Gibberellin-like Substances From Vegetative Tissue of a Conifer, Arizona Cypress

Vegetative shoots of Arizona cypress (Cupressus arizonica Greene) were found to contain an estimated 40 to 70 μg of gibberellin-like activity per kg. Based on elution patterns of silicic acid and celite partition columns, mobilities on thin layer chromatograms and specificity of the cucumber, d-3 dwarf maize, dwarf pea, and barley half seed bioassays it was possible to determine that the tissue contained at least 5 acidic, ethyl acetate-soluble gibberellin-like substances. The major one would appear to be GA₃. In addition, GA₉, GA₄, and/or GA₇-like compounds, and 2 unidentified gibberellin-like substances are present.     

Gibberellins of sugarcane

In our hands a phosphate buffered celite column has given an adequate separation of GA₁ and GA₃. These 2 gibberellins are normally very difficult to separate. Young sugarcane growing under moisture stress contains at least 2 gibberellin-like substances. One is suspected to be GA₅. The other is unknown but has high activity in the barley endosperm assay and is neither GA₁ nor GA₃. Four-month-old cane contains 2 major growth promoters. From their chromatographic, fluorimetric and biological properties these are thought to be GA₁ and GA₃. Rapidly growing 6-month-old cane has a surprisingly low level of gibberellin-like substances.     

Changes in Endogenous Gibberellins and the Metabolism of [H]GA(4) after Geostimulation in Shoots of the Oat Plant (Avena sativa)

The recovery from “lodging,” or bending over, by shoots of 42-day-old Avena sativa plants is controlled primarily by a negatively geotropic differential growth of the lower halves of the p-1 node-pulvinus and the base of the p-1 internode, relative to the upper halves. Although geostimulation causes a significant reduction in p-1 internode length, dry matter accumulation in the p-1 node-pulvinus is increased, apparently at the expense of the sheath. Recovery to an angle of 30° is associated with changes in endogenous gibberellin-like substances (GAs), and in differential metabolism of applied [³H]GA₄ (1.4 Curie per millimole). Although geostimulation depressed total GAs (relative to upright plant parts) to 0.40 and 0.13 for node-pulvini and sheaths, respectively, it increased them 2-fold for internodes. Within the plant part geostimulation increased GAs (relative to upper halves) 29- and 7-fold in lower halves of node-pulvini and internodes, respectively, but reduced GAs to 0.3 in lower halves of sheaths. At age 42 days a GA_4/7-like (nonpolar) substance predominates, with lesser amounts of a GA₃-like (polar) substance. Native GAs of Avena include GA₃, GA₄, and GA₇. Geostimulation enhanced the ratio of nonpolar to polar GAs for both halves of internodes, but tended to depress it for sheaths and nodepulvini.     

LOSS OF GIBBERELLINS BY LEACHING FROM STEMS AND FOLIAGE OF CHRYSANTHEMUM MORIFOLIUM ‘PRINCESS ANNE’

Structurally complex metabolites such as carbohydrates, organic acids, and amino acids are leached from plants by rain and dew. Applied GA₃ (1 mg/ml) absorbed by a 5-cm stem segment of Chrysanthemum morifolium and translocated to a single attached leaf was leached from the leaf with distilled water. To detect endogenous gibberellins in plant leachates, Chrysanthemum morifolium ‘Princess Anne’ plants were leached under 8-hr and 18-hr photoperiods. The leachates were collected and extracted at pH 8.2 with methylene chloride to*** remove inhibitors and at pH 3.0 to remove gibberellins. The extract containing the gibberellins was fractionated on a silica gel column by an eluting phase of 0 to 100% ethyl acetate-n-hexane solutions. The presence of gibberellin-like substances was confirmed by their elution pattern from the silica gel column and by two bioassays, the lettuce hypocotyl and the Rumex bioassays. The results suggest that substances similar to GA_1–3 and GA₅ were leached from plants growing under an 18-hr photoperiod. The leachate from plants growing under an 8-hr photoperiod contained gibberellin-like substances similar to GA_1–3 and GA₆.     

Isolation and Characterization of Gibberellins in Calonyction aculeatum and Structures of Gibberellins A30, A31, A33 and A34

Four novel gibberellins GA₃₀, GA₃₁, GA₃₃, GA₃₄, five known gibberellins GA₈, GA₁₇ (free acid and its monomethyl ester), GA₁₉, GA₂₇, GA₂₉ and the gibberellin-like substances were isolated from immature seeds of evening-glory (Calonyction aculeatum). The structures of GA₃₀, GA₃₁, GA₃₃ and GA₃₄ were elucidated as IX, XVIII, XXII and XXXIV, respectively. The three gibberellin-like substances were partially characterized.     

Variations in Endogenous Gibberellins in Developing Bean Seeds II. Changes Induced in Acidic and Neutral Fractions by GA(1)

Immature (8-mm), medium mature (11-mm), and mature green (16- and 17-mm) bean seeds (Phaseolus vulgaris L. cv. Kentucky Wonder and Bountiful) were incubated in gibberellin A₁ solutions for 24 hours at 20°. Extracts from the seeds were separated into nonacidic, acidic ethyl acetate, and acidic butanol fractions. These were chromatographed. The eluates of the chromatograms were tested on Progress No. 9 dwarf peas grown under red light. The level of neutral gibberellin-like substances remained unchanged in immature seed, but they increased markedly in mature green seeds. Coincident with increased levels of the neutral substances, there were significant decreases in acidic ethyl acetate-soluble gibberellin-like substances, including applied GA₁, and in 1 acidic butanol-soluble gibberellin-like substance. Seed incubation in GA₁ brought about increased activity of substance B-II in immature and medium mature seeds. The level of butanol-soluble gibberellin-like substance B-I in seeds of any size was not affected by incubation in GA₁. Considering the marked increases in activity induced in the neutral fraction and the decreases in activity of certain eluates from the chromatograms of the acidic fractions, it was concluded that the neutral fraction may serve as a reserve form of gibberellins in the dry seed. The acidic ethyl acetate substances and substance B-II may be required for normal development of the bean seed.     

The control of flower initiation by gibberellin in Helianthus annuus L. (sunflower), a non-photoperiodic plant

The involvement of gibberellins in the control of flowering of sunflower was studied by direct application of GA₃ to the apex of the plants, analysis of the endogenous levels of gibberellin-like substances at different plant ages, and indirectly by the application of paclobutrazol, an inhibitor of gibberellin synthesis. GA₃ speeded-up flower initiation and floral apex development. The time of GA₃ application was more critical than the amount of GA₃ applied. The endogenous levels of gibberellin-like compounds increased significantly by day 15 after sowing. The application of paclobutrazol markedly delayed floral initiation and this effect was also depedent on plant age. Both GA₃ and paclobutrazol had their greatest effects between 10 and 20 days after sowing suggesting that an increase in gibberellins in that time period plays a role in floral initiation.     

Turnover of cell wall components during internode growth in <Emphasis Type="Italic">Merremia emarginata</Emphasis>

The internodes of Merremia emarginata plant showed exceptionally high stretchability throughout the development period. Therefore, it provides excellent material to study the changes undergoing during cell elongation. In this study, the influence of the hormone treatments (GA₃, PAA and NAA) on the wall component synthesis was analyzed in relation to elongation growth during internode development. A clear increasing trend of wall components was observed with increase in internode length. The non-esterified pectic substances were markedly correlated with internode length while esterified pectic substances showed correlation only in hormone treated internodes. Low molecular weight xyloglucans content showed correlation only in GA₃ and NAA treated internodes, while high molecular weight xyloglucans were significantly correlated with length of internodes treated with PAA and NAA.     

Effects of Auxin Transport Inhibitors on Gibberellins in Pea

The effects of the auxin transport inhibitors 2,3,5-triiodobenzoic acid (TIBA), 9-hydroxyfluorene-9-carboxylic acid (HFCA), and 1-N-naphthylphthalamic acid (NPA) on gibberellins (GAs) in the garden pea (Pisum sativum L.) were studied. Application of these compounds to elongating internodes of intact wild type plants reduced markedly the endogenous level of the bioactive gibberellin A₁ (GA₁) below the application site. Indole-3-acetic acid (IAA) levels were also reduced, as was internode elongation. The auxin transport inhibitors did not affect the level of endogenous GA₁ above the application site markedly, nor that of GA₁ precursors above or below it. When plants were treated with [¹³C,³H]GA₂₀, TIBA reduced dramatically the level of [¹³C,³H]GA₁ recovered below the TIBA application site. The internodes treated with auxin transport inhibitors appeared to be still in the phase where endogenous GA₁ affects elongation, as indicated by the strong response to applied GA₁ by internodes of a GA₁-deficient line at the same stage of expansion. On the basis of the present results it is suggested that caution be exercised when attributing the developmental effects of auxin transport inhibitors to changes in IAA level alone. Received April 13, 1998; accepted April 14, 1998     

Blockage by gibberellic Acid of phytochrome effects on growth, auxin responses, and flavonoid synthesis in etiolated pea internodes

Red light inhibits the growth of etiolated pea internodes, causes a shift toward higher indoleacetic acid (IAA) concentrations in the IAA dose-response curve of excised sections, and promotes the synthesis in intact internodes of kaempferol-3-triglucoside. Gibberellic acid (GA₃) prevents all 3 effects, the first effect substantially and the last 2 completely. This suggests GA₃ blockage of an early or basic event initiated by the active form of phytochrome. The red light-induced shift in the IAA dose-response curve of excised sections is consistent with a light-induced increase in the activity of an IAA destruction system, since the magnitude of the red light inhibition varied with IAA concentration. The red light and GA₃ effects on growth and on flavonoid synthesis are consistent with the view that phytochrome may control growth by regulating the synthesis of phenolic compounds which act as cofactors in an IAA-oxidase system. GA₃ reversal of the red light-induced shift in the IAA dose-response curve involves both growth promotion and inhibition by GA₃ at different IAA concentrations and this, together with the GA₃ reversal of light-induced flavonoid synthesis, supports the suggested regulatory role of phenolic compounds in growth.     

Gibberellin-like activity in pea seedlings during growth under red,blue and white light

The influence of blue, red and white light and gibberellic acid (GA₃) on gibberellin-like activity in tissue extracts of leaves, stems and roots was investigated during growth of pea seedlings (Pisum salivum L. cv. Bördi). Higher GA-like activity was found in leaves and stems of pea plants that were growing in blue light than in those under red or white light. Patterns of change of activity were different in leaves, stems and roots, and in GA₃-treated plants.     

Development of Nitrogen Assimilation Enzymes during Photoautotrophic Growth of Chenopodium rubrum Suspension Cultures

We have shown previously that ethylene, which accumulates in the air spaces of submerged stem sections of rice (Oryza sativa L. cv “Habiganj Aman II”), is involved in regulating the growth response caused by submergence. The role of gibberellins in the submergence response was studied using tetcyclacis (TCY), a new plant growth retardant, which inhibits gibberellin biosynthesis. Stem sections excised from plants that had been watered with a solution of 1 micromolar TCY for 7 to 10 days did not elongate when submerged in the same solution or when exposed to 1 microliter per liter ethylene in air. Gibberellic acid (GA₃) at 0.3 micromolar overcame the effect of TCY and restored the rapid internodal elongation in submerged and ethylene-treated sections to the levels observed in control sections that had not been treated with TCY. The effect of 0.01 to 0.2 micromolar GA₃ on internodal elongation was enhanced two- to eight-fold when 1 microliter per liter ethylene was added to the air passing through the chamber in which the sections were incubated. GA₃ and ethylene caused a similar increase in cell division and cell elongation in rice internodes. Thus, ethylene may cause internodal elongation in rice by increasing the activity of endogenous GAs. In internodes from which the leaf sheath had been peeled off, growth in response to submergence, ethylene and GA₃ was severely inhibited by light.     

Role of growth regulators in differentiation processes of maize (Zea mays L.) organs

The following paper deals with the character of endogenous auxins and gibberellinlike substances in the maize tassel and ear primordia during differentiation. Using bioassay the character of substances extracted from tassel primordia, internodes below the tassel, ear primordia and stem base was determined and correlated with the course of morphogenesis and differentiation. A low level of auxins and a high content of gibberellin-like substances accompanies the differentiation of terminal tassel. The differentiation of an ear is associated with an increment in auxin content while the level of gibberellin-like substances decreases. The character of growth substances in primordia remains practically unchanged in the course of further differentiation. The inhibitions appear in the plant and probably start numerous morphological reductions in the pistillate inflorescence structure or inhibit the growth of lateral primordia on the stemetc. The treatment of plants with maleic hydrazide at the beginning of tassel differentiation shifts the normal levels of endogenous regulators and brings about the transformation of tassel primordia into an ear. This transformation is accompanied by a marked rise in gibberellin-like substances, by an increment in auxins and the appearance of inhibitors.     

Levels of gibberellin-like substances and their possible transport in developing dwarf and normal cultivars of pea (Pisum sativum L.)

The level of gibberellin-like substances was determined in the cotyledons and axis of developing seedlings of dwarf (Little Marvel) and normal (Tall Telephone) cultivars of pea (Pisum sativum L.). The effect of cotyledon removal with GA₃ application on growth was also examined. Greater levels of gibberellin-like substances were observed in the cotyledons of the normal cultivar than the dwarf. This was particularly evident in the cotyledons during the early stages of seedling growth. Subsequently there was a decline in GA levels in the cotyledons. This was coincidental with a rise in GA content in the axis with markedly greater levels in the normal than the dwarf cultivar. Decotyledonated dwarf and normal plants supplied with GA were much taller than the decotyledonated controls. This observation along with those of the gibberellin levels in the cotyledons and axis, provided circumstantial evidence that there may be translocation of gibberellins from the cotyledons to the axis.     

Endogenous gibberellin- and cytokinin-like substances in cultured shoot tissues of apple,Malus pumila cv. Jonathan,in relation to adventitious root formation

The frequencies of adventitious root formation in vitro of isolated shoots from bud cultures of apple (Malus pumila cv. Jonathan) after 1, 7 and 31 subcultures (weeks 5, 29 and 109 after the initial culture) were 5, 78 and 95% respectively. Endogenous gibberellin-like substances (GA) were extracted, chromatographed on SiO₂ partition columns, and assayed on dwarf rice (Oryza sativa cv. Tan-ginbozu). The levels of GA in shoots from the 1st, 7th and 31st subcultures were 40, 19 and 14 ng GA₃ eq./g dry weight of tissue, respectively, a trend which suggests an inverse relationship between endogenous GA level and rooting ability. This is consistent with the fact that applied GA₃ inhibits rooting in apple and many other species. The major peak of GA activity eluted coincidentally with GA₁/GA₃/GA₁₉. Endogenous cytokinin-like substances (CK) were chromatographed on paper and assayed with soybean hypocotyl sections. In contrast to the decrease in GA activity, CK activity increased 1.5–2.7 fold in the later subcultures (cytokinin activity per shoot, however, declined).     

Gibberellins, Endogenous and Applied, in Relation to Flower Induction in the Long-Day Plant Lolium temulentum

Changes in endogenous gibberellin-like substances (GAs) and related compounds in the shoot apices of Lolium temulentum during and after flower induction by one long day was examined for plants grown in three consecutive years. The total GA level in the shoot apical tissue was high (up to 42 micrograms per gram dry weight, or 3 × 10⁻⁵ molar GA₃ equivalents), increasing several-fold on the day after the long day and then declining. Of the many GA-like substances present, the putative polyhydroxylated components—with HPLC retention times between those of GA₈ (three hydroxyls) and GA₃₂ (four hydroxyls), and accounting for about a quarter of the total GA activity—were most consistent and striking in their changes. Their level in the apices increased 3- to 5-fold on the day after the long day and then subsided. When various GAs were applied to plants in noninductive short days, flower initiation was induced by several, most notably by GA₃₂, GA₅, 2,2-dimethyl GA₄, GA₃, and GA₇. GA₃₂ was most like one long day in eliciting a strong flowering response while having little effect on stem growth, whereas GA₁ had the opposite effect. It is suggested that highly hydroxylated C-19 GAs may play a central role in the induction of flowering in this long-day plant.     

Veränderungen des Gibberellingehaltes von Salatsamen nach Belichtung

Zusammenfassung Samen der obligat lichtkeimenden Salatsorte Tenax wurden auf ihren Gibberellingehalt untersucht. Sie enthalten bei Quellung im Dunkeln nur wenig gibberellinähnliche Substanzen. Nach Belichtung mit hellrotem Licht nimmt der Gibberellingehalt innerhalb 1 Std sehr stark zu. Es wird gefolgert, daß Lichtkeimer einen zu niedrigen Gibberellingehalt besitzen, um im Dunkeln keimen zu können, und daß unter dem Einfluß des Lichtes die zur Keimungsauslösung notwendige Gibberellinmenge entsteht.

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Changes in gibberellin-like substances of lettuce seeds after light exposure

Summary The contents of gibberellin-like substances in lettuce seeds were determined. In darkness the seeds contain only small amounts of gibberellin-like substances, but upon illumination with near red light there is a sharp increase in the gibberellin content within one hour. It is concluded that lettuce seeds in darkness do not contain the amounts of gibberellin necessary for germination and that under the influence of light these amounts are provided.

     

Gibberellins in dark- and red-light-grown shoots of dwarf and tall cultivars of Pisum sativum: The quantification,metabolism and biological activity of gibberellins in Progress no. 9 and Alaska

The stem growth in darkness or in continuous red light of two pea cultivars, Alaska (Le Le, tall) and Progress No. 9 (le le, dwarf), was measured for 13 d. The lengths of the first three internodes in dark-grown seedlings of the two cultivars were similar, substantiating previous literature reports that Progress No. 9 has a tall phenotype in the dark. The biological activity of gibberellin A₂₀ (GA₂₀), which is normally inactive in le le geno-types, was compared in darkness and in red light. Alaska seedlings, regardless of growing conditions, responded to GA₂₀. Dark-grown seedlings of Progress No. 9 also responded to GA₂₀, although red-light-grown seedlings did not. Gibberellin A₁ was active in both cultivars, in both darkness and red light. The metabolism of [¹³C³H]GA₂₀ has also been studied. In dark-grown shoots of Alaska and Progress No. 9 [¹³C³H]GA₂₀ is converted to [¹³C³H]GA₁, [¹³C³H]GA₈, [¹³C]GA₂₉, its 2-epimer, and [¹³C³H]GA₂₉-catabolite. [¹³C³H] Gibberellin A₁ was a minor product which appeared to be rapidly turned over, so that in some feeds only its metabolite, [¹³C³H]GA₈, was detected. However results do indicate that the tall growth habit of Progress No. 9 in the dark, and its ability to respond to GA₂₀ in the dark may be related to its capacity to 3-hydroxylate GA₂₀ to give GA₁. In red light the overall metabolism of [¹³C³H]GA₂₀ was reduced in both cultivars. There is some evidence that 3-hydroxylation of [¹³C³H]GA₂₀ can occur in red light-grown Alaska seedlings, but no 3-hydroxylated metabolites of [¹³C³H]GA₂₀ were observed in red light-grown Progress. Thus the dwarf habit of Progress No. 9 in red light and its inability to respond to GA₂₀ may be related, as in other dwarf genotypes, to its inability to 3-hydroxylate GA₂₀ to GA₁. However identification and quantification of native GAs in both cultivars showed that red-light-grown Progress does contain native GA₁. Thus the inability of red light-grown Progress No. 9 seedlings to respond to, and to 3-hydroxylate, applied GA₂₀ may be due to an effect of red light on uptake and compartmentation of GAs.Abbreviations AMO-1618 2-isopropyl-4-(trimethylammonium chloride)-5-methylphenyl piperidine-1-carboxylate - cv. cultivar - GC-MS gas chromatography-mass spectrometry - GA_(n) gibberellin A_(n) - HPLC high-pressure liquid chromatography     

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.     

The role of growth regulators in the differentiation of walnut buds (Juglans regia L.)

The character of endogenous regulators in walnut buds was followed by means of bioassays in the course of vegetation. It was ascertained that a rise in the level of gibberellin-like substances precedes the sprouting of buds. The origination of new buds in the axil of young leaves is accompanied by a fall in the level of auxins, by a low gibberellin content and by the presence of inhibitors. In this situation the primordia of staminate catkins are diferentiated in the basal buds. The vegetative buds which are formed in the axils of further leaves, stop developing because of the accumulating inhibitors. Towards the close of vegetation the primordia of pistillate flowers originate in terminal buds and their differentiation is accompanied by a substantial rise in the level of auxin-like substances, while some of the inhibitors keep asserting themselves. On the basis of these findings we have tested the possibility of affecting the differentiation of staminate primordia and of vegetative buds by the exogenous application of selected regulators. Spraying young leaves with IAA and MH solutions will increase the number of vegetative buds in the twigs. A later spray of other twigs by TIBA and GA₃ solutions will increase the number of staminate buds.