Morphactin-kinetin interaction on growth and shoot formation in tobacco callus cultures

Pith-derived calluses of Nicotiana tabacum L. cv. Wisconsinno. 38 were inoculated on an RM-1964 medium containing variousconcentrations of a morphactin, chlorflurenol (CFl) and kinetin(KIN). An addition of KIN (0.1–2 mg/liter) alone was effectivefor shoot formation from the calluses, but a high dose (10 mg/liter)resulted in the inhibition of growth and in no differentiation.The inhibitory effect of a high dose of KIN was counteractedwith CFl. Three combinations of KIN and CFl; CFl (0.1 mg/liter)$KIN(2.0 mg/liter); CFl (0.1 mg/liter)$KIN (10.0 mg/liter) and CFl(1.0 mg/liter) $KIN (2.0 mg/liter), were successful for 100%shoot redifferentiation in inoculated calluses. An appropriatebalance between CFl and KIN seems to be involved in shoot formation.The present results can best be interpreted by assuming thatCFl acts as an auxin in cultured tissues. (Received January 16, 1975; )     

Effect of sodium sulfate on in vitro organogenesis of tobacco callus

Callus of tobacco (Nicotiana tabacum L. cv. Wisconsin 38) was grown on callus-proliferating (CP) and shoot-forming (SF) media with elevated sodium sulfate (Na₂SO₄) concentrations either in the light or dark for more than one year. An increase in Na₂SO₄ concentration resulted in a decrease in callus growth index, an increase in percent dry weight of callus tissues grown on both media, and a decrease in both number of calli forming shoots and number of shoots per callus in SF medium. The CP callus grown in the light spontaneously began to form shoots after the 5th monthly transfer, and spontaneous root formation occured after the 16th transfer in the presence of 0.75 and 1.0% Na₂SO₄. Both water () and osmotic (_s) potentials of the callus increased with increasing Na₂SO₄ concentration; and callus exhibited greater and _s in the light than dark for both CP and SF media.     

Mitochondrial activity during shoot formation and growth in tobacco callus

Mitochondria isolated from tobacco ( Nicotiana tabacum L. cv. Wisconsin 38) callus growing on either shoot-forming or non-shoot forming medium show an increase in state 3 and state 4 respiration and a drop in respiratory control and ADP/O ratios after subculture. the protein content of the mitochondria fraction and the activity of succinate dehydrogenase, malate dehydrogenase, cytochrome c oxidase and catalase also increase after subculture but there is no apparent difference between shoot-forming and non-shoot-forming tissue. For mitochondria assayed at their native osmolarities, a trend of higher respiration rates and respiratory control as well as lower levels of cyanide-resistant respiration was observed for shoot-forming tissue. Generally, differences were greatest after day 9 in culture, the time during which primordia formation occurred in the shoot-forming callus. These patterns are in concert with the view that the shoot-forming process has a high energy requirement which must be realized during the time of primordia formation.     

Effect of polyamine biosynthetic inhibitors on alkaloids and organogenesis in tobacco callus cultures

We studied the effects of inhibitors of ornithine decarboxylase (ODC), arginine decarboxylase (ADC) and spermidine synthase (Spd synthase) on organogenesis and the titers of polyamines (PA) and alkaloids in tobacco calli. DL--difluoromethylarginine (DFMA) and D-arginine (D-Arg), both inhibitors of ADC activity, were more effective than DL--difluoromethylornithine (DFMO), an inhibitor of ODC, in reducing titers of PA and the putrescine (Put)-derived alkaloids (nornicotine and nicotine). Dicyclohexylammonium sulfate (DCHA), an inhibitor of Spd synthase, was also more efficient than DFMO in reducing PA and alkaloid levels. Root organogenesis is inversely related to the titers of Put and alkaloids. Thus, DFMA and D-Arg, which strongly inhibit Put and alkaloid biosynthesis, markedly promote root organogenesis, while control callus with high Put and alkaloid content showed poor root organization. These results suggest that morphological differentiation is not required for activation of secondary metabolic pathways and support the view that ADC has a major role in the generation of Put going to the pyrrolidine ring of tobacco alkaloids.     

Ascorbic acid enhancement of organogenesis in tobacco callus

The effect of ascorbic acid on growth and shoot formation in callus cultures of tobacco (Nicotiana tabacum L.) was investigated, using young (4–12 subcultures) and old (more than 30 subcultures) tissue. It was found that ascorbate, at levels of 4–8×10^-4M, enhanced shoot formation in both young and old callus. Treatment with ascorbate also speeded up the shoot-forming process. In addition, ascorbate completely reversed the inhibition of shoot formation by gibberellic acid in young callus, but was less effective in old callus.     

The use of activated charcoal to remove endogenous fluoresence from tobacco callus extracts

The enzyme β-glucuronidase (GUS) is the most widely used reporter gene for studying promoter activity in transgenic plants. In this communication we report the use of activated charcoal to remove the background fluorescence frequently observed in fluorometric GUS assays. This endogenous fluorescence is usually removed by spinning the crude extract through a spin column, which is both expensive and time consuming. We have found that the same results may be obtained by mixing an aliquot of the extract with activated charcoal. This technique is reproducible, inexpensive and very rapid. The specific activity of the GUS is unchanged by this procedure and the extent of protein loss is comparable in both purification procedures.     

The effects of light intensity and spectral quality on growth and shoot initiation in tobacco callus

The effects of eight different narrow band-emitting fluorescent lamps (371-750 nm) and four commercial broad band-emitting fluorescent sources upon growth and shoot initiation in tobacco callus (Nicotiana tabacum var. Wisconsin 38) have been characterized. Wavelength and intensity are equally important parameters in determining morphogenic changes. Near ultraviolet light (371 nm) was found to stimulate (0.024 mw/cm²) or inhibit (above 0.15 mw/cm²) callus growth and shoot initiation, depending on the light intensity. Stimulation of growth and shoot production occurs also in blue light region, but at higher intensity than in the near ultraviolet. Red and far red light (up to 1.7 mw/cm²) do not appear to affect callus growth or stimulate shoot initiation. The enhancement of callus growth and the stimulation of shoot initiation are controlled by the same near ultraviolet-absorbing photoreceptor system present in a small enough concentration that it cannot be recognized in the absorption spectrum of the intact tissue. Carotenoids, porphyrins, and phytochrome associated with the high irradiance response do not appear to qualify as the photoreceptor. Flavonoids are possible candidates. Radiation emitted by fluorescent lamps outside the near visible region was determined, and we concluded that energy levels were not sufficient to affect the reported results. The spectral output of several commercial lamps in the visible and near visible regions is such that there could be different effects on growth and development of tissue cultures.     

Physiological gradients and shoot initiation in tobacco callus cultures

Support for the idea that physiological gradients of substancesinto the tissue may be the operative factors promoting organinitiation in vitro is presented. Evidence for this conceptwas obtained through measurement of the starch content and respiratoryactivity of upper and lower segments of tobacco (Nicotiana tabacumL. cv. Wisconsin 38) callus and inversion of the tissue duringculture. ¹This investigation was supported by NRC of Canada grant A-6467to T.A.T. (Received October 16, 1972; )     

Influence of benzimidazole on callus growth and shoot formation on callus cultures

The influence of benzimidazole on callus growth and shoot formationin vitro was examined. At concentrations of 8.5 x 10^–4mMto 8.5 x 10^–1mM benzimidazole failed to stimulate callusgrowth or shoot formation. Concentrations of 0.85 mM and 1.7mM inhibited kinetin-dependent callus growth while lower concentrationswere without effect. It may be inferred that benzimidazole hasno cell division properties such as is associated with the cytokinins,though it mimics, in appearance, cytokinins actions in severalphysiological processes. (Received August 12, 1975; )     

Changes in isoperoxidases during shoot formation in tobacco callus

Summary Shoot formation in tobacco (Nicotiana tabacum L.) callus is accompanied by an increase in peroxidase activity which takes a form similar to a sigmoid curve. The “stationary” phase coincide with the period of organ formation. Characteristic changes in isoperoxidase pattern are found in the shoot-forming part of the callus. These changes are different from those in the nonshoot-forming part or in gibberellin-treated tissue, which does not form shoots.     

Changes in isoperoxidases during shoot formation in tobacco callus

Shoot formation in tobacco (Nicotiana tabacum L.) callus is accompanied by an increase in peroxidase activity which takes a form similar to a sigmoid curve. The "stationary" phase coincides with the period of organ formation. Characteristic changes in isoperoxidase pattern are found in the shoot-forming part of the callus. These changes are different from those in the nonshoot-forming part or in gibberellin-treated tissue, which does not form shoots.     

Effects of gentamicin on growth of shoot initiation from cultured tobacco callus and salpiglossis leaf discs

Summary Tobacco (Nicotiana tabacum L. ‘Wisconsin 38’) callus growth was inhibited progressively by gentamicin sulfate at all concentrations tested. Gentamicin inhibited shoot initiation from tobacco callus and salpiglossis [Salpiglossis sinuata (Ruiz and Pav.) ‘Bolero’] leaf discs at concentrations above 25 mg/l. At 100 mg/l the antibiotic suppressed completely organogenesis from explants of both tobacco and salpiglossis. Journal paper 8410 of the Purdue University Agriculture Experiment Station. An erratum to this article is available at .     

The effect of barban on shoot formation in tobacco callus cultures

Shoot formation in tobacco callus was completely inhibited bythe presence of barban in the media during the first 2 daysof culture. Callus transferred to media containing barban from4th to the 12th day showed progressively less inhibition. Similarresults were obtained with GA₃. ¹Present address: Biology Department, Chung Chi College, TheChinese Univ. of Hong Kong, Shatin, N.T., Hong Kong ²Present address: Plant Hormone & Regulator Pioneering ResearchLab., U.S. Dept. Agric, Crops Res. Div., Beltsville, Md., U.S.A. (Received April 21, 1970; )     

Inorganic nitrogen requirements during shoot organogenesis in tobacco leaf discs

The role of nitrate, ammonium, and culture medium pH on shoot organogenesis in Nicotiana tabacum zz100 leaf discs was examined. The nitrogen composition of a basal liquid shoot induction medium (SIM) containing 39.4 mM and 20.6 mM was altered whilst maintaining the overall ionic balance with Na(+) and Cl(-) ions. Omission of total nitrogen and nitrate, but not ammonium, from SIM prevented the initiation and formation of shoots. When nitrate was used as the sole source of nitrogen, a high frequency of explants initiated and produced leafy shoots. However, the numbers of shoots produced were significantly fewer than the control SIM. Buffering nitrate-only media with the organic acid 2[N-morpholino]ethanesulphonic acid (MES) could not compensate for the omission of ammonium. Ammonium used as the sole source of nitrogen appeared to have a negative effect on explant growth and morphogenesis, with a significant lowering of media pH. Buffering ammonium-only media with MES stabilized pH and allowed a low frequency of explants to initiate shoot meristems. However, no further differentiation into leafy shoots was observed. The amount of available nitrogen appears to be less important than the ratio between nitrate and ammonium. Shoot formation was achieved with a wide range of ratios, but media containing 40 mM nitrate and 20 mM ammonium (70:30) produced the greatest number of shoots per explant. Results from this study indicate a synergistic effect between ammonium and nitrate on shoot organogenesis independent of culture medium pH.     

Activities of hydrolytic enzymes in callus cultures of tobacco during organogenesis

Starch, total sugars, reducing sugars and protein contents and the specific activities of hydrolytic enzymes such as amylase, Phosphorylase, soluble acid invertase, wall-bound acid invertase, sucrose synthetase, acid and alkaline phosphatases and ribonuclease were determined in root forming, shoot forming and non-organ-forming callus cultures of tobacco. Organ-forming cultures not only showed higher amounts of the above metabolites but also higher enzyme activities compared to non-organ-forming cultures. The activities of these enzymes in relation to organogenesis is discussed.     

Changes in enzyme activity and isoperoxidases in haploid tobacco callus during organogenesis

Haploid tobacco tissues cultured on Murashige and Skoog (MS) medium supplemented with 0.3 mg/l indole-3-acetic acid (IAA) and 1% sucrose remained undifferentiated. Increasing sucrose level (3%) at the same IAA concentration induced shoot differentiation in 9 days. Further increase in sucrose level (6%) resulted in root differentiation on day 12. Total specific activity of peroxidase, IAA oxidase, malate dehydrogenase (MDH) and phenylalanine ammonia-lyase (PAL) exhibited definite development variations among the three programmes. The number of the anodic and cathodic isoperoxidase bands changed in each case with time. Shoot formation was characterized by the synthesis of anodic peroxidases: AS₁ (Rm=0.41), AS₂ (Rm=0.44) and AS₃ (Rm=0.46), all three being synthesized prior to visual manifestation of shoots. Likewise, root differentiation was heralded in advance by synthesis of one anodic isoperoxidase AR (Rm=0.30). Cathodic isoperoxidases did not show any subtle correlation with shoot or root formation.     

Somatic embryogenesis,organogenesis and callus growth kinetics of flax

The effects of plant growth regulators (PGR) on calli induction, morphogenesis and somatic embryogenesis of flax were studied. The organogenic and callus formation capacity were assessed for different types of source explants. Root and shoot explants were equally good material for calli production but the former produced calli without shoot regeneration capacity. Under the experimental conditions tested, 2,4-dichlorophenoxyacetic acid (2,4-D) + zeatin was the most efficient PGR combination on calli induction and biomass production. The calli were green but with no rhizogenic capacity. In contrast, and at similar concentrations, indole-3-butyric acid (IBA) + kinetin induced white or pale green friable calli with a good root regeneration capacity (60%). A factorial experiment with different combinations of 2,4-D + zeatin + gibberellic acid (GA₃) levels revealed that the direction of explant differentiation was determined by specific PGR interactions and concentrations. The results from these experiments revealed that the morphogenetic pathway (shoot versus root differentiation) can be manipulated on flax explants by raising the 2,4-D level from 0.05 to 3.2 mg l^?1 in the induction medium. The induction and development of somatic embryos from flax explants was possible in a range of 2,4-D + zeatin concentrations surrounding 0.4 mg l^?1 2,4-D and 1.6 mg l^?1 zeatin, the most efficient growth regulator combination.     

Mineral uptake in tobacco leaf discs during different developmental stages of shoot organogenesis

Relationships between mineral uptake and tobacco shoot organogenesis were investigated during three morphogenic phases: phase 1, days 0-10, pre-meristem formation; phase 2, days 10-20, meristem initiation and formation; and phase 3, days 20-35, growth and differentiation of induced meristems into leafy shoots. The mineral content of both shoot-forming (SF) and non-shoot-forming (NSF) media was examined over the 35-day culture period. Both SF and NSF explants rapidly consumed iron during phase 1. Nitrate uptake in SF explants was high and independent of explant growth during phases 1 and 2, but greatest and strongly correlated with growth during phase 3. Phosphorus uptake was highest in SF explants during phases 2 and 3, and correlated with explant growth. Uptake of potassium, calcium and sulphur was strongly associated with explant growth during phase 3 whereas magnesium uptake was only poorly correlated with growth. Results from this study indicate that particular minerals may have an important role in regulating development as well as generally supporting growth.     

Changes in water potential and its components during shoot formation in tobacco callus

Addition of plant growth regulators (5 nM NAA and 5μM BAP) to a defined basal medium stimulated adventitious bud formation of Douglas fir (Pseudotsuga menziesii [Mirb.] Franco) cotyledon explants in culture. Cytoplasmic soluble proteins synthesized during early stages of adventitious bud formation were analyzed by electrophoresis of ³H- and ¹⁴C-leucine labeled proteins on SDS polyacrylamide gels. Increased synthesis of low molecular weight proteins (16,000 to 20,000 daltons) was detected after 2 days in culture and reached a maximal level at day 4. When cotyledon explants cultured on bud medium for 2 days were transferred to callus medium (which suppressed adventitious bud formation), suppression of the synthesis of low molecular weight proteins was also observed, suggesting that these proteins may be associated with early stages of adventitious bud formation.