Identification of 4-chloroindole-3-acetic acid and indole-3-aldehyde in seeds of Pinus sylvestris

4-Chloroindole-3-acetic acid (4-Cl-IAA) and indole-3-aldehyde (IAId) have been characterized as endogenous constituents in seeds of Pinus sylvestris L. by gas chromatography-mass spectrometry. Quantitative estimates indicate that immature seeds contained 640 pg 4-Cl-IAA (g fresh weight)^-1 while mature seeds contained 340 pg (g dry weight)^-1. 4-Cl-IAA could not be detected in seeds five days after germination. The content of IAld increased from 127 pg (g dry weight)^-1 in mature seeds to 315 pg (g dry weight)^-1 after five days of germination.     

Changes in free polyamine levels induced by salt stress in leaves of cultivated and wild tomato species

The effects of N_aCl on endogenous free levels of the poluamines putrescine, spermi dine and spermine, and the relationships between polyamines, K⁺ levels and Na⁺ accumulation were determined in leaves of the cultivated tomato ( Lycopersicon esculentum Mill.) and its wild, salt-tolerant relative L. pennellii (Correll) D' Arcy at different exposure times during a 32-day period. Both stress treatments (100 and 200 m M NaCl) decreased the levels of putrescine and spermidine, although to a different degree for the cultivated and wild tomato species. The spermine levels did not decrease with salinity in L. pennellii over the salinization period, whereas they decreased in L. esculentum , except at the first application of the 100m M NaCl treatment. In both species, the changes induced by salinity in total polyamines and K⁺ were very similar, with the accumulation of Na⁺ in the leaf being concomitant with a decrease in both total polyamines and K⁺. This suggests that the main role of the polyamines in the leaf tissues. In this sense, a direct relationship between total polyamines and K⁺, and inverse relationship between polyamines and Na⁺ and between K⁺ and Na⁺ were found for both species. In the short term (up to 4 days) a peculiar physiological behavior was found in L. pennellii , as the total polyamine and K⁺ levels decreased at 100 m M but not at 200 m M NaCl, while after this time the latter plants had values lower than those of the 100 m M NaCl-treated plants at day 11.     

Effect of changes in nitrogen nutrition on the polyamine content of Alnus glutinosa

Abstract. The principal polyamines in Alnus glutinosa roots, nodules and root pressure sap, putrescine, spermidine and spermine, were quantified by reversed-phase, high-performance liquid chromatography with fluorescence detection following precolumn derivatization with 9-fluorenylmethyl chloroformate and 1-ada-mantanamine. Putrescine was the major component of all tissues and sap. It comprised 70% or more of the polyamine pool except in roots of KNO₃-fed plants, in which similar amounts of putrescine and spermidine were present at levels five-fold lower than plants fed (NH₄)₂SO₄. Polyamine levels in nodules were 50% greater than in roots. The polyamine content of roots and nodules was not altered significantly when the nitrogen nutrition was changed from sole reliance on nitrogen fixation to partial or complete utilization of (NH₄)₂SO₄. However, the polyamine content of root pressure sap from nodulated plants increased almost four-fold when they were fed with increasing concentrations of NH₄NO₃, although the total polyamine content remained low (5mmol m⁻³ sap). The polyamine content of the Alnus root system changed with plant age. In particular, the spermidine content of both roots and nodules was higher in 10- as compared to 16-week-old plants.     

Effect of 2-chloroethylphosphonic acid on capsule formation and alkaloid content in Papaver somniferum

Application of different concentrations of ethephon (2-chloroethylphosphonic acid) to Papaver somniferum L. at the times of stem elongation, bud, and capsule formation produced different effects. Ethephon (10^-2 M ) retarded growth of the plant and inhibited capsule formation during stem elongation, significantly reduced capsule size during the flowering period, but did not alter capsule development during capsule formation. When applied during the period of stem elongation, ethephon (10^-3 M and 10^-4 M ) reduced capsule size; alkaloid accumulation was reduced by ethephon at a concentration of 10^-3 M , but slightly increased by 10^-4 M . Ethephon (10^-3 M and 10^-4 M ) did not alter capsule development or alkaloid content significantly when applied during bud formation, but stimulated capsule size and alkaloid content when applied during capsule formation. Pretreating the plants with Ag⁺ (silver nitrate) did not reverse the ethephon effect. The results suggest that capsule maturation and alkaloid accumulation in P. somniferum are modified by ethylene, which is produced as a result of exogenous ethephon treatment.     

Polyamines in normal and auxin-induced strawberry fruit development

The possible involvement of polyamines during strawberry ( Fragaria × ananassa Duch.) fruit development was investigated. Putrescine, spermidine, and spermine were identified in strawberry receptacles and achenes at all stages of development. Total (free) polyamine levels decreased from a maximum of 485 nmol g⁻¹ fresh weight at pollination to a minimum of 55 nmol g⁻¹ fresh weight in ripe receptacles. Total polyamine concentrations during corresponding stages of development were consistently higher in achenes than in receptacles, and ranged from 891 to 203 nmol g⁻¹ fresh weight. Removal of achenes from the surface of developing receptacles 10 days after pollination reduced receptacle growth, and re-initiation of growth by application of 1 m M α-naphtaleneacetic acid (α-NAA) was accompanied by a rapid increase in polyamine concentrations 24 h after treatment. Polyamine content per receptacle increased >3-fold in normally developing receptacles and in de-achened, auxin-treated receptacles 10 days after removal of achenes, but did not increase during this period in de-achened receptacles not treated with exogenous auxin. α-NAA increased growth and polyamine levels to a greater extent than the structurally related, but less effective auxin, β-NAA. Polyamine concentrations in receptacles with intact achenes remained similar to those of auxin depleted (de-achened) receptacles, implying that the concentration of these compounds may not be limiting following achene removal.     

Polyamines in normal and auxin-induced strawberry fruit development

The possible involvement of polyamines during strawberry ( Fragaria x ananassa Duch.) fruit development was investigated. Putrescine, spermidine, and spermine were identified in strawberry receptacles and achenes at all stages of development. Total (free) polyamine levels decreased from a maximum of 485 nmol g⁻¹ fresh weight at pollination to a minimum of 55 nmol g⁻¹ fresh weight in ripe receptacles. Total polyamine concentrations during corresponding stages of development were consistently higher in achenes than in receptacles, and ranged from 891 to 203 nmol g⁻¹ fresh weight. Removal of achenes from the surface of developing receptacles 10 days after pollination reduced receptacle growth, and re-initiation of growth by application of 1 m M α-naphtaleneacetic acid (α-NAA) was accompanied by a rapid increase in polyamine concentrations 24 h after treatment. Polyamine content per receptacle increased >3-fold in normally developing receptacles and in de-achened, auxin-treated receptacles 10 days after removal of achenes, but did not increase during this period in de-achened receptacles not treated with exogenous auxin. α-NAA increased growth and polyamine levels to a greater extent than the structurally related, but less effective auxin, β-NAA. Polyamine concentrations in receptacles with intact achenes remained similar to those of auxin depleted (de-achened) receptacles, implying that the concentration of these compounds may not be limiting following achene removal.     

Regulation of phosphate influx in barley roots: Effects of phosphate deprivation and reduction of influx with provision of orthophosphate

Barley plants were grown in nutrient solutions, which were maintained at either 0 (-P) or 15 μ M orthophosphate (+P). After 11 days phosphate influx into the intact roots of the -P plants began to increase by comparison with +P plants. During this period differences became apparent between the treatments in absolute growth rates, as well as in the root:shoot ratios. Phosphate influx in the -P plants continued to increase as a function of time, to a maximum value of 2.4 μmol (g fresh wt)^-1h^-1 at 16 days after germination. This rate was 6 times higher than influx values for +P plants of the same age. During the period of enhanced uptake phosphate was strongly correlated (r²= 0.77) with root organic phosphate concentration. – The enhancement of inorganic phosphate influx into intact roots of -P plants was rapidly reduced by the provision of 15 μ M orthophosphate. Typically, within 4 h of exposure to this concentration of phosphate, influx values fell from 1.80 ± 0.20 to 0.75 ± 0.03 μmol (g fresh wt)^-1 h^-1, while inorganic phosphate concentrations of the roots increased from 0.12 to 1.15 μmol (g fresh wt)^-1 during the same period. Hill plots of the influx data obtained during this period, treating root inorganic phosphate as an inhibitor of influx, gave Hill coefficients close to 2. The rapidity of the reduction of influx associated with increased root inorganic phosphate together with the Hill plot data provide evidence for an allosteric inhibition of influx by internal inorganic phosphate.     

Soybean root and nodule nitrate reductase

Nitrate reductase (NR) activity was followed in root and nodule from Glycine max (L.) Merr. (Cv. Tracy) inoculated with Rhizobium japonicum . Initially, a plus NO^3- in vivo assay was used. When chlorate-resistant mutants were used as inoculum, nodule NR activity was reduced by about 90%. indicating that the bacteroid accounts for much of the normal nodule's NR. With plants 3 to 15 weeks of age nodule NR activity (g fresh weight)^-1 was highest in young plants and root activity highest in old plants. Root and nodule total NR activity increased with plant age and were often not greatly different. Root NR activity correlated with plant NO^3- supply and increased from 0.8 to 11.4 μmol plant^-1 h^-1 as NO^3- was increased from 0 to 3 m M . In contrast, nodule NR activity was high in plants grown without NO^3- and did not appear to increase as nitrate supply to the plant was increased. Nodule activity was 6 to 14 μmol NO^2- plant^-1 h^-1. Use of a minus NO^3- in vivo assay had little affect on root NR activity, but greatly reduced nodule activity. Root tissue was found to have 5 to 38 times more NO^3- than nodule tissue. It is concluded that low nitrate levels within the nodule limit NR activity and that it is improbable that the nodule is a major site of plant nitrate reduction.     

Effect of plant growth hormones and polyamines on ornithine decarboxylase activity during the germination of barley seeds

Gibberellic acid (GA₃) and β-indolylacetic acid (IAA), two of the well known growth hormones, induce four fold the activity of ornithine decarboxylase (ODC) during the germination of barley seeds ( Hordeum vulgare L. var. Beca). The optimal concentration for induction of ODC was 10^–5 M for GA₃ and 10^–3 M for IAA. When 10^–3 M of a polyamine, putrescine or spermidine, is added to the growth medium, ODC activity is significantly inhibited. This inhibition is due to the induction of a protein inhibitor of ODC (antizyme), whose apparent molecular weight is 16 000 ± 2 000 daltons. Addition of GA₃ to cultures which have been grown for 50 or 98 h in the presence of polyamines, abolishes the observed inhibition of ODC activity, while in the reverse experiment, addition of polyamines at 50 or 98 h does not affect the ODC activity induced by GA₃. Cadaverine, a physiological plant diamine, enhances ODC activity; whereas 1,8-diaminooctane (the alkyl analogue of spermidine) does not have any effect.     

Polyamines in various rice (Oryza sativa) genotypes with respect to sodium chloride salinity

Physiological responses of various rice genotypes were studied in relation to salt (NaCl) stress. Cultivars CSR-1 and Dular germinated well in different NaCl regimes compared to cvs Rupsail, Assam Getu and M-1–48. At 100 m M NaCl, the lowest germination was observed in cv. M-1–48. Cvs CSR-1 and Dular were relatively effective in maintaining high concentrations of polyamines as well as arginine decarboxylase (EC 4.1.1.19) activity in coleoptiles and roots in a non-stressed condition. The activities of two biodegradative enzymes, diamine oxidase (EC 1.4.3.6) and polyamine oxidase (EC 1.4.3.4), were lowest in cv. CSR-1. The polyamine content was not significantly altered when seedlings of cv. CSR-1 were exposed to 100 m M NaCl. However, in cv. M-1–48 enhancement of arginine decarboxylase activity with concomitant accumulation of polyamines was observed. Leakage of metabolites and changes in the levels of Na⁺ and Cl⁻ were prominent in cv. M-1–48 under saline conditions. The results suggest a correlation between polyamine and salt stress-induced responses in rice genotypes.     

Nutrient inflows into apple roots. I. 32P-orthophosphate uptake from solution by M.9 rootstocks and Worcester Pearmain seedlings

Abstract. The rates of uptake of ³²P-labelled orthophosphate by whole root systems of young apple trees (M.9 rootslocks and Worcester Pearmain seedlings) were measured in solution culture. Using a solution depletion technique, the ³²P-phosphate uptake rates per unit length, surface area or fresh weight of roots were determined as a function of ³²P-phosphate concentration in solution at the root surface over the range 0.25–10 mmol m⁻³. The effect of P concentration within various plant parts on the relation between uptake rate and external P concentration was studied using plants differing in internal P levels.
The apparent minimutn P concentration below which P uptake ceased was of the order of 0.25–0.50 mmol m⁻³. Fluxes, inflows and unit absorption rates increased approximately proportionately with solution concentration up to 10mmolm⁻³. Except perhaps in the case of the low-P M.9 plant, there was no evidence of a diminishing returns type of relationship over the range of solution concentrations examined. The threshold P concentration in solution above which uptake rates cease to increase thus appears to be higher for apples than for other species.
At any given P concentration, fluxes, inflows and unit absorption rates were higher for M.9 than for Worcester and for low-P plants than for high-P plants. The difference between plants of different P status was more marked for M.9 and seems to be more closely related to shoot P levels than to root P.     

Interaction of triacontanol with gibberellin in control of lettuce seed germination

Triacontanol at concentrations from 2.3 × 10^-9 M to 2.3 × 10^-7 M did not affect the germination of lettuce ( Lactuca sativa L., cv. Grand Rapids) seeds in darkness, stimulated by light at 25°C or by benzyladenine at 31°C. Stimulation of seed germination by gibberellin A₃ (10^-5 M ) was significantly inhibited by triacontanol; the most effective concentration was 4.6 × 10^-8 M. Pulse experiments demonstrated that triacontanol was ineffective when applied later than gibberellin, whereas an inverse sequence of treatment caused an inhibition comparable to that resulting from continuous treatment of seeds with both factors. Possible interaction of triacontanol with gibberellin receptor is discussed.     

Sterilization of soybean cotyledons by boiling in lactic acid solution

F. RUÍZ-TERÁN AND J.D. OWENS. 1996. The effect of pH on the heat resistance of Bacillus stearothermophilus spores at 100°C in the presence of 0.11 mol 1^-1 lactic acid and 0.2 mol 1^-1 sodium phosphate buffer was examined. At pH values of 7.0 and 6.0 spores survived 60 min exposure unharmed but at pH 4.3 and 3.0 they died with decimal reduction times (DRTs) of 27 min and 2.8 min, respectively. Death rates were similar in the presence or absence of hydrated soybean cotyledons. In the presence of phosphate buffer and cotyledons at mean pH 3.6 the DRT was 118 min but in the presence, in addition, of lactic acid it was 11 min. It is suggested that the enhanced death rate was due to toxic effects of undissociated lactic acid. Rhizopus oligosporus NRRL 2710 grew well on cotyledons, having pH values from 7.0 to 3.7, prepared by boiling for 60 min in the presence of 0.11 mol 1^-1 lactic acid and 0.2 mol 1^-1 phosphate buffer.     

Endogenous levels of polyamines and abscisic acid in pepper fruits during growth and ripening

The levels of polyamines (PA) and abscisic acid (ABA) in the pericarp of California variety pepper fruit ( Capsicum annuum L.) were analyzed during development and ripening. Putrescine level was 2.75 μmol g⁻¹ fresh weight 7 days after fruit set and fell during the exponential stage of growth to 1.05 μmol g⁻¹ fresh weight. During the second growth stage. PA and ABA levels remained stable and fell sharply at the beginning of maturation. The levels of spermidine and spermine decreased throughout fruit development and maturation from 0.61 to 0.05 and 0.31 to 0.02 μmol g⁻¹ fresh weight, respectively, but no changes were associated with the onset of maturation. ABA levels remained high (0.70-0.80 μg g⁻¹ fresh weight) during the stages of fruit growth and fell at the beginning of maturation to 0.12 μg g⁻¹ fresh weight, before rising again during the last stages of maturation and senescence. The decrease in putrescine and ABA levels and the subsequent increase in the latter may be responsible for controlling the processes of ripening in pepper fruit.     

The transgene pyramiding tobacco with betaine synthesis and heterologous expression of AtNHX1 is more tolerant to salt stress than either of the tobacco lines with betaine synthesis or AtNHX1

Previous studies have shown that the overexpression of betA (encoding choline dehydrogenase from Escherichia coli ) or AtNHX1 (a vacuolar Na⁺/H⁺ antiport from Arabidopsis thaliana ) gene can improve the salt tolerance of transgenic plants. However, little is known about the effects of the transgene pyramiding of betA and AtNHX1 . Here, betA  +  AtNHX1 transgene pyramiding tobacco was produced by sexual crossing, and the salt tolerance was evaluated at the cellular and plant levels. In NaCl stress, the Na⁺ concentration in vacuoles and vacuolar membrane potential of transgene pyramiding cells were similar to those of AtNHX1 -transgenics, and much higher than those of betA -transgenics when detected using fluorescent dye staining; transgene pyramiding cells showed a higher protoplast viability and comparable mitochondrial activity as compared with single transgenics; and transgene pyramiding plants showed comparable Na⁺ content in leaves as compared with AtNHX1 -transgenics and remarkably higher than betA -transgenics; and transgene pyramiding lines exhibited higher percentage of seed germination, better seedling growth and higher fresh weight than lines that had betA or AtNHX1 alone. Based on the integrative analysis of salt tolerance, the consistency between the cellular level and the whole plant level was confirmed and the transgene pyramiding plants exhibited improved salt tolerance, but compared with the plants with betA or AtNHX1 alone, the differences were relatively small. Other mechanisms involved in salt tolerance should be considered to further enhance transgene pyramiding plants salt tolerance.     

Ecology of Peridinium willei and P. volzii (Dinophyceae) in Danish lakes

The distribution of Peridinium willei and P. volzii was studied in Danish lakes. Both species were confined to lakes with concentrations of Total P < 0.15 mg 1^-1, with the majority of occurrences at Total P concentration between 0.020–0.040 mg 1^-1 and concentrations of PO₄ P between detection limit and 0.040 mg 1^-1. The occurrence of the species in relation to inorganic N compounds (NH₄ N and NO₂+ NO₃ N) was significantly broader for P. willei than for P. volzii: P. willei had an almost even distribution within a wide range of NH₄ N, whereas P. volzii mainly occurred between 0.001 and 0.10 NH₄ N 1^-1. P. willei had an almost even distribution at values beween 0.005 and 0.42 mg NO₂+ NO₃ N 1^-1, whereas P. volzii mainly occurred below 0.050 mg NO₂+ NO₃ N 1¹. P. willei was found at pH values between 4.2 and 8.5, whereas P. volzii was confined to lakes with a slightly basic pH. The study confirmed the broad limits of P. willei and the much more narrow limits of P. volzii in relation to seasonal occurrence and pH, as well as an affinity of the former to ponds and lakes with a rich bottom vegetation. The study also showed, however, that the species were not as widespread and common in recent Danish lake phytoplankton as generally stated by previous authors. The use of different ecological factors to give weight to species separation is discussed. The inclusion of P. volzii in P. willei proposed by Popovsky & Phiester is not supported by the present study, as the two taxa appear to have different ecological tolerances.     

The effects of two synthetic putrescine analogues on germination and appressorium formation by uredospores of Uromyces viciae-fabae on artificial membranes

M. REITZ, D.R. WALTERS, B. MOERSCHBACHER AND D.J. ROBINS. 1995. An examination was made of the effects of two synthetic putrescine analogues, ( E )-1,4-diaminobut-2-ene (E-BED) and ( E )-( N, N, N, N -tetraethyl)-1,4-diaminobut-2-ene (E-TED), on germination and appressorium formation by uredospores of the rust fungus Uromyces viciaefabae on artificial membranes. E-BED reduced germination by just 11% at 0.1 mmol 1^-1and by 24% at 1 mmol 1^-1, while appressorium formation was reduced by 37% at 0.05 mmol 1^-1and was completely prevented at 1 mmol 1^-1E-BED. The E-BED derivative E-TED reduced uredospore germination by 45% at 0.05 mmol 1^-1, while no appressoria were formed when uredospores were exposed to 0.05 mmol 1^-1E-TED. These results support previous suggestions that E-BED and E-TED exert their main effect on fungal development on the leaf surface.     

2,4-Dichlorophenoxyacetic acid inhibition of potassium transport in barley seedlings

Growth, potassium uptake and translocation as well as transpiration rates were measured in intact low-salt barley seedlings ( Hordeum vulgare L. cv. Union) in the presence of different 2,4-D concentrations at pH 6.5. Growth was only affected at 10^-3 M .
Above 10^-7 M 2,4-D both uptake by the roots and transport to the shoots were inhibited. The inhibition at 10^-5 M remained constant for at least 24 h. Furthermore inhibition of uptake was measurable within 1 h. Excised roots and roots of intact plants showed the same uptake pattern.
It is suggested that the observed effects were caused by 2,4-D-induced changes in uptake and translocation systems in the roots. Pre-treatment with 10^-5 M 2,4-D had no effect upon subsequent potassium uptake. Transpiration was reduced within 1 h in 10^-4 or 10^-3 M 2,4-D, probably due to changes in water transport or root permeability.     

Effect of pH, temperature and culture medium composition on the production of an extracellular cysteine proteinase by Micrococcus sp. INIA 528

Growth and proteinase production by Micrococcus sp. INIA 528 in a batch-operated laboratory fermentor were investigated, with trypticase soy broth as the basal medium for studies on optimum temperature, pH and medium composition. Maximum growth was recorded at 34°C and pH 715, whereas optimum temperature and pH for proteinase production were 31°C and pH 6.25. Maximum rate of enzyme production occurred during the late log and early stationary phases of growth. Addition of 5.0 g 1^-1 yeast extract, 1.0 g 1^-1 glucose, 1.0 g 1^-1 MgSO₄ or 1.0 g 1^-1 K₂HPO₄ to basal medium resulted in a lower enzyme yield, but supplementation of basal medium with 2.5 g 1^-1 (NH₄)₂SO₄ increased enzyme production by 45%. A high initial biomass added to fresh broth supplemented with 2.5 g 1^-1 (NH₄)₂SO₄ only increased enzyme activity by 19%, compared to the maximum enzyme activity achieved with the standard inoculum.     

玉米幼苗冷袭敏感性的初步研究

对玉米种子萌发过程中低温冷袭(3.0℃)下幼苗电导率、硝酸还原酶活性、可溶性蛋白质含量、可溶性糖、蔗糖含量、植株浸出液中K⁺、Mg²⁺和Ca²⁺含量以及株高、干重、鲜重和残留种子干物质重量的研究结果表明,冷袭处理植株较对照植株的高度、干重和鲜重的生长率均随叶龄和天龄的增加而降低,可溶性蛋白质含量、可溶性糖含量均随叶龄和天龄的增加而呈下降趋势;而相对电导率和植株浸出液中的K⁺、Mg²⁺和Ca²⁺含量则呈上升趋势,从而说明玉米幼苗从异养向自养转变的过程中,抵御冷袭的能力是逐渐降低的,也就是说对冷袭的敏感性是逐渐增大的。从冷袭处理植株与对照植株之间各项指标的差值来看,均在15天龄或17天龄最大,说明此时期既离乳期,玉米幼苗对冷袭的敏感性最大。