Gibberellic acid and indole acetic acid compete in ethylene promoted abscission

Summary Gibberellic acid inhibition of betacyanin biosynthesis has been studied in Amaranthus caudatus L. using the pigment precursors L-tyrosine and L-dihydroxyphenylalanine. Precursors fed to gibberellic acid (GA) treated seedlings completely recovered betacyanin synthesis while the GA induced growth enhancement remained unaltered. Inhibition of betacyanin biosynthesis by GA is related to depletion of metabolites/amino acids and their diversion to support changed pattern of metabolism leading to growth.Abbreviations GA gibberellic acid - L-DOPA L-dihydroxyphenylalanine - Pr phytochrome red absorbing form - Pfr phytochrome, far-red absorbing form     

Regulation of Silicon Deposition in Avena Internodal Epidermis by Gibberellic Acid and Sucrose

The accumulation of silicon was studied in Avena intercalary-meristemstem-segments treated in GA₃, sucrose, GA₃+sucrose, and water. Electron-probe analysis was used for the detection of silicon.GA³ and sucrose, together and separately, appear to inhibitthe accumulation of silicon in the silica cells which are thespecific sites for silicon deposition. The results suggest thatsucrose and gibberellin may play a role in regulating the silicificationprocess in developing internodes.     

Interaction of Photoperiod, Chilling and Exogenous Gibberellic Acid on Growth of Strawberry Petioles

Gibberellic acid (GA₃) was applied to strawberry plants in varyingdoses. Lengths of successively emergent petioles increased ina manner indicating that they were responsive to exogenous GA₃during both pre- and especially postemergence phases of ontogeny.Exogenous GA₃ interacted with photoperiod and chilling, but,because the responses were complicated by competition from aberrantstem elongation, GA₃ could not be shown to replace the endogenousstimulus completely, although it may do so in part. On the otherhand, a large component of the endogenous stimulus which promotesgrowth in long daylength and after chilling was not replacedby exogenous GA₃. This is interpreted as evidence for non-gibberellinfactors in the endogenous system. It appears that the stimuli generated by long daylength andby chilling are different, but the evidence is against the suggestionthat one mediates the gibberellin system and the other the non-gibberellinone.     

Stimulation of Rooting of Citrus Embryoids by Gibberellic Acid and Adenine Sulphate

Embryoids obtained from subcultured ovular callus of the Shamoutiorange (Citrus sinensis) were grown on Murashige and Tuckernutrient medium (BM) in the presence and absence of gibberellicacid (GA₂), adenine sulphate (ADS) and combinations of these.Both GA₂ and ADS stimulated significantly the rooting of smallembryoids with unorganized tissue, and larger embryoids withpartially developed root zones. Only large embryoids with fullydeveloped root zones rooted well on BM but better on BM+GA₂+ADS.Rooting was best on media containing 1 to 5 mg per 1 ADS, andthese two combined. The optimum sucrose concentrations were5 to 6 per cent. Shoot formation on embryoids prior to rootingcompletely inhibited rooting which is otherwise enhanced byGA₂+ADS. Filter-sterilized and autoclaved GA₂, showed similaractivity in rooting.     

Stimulation of ethylene evolution and abscission in cotton by 2-chloroethanephosphonic Acid

Ethrel, a mixture of 2-chloroethanephosphonic acid and its ethyl ester, hastens abscission of leaves, debladed petioles, and flower buds of cotton plants (Gossypium hirsutum, L.). Both young and old leaves abscissed while still green. Application of Ethrel stimulated evolution of ethylene, and this response preceded abscission. Air concentrations of ethylene around enclosed, treated-plants were adequate to produce abscission in plants. Non-treated plants defoliated when enclosed with plants sprayed with Ethrel. The stimulation of abscission of explant petioles by Ethrel was reversed by naphthalene acetic acid. The stimulation of abscission by Ethrel was concluded to be mediated by ethylene.     

Effect of Sucrose and Gibberellic Acid on Floral Induction of Xanthium

Application of gibberellic acid (GA₃) before and sucrose after the inductive dark period promotes flowering in Xanthium. The promotive effects of these two compounds are independent but additive. Sucrose application either before or utter the dark period has promotive effect on the flowering response. These effects are additive. The roles of pre- and post-induction high-intensity light period and of GA₃ in the promotion of flowering have been discussed. It has been suggested that sucrose application promotes flowering by increasing translocation of the flowering stimulus and by promoting the rate of development of the terminal male inflorescence. It has also been suggested that GA₃-induced promotion of flowering is due to the increased synthesis as well as translocation of the flowering hormone.     

Movement of Kinetin and Gibberellic Acid in Leaf Petioles during Water Stress-induced Abscission in Cotton

Movement of [¹⁴C]kinetin and [¹⁴C]gibberellic acid was examined in cotton (Gossypium hirsutum L.) cotyledonary petiole sections independent of label uptake or exit from the tissue. Sections 20 millimeters in length were taken from well watered, stressed, and poststressed plants. Transport capacity was determined using a pulse-chase technique. Movement of both kinetin and gibberellic acid was found to be nonpolar with a velocity of 1 millimeter per hour or less, suggesting passive diffusion. Neither water stress nor anaerobic conditions during transport of labeled material affected the transport capacity of the petioles.     

Enhancement of [C]Sucrose Export from Source Leaves of Vicia faba by Gibberellic Acid

The effect of gibberellic acid (GA₃) on sucrose export from source leaves was studied in broad bean (Vicia faba L.) plants trimmed of all but one source and one sink leaf. GA₃ (10 micromolar) applied to the source leaf, enhanced export of [¹⁴C]sucrose (generated by ¹⁴CO₂ fixation) to the root and to the sink leaf. Enhanced export was observed with GA treatments as short as 35 minutes. When GA₃ was applied 24 hours prior to the ¹⁴CO₂ pulse, the enhancement of sucrose transport toward the root was abolished but transport toward the upper sink leaf was unchanged. The enhanced sucrose export was not due to increased photosynthetic rate or to changes in the starch/sucrose ratio within the source leaf; rather, GA₃ increased the proportion of sucrose exported. After a 10-min exposure to [¹⁴C]GA₃, radioactivity was found only in the source leaf. Following a 2 hour exposure to [¹⁴C]GA₃, radioactivity was distributed along the entire stem and was present in both the roots and sink leaf. Extraction and partitioning of GA metabolites by thin layer chromatography indicated that there was a decline in [¹⁴C]GA₃ in the lower stem and root, but not in the upper stem. This pattern of metabolism is consistent with the disappearance of the GA₃ effect in the lower stem with time after treatment. We conclude that in the short term, GA₃ enhances assimilate export from source leaves by increasing phloem loading. In the long term (24 hours), the effect of GA₃ is outside the source leaf. GA₃ accumulates in the apical region resulting in enhanced growth and thus greater sink strength. Conversely, GA₃ is rapidly metabolized in the lower stem thus attenuating any GA effect.     

Gibberellic acid by solid state fermentation: Consistent and improved yields

Five strains each of Gibberella fujikuroi and Fusarium monoliforme were screened to select G. fujikuroi P-3, a strain capable of giving consistent production of gibberellic acid (GA(3)) by solid state fermentation (SSF). The comparative production of GA(3) by SSF and submerged fermentation (SmF) indicated better productivity with the former technique. The accumulation of GA(3) was 1.626 times higher in the case of SSF. On the basis of available carbohydrates in the media, the percent conversions were 0.096 and 0.156 in SmF and SSF, respectively. The use of coarse wheat bran of the particle size of 0.3-0.4 cm resulted in an increase of 2.5 times in the yield of GA(3). The enrichment of commercial wheat bran with soluble starch gave enhanced accumulation to an extent of 3.5 times. The relation between GA(3) production and cell growth in SSF was similar to that encountered in SmF. The consistent and improved yields to a tune of 1.22 g GA(3) per kilogram dry moldy bran (DMB) establish the potential and feasibility of SSF for the production of GA(3) by G. fujikuroi P-3. On preliminary cost analysis, a net savings of about 60% and 50% on fermentation medium cost and the expenditure on down-stream processing, respectively, as compared to the presently employed SmF technique was evident.     

Sucrose Loading in Isolated Veins of Pisum sativum: Regulation by Abscisic Acid, Gibberellic Acid, and Cell Turgor

Enzymatically isolated vein networks from mature pea (Pisum sativum L. cv Alaska) leaves were employed to investigate the properties of sucrose loading and the effect of phytohormones and cell turgor on this process. The sucrose uptake showed two components: a saturable and a first-order kinetics system. The high affinity system (K_m, 3.3 millimolar) was located at the plasmalemma (p-chloromercuriphenylsulfonic acid and orthovanadate sensitivity). Further characterization of this system, including pH dependence and effects of energy metabolism inhibitors, supported the H⁺-sugar symport concept for sucrose loading. Within a physiological range (0.1-100 micromolar) and after 90 min, abscisic acid (ABA) inhibited and gibberellic acid (GA₃) promoted 1 millimolar sucrose uptake. These responses were partially (ABA) or totally (GA₃) turgor-dependent. In experiments of combined hormonal treatments, ABA counteracted the GA₃ positive effects on sucrose uptake. The abolishment of these responses by p-chloromercuriphenylsulfonic acid and experiments on proton flux suggest that both factors (cell turgor and hormones) are modulating the H⁺ ATPase plasmalemma activity. The results are discussed in terms of their physiological relevance.     

Gibberellic acid and the light inhibition of stem elongation

Summary The ability of gibberellic acid (GA₃) to prevent the light inhibition of stem elongation in peas was examined for several varieties under a wide range of irradiation conditions.A saturating dose of GA₃ largely prevented the inhibitory effect of red light on total stem height in Duke of Albany (tall), Alaska (medium) and Meteor (dwarf) although a small, but statistically significant, effect persisted in all varieties after 3 days of light. The growth of the second internode was, however, markedly inhibited by red light even with a saturating dose of GA₃. With gibberellin there was no difference between the effects of continuous red light and 15 minutes per day on height but the second internode was much shorter in the former treatment. The number of internodes present was the same in both cases and, therefore, the upper internodes in continuous light were as long or longer than in the 15-minute treatment. The number of internodes was only slightly fewer in darkness than in light so that, with GA₃, the effect of red light was transient and only the growth of the lower internodes was inhibited. Without GA₃ overall height was less in both red light treatments than in darkness for all three varieties.In blue light, on the other hand, there was no difference depending on whether height or internode length is considered, and even with a saturating dose of GA₃ the growth rate remained depressed in continuous blue light. There was, however, some interaction between blue light and GA₃.Red/far-red reversal experiments showed that in the varieties Alska and Duke of Albany the far-red stimulation of elongation persisted in the presence of a saturating dose of GA₃ while for the dwarf variety Meteor there was a significant interaction between far-red and GA₃.At least a quantitative difference was found between tall and dwarf peas in their response to light. Tall varieties showed a much greater effect of a prolonged exposure to blue and a smaller effect of a short exposure to red than dwarf varieties. Increasing the duration of exposure to red increasingly inhibited the growth of tall varieties. The medium variety Alaska grew to approximately the same height in continuous red and blue light.     

Stimulation of Endomitotic DNA Synthesis and Cell Elongation by Gibberellic Acid in Epicotyls Grown from Gamma-irradiated Pea Seeds

Large doses of γ-irradiation, given to air-dried pea seeds, inhibit the endomitotic DNA synthesis in pea epicotyls during germination in darkness. The cortex cells of the etiolated epicotyls reach only the 4 C DNA level, whereas cortex cells of unirradiated seeds reach the 8 C DNA level. Epicotyl elongation and cell elongation are also reduced.     

Stimulation of nucleic acid biosynthesis by phosphopentoses

Phosphopentose stimulation of nucleic acids biosynthesis for 3h after subcutaneous phosphopentose administration in doses of 18 and 27 mg per rat has been stated. Injections of phosphopentoses (ribose-5-phosphate, xylulose-6-phosphate, ribulose-5-phosphate in the ratio of 1.0:0.3:0.3) were followed by a two-fold increase in the rate of [2-14C] orothic acid incorporation into cytoplasmic RNA of the rat liver. It is supposed that rapidly exchanging types of RNA contribute most of all to the effect of the label incorporation increase and the stimulation mechanism is associated with a rise of phosphoribosyl pyrophosphate accessibility as a substrate and an allosteric regulator of key enzymes of the synthesis of purine and pyrimidine nucleotides.     

Gibberellic acid and the fine structure of barley aleurone cells

Summary Ultrastructural changes in barley aleurone, cells treated with gibberellic acid (GA₃) for 24–36 hr are described. Many large vacuoles are seen in the ground cytoplasm; the coalasce to form one large central vacuole. Evidence is presented indicating that the vacuoles are formed from the aleurone grains. The dictyosomes of aleurone cells treated with GA₃ for 24 hr or longer proliferate many vesicles. This proliferation of dictyosome vesicles is associated with the phase of rapid ribonuclease release from the aleurone cell. Estimates indicate that microbodies are considerably reduced in number with GA₃ treatment from 24–36, hr while the number of mitochondria is not substantially affected relative to controls. P-Protein-like material is seen in the cytoplasm of these cells often in close proximity to endoplasmic reticulum and spiny vesicles.Supported by National Science Foundation Grant No. GB8332.     

Gibberellic acid and the fine structure of barley aleurone cells

Summary This paper describes changes in the fine structure of barley aleurone cells following treatment with gibberellic acid (GA₃). Within 2 hr of GA₃ treatment the aleurone grains lose the spherical appearance characteristic of aleurone cells incubated in water and buffer alone. This swelling increases with increased exposure of the cells to GA₃ and reaches a maximum at about 10 hr. Accompanying this increase in volume of the aleurone grains is an increase in the amount of rough endoplasmic reticulum. The relevance of these GA₃-stimulated changes in aleurone-cell fine-structure to GA₃-regulated -amylase production is discussed.Work supported by National Science Foundation grants GB-5863 and GB-8332. The skillful technical assistance of Mrs. Janet Price is gratefully acknowledged.