The petunia homologue of tomato gast1: transcript accumulation coincides with gibberellin-induced corolla cell elongation

Gibberellins (GAs) regulate petunia corolla pigmentation and elongation. To study this hormone's effect at the molecular level, we used the tomato gast1 gene as a probe to isolate a gibberellin-induced gene (gip) from petunia corollas. The deduced sequence of gip exhibited 82% identity with GAST1 protein and contained a short, highly hydrophobic N-terminal region. High levels of gip expression were detected in elongating corollas and young stem internodes. When detached corollas were grown in vitro in sucrose medium, gip expression was strongly induced by gibberellic acid (GA₃). GA₃-induced gip expression in corollas was inhibited by abscisic acid (ABA). The expression of the gene was also induced by GA₃ in detached young stem segments. Sucrose was not essential for GA-induced gip expression in corollas but enhanced its effect. In stems, on the other hand, sucrose inhibited the effect of the hormone. The results of the present work support the possible role of gip in GA-induced corolla and stem elongation.     

Stamens and Gibberellic Acid in the Regulation of Flavonoid Gene Expression in the Corolla of Petunia hybrida

Stamen removal at an early stage of flower development inhibits anthocyanin synthesis and chalcone flavanon isomerase (CHI) enzyme activity in corollas of Petunia hybrida. The inhibition can be overcome by gibberellic acid (GA₃) application. Gibberellin also induces anthocyanin synthesis in detached, young green corollas, grown in vitro in a sucrose medium and promotes CHI enzyme activity. Western blot analysis indicates an increase in chalcone synthase (CHS) and CHI protein levels following GA₃ treatment in both the in vivo and the in vitro systems. Northern blot analysis shows a higher level of steady-state mRNAs for CHS and CHI 24 hours after GA₃ application. In corollas from a transgenic plant containing a β-glucuronidase gene driven by a CHI promoter, a sixfold increase of β-glucuronidase activity was measured following GA₃ application. The mode of action of stamens and GA₃ control over flavonoid gene expression is discussed.     

Sugar-Dependent Gibberellin-Induced Chalcone Synthase Gene Expression in Petunia Corollas

The induction of anthocyanin synthesis and anthocyanin biosynthetic gene expression in detached petunia (Petunia hybrida) corollas by gibberellic acid (GA3) requires sucrose. Neither sucrose nor GA3 alone can induce these processes. We found that GA3 enhances sucrose uptake by 20 to 30%, and we tested whether this is the mechanism by which the hormone induces gene expression. Changing the intracellular level of sucrose with the inhibitors p-chloromercuribenzenesulfonic acid and vanadate did not inhibit the induction of chalcone synthase gene (chs) expression by GA3. Growing detached corollas in various sucrose concentrations did not affect the induction of the gene but did affect its level of expression and the level of anthocyanin accumulated. Only metabolic sugars promoted GA3-induced anthocyanin accumulation. Mannitol and sorbitol had no effect and 3-O-methylglucose only slightly promoted chs expression and anthocyanin accumulation. Our results do not support the suggestion that sugars act as specific signals in the activation of anthocyanin biosynthetic gene expression during petunia corolla development. We suggest that sugars are essential as general sources of carbohydrates for carbon metabolism, upon which the induction of pigmentation is dependent.     

INTERACTING ROLES OF GIBBERELLIN AND ETHYLENE IN COROLLA EXPANSION OF IPOMOEA NIL (CONVOLVULACEAE)

The relatively rapid and extensive corolla expansion in Ipomoea nil (L.) Roth cv. ‘Scarlett O'Hara’ appears to be initiated by a shift in the balance between a growth promoter (gibberellin, GA) and a growth inhibitor (ethylene) two days before anthesis. The effects of applied growth regulators in vitro, were measured as a change in area of segments from whole young corollas 16–17 mm long. Applied gibberellic acid (GA₃) strongly promoted growth, while a GA action inhibitor (ancymidol) reduced growth. Inhibitors of GA biosynthesis (AMO-1618, paclobutrazol, tetcyclasis, and chlorocholine chloride) had little effect, implying that the GAs were not being synthesized within the corolla segments, at least at this stage of corolla growth. Both the level of endogenous GAs and response of the segments to sucrose increased as the corolla size also increased from 15 to 20 mm in length. Applied 1-aminocyclopropane-l-carboxylic acid (ACC), an ethylene precursor, inhibited the response of corollas to applied GA₃. Applications of ethylene biosynthesis inhibitors (AVG and cobalt ions) promoted growth of the corolla segments. Rapid ethylene production by corollas 15–17 mm long (48 hr before flower opening) appeared to inhibit the growth that may have been induced by low levels of endogenous GAs. Older corollas (longer than 18 mm) had very low levels of ethylene production and much higher levels of GA-like substances; these changes apparently allow the corollas to begin to expand in vivo and to strongly respond to sucrose applications alone in vitro. Acid-induced growth does not seem to be an important component of corolla expansion; applied fusicoccin (a proton efflux promoter) and sodium orthovanadate (a proton efflux inhibitor) had no significant effect on growth of the 16–17 mm long corollas. Buffers (Good's and phosphate) over a wide pH range had no effect on corolla expansion. Taken together, our results indicate that the regulation of corolla expansion depends (at least in part) on compensatory shifts in the levels of two plant growth regulators [PGRs], ethylene and GA.     

Changes in responsiveness to ethylene and gibberellin during corolla expansion ofIpomoea nil

Corolla expansion inIpomoea nil appears to be triggered by changes in gibberellin concentration and ethylene production during development. We investigated the role of responsiveness to GA and ethylene in corolla expansion. The effects of growth regulators applied in vitro were measured as a change in area of corolla segments from younger (15–17 mm) and older (18–20 mm) whole corollas. Applied gibberellic acid (GA₃) significantly (p < 0.05) promoted growth in the younger segments but was less effective in the older segments. Moreover, applications of the GA biosynthesis inhibitors, PP333 (paclobutrazol) AMO₁₆₁₈ (2-isopropyl-4-dimethylamino-5-methylphenyl-1-piperidinecarboxylate methyl chloride), chlorocholine chloride, and tetcyclasis had little effect on younger segments but inhibited growth of older segments. The older corollas have apparently synthesized and accumulated enough GA-like substances to become less responsive to additional applied GA₃. The amount of growth induced by applied or endogenous GA depended on the amount of ethylene simultaneously produced in the tissue. The younger corollas rapidly produced ethylene from endogenous 1-aminocyclopropane-1-carboxylic acid (ACC) and did not respond to applied ACC whereas the older corollas naturally produced much less ethylene and were significantly (p < 0.05) inhibited by applied ACC. When ethylene production was inhibited by applying aminoethoxyvinylglycine (AVG), growth was promoted in all segments. However, only the growth of the younger segments was further stimulated by simultaneously applied AVG and GA₃ over the GA₃ control. Thus the differential responses of segments from 15- to 20-mm long corollas to applied growth regulators reflect developmental changes in responsiveness of the developing corolla. The change in responsiveness is attributed in part to the changes in production of endogenous growth regulators and to the effect of one endogenous plant growth regulator (PGR) on the responsiveness of the corolla to another PGR.     

Leaf-Mediated Light Responses in Petunia Flowers

In the present work we studied the role of light in the regulation of flavonoid gene expression and anthocyanin synthesis in petunia (Petunia hybrida) corollas. We found that light is required for chalcone synthase gene (chs) expression, anthocyanin synthesis, and growth of detached and attached petunia corollas. Although direct illumination induced chs expression, pigmentation, and elongation of the detached corollas, irradiation of green leaves or sepals played the main role in the attached corollas. The duration, intensity, and spectrum of the light reaction suggest that phytochrome-mediated high-irradiance reactions are involved in the regulation of corolla development. Using the photosynthesis inhibitor 3-(3,4-dichlorophenyl)-1,1-dimethylurea, we showed that photosynthesis does not significantly contribute to the leaf-mediated light responses. When sepals were removed or covered. [14C]sucrose up-take by the corolla of detached intact flowers was inhibited. The results of this study suggest that light is perceived by leaves and sepals and enhances corolla sink activity, elongation, pigmentation, and chs expression. The role of leaves and sepals in the light regulation of petunia corolla development is discussed.     

The effect of growth retardants on anthocyanin production in carrot cell suspension cultures

The effect of growth retardants on anthocyanin production was studied in wild carrot (Daucus carota) cell suspension cultures. Paclobutrazol [(2RS,3RS) — 1 — (4-chlorophenyl) — 4,4 —dimethyl-2-(1,2,4-triazol-1-yl) pentan-3-ol], uniconazole [(E)-1-(4-chlorophenyl-4,4 —) dimethyl-2-(1,2,4-triazol-1-yl)-1-penten-3-ol], tetcyclacis [5-(4-chloro-phenyl) -3,4,5,9,10-pentaaza-tetracyclo-5, 4, 10^2,6, O^8,11 — dodeca-3, 9-diene], ancymidol [-cyclopropyl — 4 — methoxy-(pyrimidine-5-yl)benzyl alcohol] and CCC (2-chloro-ethyltrimethylammonium chloride) increased anthocyanin accumulation. AMO-1618 [(2-isopropyl-5-methyl-4-trimethyl-ammonium-chloride)-phenyl-1-piperidinium carboxylate] did not increase anthocyanin accumulation in the first passage but did increase it during the second passage on medium for improved anthocyanin accumulation. Prohexadione (3,5-dioxo-4-propionylcyclohexane carboxylic acid) decreased anthocyanin accumulation by 10%–12.5%.The inhibitory effect of gibberellin on anthocyanin accumulation was reversed by paclobutrazol. Paclobutrazol together with 10^–6M GA₃ increased anthocyanin level from 33% of control in GA₃ treated cell suspension to 76%. These results are consistent growth retardants increasing anthocyanin accumulation in carrot cell suspension cultures by inhibiting gibberellin biosynthesis.     

Sugars enhance the expression of gibberellin-induced genes in developing petunia flowers

Sugar is essential for the development of detached Petunia hybrida flowers. We have shown that sucrose (Suc) and gibberellic acid (GA₃) are required for anthocyanin accumulation and the expression of various genes in developing petunia corollas. The effect of GA₃ on the expression of the gibberellin-induced gene and chalcone synthase gene, in detached corollas, was promoted by metabolic sugars such as Suc, glucose (Glc) and fructose, but not by the nonmetabolized 3- O -methylglucose and the sugar alcohol, mannitol. Several pieces of evidence support sugars' signaling role in the corollas and the possible involvement of hexokinase as the sugar sensor. Mannose, which is inefficiently metabolized but is phosphorylated by hexokinase at efficiency similar to Glc, was as effective as Glc in promoting gene expression and pigmentation. 2-Deoxyglucose, which is a substrate for hexokinase but is not metabolized in glycolysis, also promoted gene expression. On the other hand, mannoheptulose, a competitive inhibitor of hexokinase, completely abolished the promotive effect of Glc. We suggest that sugar-phosphorylation-related signal transduction interacts with the gibberellin signal to induce gene expression and anthocyanin accumulation in developing petunia corollas.     

Photoperiod-induced changes in gibberellin metabolism in relation to apical growth and senescence in genetic lines of peas (Pisum sativum L.)

In an early-flowering line of pea (G2) apical senescence occurs only in long days (LD), while growth in short days (SD) is indeterminate. In SD, G2 plants are known to produce a graft-transmissible substance which delays apical senescence in related lines that are photoperiod-insensitive with regard to apical senescence. Gibberellic acid (GA₃) applied to the apical bud of G2 plants in LD delayed apical senescence indefinitely, while N⁶-benzyladenine and -naphthaleneacetic acid were ineffective. Of the gibberellins native to pea, GA₉ had no effect whereas GA₂₀ had a moderate senescence-delaying effect. [³H]GA₉ metabolism in intact leaves of G2 plants was inhibited by LD and was restored by placing the plants back in SD. Leaves of photoperiod-insensitive lines (I-types) metabolized GA₉ readily regardless of photoperiod, but the metabolites differed qualitatively from those in G2 leaves. A polar GA₉ metabolite, GA_E, was found only in G2 plants in SD. The level of GA-like substances in methanol extracts from G2 plants dropped about 10-fold after the plants were moved from SD to LD; it was restored by transferring the plants back to SD. A polar zone of these GA-like materials co-chromatographed with GA_E. It is suggested that a polar gibberellin is synthesized by G2 plants in SD; this gibberellin promotes shoot growth and meristematic activity in the shoot apex, preventing senescence.Abbreviations GA gibberellin - GA₃ gibberellic acid - SD short days - LD long days     

Cell elongation and cell division in elongating lettuce hypocotyl sections

The roles of cell division and cell elongation in the growth of sections excised from hypocotyls of lettuce (Lactuca sativa L. cv. Arctic) were investigated. Elongation of sections incubated in the light is inhibited compared to dark-grown sections and this inhibition is reversed by gibberellic acid (GA₃). The elongation of both dark-grown and GA₃-treated, light-grown sections can be enhanced by 10mM KCl. Under all conditions of incubation, elongation growth is greatest in the uppermost quarter of the hypocotyl section while the basal quarter does not elongate. In darkness the two apical segments of sections marked into four equal parts grow at the same rate, while in light, growth of the apical segment exceeds that of the second segment. Cell division in cortical or epidermal cells, as measured by mitotic index or cell number, is not affected by illumination conditions nor by GA₃ or KCl treatments. Although -irradiation and FUDR pretreatment eliminate or cause a marked reduction in cell division in the excised hypocotyl, sections from seeds irradiated with -rays or incubated in 5-fluorodeoxyuridine elongate in response to GA₃ and KCl treatment as do sections from non-pretreated controls. Therefore, since neither GA₃ nor darkness affect celldivision activity and since treatments which eliminate or significantly reduce cell division do not affect growth, we conclude that the effect of GA₃ and darkness in this material is to increase cell elongation.Abbreviations FUDR 5-fluorodeoxyuridine - GA(s) gibberellin(s) - GA₃ gibberellic acid     

Gibberellin-induced inhibition and promotion of sprouting in aerial tubers of Begonia evansiana Andr. in relation to photoperiodic treatment and tuber stage

Gibberellic-acid (GA₃) treatment, when applied within a period ranging from the start of short-day (SD) treatment until about 10 SD, GA₃ strongly inhibited formation of aerial tubers in response to SD and brought about sprouting of developing aerial tubers. In contrast, when applied after about 10 SD or more, GA₃ hastened the completion of the dormant state in the tubers and prolonged their dormancy. The dormancy-promoting effect of GA₃ on detached tubers increased with their degree of maturation. Application of growth retardants N-dimethylaminosuccinamic acid (B-9), 2-isopropyl-4-dimethylamino-5-methylphenyl-1-piperidine carboxylate methyl chloride (AMO-1618) and 2-chloroethyltrimethylammonium chloride (CCC) to the cuttings delayed the onset of dormancy in the aerial tuber. When the retardants were applied to detached aerial tubers, however, such a delay of dormancy was not observed, and GA₃ application did not inhibit sprouting in aerial tubers detached from CCC-treated cuttings.Abbreviations GA gibberellin - GA₃ gibberellic acid - SD short day(s) - LD long day(s) - SDP short-day plant - LDP long-day plant - CCC 2-chloroethyltrimethylammonium chloride - B-9 N-dimethylaminosuccinamic acid - AMO-1618 2-isopropyl-4-dimethyl-amino-5-methylphenyl-1-piperidine carboxylate methyl chloride     

Promotion of mesocotyl growth in etiolated rice seedlings by 4-ethoxy-1-(p-tolyl)-s-triazine-2,6(1H,3H)-dione

4-Ethoxy-1-(p-tolyl)-s-triazine-2,6(1H,3H)-dione (TA) promoted mesocotyl growth in dark-grown rice (Oryza sativa L.) seedlings. In cultivars of the japonica type TA alone showed a small promotive effect and TA+gibberellic acid(GA₃) had a marked synergistic effect, while in other cultivars, mostly of the indica type, TA alone showed a great promotive effect and TA+GA₃ had only an additive effect. In cv. Nato, a typical representative of cultivars showing the second type of response, the concentration of TA giving the greatest growth promotion was around 0.1–0.2 mM. In Nato seedlings treated with TA at 0.1 mM, the mesocotyls continued to elongate for 6 days and reached about 75 mm in length, while the mesocotyls of control seedlings grew to a maximum of about 10 mm and growth was limited to the first 3 days after planting. The TA-induced mesocotyl elongation was mainly the consequence of increased cell multiplication in the meristematic area immediately below the coleoptilar node. GA₃, abscisic acid (ABA) and ethylene also stimulated mesocotyl growth in dark-grown Nato seedlings but their effects were much smaller than those of TA. ABA, like GA₃, had an additive effect with TA, but ethylene suppressed the effect of TA and resulted in increased lateral expansion in the upper region of the mesocotyls of TA-treated seedlings.Abbreviations ABA abscisic acid - GA(s) gibberellin(s) - GA₃ gibberellic acid - TA 4-ethoxy-1-(p-tolyl)-s-triazine-2,6(1H,3H)-dione Part 5 in the series Plant Growth-regulating Activities of Isourea Derivatives and Related Compounds; Part 4=Ogawa et al. (1978)     

Calcium and gibberellin-induced elongation of lettuce hypocotyl sections

The relationship between calcium ions and gibberellic acid (GA₃)-induced growth in the excised hypocotyl of lettuce (Lactuca sativa L.) was investigated. The short-term kinetics of growth responses were measured using a linear displacement transducer. Test solutions were added either as drops to the filter paper on which the hypocotyl stood (non-flow-past) or by switching solution flowing past the base of hypocotyl (flow-past), resulting in differences in growth behavior. Drops of CaCl₂ added at a high concentration (10 mM) inhibited growth within a few minutes. This inhibition was reversed by ethylenediaminetetraacetic acid (EDTA). Drops of EDTA or ethyleneglycol-bis(2-aminoethylether)-tetraacetic acid caused a rapid increase in growth rate. Growth induced by EDTA was not further promoted by GA₃. A continuous H₂O flow resulted in growth rates comparable to those in response to GA₃. Addition of CaCl₂ to the flow-past medium inhibited growth and this inhibition was reversed by a decrease in CaCl₂ concentration. The growth rate was found to be a function of CaCl₂ concentration. When a constant CaCl₂ concentration was maintained by the flow-past medium, a shift in pH from 5.5 to 4.25 had no obvious effect on hypocotyl elongation. Gibberellic acid was found to reverse the inhibitory effect of CaCl₂, causing an increase in growth rate similar to that found previously when GA₃ was added to hypocotyls grown in H₂O under non-flow-past conditions. We propose that gibberellin controls extension growth in lettuce hypocotyl sections by regulating the uptake of Ca²⁺ by the hypocotyl cells.Abbreviations EDTA ethylenediaminetetraacetic acid - EGTA ethyleneglycol-bis(2-aminoethylether)-tetraacetic acid - GA gibberellin - GA₃ gibberellic acid - IAA indole-3-acetic acid     

Determination of femtomol quantities of gibberellic acid by radioimmunoassay

A highly sensitive and specific radioimmunoassay which allows the detection of as little as 5 fmol (2 pg) of gibberellic acid (GA₃) in crude plant extracts is described. Antisera of high affinity and titer were obtained by immunizing rabbits with a conjugate of carboxyl-coupled GA₃ and bovine serum albumin. [¹²⁵I]Gibberellic acid-[N-(p-hydroxybenzyl) putrescine]amide of high specific activity, used as the immunotracer, is readily displaced by gibberellic acid methyl ester but not by free gibberellic acid. Thus, methylation of extracts prior to analysis is required. The assay is very specific; besides GA₃, only the closely related GA₇ is highly immunoreactive. Various gibberellins, related compounds, as well as other classes of plant hormones do not interfere with the assay. Levels of immunoreactive gibberellins (GA₃, GA₇) in actively growing tissues, among them cell suspension cultures of 33 different species, were determined.Abbreviations ABA abscisic acid - GC-MS gas chromatography-mass spectroscopy - TLC thin-layer chromatography - GA gibberellin Part 17 in the Series: Use of Immunoassay in Plant Science     

Total protein release from barley aleurone layers as a bioassay for gibberellins

The effect of gibberellic acid on the secretion of proteins from barley (Hordeum vulgare L.) aleurone layers has been investigated for its suitability as a gibberellin bioassay. Concentrations from 10^–4 g/ml to 100 g/ml of GA₃ resulted in the release of proportionally increasing amounts of total protein. The release of proteins is not affected by indoleacetic acid and kinetin. This method has been applied and compared with the -amylase assay for the estimation of gibberellin in extracts of tomato fruits and maize seedlings.Abbreviations GA₃ gibberellic acid - IAA indoleactic acid - K kinetin     

Gibberellin metabolism in excised lettuce hypocotyls: Response to GA9 and the conversion of [3H]GA9

Elongation growth and gibberellin (GA₉) metabolism in excised hypocotyls of lettuce (Lactuca sativa L. cv. Arctic) were investigated. Exogenously supplied GA₉ stimulates elongation of hypocotyl sections and this response is intermediate between that elicited by GA₁ or GA₂₀ and GA_4/7 mixture. Although uptake of radioactivity from [³H]GA₉ increases with time, this gibberellin does not accumulate in the tissue but is rapidly converted to a compound with HPLC properties resembling those of [³H]GA₂₀. After 2 h incubation in [³H]GA₉, the presumptive GA₂₀ represents 90% of the acidic ethyl acetate-soluble radioactivity in the tissue. Radioactivity is also associated with an acidic butanol-soluble fraction containing two components resolvable by HVE. The major component is similar in electrophoretic properties to a GA-glucosyl ether while the other compares to a GA-glucosyl ester. Conversion of [³H]GA₉ to its [³H]GA₂₀-like metabolite is reduced by addition of carrier GA₉ or GA_4/7 at concentrations as low as 1 M, while GA₁, GA₃ and L-proline are without effect. Formation of the GA₂₀-like compound can be blocked by the addition of 2,2-dipyridyl, and this inhibitory effect of dipyridyl can be reversed by addition of Fe²⁺. At 200 M dipyridyl, elongation growth as well as [³H]GA₉ metabolism are reduced by 80%. The relationship of the metabolism of GA₉ to the growth response is discussed.Abbreviations AB butanol-soluble - AE ethyl-acetate-soluble - GA gibberellin - GA₁, GA₄ gibberellin A₁, gibberellin A₄, etc. - TLC thin layer chromatography - HPLC high performance liquid chromatography - HVE high voltage electrophoresis     

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