The effect of dipicolinic acid on maize tissue culture growth is not solely due to inhibition of lysine biosynthesis

Dipicolinic acid, a known inhibitor of an enzyme (dihydrodipicolinic acid reductase) in the maize (Zea mays L.) lysine biosynthetic pathway, inhibits the growth of maize suspension and callus cultures. Inhibited cultures contain somewhat lower free lysine levels, but the inhibition of suspension culture growth was not reversible with simultaneous addition of L-lysine to the culture medium. It is concluded that dipicolinic acid does not act solely as an analog blocking lysine production. Dipicolinic acid thus appears to be unsuitable as a selection for maize tissue culture mutants with lysine overproduction.Abbreviations FW fresh weight - I₅₀ inhibitor concentration at which cell growth is inhibited by 50% - MS Murashige and Skoog (1962) culture medium - ZM Black Mexican Zea mays suspension culture of Chourey and Zurawski (1981)     

Effect of temperature on plasmid stability and expression of cloned cellulase gene in a recombinantBacillus megaterium

Summary The expression of carboxymethyl cellulase gene inBacillus megaterium (pCK108) was investigated with respect to temperature in batch culture. The suboptimal temperature supporting maximal cell growth rate was determined to be 30 °C at which stability of the plasmid pCK108 could be maintained stable. However, cellular plasmid contents, production rate of cellulase of the cell, and efficiency of the gene expression increased significantly with increase of the temperature from 30 °C to 44 °C, even though the plasmid stability decreased up to 60% level at the end of the culture.     

Correlation of glyoxalase I activity with cell proliferation inDatura callus culture

Glyoxalase-I activity in growingDatura callus showed 184% increase with the age of the culture. Spermidine increased the enzyme activity together with DNA and protein synthesis. With the addition of mitotic inhibitors, vinblastine and methylglyoxal in the growth medium, the enzyme activity was inhibited by 92 percent and 50 percent respectively, at the most effective concentration and the callus growth was also reduced. Similar results were obtained with specific glyoxalase I inhibitors, iso-ascorbate and squaric acid.     

Continuous culture of Candida boidinii variant 60 growing on methanol

Summary A new variant, Candida boidinii variant 60, which is less sensitive to methanol and formaldehyde shocks was grown in continuous cultures with methanol as sole carbon source. The substrate concentration in the feeding medium was either 1% methanol or 3% methanol. Biomass production, methanol consumption, the formation of formaldehyde and gas exchange were measured at different dilution rates. With low methanol feeding (10 g/l) maximal productivity of 0.44 g biomass/l·h is obtained at a dilution rate of 0.14 h^–1. Maximal specific growth rate is 0.18 h^–1. A yield of 0.32 g biomass/g methanol was obtained and the respiration quotient was determined as 0.55. Independently of initial substrate concentration, biomass decreases if methanol and formaldehyde are accumulating in the culture broth.In the culture with high methanol feeding (30 g/l) cell concentratioon increases up to 9 g/l at D=0.04 h^–1. At higher dilution rates methanol and form-aldehyde appear in the medium. Formaldehyde is then preferably oxidized without energy advantages for the cells. It seems that this enables the cells to overcome toxic effects caused by methanol and formaldehyde.     

Toxicity and biodegradation of formaldehyde in anaerobic methanogenic culture

Formaldehyde is present in several industrial wastewaters including petrochemical wastes. In this study, the toxicity and degradability of formaldehyde in anaerobic systems were investigated. Formaldehyde showed severe toxicity to an acetate enrichment methanogenic culture. As low as 10 mg/L (0.33 mM) of formaldehyde in the reactor completely inhibited acetate utilization. Formaldehyde, however, was degraded while acetate utilization was inhibited. Degradation of formaldehyde (Initial concentration /=60 mg/L), formaldehyde degradation was inhibited and partial degradation was possible. The initial formaldehyde to biomass ratio, S(0)/X(0), was useful to predict the degradation potential of high formaldehyde concentrations in batch systems. When S(0)/X(0) /= 0.29, formaldehyde at higher than 60 mg/L was only partially degraded. The inhibition of formaldehyde degradation in batch systems could be avoided by repeated additions of low concentrations of formaldehyde (up to 30 mg/L). Chemostats (14-day retention time) showed degradation of 74 mg/L-d (1110 mg/L) of influent formaldehyde with a removal capacity of 164 mg/g VSS-day. A spike of 30 mg/L (final concentration in the chemostat) formaldehyde to the chemostat caused only a small increase in effluent acetate concentration for 3 days. But a spike of 60 mg/L (final concentration in the chemostat) formaldehyde to the chemostat resulted in a dramatic increase in acetate concentration in the effluent. The results also showed that the acetate enrichment culture was not acclimated to formaldehyde even after 226 days. (c) 1997 John Wiley & Sons, Inc. Biotechnol Bioeng 55: 727-736, 1997.     

A simple and rapid method for selection of high diosgenin yielding clones ofDioscorea deltoidea callus

Summary Antimony pentachloride has been used to detect high diosgenin producing callus and cell clones ofDioscorea deltcidea grownin vitro. Using this method high yielding cultures, with a potential to produce up to 1.86% diosgenin, were selected.     

Elicitation of anthocyanin production in cell cultures of carrot (Daucus carota L) by using elicitors and abiotic stress

Summary A cell line of carrot (Daucus carota L) which produces anthocyanin was subjected to various elicitors and abiotic stresses: The elicitors tested were culture filtrates (CF) and cell extracts (CE) of certain bacteria and yeasts. The abiotic stresses were salts of certain metal ions. The production increase obtained with cell extracts of Bacillus cereus. Pseudomonas aeruginosa, Escherichia coli and Staphylococcus aureus were 49, 72, 45 and 41% respectively over the control. Maximum elicitation was obtained with elicitor derived from cell extract of the yeast Rhodotorula rubra where it enhanced anthocyanin production by two fold. The abiotic stress agents Ca, Mn, Zn, Co, Fe & V enhanced anthocyanin production. Of all the metal ions tested Ca was the most effective. The elicitation process was governed by the type and level of elicitor.     

Electron flow shift inClostridium acetobutylicum fermentation by electrochemically introduced reducing equivalent

Electrochemical energy as a source of reducing equivalent was applied to the cultures ofClostridum acetobutylicum to understand the effects of the pressure by reducing equivalent on anaerobic bacteria. The fermentation byC. acetobutylicum with methyl viologen and electrochemical energy produced more butanol (up to 26%) than the control culture, whilst less acetone (up to 25%) was produced. But no effect was observed on the growth of the culture. These results were indirectly supported byin vitro electrochemical reduction of NAD⁺ and artificial electron carriers.     

Influence of a loblolly pine (Pinus taeda L.). Culture medium and its components on growth and somatic embryogenesis of the wild carrot (Daucus carota L.)

A new culture medium, originally designed and shown to grow cell suspensions from a variety of loblolly pine (Pinus taeda L.) explants, was used to study growth and somatic embryogenesis of the wild carrot (Daucus carota L.) in cell suspensions. The new loblolly pine medium (LM) differed from the standard wild carrot medium (WCM) in having very low Ca²⁺, very high Mg²⁺, and enrichment with PO _inf4 ^sup3– and microelements. When WCM was altered to contain levels of Ca²⁺ or Ca²⁺ and Mg²⁺ equivalent to LM, it supported neither growth nor embryogenesis of the wild carrot. However, growth and embryogenesis in LM was superior to WCM. The phosphate level in WCM was found to be suboptimal.     

Anthocyanin production in callus cultures ofDaucus carota as influenced by nutrient stress and osmoticum

Summary Daucus carota callus developed red pigments under the influence of indole-3 acetic acid and kinetin. Maximum yield of anthocyanin at the end of 3 weeks was 5.4% on dry weight basis. The callus subjected to phosphate and nitrate stress produced 7.2% and 8.5% anthocyanin respectively. Feeding of sucrose at 7.5% level resulted in production of 15% anthocyanin. Mannitol as osmoticum had positive influence on anthocyanin production.     

Improved diosgenin production in Dioscorea deltoidea cell cultures by immobilization in polyurethane foam

Dioscorea deltoidea Wall (Dioscoreaceae) cell cultures were entrapped by passive invasion into reticulate polyurethane foam cubes. Immobilization of cells grown in medium containing 3% sucrose reduced the lag phase in growth and thereby reduced the time required to reach maximum diosgenin concentration by 36% compared to cells in suspension culture. Immobilization also increased the total diosgenin produced by 40%. Increased efficiency in diosgenin production was greatest in 3% sucrose; higher concentrations inhibited diosgenin production.     

The elicitation of phytoalexins by Ca2+ and cyclic AMP in carrot cells

Addition of calcium ionophore A23187 or dibutyryl cyclic AMP (dBcAMP) to carrot (Daucus carota L.) cell culture induced the production of 6-methoxymellein, a phytoalexin of carrot, in a dose-dependent manner. Several reagents known to suppress the cytoplasmic calcium concentration appreciably inhibited elicitor-promoted phytoalexin production in carrot cells. The addition of elicitor to the carrot culture caused a rapid increase in the intracellular level of cyclic AMP. Treatments of the cells with theophylline or cholera toxin stimulated the biosynthesis of 6-methoxymellein even in the absence of elicitor. These observations suggested that Ca²⁺ and cyclic AMP participate as second messengers in the regulation of 6-methoxymellein production in cultured carrot cells. Addition of verapamil to carrot cell culture markedly inhibited 6-methoxymellein production when it was added within 30 min after elicitor-treatment of the cells, but no inhibitory effect was observed after 60 min. The results suggest that these messengers function in an early stage of the elicitation process. Carrot cells which were previously treated with verapamil accumulated only small amounts of 6-methoxymellein following the addition of dBcAMP. In contrast, cells incubated initially with dBcAMP accumulated the phytoalexin at levels comparable to the control when verapamil was added to the culture.     

Production of shikonin derivatives by cell suspension cultures of Lithospermum erythrorhizon

Differences in the production of shikonin derivatives by callus and suspension cultures of Lithospermum erythrorhizon Sieb. et Zucc. were examined. When Linsmaier and Skoog medium was used in suspension cultures, cell growth was not accompanied by the production of shikonin compounds. Shikonin derivatives were produced, however, when this medium was used in callus cultures. Differences in shikonin production were examined in terms of the nutrient supply, the effect of the agar itself, and the oxygen supply. Shikonin derivatives could be produced without agar by keeping the cells exposed to air while providing an adequate supply of nutrients. In callus cultures, the production of shikonin compounds was reduced remarkedly when the oxygen concentration in the atmosphere was lowered, evidence that shikonin production during L. erythrorhizon cell growth on Linsmaier and Skoog agar medium is enhanced by an abundant supply of oxygen.     

Gallotannin production in cell cultures ofCornus officinalis Sieb. et Zucc.

Gallotannin mixtures composed of tri-, tetra- and pentagalloylglucoses were produced by callus and suspension cultures ofCornus officinalis Sieb. et Zucc. The content of the main tannin, 1,2,3,6-tetragalloylglucose, was 36 times that of the intact fruits. The other three tannins, 1,2,6-trigalloyl-glucose, 1,2,3,4,6-pentagalloyl-glucose, and 6-digalloyl-1,2,3-trigalloyl-glucose, were isolated and identified with the authentic specimens. The ratios of the amounts among these tannins were not changed much during the culture period, and by the differences in the combination of plant growth regulators in the medium. Tannin production was stimulated by 6-benzyladenine, whereas cell growth required 2,4-dichlorophenoxyacetic acid or 1-naphthaleneacetic acid. Light irradiation appears to have inhibited tannin production in the cell cultures.     

Recovery of megakaryocyte thromboxane production in vitro after aspirin inhibition

Megakaryocytes isolated in high purity from guinea pigs produced thromboxane B₂ in response to exogenously provided arachidonic acid. This production was inhibited by in vitro treatment with acetylsalicylic acid with a concentration response relationship similar to that seen in platelets. During in vitro culture, the aspirin-treated megakaryocytes recovered thromboxane synthetic ability. Following a lag of 12 hours, recovery of megakaryocyte thromboxane production resumed at a rate of 16% of control per day. This recovery was inhibited by the addition of cycloheximide to the culture medium.     

Cycloheximide resistance in carrot culture: a differentiated function

Cultured carrot cells grow as unorganized callus tissue in medium containing auxin. Upon removal of the auxin from the medium, they grow in an organized manner and differentiate into embryos. In the normal cell line, W001C, the callus growth can be inhibited by cycloheximide, but the embryonic growth cannot. A variant cell line, WCH105, whose callus growth is resistant to cycloheximide, was isolated. The mechanism of cycloheximide resistance in embryos of both lines and in WCH105 callus was found to be cycloheximide inactivation. In addition to auxin, bromodeoxyuridine can also promote callus growth in carrot culture. Callus cultures maintained by bromodeoxyuridine behave the same as do those maintained by auxin. WCH105 callus is resistant, whereas W001C callus is sensitive to cycloheximide inhibition. Except for the onset of embryogenesis, cycloheximide inactivation is expressed throughout the embryo developmental stages up to the plantlets. These results suggest that cycloheximide inactivation is a function expressed in the differentiated, but not in the undifferentiated, tissues.     

Nodular somatic embryogenesis and frond regeneration in duckweed,Lemna gibba G3

Duckweed(Lemna gibba) is a useful model system for elucidating plant development, but the techniques needed for regenerating fronds from calli are not yet well established. This study examined the effects of auxin, sucrose, and gelling agents on callus and frond formation inL. gibba G3. After three weeks of culturing on a solid medium, two types of calli were observed: watery, pale-green, and undifferentiated; or white, compact calli that were organized into nodules and which resembled somatic embryogenie calli. Homogeneous callus lines were produced through selective subculture. To induce nodular calli, auxin (2,4-D) was absolutely required, with an effective concentration of 5 to 20 μM; induction was found to be possible with up to a maximum concentration of 4.4%. The calli were then maintained on a medium with a reduced 2,4-D concentration (1 μM), and were transferred every three weeks. Optimal callus induction and growth were obtained by using 3% sucrose with a combination of 0.15% Gelrite and 0.4% agar. Fronds, however, could be regenerated only on distilled water solidified with a combination of 0.4% agar and 0.15% Gelrite. On this medium, 87% of the callus expiants regenerated into fronds after four weeks of culture. These new fronds were morphologically normal but small, approximately 15 to 20% of the size of stock fronds. Continued culture of these fronds in an SH medium produced normal duckweeds, and histological examination of the cultures revealed several distinct types of callus nodules. Nonetheless, because zygotic embryogenesis inL. gibba does not produce distinct bipolar structures, the developmental pathway of frond regeneration from these nodular cultures remains unknown.     

Activation of tubulinyl-tyrosine carboxypeptidase by spermine,spermidine and putrescine

Spermine, spermidine and putrescine produce dose dependent stimulation of the invitro tubulinyl-tyrosine carboxypeptidase. Maximal stimulation was obtained with spermine, spermidine or putrescine at 0.06 mM, 1 mM and 6 mM, respectively. At higher concentrations, the enzyme activity was inhibited. The enzyme was also activated by Mg⁺⁺; the concentration formaximal effect was 4–6 mM. The stimulation produced by optimal concentration of each amine was unaffected by Mg⁺⁺ up to 2 mM; higher concentration of Mg⁺⁺ showed inhibitory effect. At optimal Mg⁺⁺ concentration, the carboxypeptidase activity was inhibited by increasing amine concentration. The amines at 0.5 or 5 mM did not produce any effect on the incorporation of tyrosine catalyzed by tubulin tyrosine ligase.     

Somatic cell genetic studies inBrassica species

In vitro culture ofBrassica alba anthers on a growth medium containing inorganics of KB5 and organics, iron, sucrose and hormones of B5 resulted in a very high response of anthers (93.75%) towards callus induction. All the calli transferred to regeneration media responded favourably even after six months of callus induction. Numerous torpedo-shaped embryoids developed in clusters at many sites from each callus mass. Secondary embryogenesis and multiple shoot formation was also observed in many cases. The number of embryoids and plantlets produced by one embryogenic anther were as high as 169.8 and 17 respectively. 87% of the regenerated plants were haploids.     

Some Accounts on Culture Conditions of Callus Tissues of Solanum laciniatum Ait. for Producing Solasodine

Production of solasodine in callus cultures of Solanum laciniatum Ait. was examined under several culture conditions. The steroidal alkaloid was produced more actively in rapidly proliferating callus tissues cultured on PN medium. The alkaloid concentration in the tissue was about 0.05% (dry weight basis) during the first 5 weeks’ culture. The highest accumulation of the alkaloid per culture was obtained with 2,4-d concentration in the medium at 1~2 ppm. It is noteworthy that the alkaloid production was not inhibited by such high concentration of 2,4-d as up to 10 ppm in the medium. Supplementation of kinetin slightly increased the alkaloid production.