Cytotoxin production by a merineLyngbya strain (cyanobacterium) in a large-scale laboratory bioreactor

A cytotoxic compound was produced by the marine cyanobacteriumLyngbya sp. Pearl strain in large laboratory-scale batch cultures. Adsorption and fractionation of methanol extracts with reverse phase (C-18) cartridges provided a rapid method for removal of bioassay interference from salts, biopolymers and pigments and concentration of the cytotoxic principles. Cytotoxicity to the murine leukemia cell line P-388 was produced in two cycles coinciding with the initiation of exponential growth and again during the late exponential growth phase. Antiviral activity against influenza virus PR8 was found in extracts prepared from early exponential growth phase cells but antiviral activity was not detected in extracts of mid-log or late-log growth phase cells. These differences in bioactivity suggests that the cytotoxic principles produced during early and late exponential growth may be different compounds. Cytotoxicity assays using murine P-388 leukemia indicates that the semi-pure compound has an IC₅₀ of < 0.25 μg ml⁻¹ to this cell line. P-388 cytotoxicity in cell extracts increased during the late exponential growth phase and the specific yield was estimated at approximately 0.14 mg g⁻¹ (dry cells).     

Efficient transformation ofKlebsiella oxytoca by electroporation

A protocol for the transformation ofKlebsiella oxytoca by electroporation was developed. Preparation of competent cells at early exponential phase was most critical to obtain a high transformation efficiency. The highest efficiency of 1.6 × 10⁶ transformants per μg DNA (pBR 322) could be obtained by electroporation ofK. oxytoca cells prepared at the OD₆₀₀ of 0.2 with 1.25 μg DNA at the filed strength of 2.5 kV, the parallel resistance of 200 Ω and capacitance of 25 μF.     

Photoautotrophic growth of Marchantia polymorpha L. cells in suspension culture

A cell line of M. polymorpha was grown photoautotrophically in liquid suspension culture using 1% CO₂ in air as sole carbon source. The growth rate in terms of cell dry-weight during the exponential phase was 0.171 and the doubling time was 1.76 d. The rate of increase in chlorophyll was 1.6 times higher than the growth rate. The highest content of chlorophyll was 24 mg g^-1 dry weight, and the photosynthetic activity of the cells in the exponential phase, as calculated from the growth rate, was at least 60 mol mg^-1 chlorophyll h^-1.     

The influence of the growth phase of enteric bacteria on electrotransformation with plasmid DNA

Salmonella typhimurium LB5000 andEscherichia coli JM109 were transformed by electroporation. In accordance with the chemical transformation methods, the growth phase of these electrocompetent bacteria had a strong impact on transformation efficiency. Survival of bacteria, after the high-voltage electrical pulse was also influenced by the growth phase. Both bacterial species were most successfully electrotransformed when microbial cells were harvested at the late lag phase. The second optimum for transformation reachedE. coli cells in the mid-exponential andS. typhimurium cells in the late exponential phase. Transformation efficiencies ranged from 3.4×10⁴ to 2.7×10⁵ transformants per μg DNA in the case ofS. typhimurium and from 2.8 × 10² to 8.8×10⁵ transformants per μg DNA in the case ofE. coli. Survival of cells after the electrical pulse in late lag and late exponential phases was about 20% higher than during other phases of growth. Preparing electrocompetent cells from later phases of their growth is more useful for practice, because it provides more biomass with good yield of transformants.     

Zearalenone, deoxynivalenol and fumonisins in mixed-feed for laying hens

Fusarium toxins are secondary metabolites produced byfungi of these genera in many commodities under certain conditions. A study was carried out to investigate the co-occurrence of zearalenone (ZEN), deoxynivalenol (DON) and fumonisins (FB₁ and FB₂) in 52 samples of mixed-feed for poultry contaminated withFusarium verticillioides. The zearalenone and deoxynivalenol were checked using immunoaffinity column and the extraction of fumonisin was performed by strong anion exchange (SAX) solid phase column. Detection and quantification were determined by high performance liquid chromatography (HPLC). The limit of detection was 5 μg/kg for ZEN, 100 μg/kg for DON and 50 and 100 μg/kg for FB₁ and FB₂ respectively.Fusarium toxins were detected in 20 samples. Sixteen samples were positive for ZEN (30.7%) presenting levels that ranged from 7.4 μg/kg to 61.4 μg/kg (mean=27.0 μg/kg). 13.5% of the samples presented contaminations of DON, with levels ranging from 100.0 μg/kg to 253 μg/kg (mean=l18.07 μg/kg). FB₁ was detected in 19.2% of samples, with levels ranging from 50.0 μg/kg to 110.0 μg/kg (mean=73.6 μg/kg). FB2 was not detected in any sample. In positive samples simultaneously contamination with two or three mycotoxins were detected in 9 of them (17.3%).     

Growth and carotenogenesis in eight strains ofDunaliella salina Teodoresco from Chile

A study was made of growth and carotenogenesis in eight strains of the green algaDunaliella salina collected from salt ponds at Salar de Atacama (23° 30′ S; 68° 15′ W) and Antofagasta (23° 39′ S; 70° 24′ W), Chile and kept in unialgal cultures at the Laboratorio Cultivo de Algas, University of Concepcion. The algae were grown in Erdschreiber medium supplemented with 12.5% w/v NaCl, under a continuous photon flux density of approximately 150 μmol m^-2 s^-1 at 25 ± 4 °C without aeration. When growth reached the stationary phase, the amount of NaCl was increased to 25%. Total carotenoid content was measured during the exponential growth phase and 20 days after the addition of salt. Strain CONC-001 (Laguna La Rinconada, Antofagasta) exhibited the highest growth rate (k = 0.32 div d^-1) and the lowest total carotenoid content (7.2 and 13.7 mg l^-1 at 12.5 and 25% NaCl, respectively). Strain CONC-007 (Salar de Atacama) had the lowest growth rate (k = 0.14 div d^-1) and yielded the highest total carotenes per volume unit (23.1 and 35.6 mg 1^-1 at 12.5 and 25% NaCl) and per cell (ca. 42 pg at 25% NaCl). Total carotenoid synthesis did not increase in strains CONC-001 and CONC-006 with the increase of salinity. These strains had the greatest increase of total carotenoid-to-chlorophyll ratio (4.5- and 9.3-fold, respectively). The seven strains from Salar de Atacama had higher total carotenoid contents than the strain from Antofagasta. Cell size also varied. Strain CONC-001 cells were smallest; strain CONC-006 had the largest cells. There was an inverse correlation between maximum cell density and mean cell size.     

Regeneration through organogenesis in rattan

Organogenic cultures were induced from zygotic embryo and megagametophyte explants of the Central American cycad species, Dioon edule. Plant growth medium consisted of B5 major salts, Murashige and Skoog minor salts and organics, 400 mg l⁻¹ glutamine, 100 mg l⁻¹ arginine, 100 mg l⁻¹ asparagine, 60 g l⁻¹ sucrose, 8 g l⁻¹ Difco Bacto agar and was supplemented with kinetin (0 – 13.94 μM) and 2,4-dichlorophenoxyacetic acid (2,4-D) (0 – 9.05 μM) arranged as a 5×4 factorial in a randomized block design. Callus initiation occurred on a wide range of medium formulations from megagametophyte explants; however, shoot formation occurred only on medium supplemented with 2.26 μM 2,4-D. In comparison, callus initiation from explanted zygotic embryos occurred on fewer medium formulations, and adventitious shoot induction occurred from callus on formulations with 9.29–13.94 μM kinetin + 0.45–9.05 μM 2,4-D. Rooted shoots, derived from megagametophyte and zygotic embryo cultures, have been regenerated. This revised version was published online in June 2006 with corrections to the Cover Date.     

Comparative studies of cytokinins on in vitro propagation of Bacopa monniera

A mass in vitro propagation system for Bacopa monniera (L.) Wettst. (Scrophulariaceae), a medicinally important plant, has been developed. A range of cytokinins have been investigated for multiple shoot induction with node, internode and leaf explants. Of the four cytokinins (6-benzyladenine, thidiazuron, kinetin and 2-isopentenyladenine) tested thidiazuron (6.8 μM) and 6-benzyladenine (8.9 μM) proved superior to other treatments. Optimum adventitious shoot buds induction occurred at 6.8 μM thidiazuron where an average of 93 shoot buds were produced in leaf explants after 7 weeks of incubation. However, subculture of leaf explants on medium containing 2.2 μM benzyladenine yielded a higher number (129.1) of adventitious shoot buds by the end of third subculture. The percentage shoot multiplication (100%) as well as the number of shoots per explant remained the high during the first 3 subculture cycles, facilitating their simultaneous harvest for rooting. In vitro derived shoots were elongated on growth regulator-free MS medium and exhibited better rooting response on medium containing 4.9 μM IBA. After a hardening phase of 3 weeks, there was an almost 100% transplantation success in the field. This revised version was published online in June 2006 with corrections to the Cover Date.     

Inorganic polyphosphates and phosphohydrolases inHalobacterium salinarium

Halobacterium salinarium grown in a liquid medium consumed up to 75% of phosphates originally present in the growth medium and accumulated up to 100 μmol P_i/g wet biomass by the time it entered the growth retardation phase. The content of acid-soluble oligophosphates in the biomass was maximum at the early stage of active growth and drastically decreased when cells reached the growth-retardation phase. The total content of alkali-soluble and acid-insoluble polyphosphates changed very little throughout the cultivation period (five days). The polyphosphate content ofH. salinarium cells was close to that of yeasts and eubacteria. The pyrophosphatase, polyphosphatase, and nonspecific phosphatase activities ofH. salinarium cells were several times lower than those of the majority of eubacteria. The specific activity of pyrophosphatase, the most active hydrolase ofH. salinarium, gradually increased during cultivation, reaching 540 mU/mg protein by the end of the cultivation period. Half of the total pyrophosphatase activity of this halobacterium was localized in the cytosol. The molecular weight of pyrophosphatase, evaluated by gel filtration, was 86 kDa. The effective K_m of this enzyme with respect to pyrophosphate was 115 μM.     

Effect of irradiation intensity on cell growth and kalata B1 accumulation in <Emphasis Type="Italic">Oldenlandia affinis</Emphasis> cultures

Light irradiation had remarkable effects on callus growth of Oldenlandia affinis with an optimum intensity of 35 μmol m⁻² s⁻¹. Biosynthesis of kalata B1, the main cyclic peptide in O. affinis, was induced and triggered with rising irradiation intensities. The highest concentration of kalata B1, 0.49 mg g⁻¹ DW characterised by the maximum productivity of 3.88 μg per litre and day was analysed at 120 μmol m⁻² s⁻¹, although callus growth was repressed. The light saturation point was established to be 35 μmol m⁻² s⁻¹, where kalata B1 productivity was in a similar order (3.41 μg per day) due to the higher growth index. O. affinis suspension cultures were shown to accumulate comparable specific kalata B1 concentrations in a delayed growth associated production pattern. These were dependent on irradiation intensity (0.16 mg g⁻¹ at 2 μmol m⁻² s⁻¹; 0.28 mg g⁻¹ at 35 μmol m⁻² s⁻¹). The batch cultivation process resulted in a maximum productivity of 27.30 μg per litre and day with culture doubling times of 1.16 d⁻¹. Submers operation represented a 8-fold product enhancement compared to callus cultivation.     

Enhancement of marennine production by blue light in the diatom <Emphasis Type="Italic">Haslea ostrearia</Emphasis>

The marine diatom Haslea ostrearia Simonsen produces a blue pigment, marennine, which is used for greening oysters. This microalga is cultured industrially indoors with artificial light. The influence of light quality on marennine production by cultures of H. ostrearia was investigated in the laboratory and at a semi-pilot scale (300 L tanks). In the first series of experiments in the laboratory, a clone of H. ostrearia was cultured under light of different colors (white, blue, green, yellow, and red) and at two irradiances (‘low’ and ‘high’, 20 and 100 μmol photons m⁻² s⁻¹, respectively). Compared to the white light controls, growth was increased in blue light at the ‘low’, but not at the ‘high’ irradiance, and marennine production at the end of the exponential phase was the highest in cells grown under blue light, regardless of the light quality or intensity during growth. Increased marennine production during growth was also observed, whichever color of light (blue or white) was used during the acclimation phase. In a second series of experiments, intraclonal differences were studied by comparing marennine production in seven clones differing with regard to their mean cell size. The total marennine expressed either per cell or per culture volume, was higher in blue light for all the clones. Complementary experiments carried out under semi-industrial conditions confirmed this effect of blue light, which could be relevant for the industrial, indoor production of marennine.     

Multiple activities of a novel substance,dictyopyrone C isolated from Dictyostelium discoideum,in cellular growth and differentiation

Summary.  We report that a novel substance named dictyopyrone C (DPC) has remarkable effects on growth and differentiation of Dictyostelium discoideum Ax-2 cells, in a dose-dependent manner. In the presence of 3–15 μM DPC, differentiation of starving Ax-2 (clone MS) cells was greatly enhanced in submerged culture, when vegetative MS cells were harvested at the mid-late-exponential growth phase (>3 × 10⁶ cells per ml) and starved. In contrast, DPC above 30 μM markedly impaired the progression of differentiation including cell aggregation, most of starved cells being round after 3–4 h of DPC application and then lysed during further incubation. In the presence of 30 μM DPC however, MS cells that had been harvested at the early exponential growth phase (<5 × 10⁵ cells per ml) and starved became neither round nor lysed and exhibited rather enhanced differentiation. Essentially the same results were obtained in cultures of starved cells on nonnutrient agar. With respect to the DPC effect on MS cells growing in axenic medium, cell lysis and growth inhibition by DPC at concentrations higher than 15 μM were realized in the mid-late-exponential-growth-phase cells (>3 × 10⁶ cells per ml) but not in the early-exponential-growth-phase cells (<5 × 10⁵ cells per ml). Moreover, analysis using synchronized MS cells has demonstrated that the DPC effect changes in a cell-cycle-dependent manner. In contrast to such unique DPC actions, the pyrone ring of DPC had no effects on growth and differentiation within the range of 3–120 μM tested. These findings strongly suggested the importance of the combined structure of the pyrone ring and the linear carbon chain in revelation of the DPC activities. Received August 5, 2002; accepted November 11, 2002; published online April 8, 2003 RID="*" ID="*" Correspondence and reprints: Department of Developmental Biology and Neurosciences, Graduate School of Life Sciences, Tohoku University, Aoba, Sendai 980-8578, Japan. E-mail: ymaeda@mail.cc.tohoku.ac.jp     

Activity of root systems of six plant species at different stages of development

Summary A number of data on root performance of six different crop species during development were measured. The plants wre cultivated in nutrient solution. Normal plant requirements were in the range of 4 mg O₂ per g dry root per hour, 0.2–4μg K per cm² total root surface per hour,² 0.2–2μg NO₃ per om² total root surface per hour. An attempt was made to establish a ratio between forced water entry and total root surface as a measure of functional root surface. The indication is that the relative surface of permeable root remains dominant during the phase of exponential growth and declines thereafter. The data collected are considered to be representative of normal requirements. They compare well with results published in the literature.     

Induction and characterization of in vitro corms of diploid-taro

When in vitro plantlets were cultured in Murashige and Skoog liquid medium supplemented with 8–10% sucrose and 22–44 μM 6-benzylaminopurine, all of the stem explants formed corms. 170–850 μM paclobutrazol increased corm formation, whereas 1700 μM paclobutrazol inhibited corm development. Inclusion of 66 μM 6-benzylaminopurine in 170 μM paclobutrazol treatment resulted in smaller corms, and bigger corms formed in the combination of 1700 μM paclobutrazol and 66 μM 6-benzylaminopurine. No corms formed in 63–630 μM cycocel treatments. In vitro corm growth was also affected by the culture methods. Deep-layer agitated culture yielded corms of up to 2.03 g, with an average fresh weight of 0.7 g, 40 days after induction. In thin layer cultures, corms were up to 1.87 g, with an average fresh weight of 0.5 g. SDS-PAGE analysis of water-soluble proteins revealed changes of polypeptides with corm growth. Compared to smaller ones, corms over 0.2 g had higher dry matter, carbohydrate and anthocyanin content. These corms had a 99–100% survival rate upon transplanting directly to soil after storage at 4 °C for 10 months. This study indicates that the most economic production method of diploid taro seed corm is by thin-layer liquid culture in Murashige and Skoog medium supplemented with 22–44 μM benzylaminopurine and 8–10% sucrose for 6 weeks. The formed corms can be stored at 4 °C up to 10 months and transplanted directly into soil without acclimatization. This revised version was published online in June 2006 with corrections to the Cover Date.     

Capsaicin formation in p-fluorophenylalanine resistant and normal cell cultures ofCapsicum frutescens and activity of phenylalanine ammonia lyase

Callus cultures ofCapsicum frutescens capable of producing a maximum of 53 μg capsaicin/g FW were exposed to various levels of p-fluorophenyialanine (PFP) at 100, 400, 1000 and 2000 μM to develop a resistant cell line that over produces capsaicin. After 15 days of culturing on media lacking PFP, cell lines resistant to 100, 400 and 1000 μM registered 18%, 34.5% and 45% increase in capsaicin content over normal cell line (cells not exposed to PFP). Capsaicin accumulation was inhibited in 2000 μM PFP resistant cell line. The profile of phenylalanine ammonia lyase (PAL), the key enzyme in pheny1propanoid pathway in resistant cell cultures was studied and compared with normal cell cultures to understand its role in capsaicin formation. Importantly increased production of capsaicin was obtained using PFP resistant cell lines. The activity profile of PAL had no correlation with capsaicin content in both control and PFP resistant cells.     

In vitro culture of Phyllanthus caroliniensis (Euphorbiaceae)

An efficient micropropagation protocol was developed for the medicinal plant Phyllanthus caroliniensis (Euphorbiaceae) using nodal segments for axillary shoot proliferation. Maximum multiplication (21–23 shoots per explant) was achieved on MS or AR media supplemented with either 5.0 μM BA, 1.25–5.0 μM kinetin or 2.5–5.0 μM 2iP. Rooting was achieved with 80–100% of the microshoots on MS medium without growth regulators, although 1.25 μM NAA and 1.25–5.0 μM IAA promoted significant increases in the number of roots per explant. Regenerated plants were successfully acclimatized and about 88% of plantlets survived under ex vitro conditions. Flowering was observed on in vitro grown plantlets and after 3–4 weeks of acclimatization. High frequency callus initiation and growth was achieved when nodal segment explants were inoculated in the vertical position on MS medium supplemented with 5.0 μM 2,4-D. Root cultures were successfully established on MS medium containing 1.1 μM NAA. The optimized micropropagation, callus and root culture protocols offer the possibility to use cell/root culture techniques for vegetative propagation and secondary metabolism studies. This revised version was published online in June 2006 with corrections to the Cover Date.     

Changes in fatty acids and sterols during batch growth of <Emphasis Type="Italic">Pavlova viridis</Emphasis> in photobioreactor

Changes in the composition of fatty acids and sterols of Pavlova viridis cultured in an air-lift photobioreactor were studied using gas chromatography-mass spectrometry (GC-MS). The results show that radical changes in fatty acid and sterol contents and compositions occurred during growth phase transitions: the total lipid increased along with the culture age, from 166.4 mg g⁻¹ (late exponential phase) to 232.7 mg g⁻¹ (linear phase), and increased further to be 235.1 mg g⁻¹ in the stationary phase. Polyunsaturated fatty acids (PUFAs), especially eicosapentaenoic acid (EPA), decreased along with the culture time, PUFAs, and EPA contents maximized in the late exponential phase to become 46.2 mg g⁻¹ and 22.1 mg g⁻¹ respectively; there was no significant change in docosahexaenoic acid (DHA) content during the whole growth phase, although it reached the peak in the linear phase with 3.5 mg g⁻¹. As for the sterols, two unique sterols with two hydroxyl groups, termed pavlovols, were observed. 4α,24-Dimethylcholestan-3β,4β-diol, one of the pavlovols, increased almost 2-fold from the late exponential phase (2.5 mg g⁻¹) to the stationary phase (4.3 mg g⁻¹). On the contrary, the contents of stigmasterol and sitosterol decreased with culture age, with the maximum content of 2.4 mg g⁻¹ and 3.1 mg g⁻¹, both obtained in the late exponential phase, respectively. The results indicate that growth phase control could be used as a methodology to optimize the total lipid, EPA, PUFA, and sterol contents with the potential for both aquaculture feeds and nutraceutical applications, especially for further research into unique pavlovols.     

Micropropagation of Hemidesmus indicus for cultivation and production of 2-hydroxy 4-methoxy benzaldehyde

Caulogenic responses of various explant types from 12-month-old plants of Hemidesmus indicus were tested. Second and third visible nodes (0.5 cm) from the apex and root segments (0.5 cm) were the most and least regenerative respectively, with the formation of 9.37 and 2.6 shoots in 4 weeks on half strength MS medium supplemented with 2.22 μM BA and 1.07 μM NAA and 4.44 μM BA and 2.69 μM NAA respectively. Caulogenic ability of the nodes decreased with increasing maturity. Shoot buds initiated upon the young nodes on day 10 developed into 7.2 cm long shoots within 4 weeks thereby making a shoot elongation phase unnecessary. Nodal explants of the in vitro raised shoots subcultured in the same medium produced 9.32 shoots of 7.1 cm length in 3–4 weeks, similar to those of the mature plant-derived nodes. Multiplication through subculture of the nodes up to 25 passages of 4 weeks each was achieved without decline. Shoot cultures were rooted in quarter salt strength MS medium containing 9.8 μM IBA and the rooted plants were hardened for establishment in pots at 96% rate. Four months after establishment, the micropropagated plants were stable and showed uniform morphological and growth characteristic. After 12 months of cultivation in the field, on an average micropropagated plant consisted of 4–5 shoots, 5–8 branches per shoot and increased root biomass (13.5 g) compared to the poor growth (single shoot and 2–3 branches) and root production (4.6 g) values obtained with plants raised from conventional rooted stem cuttings. The concentration of the root specific compound, 2-hydroxy 4-methoxy benzaldehyde per plant was 2–3 fold higher in micropropagated plants though on unit dry root biomass (0.12% per g dry wt) basis it remained the same between two sources of plants. This revised version was published online in June 2006 with corrections to the Cover Date.     

Effects of temperature and light on the growth and geosmin production of Lyngbya kuetzingii (Cyanophyta)

The effects of temperature and light on the growth and geosmin production of Lyngbya kuetzingii were determined. Of the three temperatures tested, 10, 25 and 35°C, the maximal geosmin concentration and geosmin productivity were yielded at 10°C, while the highest chl a production was observed at 25°C. In the studies on light intensity, the maximal geosmin concentration and geosmin productivity were observed at 10 μmol m⁻² s⁻¹, while the highest chl a production was at 20 μmol m⁻² s⁻¹. It was suggested that more geosmin was synthesized with lower chl a demand. Meanwhile, the relative amounts of extra- and intracellular geosmin were investigated. Under optimum growth conditions (20 μmol m⁻² s⁻¹, 25°C; BG-11 medium), the amounts of extracellular geosmin increased as the growth progressed and reached the maximum in the stationary phase, while the intracellular geosmin reached its maximum value in the late exponential phase, and then began to decline. However, under the low temperature (10°C) or light (10 μmol m⁻² s⁻¹) conditions, more intracellular geosmin was synthesized and mainly accumulated in the cells. The proportions of extracellular geosmin were high, to 33.33 and 32.27%, respectively, during the stationary phase at 35°C and 20 μmol m⁻² s⁻¹. It was indicated that low temperature or light could stimulate geosmin production and favor the accumulation of geosmin in cells, while more intracellular geosmin may be released into the medium at higher temperatures or optimum light intensity.     

Highly efficient <Emphasis Type="Italic">in vitro</Emphasis> adventitious shoot regeneration of peppermint (<Emphasis Type="Italic">Mentha</Emphasis> x <Emphasis Type="Italic">piperita</Emphasis> L.) using internodal explants

An in vitro regeneration system with a 100% efficiency rate was developed in peppermint [Mentha x piperita] using 5- to 7-mm-long second internode stem segments of 3-wk-old stock plants. Shoots developed at sites of excision on stem fragments either directly from the cells or via primary calluses. The optimal medium for maximum shoot initiation and regeneration contained Murashige and Skoog (MS) salts, B5 vitamins, thidiazuron (TDZ, 11.35 μM), ZT (4.54 μM), 10% coconut water (CW), 20 g l⁻¹ sucrose, 0.75% agar, adjusted to pH 5.8. A frequency of 100% shoot initiation was achieved, with an average of 39 shoots per explant. This regeneration system is highly reproducible. The regenerated plants developed normally and were phenotypically similar to Black Mitcham parents.