using different agro forest residues such as Amla leaves (Phyllanthus emblica), Ber leaves (Zyzyphus mauritiana), Jamun leaves (Syzygium cumini), Jamoa leaves (Syzygium sp.) and Keekar leaves (Acacia nilotica). Among different substrates used, Jamun leaves yielded maximal extra-cellular production of tannase. Various parameters were studied to optimize the extracellular yield of tannase under SSF. The maximum yield of 174.32 U g⁻¹ was obtained at 25°C after 96 h of incubation at pH 5.0. The tap water was used as a moistening agent. A substrate to tap water ratio of 1:1 was found to best for tannase production. Supplementation of the medium with ammonium sulfate as nitrogen source had enhanced tannase production whereas glucose had decreased the enzyme production. This is the first report on production of tannase by Aspergillus fumigatus MA, giving a much higher yield of enzyme under SSF with Jamun leaves as the substrate.     

Characterization and regeneration of salt- and water-stress mutants from protoplast culture of Nicotiana plumbaginifolia (Viviani)

Summary Protoplast-derived colonies of haploid N. plumbaginifolia leaves were used to select for resistance to NaCl, KCl and polyethylene glycol 6000 (PEG). Salt-and PEG-tolerant cell lines were isolated on the basis of growth in a culture medium containing inhibitory concentrations of either NaCl or KCl (200 mM) or PEG (25%). The frequency of resistant lines ranged from 10^-5 to 10^-6. One resistant line from each treatment was regenerated into plants. All resistant lines produced 10–25 times more proline than the wild type when grown on a non-selective medium. Similar values were also observed in the leaves of resistant progeny plants. In each mutant line, salt or PEG resistance was transmitted as a single dominant nuclear gene as shown by segregation ratios in progenies of crosses between resistant and wild-type plants. The latter observation demonstrates clearly the existence of a genetic basis for increased salt tolerance.     

Secondary leaf fall of Hevea brasiliensis: factors affecting the production, germination and viability of spores of Colletotrichum gloeosporioides

The optimum temperature for growth and sporulation of Colletotrichum gloeosporioides from Hevea brasiliensis was between 26 and 32 ^oC, whereas spore germination exceeded 90% between 21.5 and 30.5 ^oC. Germination decreased in culture after 3 days, and on exposure of spores to sunlight or oven heat (46 ^oC) for 10 min. Spore viability and germination were sensitive to atmospheric humidity; at 99% r.h. germination was half that at 100% r.h. and was negligible below 97% r.h. Germination decreased by up to 30% after 3 h storage at 80% r.h. Continuous light favoured spore production in vitro, but spores produced in the dark had a higher percentage germination. No differences were detected between the numbers of spores germinating on leaves of different ages, although there were slightly more on susceptible cultivars and in the presence of extracts of uninfected susceptible leaves. Extracts from, infected leaves depressed spore germination, as did concentrations above 5 times 10⁵ spores/ml. The highest % germination was observed when naturally infected leaves were dry-stored for up to 20 days and then incubated for 2 days in a moist chamber.     

Bud formation in leaves,leaf fragments and midrib pieces of Heloniopsis orientalis (Liliaceae)

Summary Isolated leaves, leaf fragments and pieces of the midrib portion devoid of lamina, of Heloniopsis orientalis were grown on an inorganic nutrient medium without organic nutrients and growth regulators in order to investigate their regenerative ability. Bud formation in intact, attached leaves occurs only at the tip, in isolated leaves at the tip and the base, whereas leaf fragments cut transversely at a distance from the tip and isolated midrib pieces form numerous shoot buds in a random distribution. Lamina fragments lacking midrib frequently fail to regenerate even after a long time of culture. It is suggested that endogeneous growth regulators in the leaf, especially the vascular tissues, play an important role in bud initiation. Very young leaves of Heloniopsis are capable forming buds and roots when isolated from the mother plants.     

Accumulation of Four Metals in Tissues of Corchorus olitorius and Possible Mechanisms of Their Tolerance

Corchorus olitorius plants treated by 5 μg cm⁻³ of Cd, Pb, Al or Cu in hydroponic culture accumulated in leaves 190, 150, 350 and 325 μg g⁻¹(d.m.) of these metals, respectively, after 6 d of exposure. Exposure of Corchorus plants to tested metals resulted in a sharp rise in content of amino acids in leaf tissues, however the magnitude of accumulation was different from one metal to another. Presence of sulphur in the growth medium significantly increased uptake of Cd and Pb and cysteine (cyst) was more effective than K₂SO₄. Similarly, addition of salicylic acid (SA) in the growth medium significantly enhanced the ability of Corchorus plants to accumulate all these metals. Growth of Corchorus plants was significantly reduced by treatment with any of the four metals except Cu and added cyst, K₂SO₄ or SA alleviated the growth retarding effect of metals. This revised version was published online in July 2006 with corrections to the Cover Date.