A fluorometric assay for cyclic guanosine 3',5'-monophosphate incorporating a Sep-Pak cartridge and enzymatic cycling.

We developed a sensitive and nonradioactive fluorometric assay for cyclic guanosine 3',5'-monophosphate (cGMP). Guanine nucleotides except cGMP were enzymatically phosphorylated to GTP. cGMP, absorbed into a Sep-Pak amino propyl cartridge, was eluted separately from GTP. Purified cGMP was enzymatically converted to GTP, which was applied to the GTP-GDP cycle using succinic thiokinase and pyruvate kinase. When pyruvic acid produced by the GTP-GDP cycle was reduced by lactate dehydrogenase, a reduced form of nicotinamide adenine dinucleotide (NADH) was equivalently oxidized to NAD(+). NAD(+) was further converted into fluorescent compound, which was excited at 370 nm and emitted fluorescence at 460 nm, by a strong alkali. When 20 nmol NADH was used for this assay, the calibration curve over 50 to 500 fmol cGMP became sufficiently linear. The detection limit for cGMP was ca. 5 fmol (signal to noise ratio >3). Using this assay, we confirmed that the cGMP content in the left atrial strip of dog was changed from 11.4 +/- 3.8 to 19.3 +/- 2.6 fmol/mg wet wt of tissue (mean +/- SE, n = 6) by electrical driving at 1 Hz. Carbachol (1 microM) further increased the cGMP to 45.6 +/- 9.2 fmol/mg wet wt of tissue. From these results, it is suggested that this novel assay for cGMP is highly sensitive and can be applied to various biological samples.     

A kinetic analysis of the effects of gibberellic Acid, zeatin, and abscisic Acid on leaf tissue senescence in rumex

Hormones which inhibit senescence in Rumex leaf tissue in the dark include gibberellic acid and the cytokinin zeatin. Abscisic acid accelerates senescence in this tissue. Other workers have proposed that cytokinins, but not gibberellins, interact with abscisic acid in senescing Rumex leaf tissue. The present study reinvestigates the question of interaction using measurements of chlorophyll degradation kinetics as parameters of senescence rate and draws the conclusion that neither zeatin nor gibberellic acid interact with abscisic acid in this system. In support of this conclusion are these results. Zeatin clearly cannot overcome the effects of abscisic acid when hormone solutions are replaced every other day. The kinetics of chlorophyll breakdown for tissue treated with unreplaced saturating zeatin solutions is different from that of tissue exposed to saturating zeatin plus abscisic acid. The observed rates of chlorophyll breakdown for tissue treated with abscisic acid and zeatin agree closely with predicted rates using a multiplicative model for independent action of the two hormones.     

A Modified Micro-Drop Bioassay Using Dwarf Rice for Detection of Femtomol Quantities of Gibberellins

The sensitivity of the micro-drop assay with dwarf rice (Oryzasativa L., cv. Tan-ginbozu and cv. Waito-Q to gibberellins (GAs)was increased conspicuously by the use of assay plants thathas been treated with uniconazole (S-3307), an inhibitor ofthe biosynthesis of GAs. The Tan-ginbozu plants treated withS-3307 responded to 10 fmol/plant of GA₃ (ca. 3.5 pg/plant)and to 30 fmol/plant of gibberellins A₁, A₄, A₇, A₁₉ and A₂₀.Waito-C plants treated with S-3307 responded to 10 fmol of GA₃and to 30 fmol/plant of gibberellins A₁, A₄ and A₇. GibberellinsA₉, A₁₉ and A₂₀ had much less of an effect on the treated Waito-Cplants than did gibberellins A₁, A₃, A₄ and A₇. Furthermore,treatment with S-3307 counteracted the inhibition of growthof both cultivars by abscisic acid. Thus, the modified micro-dropassay should prove very useful for the detection of minute amountsof GAs in plant extracts. (Received October 3, 1988; Accepted March 29, 1989)     

The role of abscisic acid in the ripening of grapes

Ripening in grapes ( Vitis vinifera L. cv. Thompson seedless) was accompanied by an increase in the levels of sucrose, glucose and fructose and a decrease in the levels of acids. The activity of glucose-6-phosphatase and fructose-l–6-bisphospbatase was lower in sweet grapes as compared to sour ones. Abscisic acid (10⁻⁶ M) stimulated the gluconeogenic process in sour grapes. The levels of some gluconeogenic enzymes were also elevated in its presence. Cyclohexitnide (0.036–1.8 mM) nullified the abscisic acid effect, suggesting that this effect involves de novo protein synthesis. The incorporation of [¹⁴C]-leucine into proteins was enhanced about 80% by abscisic acid, confirming that abscisic acid promoted protein synthesis. Again, cycloheximide blocked the hormone mediated increase in the incorporation of radioactivity into proteins. The results indicate that one of the factors for sourness in certain mature ripe grapes may be that abscisic acid is not available.     

DEVELOPMENTAL ANALYSIS OF LEAF PLASTICITY IN THE HETEROPHYLLOUS AQUATIC PLANT HIPPURIS VULGARIS

Leaf development was studied in the heterophyllous aquatic plant Hippuris vulgaris in order to characterize the developmental events that lead to the formation of aerial- vs. submerged-type leaves. Recent evidence that abscisic acid regulates leaf development in this species provided a basis for using abscisic acid as a developmental tool to accurately control leaf development. We found that leaf primordia were fully competent to develop into either aerial- or submerged-type leaves until the 10th plastochron, when they were ca. 300 μm long. Also, leaves between about the 10th and 21st plastochron formed sectored transition leaves (i.e., the basipetal portion was composed of aerial-type tissue and the apical portion was composed of submerged-type tissue, or vice versa), indicating that tissue determination as one or the other leaf type occurred on a local, as opposed to whole-leaf, level. Finally, no significant difference was observed between the apical dimensions of aerial or submerged-type shoots. These results indicate that the final determination of Hippuris vulgaris leaves occurs a) relatively late in leaf development, and b) independently of the shoot apex, and provide a basis for using this plant in further studies concerning leaf determination and pattern formation (e.g., stomates, lateral venation) in plants.     

Increase of cotton cotyledon resistance to the herbicide endothall by abscisic acid

The herbicide endothall (7-oxabicyclo 2.2.1 heptane-2, 3-dicarboxylic acid) was applied to cotton ( Gossypium hirsutum L. cv. Acala SJ-1) cotyledon discs. Treatment with 10⁻⁴ M endothall for 24 h resulted in injury which was expressed by increased leakage of electrolytes, development of necrotic areas, increased level of polyphenols and tissue browning. We examined whether treatments which decrease chilling injury would also decrease injury caused by the herbicide. Tissue from seedlings grown at 28°C was more sensitive to endothall than that from seedlings grown at 15°C. Pretreatment with 10⁻⁵ M abscisic acid greatly decreased the leakage of electrolytes, necrotic areas, and tissue browning caused by endothall. Similar pretreatment did not prevent the increase of polyphenols caused by the herbicide. The treatment with abscisic acid was more effective in protection against the herbicide injury when applied several hours prior to the herbicidal treatment. This time requirement indicates that the mechanism by which abscisic acid induces resistance to the herbicide depends, at least partially, on active metabolism. We suggest that the increased resistance to herbicide stress by abscisic acid is another example of a common resistance mechanism to various stresses in which abscisic acid is involved.     

Growth Regulators Have Rapid Effects on Photosynthate Unloading from Seed Coats of Phaseolus vulgaris L

Of nine plant growth regulators (indoleacetic acid, 1-naphthalene acetic acid, gibberellic acid, giberellin 4/7, 6-benzylaminopurine, 6-furfurylaminopurine, abscisic acid, and 1-aminocyclopropane carboxylic acid) tested, only 6-benzylaminopurine and abscisic acid affected ¹⁴C-photosynthate unloading from excised seed coats of Phaseolus vulgaris L. Unloading, in the presence of KCl, was stimulated by 25 to 40%. Stimulation occurred immediately for 6-benzylaminopurine and for abscisic acid within 10 to 12 minutes of application.     

Effects of fusicoccin and abscisic acid on glucose uptake into isolated beetroot protoplasts

Uptake of glucose, 3-O-methylglucose and sucrose into beetroot protoplasts is considerably stimulated by 10^–6M fusicoccin. This effect is decreased in the presence of 10mM Na⁺ or K⁺, 2 mM Mg²⁺ or Ca²⁺. Whereas fusicoccin causes no change in the pH-optimum of the sugar uptake (pH 5.0), the apparent K_m of this uptake which obeys a biphasic kinetics is decreased by the action of fusicoccin. In the protoplast suspension, fusicoccin induces an acidification which is suppressed by uncoupling agents. Correspondingly, uncouplers as well as vanadate and diethylstilbestrol markedly inhibit the effect of fusicoccin on sugar uptake. The present data support the view that glucose uptake into beetroot protoplasts depend on the proton-pumping activity of the plasmalemma-ATPase. cis–Abscisic acid diminishes significantly the fusicoccin-enhanced glucose uptake. By using a radioimmunoassay, the internal abscisic acid content of the protoplast was estimated to be in the range of 10^–6 M. Protoplasts isolated from bundle tissue contain twice as much abscisic acid as those derived from storage parenchyma. Because protoplasts from the bundle tissue were shown to take up sugars much faster than those from the storage cells, the observed effect of abscisic acid might reflect an involvement of this hormone in the regulation of carbohydrate partitioning in the beet.Abbreviations ABA cis–abscisic acid - bundle protoplast protoplasts isolated from the conducting tissue of beetroots - DES diethylstilbestrol - FC fusicoccin - 3-OMG 3-O-methylglucopyranose - PCMBS p–chloromercuribenzenesulfonic acid - storage protoplasts protoplasts isolated from storage parenchyma     

Somatic embryogenesis inGnetum ula Brongn. (Gnetum edule) (Willd) Blume

Summary Somatic embryos ofGnetum ula (Gnetum edule) an endangered gymnosperm closely related to the angiosperms have been induced in vitro. Megagametophyte tissue with immature embryos was cultured on Murashige and Skoog medium. A mucilaginous, translucent embryogenic callus was obtained with 5 mg/l BA. Callus induced with 2,4-D was non-embryogenic. The embryogenic callus in liquid half strength Murashige and Skoog medium without inorganic nitrates supplemented with 2.5 g/l casein hydrolysate and 0.5 g/l L-glutamine gave rise to immature embryos. The embryos matured when treated with 60 g/l sucrose and 10 mg/l abscisic acid.Abbreviations MS Murashige and Skoog - BA 6-benzylaminopurine - 2,4-D 2,4 - dichlorophenoxyacetic acid - ABA abscisic acid     

Sensitivity of Commelina stomata to abscisic acid

Stomata of Commelina leaves pre-opened by incubation in moist air were found to close within 30 min when supplied with abscisic acid (ABA) via the transpiration stream. Radioactive ABA had similar effects, but allowed the distribution of the compound within the leaf to be measured and correlated with stomatal movements to give estimates of the sensitivity of Commelina stomata. On a whole-leaf basis, less than 163 fmol ABA per mm² leaf area were present at the time of complete stomatal closure. This was close to other published estimates. By taking epidermal ¹⁴C measurements, however, it was possible to increase the accuracy of the estimate on the assumption that only ABA present in the epidermis was physiologically active. Thus, less than 235 amol ABA for stomatal complex were present at complete closure, and statistically significant narrowing of the stomatal aperture had occurred when between 12.6 and 45.4 amol per complex were present. The distribution of ABA within the epidermal tissue after transpiration-stream application was studied using microautoradiography, and the compound appeared to have accumulated within the stomatal complex.Abbreviations ABA abscisic acid - TLC thin-layer chromatography     

Regional Distribution of High-Affinity γ-[3H] Hydroxybutyrate Binding Sites as Determined by Quantitative Autoradiography

The distribution of high-affinity binding sites for gamma-[3H]hydroxybutyrate in coronal sections of rat brain was studied by quantitative autoradiographic techniques. Binding sites for this naturally occurring substance, which may possibly have a neurotransmitter role, are concentrated in some restricted areas of the brain, particularly in the limbic system. The hippocampus (especially field CA1 of Ammon's horn, at 292 fmol/mg of tissue), septum (72 fmol/mg of tissue), and cortex (frontal, 113 fmol/mg of tissue; parietal, 103 fmol/mg of tissue; cingulate, 114 fmol/mg of tissue; and entorhinal, 134 fmol/mg of tissue) show pronounced labeling with gamma-[3H]hydroxybutyrate. Binding is much lower in caudatus-putamen (50 fmol/mg of tissue), thalamus, and hypothalamus. Caudal parts of the brain (cerebellum, pons, and medulla) are practically devoid of binding sites. These results strongly support a functional role of endogenous gamma-hydroxybutyrate in particularly restricted areas of the rat brain.     

Stimulation of Growth and Nucleic Acid Biosynthesis at Low Concentration of Abscisic Acid in Tissue Culture of Spinacia oleracea

The effect of abscisic acid on growth, ultrastructure and nucleic acid biosynthesis was studied in tissue culture of spinach (Spinacia oleracea L.). Low concentration (0.01 mg l^?1) of abscisic acid increased fresh and dry weight of calluses, whereas 1.0 mg l^?1 was inhibitory. The stimulating effect was observed only in the presence of a relatively high concentration of kinetin (1 mg l^?1). The inhibitory effect was partly overcome by the same kinetin concentration. The low concentration of abscisic acid probably accelerated the induction of callus growth after subculture and stimulated cell division in the exponential phase of growth. Electron microscopy showed the presence of numerous polysomes and rough endoplasmic reticulum in callus cells grown at the stimulating abscisic acid concentration. Control cells and cells at the inhibitory concentration had slightly hyaline cytoplasm and were more vacuolated. Incubation of callus tissue with ³²P in the presence of stimulating concentration of abscisic acid showed a significant increase in the rate of biosynthesis of all nucleic acid classes after 8 h, whereas inhibitory concentration produced a decrease in ³²P incorporation. However, when the tissue was grown in the presence of abscisic acid for 20 days, both concentrations decreased the rate of nucleic acid biosynthesis, as compared to the controls.     

Presence of 3-Hydroxyanthranilic Acid in Rat Tissues and Evidence for Its Production from Anthranilic Acid in the Brain

As assessed by HPLC with electrochemical detection, 3-hydroxyanthranilic acid (3-HANA) was found to be present in the rat brain and peripheral organs. The highest concentrations were measured in the kidney (86 fmol/mg of tissue) and spleen (56 fmol/mg of tissue), whereas the adrenal gland, liver, heart, and several forebrain areas (hippocampus, striatum, parietal cortex, thalamus, amygdala/pyriform cortex, and frontal cortex) contained less 3-HANA (between 15 and 22 fmol/mg of tissue). Slightly lower concentrations of 3-HANA were found in the brainstem and the cerebellum. The metabolic disposition of 3-HANA was examined in tissue slices which were incubated in Krebs-Ringer buffer at 37 degrees C in vitro. Incubation for up to 2 h did not affect 3-HANA concentration in brain tissue. However, inhibition of 3-HANA degradation by the specific 3-hydroxyanthranilic acid oxygenase blocker 4-chloro-3-hydroxyanthranilic acid (4-Cl-3-HANA; 10 microM) resulted in a rapid (within 2.5 min) doubling of 3-HANA levels in slices from cerebral cortex. No further increases were observed after incubations of up to 120 min. Exposure of cortical slices to 3-HANA's putative bioprecursors, 3-hydroxykynurenine (3-HK) and anthranilic acid (ANA), in the absence of 4-Cl-3-HANA resulted in rapid, transient increases in 3-HANA production. Maximal 3-HANA synthesis from ANA exceeded the maximal effect of 3-HK by approximately 11-fold.2+ In the presence of 4-Cl-3-HANA, 1 mM ANA produced 9.0 +/- 0.3 and 89.0 +/- 9.3 (5 min) or 51.6 +/- 7.9 and 187.5 +/- 11.2 (120 min) fmol of newly synthesized 3-HANA/mg of brain tissue, respectively.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effect of Seizures Induced by Intra-Amygdaloid Kainic Acid on Kainic Acid Binding Sites in Rat Hippocampus and Amygdala

[3H]Kainic acid binding sites with a slow dissociation rate in the rat limbic system were investigated in detail. Extensively washed membranes prepared from the hippocampal formation and from the region comprising the amygdala and the piriform cortex yielded non-linear Scatchard plots. Microdissection showed that the high-affinity component (affinity constant around 1 nM) was present in the hippocampal CA3 region (4.2 fmol/mg wet tissue) and the amygdaloid complex (4.6 fmol/mg wet tissue), whereas the remaining part of the hippocampal formation and the piriform lobe contained the low-affinity component (affinity constant 5-20 nM; 11.6 and 11.3 fmol/mg wet tissue, respectively). In the lateral + medial septum we detected only the low-affinity component. Severe limbic seizures, induced by unilateral injection of 0.7 or 0.8 microgram kainic acid in 0.3 microliter of phosphate-buffered saline into the amygdala, reduced kainic acid binding sites in the ipsilateral amygdala and CA3 region. The decline of kainic acid binding sites in the injected amygdala was followed by a similar effect in the contralateral amygdala ("mirror focus") and later by a moderate loss also in the contralateral CA3 region. Kainic acid receptor autoradiography demonstrated that binding sites were lost from the stratum lucidum in hippocampus. Septal lesion had no effect on kainic acid binding sites in the hippocampus. Comparison with previous results on the histopathological changes after this lesion shows that high-affinity kainic acid binding sites are preferentially located on neurons that undergo selective degenerations after severe kainic acid-induced seizures.     

Agrobacterium tumefaciens mediated transformation and regeneration of muskmelon plants

Transgenic muskmelon (Cucumis melo L.) plants were produced efficiently by inoculating cotyledon explants with Agrobacterium tumefaciens strain LBA4404 bearing a Ti plasmid with the NPT II gene for kanaymcin resistance. After co-cultivation for three days, expiants were transferred to melon regeneration medium with kanamycin to select for transformed tissue. Shoot regeneration occurred within 3–5 weeks; excised shoots were rooted on medium containing kanamycin before transferring to soil. Morphologically normal plants were produced in three months. Southern blot analysis confirmed that ca. 85% of the regenerated plants contained the NPT gene. Dot blot analysis and leaf callus assay of progeny of transgenic plants verified transmission of the introduced gene(s) to the next generation. Factors affecting transformation efficiency are discussed.Abbreviations ABA abscisic acid - BAP 6-benzylaminopurine - IAA indole 3 acetic acid - 2,4-D 2,4-dichlorophenoxyacetic acid - NPT II neomycin phosphotransferase II     

Changes in abscisic acid and its β-D-glucopyranosyl ester levels during tomato (Lycopersicon esculentum Mill.) seed development

Summary The role of abscisic acid (ABA) in tomato (Lycopersicon esculentum Mill.) zygotic embryogenesis was analysed. ABA and ABA ß-D-glucopyranosyl ester (ABA-GE) changes were determined in seeds and fruit tissues — placenta and mesocarp — during seed development, which was defined with eight embryo stages: from globular (stage 1) to mature embryo (stage 8). In whole seeds, ABA changes paralleled fresh and dry weight pattern curves and could be characterized by a high increase during embryo growth followed by a decrease as the seed matured and dehydrated. Moreover this dehydration phase led, at stage 8, to a new ABA distribution within the seed, preferentially into integument and embryo. Fruit tissue analyses provided new information about the ABA origin in seeds. ABA-GE levels were also measured and the results suggested different ABA metabolism in seed and fruit tissues.Abbreviations ABA abscisic acid - ABA-GE abscisic acid ß-D-glucopyranosyl ester - ABTS 2,2 — azino — bis (3 — ethylben-zthiazoline — 6 — sulfonic acid) - BHT butylhydroxytoluene - DW dry weight - ELISA Ezyme linked immunosorbent assay - HPLC high performance liquid chromatography     

Somatic embryogenesis and plant regeneration from immature embryos of western larch

Somatic embryogenesis was initiated from immature embryos of western larch (Larix occidentalis Nutt.) on media containing 2,4-dichlorophenoxyacetic acid and N6- benzyladenine. The effects of explant type and ammonium nitrate and glutamine concentrations on initiation were tested. Although 21–93% of explants rendered cultures in various experiments, only 3% yielded sustainable embryogenic lines. Excised embryos at the early cotyledonary stage were optimal for initiation. Maturation of somatic embryos was promoted by abscisic acid. Response to abscisic acid concentrations and duration of exposure to abscisic acid varied with genotype. Maximal results were obtained with 0.025 M abscisic acid for 1 to 2 weeks followed by individual culture on medium without growth regulators. Mature somatic embryos developed into shoots with roots. Plantlets have been established in peat.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - BA N⁶-benzyladenine - IBA indole-3-butyric acid - ABA abscisic acid     

Somatic embryogenesis, plant regeneration, and cryopreservation for Torreya taxifolia, a highly endangered coniferous species

Torreya taxifolia Arn., an ancient evergreen tree, is on the brink of extinction from attack by a fungal disease, recently reported to be caused by a novel isolate of Fusarium. We report the development of a somatic embryogenesis tissue culture system that can be used for cryogenic storage of T. taxifolia cultures and subsequent plant regeneration. Initiation of embryogenic tissue from immature zygotic embryos occurred on a conifer tissue culture medium containing 0.25?% activated charcoal, 43.8?mM maltose, 0.5?mM 2,4-dichlorophenoxacetic acid, 0.2?mM 6-benzylaminopurine, 0.2?mM kinetin, 0.1???M brassinolide, 3.8???M abscisic acid, 20.5???M biotin, 1.13???M folic acid, 1.28?mM 2(n-morpholino)ethanesulfonic acid and 0.69?mM pyruvic acid. Embryo induction ranged from 60 to 100?% across six seed sources. Somatic embryo development occurred on a medium containing 43.8?mM maltose, 1?% activated charcoal, 37.8???M abscisic acid, 20.5???M biotin, 0.1???M brassinolide, 0.205?mM folic acid, 1.28?mM 2(n-morpholino)ethanesulfonic acid and 0.69?mM pyruvic acid. Germination of somatic embryos ranged from 64 to 82?%. Embryogenic tissue cultures from 30 genotypes representing seed from six mother trees were cryopreserved, and culture recovery was demonstrated after freezing. In contrast to many other coniferous tree seeds, the measured water potential (?MPa) of T. taxifolia megagametophyte tissue rose greatly during seed after-ripening. Duplication of this rise in vitro allowed development of somatic embryos to the cotyledonary stage.     

The influence of growth regulators absorbed by the root on sex expression in hemp plants

Application, through the root system, of growth regulators to hemp (Cannabis sativa L.) plants having 2–3 pairs of visible leaves caused pronounced shifts of sex expression in the adult individuals. Treatment with gibberellic acid (25 mg/l) resulted in more than 80% of the plants being male, i.e. having staminate flowers (controls, ca. 30%). Treatment with 6-benzylaminopurine and with indole-3-acetic acid (in either case, 15 mg/l) resulted in all plants being either female (pistillate flowers) or intersexes (bisexual flowers); treatment with abscisic acid (10 mg/l) had a similar but somewhat less pronounced effect.     

Stress-induced abscisic acid transients and stimulus-response-coupling

Loss of cell turgor and distortion of the plasma membrane occur as a result of dehydration and precede the stress-induced bulk increase in concentration of tissue abscisic acid. The latter has been correlated with induction of stress-related gene expression. However, several different stresses may trigger the same coupling mechanism. Thus, at least three signalling pathways have been proposed: abscisic acid-requiring, abscisic acid-responsive, and mechanosensory. In this paper, the role and contribution of stress-induced abscisic acid transients is examined in an attempt to explain apparent abscisic acid-dependent and -independent stimulus-response-coupling. Early, intermediate, and late response stages are defined within the stress-induced abscisic acid transient and at least four signalling mechanisms are identified. These include, early and late intracellular modulation of gene expression through depression and/or negative regulation, rapid membrane-initiated calcium release and ion channel activation, and late (slow) hormone-receptor induction of gene expression. An assessment of these proposed ABA signalling mechanisms in terms of AABA-dependent and -independent stimulus-response-coupling strongly suggests that rapid responses may not be a prerequisite for slow responses and that the receptor proteins involved have different steric requirements, i.e., they are tissue- and/or cell-specific.