Effects of AMO-1618 on Growth, Morphology, and Gibberellin Content of Phaseolus Cocineus Seedlings

A study was made of the effects of AMO-1618 on the endogenousgibberellin (GA) levels and stem, leaf, and root growth of Phaseoluscoccineus seedlings. The data establishes that some of the effectsof AMO-1618 on the growth of Phaseolus seedlings are mediatedby factors other than an inhibition of GA biosynthesis.     

Effects of AMO-1618 and B-995 on Growth and Endogenous Gibberellin Content of Cupressus arizonica seedlings

Soil drenches of 250, 500 or 1000 mg/l of the growth retardants AMO-1618 or B-995 effectively reduced dry matter production and stem elongation in young seedlings of Cupressus arizonica Greene. In seedlings treated with AMO-1618, the acidic, ethyl acetate-soluble gibberellin-like substances (GAs), as detected. by bioassay, were reduced to almost undetectable levels. However, the endogenous GA content in seedlings treated with B-995 were at least 11-fold greater than in control seedlings and differed as well in chromatographic characteristics, being of a more polar nature than the endogenous GAs of control seedlings. It was concluded that while AMO-1618 probably acts through interference with GA biosynthesis, B-995 may act through the interconversion of GAs.     

Effect of Growth Retardants on α-Amylase Production in Germinating Barley Seed

The effect of growth retarding compounds, (2-chloroethyl)trimethylammonium chloride (CCC), 2-isopropyl-4-dimethylamino-5-methylphenyl-1-piperidinecarboxylate methyl chloride (AMU-1618), tributyl-2,4-dichlorobenzylphosphonium chloride (Phosfon D) and N-dimethylamino succinamic acid (B-995) on α-amylase production in germinating barley seed was studied. Seeds were germinated in growth retardants in presence and absence of gibberellic acid (GA₃). CCC, AMO-1618 and Phosfon D inhibitedα-amylase production in germinating seed and the effect was reversed by GA₃ Phosfon D and AMO-1618 were stronger inhibitors of α-amylase production than CCC. CCC was by far the strongest inhibitor of all the other analogs tested. B-995 was comparatively only slightly inhibitory. The results reported here, when viewed in light of the results of other workers, provide good evidence that CCC, AMO-1618 and Phosfon D inhibit α-amylase production by inhibiting the synthesis of gibberellin or gibberellin-like hormone(s) during germination of barley seed. Consistent with other reports, B-995 possibly acts by other mechanism (s).     

Evidence for a gibberellin biosynthetic origin of ceratopteris antheridiogen

The species-specific chemical messenger, antheridiogen A_Ce, mediates the differentiation of male gametophytes in the fern Ceratopteris. In order to investigate the biochemical origin of antheridiogen, the effect of the inhibitors, 2′-isopropyl-4′-(trimethylammoniumchloride)-5′ -methylphenylpiperidine-1-carboxylate (AMO-1618), 2-chloroethyl trimethylammonium chloride (CCC), and α-cyclopropyl-α-(4-methoxyphenyl)-5-pyrimidine methyl alcohol (ancymidol) on gametophytic sex expression was determined in C. richardii. Both AMO-1618 and ancymidol blocked the production of male gametophytes in three genetically defined strains of C. richardii that exhibit different sensitivities to antheridiogen. Antheridiogen supplementation overcame inhibition by AMO-1618 and ancymidol, except in one strain (HaC18) that is insensitive to antheridiogen supplementation. These data suggest that the synthesis of Ceratopteris antheridiogen, a taxon that is insensitive to exogenously supplied gibberellins, occurs via a pathway that may include steps in common with gibberellin biosynthesis or involves similar reactions.     

Chromatin RNA polymerase activity from soybean hypocotyls treated with gibberellic acid and AMO-1618

Chromatin isolated from control, AMO-1618 [2′-isopropyl-4′-(trimethylammonium chloride)-5′-methylphenyl piperidine carboxylate] and gibberellic acid (GA) treated soybean hypocotyl tissue incorporates labeled nucleoside triphosphates into acid-insoluble RNA. Gibberellic acid, sprayed on intact soybean hypocotyls, is shown to have enhanced the level of chromatin RNA polymerase activity while chromatin isolated from hypocotyls pretreated with AMO-1618 exhibits a lower polymerase activity relative to the control. Chromatin extracted from the treated or untreated seedlings are all sensitive to the inhibition (in varying degrees) by the presence of actinomycin D, pyrophosphate, or ribonuclease. Thus enhanced (or decreased) RNA-synthesizing capacity of chromatin in response to chemical treatments may be due to enhanced (or decreased) synthesis of RNA polymerase.     

QUANTITATIVE CHANGES IN GIBBERELLIN AND RNA CORRELATED WITH SENESCENCE OF THE SHOOT APEX IN THE ‘ALASKA’ PEA

Senescence of shoot apices of Pisum sativum L. ‘Alaska’ as measured by cessation of stem elongation was delayed by removal of flowers and by treatment with gibberellin A₃ and was hastened by treatment with AMO-1618 (2 isopropyl-4-dimethylamino-5-methylphenyl-1-piperi-dinecarboxylate methyl chloride). Ontogenetic changes in relative endogenous gibberellin levels and in capability of gibberellin biosynthesis in deflowered and control plants were determined indirectly by studying time-course changes in the sensitivity, as indicated by the growth response, of these plants to applied gibberellin and AMO-1618. The results of these experiments suggest that the endogenous gibberellin level varies directly with the growth rate. Analyses of total RNA and protein in shoot tips of deflowered and control plants revealed that the levels of these substances also vary directly with growth rate throughout ontogeny. It is concluded that decreases in endogenous gibberellin, RNA and protein are factors correlated with senescence of the shoot apex.     

Hormonal regulation of cotton ovule and fiber growth: Effects of bromodeoxyuridine,AMO-1618 and p-chlorophenoxyisobutyric acid

The effects of 5-bromo-2-deoxyuridine (BUdR, thymidine analogue), AMO-1618 (2-isopropyl-4-dimethylamino-5-methylphenyl-1-piperidine carboxylate methyl chloride), a growth retardant, and p-chlorophenoxyisobutyric acid (PCIB, an antiauxin) on growth (dry weight increase) and fiber development in unfertilized cotton (Gossypium hirsutum L.) ovules grown in vitro have been studied. BUdR (5 M) causes about 70% inhibition of fiber production, with little effect on ovule growth, if applied during the first 6 d of culture in the presence of GA₃ and IAA. AMO-1618, when used with GA₃ alone, causes only a small reduction in both dry weight and fiber production, but when used with IAA alone reduces both fiber production and dry weight, the effect on the latter being predominant. In the presence of both IAA and GA₃, AMO-1618 causes a small decrease in fiber production but a major decrease in dry weight. PCIB completely inhibits fiber growth but has little effect on dry weight, especially when GA₃ is present. These results indicate that GA₃ mainly promotes ovule growth while IAA is largerly responsible for fiber growth.Abbreviations AMO-1618 2-isopropyl-4-dimethylamino-5-methylphenyl-1-piperidine carboxylate methyl chloride - BUdR 5-bromo-2-deoxyuridine - GA₃ gibberellic acid - IAA indole-3-acetic acid - PCIB p-chlorophenoxyisobutyric acid - TFU total fiber units     

Promotion by gibberellic Acid of polyamine biosynthesis in internodes of light-grown dwarf peas

When gibberellic acid (GA₃; 5-35 micrograms per milliliter) is sprayed on 9-day-old light-grown dwarf Progress pea (Pisum sativum) seedlings, it causes a marked increase in the activity of arginine decarboxylase (ADC; EC 4.1.1.9) in the fourth internodes. The titer of putrescine and spermidine, polyamines produced indirectly as a result of ADC action, also rises markedly, paralleling the effect of GA₃ on internode growth. Ammonium (5-hydroxycarvacryl) trimethyl chloride piperidine carboxylate (AMO-1618; 100-200 micrograms per milliliter) causes changes in the reverse direction for enzyme activity, polyamine content, and growth. GA₃ also reverses the red-light-induced inhibition of ADC activity in etiolated Alaska pea epicotyls; this is additional evidence for gibberellin-light interaction in the control of polyamine biosynthesis. The enzyme ornithine decarboxylase (ODC; EC 4.1.1.17), an alternate source of putrescine arising from arginine, is not increased by GA₃ or by AMO-1618.     

Interaction between the effects of phytochrome and gibberellic acid on the senescence of Alstroemeria pelegrina leaves

Chlorophyll loss in the leaves of cut flowering branches of Alstroemeria pelegrina L. cv. Stajello, placed in water in darkness at 20°, was inhibited by irradiation with red light and by the inclusion of gibberellic acid (GA₃) in the water. The effects of red light were abolished when it was followed by far-red light. Effects of GA₃ and red light were additive over a range of GA₃ concentrations (0. 01–1 μ M ). Chlorophyll breakdown was increased by the inclusion of AMO-1618, ancymidol, or tetcyclasis in the water. The effect of these inhibitors of gibberellin synthesis was fully reversed by GA₃. The inhibition of chlorophyll breakdown by red light was absent when AMO-1618, ancymidol or tetcyclasis were included in the water. The results indicate that leaf yellowing is controlled by endogenous gibberellins and that the effect of phytochrome is mediated by gibberellin synthesis.     

Gibberellin precursor is involved in spore germination in the moss Physcomitrella patens

Gibberellins are ent-kaurene derived phytohormones that are involved in seed germination, stem elongation, and flower induction in seed plants, as well as in antheridia formation and spore germination in ferns. Although ubiquitous in vascular plants, the occurrence and potential function(s) of gibberellins in bryophytes have not yet been resolved. To determine the potential role of gibberellin and/or gibberellin-like compounds in mosses, the effect of AMO-1618 on spores of Physcomitrella patens (Hedw.) B.S.G. was tested. AMO-1618, which inhibited ent-kaurene and gibberellin biosynthesis in angiosperms, also inhibited the bifunctional copalyl diphosphate synthase (E.C. 5.5.1.13)/ent-kaurene synthase (E.C. 4.2.3.19) of P. patens. AMO-1618 also caused a decrease in spore germination rates of P. patens, and this inhibitory effect was less pronounced in the presence of ent-kaurene. These results suggest that ent-kaurene biosynthesis is required by P. patens spores to germinate, implying the presence of gibberellin-like phytohormones in mosses.     

Extension growth and cold hardening of young ‘Valencia’ orange trees sprayed with AMO-1618

Rate of extension growth, as measured by height, of 2-month-old Valencia orange trees (Citrus sinensis (L.) Osbeck) on rough lemon rootstock (C. limon Burm. f.) was reduced to 0.5 mm from 5.0 mm day^–1 with 0.1% (w/v) sprays of the growth retardant AMO-1618 (4 hydroxy-5-isopropyl-2-methyl phenyl trimethyl-ammonium chloride, 1 piperdine carboxylate) every 2 weeks during 11 weeks under natural daylight in a glasshouse. Trees sprayed with AMO-1618 were 10-fold shorter, more compact in appearance, and leaves were greener and more oval shaped than those on untreated trees. There was no chemical burn. AMO-1618-sprayed trees were more cold hardy than untreated trees during controlled-temperature, cold-hardening regimes. Alone, AMO-1618 had no effect on freeze tolerance at -5.5° C. AMO-1618 also was associated with greater tree tolerance to freeze injury determined by O₂ uptake in Valencia leaves to as low as -6.7° C.This paper reports the results of research only. Mention of a trademark of a proprietary product does not constitute a guarantee or warranty of the product by the U.S. Department of Agriculture, and does not imply its approval to the exclusion of other products that may also be suitable.     

Effects of two growth retardants on tissue permeability in Pisum sativum and Beta vulgaris

The effects of growth retardants, 4-hydroxy-5-isopropyl-2-methylphenyltrimethylammonium chloride-1-piperidine carboxylate (AMO-1618 or AMO) and 2-chloroethyltrimethylammonium chloride (CCC), applied with and without gibberellic acid (GA₃), on -[³H]alanine uptake and leakage from pea (Pisum sativum L.) and betacyanin efflux from beetroot (Beta vulgaris L.) tissue were examined. Both compounds decreased the amount of -[³H]alanine taken up into pea leaf discs, and increased the quantity of radioactive label that subsequently leaked out of this tissue. Efflux of betacyanin from slices of beetroot was also found to be promoted by treatment with CCC or AMO-1618. In no case were these effects reversed by application of GA₃. It is concluded that the growth retardants may be altering tissue permeability by an interaction with the cell membranes, and this may account for some of the side effects of the retardants which cannot be explained on the basis of their inhibiting action on gibberellin synthesis.Abbreviations AMO-1618 4-hydroxy-5-isopropyl-2-methylphenyltrimethylammonium chloride-1-piperidine carboxylate - CCC 2-chloroethyltrimethylammonium chloride - GA₃ gibberellic acid     

Participation of gibberellin in the control of apical dominance in soybean and redwood

Summary Loss of apical dominance in soybeans and redwood was increased when the plants were treated with the growth retardant AMO-1618. Simultaneous application of gibberellin reduced the number of elongating buds and promoted growth of the first or second uppermost axillary bud, thus restoring apical dominance. It is concluded that gibberellin participates in the expression of apical dominance.     

The biosynthesis of cyclic carotenes

1. The incorporation of (3RS)-[2-(14)C,(4R)-4-(3)H(1)]mevalonic acid into various cyclic carotenes in the fruit of the tomato mutant delta has been studied. The results confirm our previous view that the alpha-ionone ring of alpha-carotene does not arise by isomerization of a beta-ionone residue, and show that the same is also true for the alpha-ionone ring of delta- and in-carotene and alpha-zeacarotene. 2. The incorporation of (3RS)-[2-(14)C,2-(3)H(2)]mevalonic acid into alpha- and beta-carotene in carrot roots has been studied. The results show that the beta-ionone ring of beta-carotene does not arise by isomerization of the alpha-ionone residue of alpha-carotene. 3. These experiments show that alpha- and beta-ionone rings in cyclic carotenes are formed independently, probably by elimination of different protons from the same carbonium ion intermediates.     

Ultraviolet light sensitivity of carotene-and cytochrome-c-accumulating strains of the smut fungusUstilago violacea

White, pink, orange, and yellow strains ofUstilago violacea containing high and low levels of cytochrome c and various carotenes were exposed to ultraviolet light. The survival curves for all strains were of exponential decay form, but the carotene-accumulating strains were generally more resistant to UV than those strains with no carotenes at all. The UV exposure time leading to 90% loss in viability, LD₉₀, was quantitatively related to the carotene content in the form of a power function, where LD₉₀ increased as the fifth root of the total carotene content per cell. We also determined that the ratio of total carotenes to total cytochrome c per cell was quantitatively related to the rate of viability loss during UV exposure.     

Effects of photoperiod on growth rate and endogenous gibberellins in the long-day rosette plant spinach

The earliest visible responses of spinach plants (Spinacia oleracea L., cv. Savoy Hybrid 612) transferred from short to long days (8 hours of high intensity light supplemented with 16 hours of low intensity illumination from incandescent lamps) were upright leaf orientation and increased elongation of the petioles. The effect of long days on growth rate was direct; i.e., there was no after-effect if the plants were transferred to short days. Gibberellin A₃ applied to plants under short days had an effect similar to that of long days, whereas application of the growth retardant AMO-1618 [2′-isopropyl-4′-(trimethylammonium chloride)-5′-methylphenyl piperidinel-carboxylate] under long days caused a growth habit typical of short-day conditions. Gibberellin A₃ caused more stem growth in plants under long days in which the endogenous gibberellin content had been reduced by AMO-1618 than in plants under short days not treated with the growth retardant.     

Characterization of the Amylolytic Activity of Araucana araucana (Mol.) Koch Germinating Seeds

Starch is the main reserve in Araucaria araucana (Mol.) Kochseeds. In an attempt to understand the regulation of starchmobilization during seed germination, amylase activity was characterizedand its levels were measured for the first 90 h after the startof seed imbibition. Amylase is present in both the embryo andmegagametophyte when seeds are quiescent. The enzyme activityof the embryo has two peaks during the 90 h, while amylase activityof the megagametophyte remains low and unchanged during thistime. Analysis of the products released by the enzyme and thermostabilityexperiments identify the amylase as a-amylase. Differentialcentrifugation of embryo homogenates under isoosmotic conditionsshows that the enzyme is soluble. Quantification of the endogenous gibberellins of the embryoshows a time correlation between the rise in amylase activityand the rise in specific gibberellin levels during the 40 hafter the start of imbibition. The growth retardant AMO-1618lowers enzyme activity to 37.3% of the control at this time.However, activity is almost completely restored when the gibberellinsfrom embryonic tissue are added in physiological doses to theimbibition medium containing AMO-1618. ³ Present address: Department of Biology, Washington University,St. Louis, Missouri, USA. (Received September 2, 1982; Accepted December 27, 1982)     

Gibberellins and the photoperiodic control of stem elongation in the long-day plant Agrostemma githago L.

Agrostemma githago is a long-day rosette plant in which transfer from short days (SD) to long days (LD) results in rapid stem elongation, following a lag phase of 7–8 d. Application of gibberellin A₂₀ (GA₂₀) stimulated stem elongation in plants under SD, while 2-isopropyl-4-dimethylamino-5-methylphenyl-1-piperidine-carboxylate methyl chloride (AMO-1618, an inhibitor of GA biosynthesis) inhibited stem elongation in plants exposed to LD. This inhibition of stem elongation by AMO-1618 was overcome by simultaneous application of GA₂₀, indicating that GAs play a role in the photoperiodic control of stem elongation in this species. Endogenous GA-like substances were analyzed using reverse-phase high-performance liquid chromatography and the d-5 corn (Zea mays L.) assay. Three zones with GA-like activity were detected and designated, in order of decreasing polarity, as A, B, and C. A transient, 10-fold increase in the activity of zone B occurred after 8–10 LD, coincident with the transition from lag phase to the phase of rapid stem elongation. After 16 LD the activity in this zone had returned to a level similar to that under SD, even though the plants were elongating rapidly by this time. However, when AMO-1618 was applied to plants after 11 LD, there was a rapid reduction in the rate of stem elongation, indicating that continued GA biosynthesis was necessary following the transient increase in activity of zone B, if stem elongation was to continue under LD. It was concluded that control of stem elongation in A. githago involves more than a simple qualitative or quantitative change in the levels of endogenous GAs, and that photoperiodic induction alters both the sensitivity to GAs and the rate of turnover of endogenous GAs.Abbreviations AMO-1618 2-isopropyl-4-dimethylamino-5-methylphenyl-1-piperidine-carboxylate methyl chloride - GA(s) gibberellin(s) - LD long day(s) - LDP long-day plant(s) - SD short day(s)     

Cyclic Purine Mononucleotides: Induction of Gibberellin Biosynthesis in Barley Endosperm

The de novo synthesis of α-amylase in barley endosperm and isolated aleurone layers is induced by 3′,5′-cyclic purine mononucleotides and gibberellic acid. The induction of α-amylase by cyclic purine mononucleotides is prevented by 2,4-DNP, inhibitors of RNA and protein syntheses, CCC, AMO-1618 and phosfon. The induction of α-amylase formation by 3′,5′-cyclic purine mononucleotides, but not by gibberellic acid, is also blocked by inhibitors of DNA synthesis. Extracts from cyclic AMP-treated endosperm halves exhibit a characteristic gibberellin-like activity which is detectable within 12 hours from the addition of the cyclic AMP. On paper chromatograms this gibberellin-like activity is located at the Rf typical for GA₃. Its formation is prevented by inhibitors of DNA synthesis, CCC and AMO-1618. Glucose inhibits the formation of α-amylase induced by gibberellic acid. Glucose has no effect on the cAMP-induced gibberellin biosynthesis. The evidence shows that the cyclic purine mononucleotides induce DNA synthesis, which results in gibberellin biosynthesis, which in turn activates the synthesis of α-amylase.