Computer-assisted Video Image Analysis of Spatial Variations in Membrane-associated Ca2+ and Calmodulin during Pollen Hydration, Germination and Tip Growth in Nicotiana tabacum L.

Video images of the distributional pattern of membrane-associatedcalcium (Ca²⁺) and calmodulin (CaM) have been documented andanalysed during pollen hydration, germination and tip growthin Nicotiana tabacum. Digitization of fluorescence microscopeimages of chlorotetracycline (CTC) and fluphenazine (FPZ)-fluorescenceemissions reveal that there is a maximum concentration of membrane-associatedCa²⁺ and also CaM in the vicinity of germination apertures ofhydrated pollen. With the onset of germination relatively higheramounts of Ca²⁺ and CaM were found to regionalize towards theaperture through which the pollen tube would emerge Both shortand long growing pollen tubes manifest tip-to-base Ca²⁺ andCaM gradients which are disturbed in non-growing tubes. Tubegrowth and the Ca²⁺-gradient were significantly affected byvanadate and verapamil suggesting that both a vanadate-sensitiveCa²⁺-transport system and verapamil-sensitive Ca²⁺ channelsare involved in maintaining Ca²⁺ homeostasis during pollen germinationand tube growth. The possible interactions of Ca²⁺ and CaM withdifferent cytoskeletal proteins modulating organelle movementare also briefly discussed. Image analysis, calcium, calmodulin, Nicotiana tabacum L., pollen germination, pollen tube, tip growth, Ca²⁺-channels, Ca²⁺ transport ATPase     

Effect of Ethylene and Culture Environment on Rice Callus Proliferation

Modifications to the gaseous envelope by callus during culturein Petri dishes were shown to reduce growth and promote necrosisof several rice (Oryza sativa L.) cultivars. Incubatingcallusunder a continuous flow of gas mixtures of known compositionsuggested that the inhibition of growth was caused by the accumulationof ethylene, the depletion of oxygen and, to a lesser extent,the accumulation of carbon dioxide. In order to evaluate theimportance of ethylene accumulation aminoethoxyvinylglycine(AVG), 1-aminocyclopropane-l-carboxylic acid (ACC and silvernitrate (AgNO₃), were added to the nutrient medium and ethylenemeasurements performed during callus culture. Ethylene restrictedcallus growth particularly under high (35 °C) as comparedto moderate (25 °C) temperatures and under illuminated ascompared to darkened incubation. Under illuminated incubationat 25 °C AVG (5 mmol m^–3) and AgNO°(50 mmol m^–3)significantly improvedcallus growth (100 and 60% respectively)while ACC (200 mmol m^–3) significantly decreased growth(40%). AVG and AgNO₃ were less effective under dark incubationat 25 °C where ethylene production was lower. Furthermore,callus growth was significantly better in large as comparedto small culture vessels since the ethylene concentration wasdiluted and more oxygen was available for respiration. Bettercontrol of ethylene and increased oxygen availability couldbe a way ofproducing healthy callus for the formation of embryogenictissues of otherwise recalcitrant cultivars of rice (e.g. IndicaIR42) and may be a way of improving manipulation of other cerealspecies. Key words: 1-Aminocyclopropane-1-carboxylic acid, aminoethoxyvinylglycine, callus, ethylene, Oryza sativa, silver nitrate     

活性氧在UV-B诱导的玉米幼苗叶片乙烯产生中的作用

 研究了活性氧在UV-B(280～320 nm)诱导的玉米(Zea mays)幼苗叶片乙烯合成中的作用。结果表明,UV-B促进了玉米幼苗活性氧和乙烯的产生;乙 烯合成抑制剂氨氧乙烯基甘氨酸 (AVG)和氨氧乙酸(AOA)能明显减弱UV-B对玉米幼苗乙烯产生的诱导作用,但对活性氧(ROS)的 产生没有明显影 响;ROS的清除剂不但能抑制UV-B诱导的 ROS的产生,而且还可以抑制UV_B诱导的乙烯的产生,但这种抑制作用可以被外源O₂^.-的供体所逆转。这 说明,乙烯的积累不能作为UV-B胁迫下ROS的诱导的因素,相反,ROS的积累则导致了乙烯的积累;因此,ROS可能参与了UV-B胁迫诱导的乙烯的产生 。质膜NADPH氧化酶的抑制剂二苯碘鎓(DPI)和H₂O₂的特异性清除剂过氧化氢酶（CAT）对UV-B胁迫诱导的乙烯积累 几乎没有影响, 这说明H₂O₂ 可能与UV-B诱导的玉米幼苗叶片乙烯的产生无关, 在UV-B诱导的玉米幼苗叶片乙烯的生物合成过程中O₂^.-起着很重要的作用,相关的O₂^.-不是由 NADPH氧化酶催化产生的。     

Regulation of Stem Abscission and Callus Growth in Shoot Explants of Sweet Orange [Citrus sinensis (L.) Osbeck]

Two-node explants from Sweet Orange cv. St Ives Valencia orangeshoots produced prolific callus and formed secondary abscissionzones within internodes when cultured in vitro with abscisicacid (ABA, 5 µM) or -naphthaleneacetic acid (NAA, 5 µM).Benzyladenine (BA, 1 µm) induced callus but had littleeffect on abscission. Secondary abscission zone formation wasassociated with ABA-induced and auxin-induced ethylene formation.Treatment of explants with inhibitors of ethylene synthesis[aminoethoxyvinyl glycine (AVG), Co²⁺, PO₄^3–] preventedformation of secondary abscission zones but had variable effectson callus formation. Newly made explants contained high concentrationsof endogenous ABA (up to 6000 ng g^–1 f.wt), as measuredby GC/MS/SIM. Long-term subculture of explants (two years) inmedia containing BA (1 µm) led to a reduction in endogenousABA level (40 ng g^–1 f. wt) and to loss of capacity toform extensive callus and secondary abscission zones. Citrus sinensis (L.) Osbeck cv. St Ives Valencia, sweet orange, secondary abscission zones, in vitro, ethylene, endogenous ABA, endogenous IAA     

Compensatory Aspects of the Biosynthesis of Spermidine in Tobacco Cells in Suspension Culture

The relationship between the biosynthesis of polyamines andethylene was examined in suspension cultures of Nicotiana tabacumL. cells. Aminooxyacetic acid (AOA), an inhibitor of 1-aminocyclopropane-1-carboxylicacid synthase, inhibited the production of ethylene and raisedlevels of spermidine by increasing the availability of S-adenosylmethionine(SAM) for the synthesis of polyamines. In contrast, methylglyoxalbis (guanylhydrazone) (MGBG), an inhibitor of S-adenosylmethioninedecarboxylase (SAMDC), an enzyme involved in the biosynthesisof polyamines, caused a slight increase in the rate of biosynthesisof ethylene. However MGBG did not decrease the rate of biosynthesisof polyamines in 10-day-old senescing cells. Although MGBG inhibitedthe conversion of L-[U-^l4C]methionine into labeled spermidinevia SAM both in 4-day-and in 10-day-cultured cells, it stimulatedthe conversion of L-[U-^l4C]aspartic acid into labeled spermidinein 10-day-cultured cells. In actively dividing 4-day-culturedcells, L-[U-¹⁴C]homo-serine was also converted into polyamines.In senescing cells, which produce large amounts of ethylene,the biosynthesis of spermidine from aspartic acid coincidedwith that from methionine. In actively growing cells, whichproduce large amounts of polyamines, the biosynthesis of spermidinefrom homoserine coincided with that from methionine. These resultsindicate that homoserine and aspartic acid can be both usedas precursors in the biosynthesis of polyamines and help tomaintain appropriate titers of polyamines, when SAMDC is inhibitedand the level of decarboxylated SAM becomes limiting. (Received May 14, 1990; Accepted March 11, 1991)     

Induction of Solute Release from Nicotiana tabacum Tissue 10

For determination of the effects of polymyxin B, polymyxin E,or ethylenediamine tetra-acetic acid (EDTA) on plant cell membranes,the rates at which three solutes, K⁺, P₁, and sugar, leakedfrom treated tissue culture cell suspensions of Nicotiana tabacumwere measured. The kinetics of leakage from cells treated witheither of the polymyxins was biphasic, whereas kinetics forcells treated with EDTA was monophasic. Only K⁺ leaked frompolymyxin-treated cells during the first phase, and all threesolutes leaked during the second phase. The slower first phaseis interpreted as leakage of K⁺ from the Donnan free space andcytoplasm, and the faster second phase as the leakage of solutesfrom the vacuole. The monophasic kinetics of EDTA treatmentindicated that solutes were leaking simultaneously from cytoplasmand vacuole. Of the divalent cations tested, only Ca⁺⁺ and Mn⁺⁺counteracted the effects of polymyxin and EDTA. Ca⁺⁺ even restoredP¹ and sugar uptake. Addition of Mg⁺⁺ or Sr⁺⁺ to polymyxin-treatedcells did not stop solute leakage but actually enhanced theleakage rates. A model is presented that suggests that polymyxinor EDTA induces solute leakage by forming pores in plant cellmembranes. The effects of divalent cations on membranes oncethe pores are formed are also discussed. Key words: Polymyxin, EDTA, Nicotiana tabacum, Solute leakage     

Potassium-Ammonium Uptake Interactions in Tobacco Seedlings

Short-term (< 12 h) uptake experiments were conducted with6–7-week-old tobacco (Nicotiana tabacum L. cv. Ky 14)seedlings to determine absorption interactions between K⁺ andNH₄⁺. At equal solution concentrations (0.5 mol m^–3) netK⁺ uptake was inhibited 30–35% by NH₄⁺ and NH₄⁺ uptakewas decreased 9–24%. Removal of NH₄⁺ resulted in completerecovery in K⁺ uptake rate, but NH⁴⁺ uptake rate did not recoverwhen K⁺ was removed. In both cases, inhibition of the uptakerate of one cation saturated as the concentration of the othercation was increased up to 0.5 mol m^–3. The relative effectof K⁺-NH₄⁺ interactions was not altered when Cl- was replacedwith SO₄^2–, but the magnitudes of the uptake rates wereless in the absence of Cl-. The V_max for NH₄⁺ uptake was reducedfrom 128 to 105 µmol g^–1 dry wt. h^–1 in thepresence of 0.5 mol m^–3 K⁺ and the K_m for NH₄⁺ doubledfrom 12 to 27 mmol m^–3 in the presence of K⁺. The resultsof these K⁺-NH₄⁺ experiments are interpreted as mixed-noncompetitiveinteractions. However, an enhanced efflux of K⁺ coupled to NH₄⁺influx via an antiporter cannot be ruled out as contributingto the decrease in net K⁺ uptake. Key words: Nicotiana tabacum, K⁺, NH₄⁺, Uptake interactions     

Effects of Seed Treatments on the Emergence of Oil Seed Rape Seedlings from Compacted Soil

Imbibition of seeds of oil seed rape (Brassica napus cv Jetneuf)in 10^–3 M aminoethoxyvinylglycine (AVG) or 10^–2silver thiosulphate (Ag⁺) had no effect on germination nor onthe emergence of seedlings from uncompacted or lightly compressedsoil, but significantly reduced emergence from moderately compressedsoil of 68.4 or 143.3 N cm^–2 impedance. Exertion of force by emerging control seedlings against a staticcantilever bar fitted with strain gauges reached a maximum (F_max)of 6 g over 10 h. Higher axial forces were achieved when theseedlings were emerging from compressed soil, without any changein the time required to reach F_max, so that the build-up offorce was considerably (1.8 fold) faster than in uncompressedsoil. This adaptive response to soil impedance was modified by theseed pretreatments employed. Seedlings from AVG or Ag⁺pretreatedseeds produced lower axial forces than controls, and neitherF_max nor the rate at which force developed showed any responseto soil compression. After pretreatment in 10^–3 ethephon or 10^–4 naphthaleneacetic acid (NAA) the seedlings achieved similar F_max to controlseedlings, but responded more rapidly to soil compression sothat the rate of build up of emergence force was 2.3 fold (NAA)or 2.8 fold (ethephon) faster in compressed than in uncompressedsoil. The results suggest that the exertion of force by a seedlingagainst a barrier involves a dynamic response to impedance onthe part of the seedling. This response can be either enhancedor suppressed by substances which affect ethylene productionor ethylene action. Such compounds may have promise for modifyingseedling emergence from impeding soils. Brassica napus, oil seed rape, seedling emergence, soil compaction, ethylene, Ethrel, silver, aminoethoxyvinylglycine, naphthalene acetic acid     

Atmospheric Ozone Interacts with Stress Ethylene Formation by Plants to Cause Visible Plant Injury

Ozone toxicity was studied in peas, beans, and tobacco (BelB and Bel W3). These experiments showed that ozone toxicitywas related to the rates of ethylene biosynthesis. Sensitivityto ozone was reduced if ethylene biosynthesis was inhibitedafter treatment with aminoethoxyvinylglycine (AVG). Similarly,plants that were able to reduce or prevent stress ethylene formationwere less sensitive after both short- and long-term exposureto ozone. Plants conditioned by longer exposures to ozone havelow rates of ethylene formation and this may be why brief ozoneexposures may be more phytotoxic than prolonged fumigations. Key words: Nicotiana tabacum, Phaseolus vulgaris, Pisum sativum, lipid peroxidation, peas, Pinto beans, tobacco     

Ethylene and Ethane Production in 2,4-D Treated and Salt Treated Tobacco Tissue Cultures

Gas chromatography was used to measure ethylene (ethene) andethane production by tobacco (Nicotiana tabacum cv. Wisconsinno. 38) callus tissues grown on media containing inorganic saltsaccording to Murashige and Skoog (1962), sucrose, myo-inositol,thiamine-HCl kinetic according to Linsmaier and Skoog (1965),and either 2,4-dichiorophenoxyacetic acid (2,4-D) in the range0–100 mgl^–1 or 2 mgl^–1 indoi-3-ylacetic acidplus NaCl in the range 0–200 Meq l^–1. Ethylene productionrates were high (> 500 nl h^–1 g^1– fresh weight)initially in all treatments. Subsequently, ethylene productiondeclined in rapidly growing cultures but remained high in moderatelyand severely 2,4-D (> 0·5 mgl^–1) stressed andin severely NaCl (150 Meql^–1) stressed cultures. Highinitial rates of ethane production (> 200 nl h^–1 g^–1fresh weight) were obtained under conditions of severe stresscaused by 2,4-D or NaCl but not in control or moderately inhibitedcultures. With further incubation ethane production declinedin the severely stressed cultures. It is concluded that ethyleneproduction can be used as an index of moderate 2,4-D stressand severe NaCl stress by virtue of the high persisting ratesof ethylene production in stressed cultures. Ethane productioncan be used as an early index of severe stress caused by either2,4-D or NaCl in vitro. Nicotiana tabacum L., tobacco, ethylene, ethenen, ethane, 2,4-dichlorophenoxyacetic acid, auxin, stress, callus tissue     

Gibberellin A12 Is Converted to Gibberellin A53 in Cultured Cells of Nicotiana tabacum and Catharanthus roseus

The metabolism of GA₁₂ and its precursors was investigated incultured cells of seven cell lines of Nicotiana tabacum andthree cell lines of Catharanthus roseus using ^l4C-labeled substrates.The presence of a metabolic pathway from ent-7-hydroxykaurenoicacid to GA₅₃ via GA₁₂-aldehyde and GA₁₂ was demonstrated inthe cultured cells. GA₁₂ was effectively converted to GA₅₃ incells of BY-2, 2b-4, 2b-13 and CG from N. tabacum. By contrast,GA₅₃ was not converted to any other GAs in all of the linesof cells examined. The metabolism of C₁₉-GAs was also examinedusing ³H-labeled substrates. The conversion of GA₂₀ to GA₂₉and GA, and of GA₄ to GA₃₄ occurred more efficiently in cellsfrom C. roseus than in cells from N. tabacum. However, 13-hydroxylationof GA₄ and GA₉ was not observed in any of the cell culturesexamined. Among the various metabolites, GA₅₃, GA₂₉ and GA₃₄were identified by full-scan GC/MS. (Received December 20, 1990; Accepted May 27, 1991)     

Embryogenesis and Plantlet Formation through Direct Culture of Isolated Pollen of Nicotiana tabacum cv. Samsum and Nicotiana rustica cv. Rustica

Pollen embryos and plantlets of Nicotiana tabacum cv. Samsunand Nicotiana rustica cv. Rustica were obtained through directpollen culture without prior treatment or prior culture of anthersor buds. Isolated pollen was cultured first in a medium withoutsucrose, then transferred into Nitsch's H medium containing2% sucrose and 5 mM glutamine. The optimum medium for the initialculture was water and the optimum period of culture was ca.6 days when binucleate pollen was used. ¹ Present address: Friedrich Miescher Inst., P.O.B. 273, CH-4002Basel, Switzerland. (Received January 18, 1982; Accepted March 19, 1982)     

The Biological Properties of Cyclopenin and Cyclopenol

Cyclopenin (C₁₇H₁₄O₃N₂) and cyclopenol (C₁₇H₁₄O₄N₂), isolatedfrom an abberent strain of Penicillium cyclopium (NRRL 6233),significantly inhibited the growth of etiolated wheat (Triticumaestivum) coleoptile segments. The former inhibited at 10^–3and 10^–4 M, the latter at 10^–3 M. Cyclopenin producedmalformation of the first set of trifoliate leaves in bean (Phaseolusvulgaris) at 10^–2 M and necrosis and stunting in corn(Zea mays) at 10^–2 M. Cyclopenol induced no apparent effectsin bean or corn plants. Neither compound changed the growthor morphology of tobacco (Nicotiana tabacum) plants. Cyclopenininduced intoxication, prostration and ataxia in day-old chicksat 500 mg/kg, but they recovered within 18 hours. Cyclopenolwas inactive against chicks when dosed at levels up to 500 mg/kg. (Received October 11, 1983; Accepted December 15, 1983)     

Ca2+ Regulation of Outward Rectifying K+ Channel in the Plasma Membrane of Tobacco Cultured Cells in Suspension: a Role of the K +Channel in Mitigation of Salt-Stress Effects by External Ca2+

The patch-clamp technique was used to study effect of the Ca²⁺on K⁺ channels in the plasma membrane of protoplasts isolatedfrom tobacco (Nicotiana tabacum L., cv. Bright Yellow) culturedcells in suspension. The outward rectifying whole-cell K⁺ currentswere not affected by in-tracellular Ca²⁺, but they were reducedwith increasing extracellular Ca²⁺. Neither extracellular norintracellular Ca²⁺ affected the permeability ratios (p_K+/P_Na+)of the plasma membrane. These results suggest that the inhibitionof outward-rectifying K⁺ channels by extracellular Ca²⁺may partiallycontribute towards the mitigation of detrimental effects ofsalinity on growth by extracellular Ca²⁺. (Received January 19, 1998; Accepted July 30, 1998)     

Inhibition of Somatic Embryogenesis in Tissue 2Medicago sativa by Aminoethoxyvinylglycine, Amino-oxyacetic acid, 2, 4-Dinitrophenol and Salicylic Acid at Concentrations which do not Inhibit Ethylene Biosynthesis and Growth

Meijer, E. G. M. and Brown, D. C. W. 1988. Inhibition of somaticembryogenesis in tissue cultures of Medicago sativa by aminoethoxyvinylglycine,amino-oxyacetic acid, 2, 4-dinitrophenol and salicylic acidat concentrations which do not inhibit ethylene biosynthesisand growth. J. exp. Bot. 39: 263–270. The effects of aminoethoxyvinyglycine (AVG), amino-oxyaceticacid (AOA), 2, 4-dinitrophenol (DNP) and salicylic acid (SA)on ethylene production, tissue proliferation and somatic embryo-genesisin a recently developed rapid in vitro regeneration system ofMedicago sativa L. were examined. Contrary to numerous publications,AVG, AOA and DNP did not affect the rate of ethylene biosynthesis,while SA even caused an increase in ethylene production. Allfour compounds were, however, potent inhibitors of somatic embryoformation in the M. sativa tissue cultures, even at concentrationswhich did not affect tissue growth. Generally, a 5-d exposureto the inhibitors reduced the number and quality of somaticembryos obtained. It is suggested that the inhibitors may notreach the site of action of enzymes involved in ethylene biosynthesisand may possibly block other biosynthetic pathways which areof crucial importance to somatic embryo development. The resultsindicate that a delicate differentiation process like somaticembryogenesis is very sensitive to metabolic perturbances. Theresults are also discussed in the light of other known effectsof these four compounds on higher plants. Key words: Ethylene, Medicago sativa, somatic embryogenesis, tissue culture     

Comparative Studies of Leaf Tissue 4: III. EFFECTS OF WALL-DEGRADING ENZYMES AND OSMOTIC STRESS

Commercially available cell wall-degrading enzymes frequentlyused for protoplast isolation inhibited CO₂ fixation and photosyntheticO₂ evolution, and stimulated dark respiration by leaf tissueand isolated mesophyll protoplasts of Nicotiana tabacum L. andAntirrhinum majus L. They also depolarized the membrane potentialof cells of leaf tissue, inhibited uptake of ⁸⁶Rb by tobaccoleaf tissue and isolated mesophyll protoplasts, and stimulated³⁶CI uptake by tobacco leaf tissue. Where studied, these effectswere found to be reversible. The depolarization effect on Antirrhinumleaf cells occurred even when the enzyme preparations had beendenatured, dialysed, or desalted, and the effect was greatestin those fractions of the enzyme preparation which showed thehighest cellulase activity. Plasmolysis of tobacco leaf tissue inhibited photosyntheticO₂ evolution, CO₂ fixation, and ⁸⁶Rb uptake to levels belowthose exhibited by isolated protoplasts in media of the samecomposition and osmolarity. The implications of these resultsfor work with leaf tissue and isolated protoplasts are discussed.     

Rapid Ethylene Production in Soybean in Response to the Cupric Ion

Very rapid accumulation of free 1-aminocyclopropane-1-carboxylicacid (ACC), followed by stimulation of ethylene production wereinduced by a Cu²⁺ in soybean cuttings. The accumulation mustbe attributed to an increase in ACC synthesis, because: (1)it was completely inhibited by aminoethoxyvinylglycine (AVG);and (2) the ethylene stimulation was inhibited by AVG, indicatingthat free ACC cannot be released from its conjugated form. Theactivity of the ethylene-forming enzyme slightly decreased followingthe Cu²⁺ pulse, and this event was accompanied by a slight increasein electrolyte leakage from the treated soybean tissues. Glycine max L., soybean, ethylene, cupric ion     

Cotton metallothionein GhMT3a, a reactive oxygen species scavenger, increased tolerance against abiotic stress in transgenic tobacco and yeast

A cDNA clone encoding a 64-amino acid type 3 metallothioneinprotein, designated GhMT3a, was isolated from cotton (Gossypiumhirsutum) by cDNA library screening. Northern blot analysisindicated that mRNA accumulation of GhMT3a was up-regulatednot only by high salinity, drought, and low temperature stresses,but also by heavy metal ions, abscisic acid (ABA), ethylene,and reactive oxygen species (ROS) in cotton seedlings. Transgenictobacco (Nicotiana tabacum) plants overexpressing GhMT3a showedincreased tolerance against abiotic stresses compared with wild-typeplants. Interestingly, the induced expression of GhMT3a by salt,drought, and low-temperature stresses could be inhibited inthe presence of antioxidants. H₂O₂ levels in transgenic tobaccoplants were only half of that in wild-type (WT) plants undersuch stress conditions. According to in vitro assay, recombinantGhMT3a protein showed an ability to bind metal ions and scavengeROS. Transgenic yeast overexpressing GhMT3a also showed highertolerance against ROS stresses. Taken together, these resultsindicated that GhMT3a could function as an effective ROS scavengerand its expression could be regulated by abiotic stresses throughROS signalling. Key words: Abiotic stress, antioxidant, GhMT3a, ROS, transgenic tobacco, yeast