Quantitative Analysis of Endogenous Gibberellins in Normal and Dwarf Cultivars of Rice

Endogenous levels of gibberellins in shoots and ears of twodwarf rice (Oryza sativa L.) cultivars, Tan-ginbozu (dx mutant)and Waito-C (dy mutant), were analyzed and compared with thoseof normal rice cultivar, Nihonbare. The endogenous levels of13-hydroxylated gibberellins in Tan-ginbozu were much lowerthan those in Nihonbare. In Waito-C, the levels of GA₁₉ andGA₂₀ in the shoots were higher but that of GA₁ was lower thanthe levels of these gibberellins in Nihonbare. These resultssupport the hypothesis that the dy gene controls the 3ß-hydroxylationof GA₂₀ to GA₁ while the dx gene controls a much earlier stepin the gibberellin biosynthesis. Our results indicate that GA₁is the active gibberellin that regulates the vegetative growthof rice. The endogenous levels of GA₄ in the ears of the twodwarf cultivars of rice were higher than the level of GA₄ inthe ears of the normal cultivar, Nihonbare suggesting that thebiosynthesis of gibberellin is not blocked in the anthers ofthe dwarf rice. (Received April 27, 1989; Accepted July 12, 1989)     

Effects of a New Plant Growth Regulator Prohexadione Calcium (BX-112) on Shoot Elongation Caused by Exogenously Applied Gibberellins in Rice (Oryza sativa L.) Seedlings

The effects of a novel plant growth regulator (PGR) prohexadionecalcium (BX-112; calcium 3,5-dioxo-4-propionylcyclohexanecarboxylate)on shoot elongation caused by exogenously applied GA₁, GA₃,GA₄₎ GA₁₉ and GA₂₀ were investigated in rice (Oryza sativa L.cv. Nihonbare and cv. Tan-ginbozu) seedling test. Dependingon the dose, BX-112 reduced shoot elongation in both cultivarscaused by GA₁₉ and GA₂₀, but not by GA₁. When a high dose ofBX-112 (e.g. 250 ng/plant and over) was applied with GA₁, orGA₄, shoot elongation was even promoted. This promotive effect,however, was not observed with GA₃. These results suggest thatBX-112 inhibits gibberellin (GA) biosynthesis in the rice plantat the 3ß- and 2ß-hydroxylation of GAs,namely steps of activation and inactivation, respectively. (Received September 6, 1989; Accepted November 27, 1989)     

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)     

Effect of GA3, GA4$7, GA5 and GA9 on the sex expression of Luffa acutangula var. H-2

Gibberellins A₃, A_4$7, A₅, and A₉ increase the number of malebuds and flowers, but inhibit the opening of female flowersand shift their position to a higher node in Luffa acutangula.GA₃ is the most effective followed by GA_4$7, GA₅ and GA₉. (Received November 19, 1971; )     

Distribution of Endogenous Gibberellins in Vegetative Shoots of Rice

Levels of endogenous gibberellins in rice seedlings (Oryza sativaL., cv. Nipponbare) were compared between young and old leavesat the 4- and 5-leaf stages. The levels of GA₁, GA₁₉ and GA₅₃were higher in the youngest leaf than in older leaves at the5-leaf stage, but they did not differ significantly betweenthe leaf sheath and the leaf blade. At the 4-leaf stage, thelevel of GA₁, was highest in the third leaf sheaths which containedyoung elongating tissues. These results indicate that gibberellinsare synthesized in young vegetative tissues to promote theirelongation growth. The levels of GA₁ in the youngest leaf sheathsof two cultivars of dwarf rice, Tan-ginbozu and Waito-C, wereapproximately 10% of that in the normal rice at the 5-leaf stage.This result could explain the retardation of shoot elongationin these dwarf cultivars. (Received February 15, 1995; Accepted June 1, 1995)     

The role of gibberellins in the growth of floral organs of Pharbitis nil

Evidence that the synthesis of GA₃ is involved in the growthof floral orga'ns of Pharbitis nil is presented. GAs in floralorgans at different developmental stages were surveyed usingTLC followed by the bioassay with two dwarf rice seedlings,‘Tanginbozu’ and ‘Waito-C’. The amountof GAs in the petal and stamen increased rapidly after the petalemerged from calyx, reached a maximum 12 hr before anthesis,then declined markedly thereafter. The GA content in the calyxremained unchanged before and after anthesis, and that in thepistil increased after anthesis. Pharbitis flowers containedat least two active GAs, one of which was probably GA₃, theother appeared to be GA₁₉. GA₃ was detected in relatively largeamounts in both the petal and stamen during their rapid elongation.In the calyx, which showed little increase in fresh weight duringrapid flower growth, GA₉ was the dominant GA. Exogenously suppliedGA₃ promoted elongation of sections in excised young filaments.Sucrose was necessary for definite growth promotion by GA₃.GA₁₉ had little effect on filament elongation, and IAA was ratherinhibitive. (Received July 29, 1972; )     

Factors Influencing the Distribution of Growth Between Stem and Axillary Buds in Decapitated Bean Plants

Phaseolus multiflorus plants at three stages of developmentwere decapitated either immediately below the apical bud orlower down at a point 1 cm above the insertion of the primaryleaves. Growth regulators in lanolin were applied to the cutstem surface. IAA always inhibited axillary bud elongation anddry-matter accumulation, and enhanced internode dry weight butnot elongation. GA₃ applied below the apical bud greatly increasedinternode elongation and dry weight, but simultaneously reducedbud elongation and dry-weight increase. Application of GA₃ 1cm above the buds had no effect on bud elongation in the youngestplants, but enhanced their elongation in the two older groups.IAA always antagonized GA₃-enhancement of internode extensiongrowth, whereas its effects on GA₃-enhanced dry-matter accumulationdepended on the stage of internode development. Bud elongationwas greater in plants treated with GA₃+IAA than in plants treatedonly with IAA, except in the youngest plants decapitated immediatelybelow the apical bud, where GA₃ caused a slight increase inIAA-induced bud inhibition. GA₃ increased inhibition of buddry weight by IAA in the two youngest groups of plants, butslightly reduced it in the oldest plants. No simple compensatorygrowth relationship existed between internode and buds. It wasconcluded that, (1) auxin appears to be the principal growthhormone concerned in correlative inhibition, and (2) availabilityof gibberellin to internode and buds is of importance as a modifyingfactor in auxin-regulated apical dominance by virtue of itslocal effects on growth in the internode and in the buds.     

Abscisic Acid and Apical Dominance in Phaseolus coccineus L. The Role of Tissue Age

Abscisic acid (ABA) applied to the decapitated second internodeof runner bean plants enhanced outgrowth of lateral buds onlywhen internode stumps were no longer elongating. Applied toelongating internodes of slightly younger plants, ABA causesinhibition of bud outgrowth. Together with 10^–4 M indol-3-ylacetic acid (IAA), ABA stimulated internode elongation and interactedadditively in the inhibition of bud outgrowth. A mixture of10^–5 M ABA and 10^–6 M gibberellic acid (GA₃ ) causedsimilar effects on internode growth as IAA + ABA, but was mutuallyantagonistic in effect on growth of the lateral buds. Abscisic acid, apical dominance, gibberellic acid, indol-3yl acetic acid, Phaseolus coccineus, bean     

Gibberellins in Light-Grown Shoots of Pisum sativum L. and the Influence of Reproductive Development

The presence of GA₉, GA₁₉ and GA₂₀ was demonstrated by gas chromatography/massspectrometry (GC/MS) and the presence of GA₄₄ strongly indicatedby GC/MS in selected ion monitoring mode (GC/SIM) in extractsof shoots of light-grown tall peas (Pisum sativum L.). Usingthe rice seedling bioassay with cv. Tan-ginbozu, the levelsof gibberellins in pea shoots were monitored from early shootgrowth through to apical senescence in a tall pea line. Levelsof activity corresponding to GA₂₀, GA₁₉ and GA₄₄ remained relativelystable in the shoot despite reproductive development and apicalsenescence. The level of GA₁-like activity increased to a maximumwhen the leaves had between 7 and 9 leaves expanded and decreasedonly with apical senescence. The na gene which blocks the productionof biologically active gibberellins in shoots but not in developingseed, was also operative in pod walls, with na pods containinglittle or no significant gibberellin-like activity when comparedto na pods at contact. This occurred despite the presence ofrelatively high levels of gibberellins in developing seed atthe same time. The results suggest that there is little or nosignificant leakage of biologically active gibberellins fromdeveloping seed to pods or shoots. Extracts of pods of tallpeas with Na contained low levels of gibberellin-like activitybut like developing seed, contained little or no significantGA₁-like activity despite the presence of significant GA₁-likeactivity in shoot extracts of tall peas. (Received March 11, 1986; Accepted May 27, 1986)     

Gibberellin A3 and Abscisic Acid Cause the Reorientation of Cortical Microtubules in Epicotyl Cells of the Decapitated Dwarf Pea

To determine whether or not the changes in the orientation ofmicrotubules (MTs) that are induced by GA₃ and ABA result fromchanges in the rate of epicotyl elongation caused by these hormones,we examined the effects of GA₃ and ABA on the orientation ofMTs in epidermal cells of decapitated epicotyls of the dwarfpea (Pisum sativum cv. Little Marvel), in which neither GA₃nor ABA causes changes in the rate of epicotyl elongation. Cuttings taken from GA₃-pretreated seedlings were decapitatedand treated with ABA. ABA eliminated the GA₃-induced predominanceof transverse MTs and treatment with ABA resulted in a predominanceof longitudinal MTs in the decapitated cuttings. However, ABAdid not reduce the rate of epicotyl elongation in these samples.Cuttings taken from ABA-pretreated seedlings were decapitatedand treated with GA₃. GA₃ caused the orientation of MTs to changefrom longitudinal to transverse in the decapitated cuttings.However, GA₃ had no promotive effect on elongation of theseepicotyls. The results indicate that both ABA and GA₃ have the abilityto change the orientation of MTs by mechanisms that do not involvechanges in the rate of cell elongation. (Received August 18, 1992; Accepted January 18, 1993)     

Internode Length in Pisum. A New Allele at the le Locus

In Pisum sativum L. a third, more severe, allele at the internodelength locus le is identified and named le^d. Plants homozygousfor le^d possess shorter internodes and appear relatively lessresponsive to GA₂₀ than comparable le (dwarf) plants. Gene le^dmay act by reducing the 3ß-hydroxylation of GA₂₀ tothe highly active GA₁ more effectively than does gene le. Theresults indicate that le is a leaky mutant and therefore thatendogenous GA₁ influences internode elongation in dwarf (le)plants. Pisum sativum, peas, internode length, genetics, gibberellin, dwarf elongation     

Antagonistic and Synergistic Interactions between Ancymidol and Gibberellins in Shoot Growth of Cucumber (Cucumis sativus L. )

Effects of the plant growth retardant, ancymidol, on the growthand morphology of the shoot system of cucumber (Cucumis sativusL. ) were investigated. Ancymidol inhibited stem elongation,reducing both number and length of internodes. Reduction inleaf area, attributable to a reduction in both cell size andnumber, was accompanied by an increase in chlorophyll per unitarea. The retardant decreased apical dominance and delayed anthesis.Gibberellic acid fully reversed ancymidol-induced inhibitionof stem elongation, internode length and production, and leafexpansion. GA_4/7 and ancymidol gave a synergistic promotionof stem elongation by increasing elongation of younger internodesand increasing internode production. Synergistic promotion ofpetiole elongation by this combination was also observed. Ancymidol,applied 7 d previously either to the shoot or root, severelyreduced the level of gibberellin-like activity in bleeding sapcollected from decapitated plants.     

Concentrations ofent-kaurene and squalene in vegetative rice shoots

Ent-kaurene (ent-kaur-16-ene) and squalene were analyzed in extracts of the shoots of three cultivars of rice (Oryza sativa L.) of 14 and 28 days of age by gas chromatography-mass spectrometry (GS-MS) and GC-selected ion monitoring (GS-SIM).Ent-kaurene occurred at approximate concentrations of <1 to 13 ng/g f.w. in 14-day-old plants and 26 to 147 ng/g f.w. in 28-day-old plants. Shoots of the dwarf cultivar Waito-C contained much lessent-kaurene than the other two cultivars at both developmental stages. The level ofent-kaurene in the dwarf cultivar Tan-ginbozu was similar to that in the normal cultivar Nihonbare at 14 days but was lower than in Nihonbare at 28 days. Trace amounts ofent-isokaurene (ent-kaur-15-ene) were also found in the extracts of all three cultivars of shoots at 28 days. Squalene occurred in approximate concentrations from as low as 19 ng/g f.w. in 28-day-old Waito-C shoots to as much as 626 ng/g f.w. in 14-day-old Nihonbare shoots. Both Tan-ginbozu and Waito-C shoots contained less squalene than Nihonbare shoots at both developmental stages.     

Fruit Set and Growth in Strawberry, Fragaria x ananassa Duch.

The application of GA₃in aqueous solution to leaves or flowersof hermaphrodite cultivars of strawberry, Redgauntlet and Rabunda,prevented growth of the receptacle despite hand pollination.This inhibitory effect occurred only when GA₃ was applied priorto anthesis. Although viable pollen was produced and germinatedto grow down the styles of treated plants, no seeds were formed.Receptacle growth failed underneath the unfertilized carpels,but the basal region devoid of carpels enlarged and ripened.The effect of GA₃ was the same in vivo and for flowers grownin vitro. ABA and BAP also inhibited growth of pollinated flowersin vitro, but neither substance stimulated growth of the baseof the receptacle. 2-NOA stimulated receptacle growth of pollinatedflowers but did not overcome the inhibitory effect of GA₃. Removal of fertile carpels 9 days after pollination preventedfurther receptacle growth. GA₃ treatment of the bare receptaclere-started growth but was less effective than 2-NOA. No growth substance treatment induced parthenocarpic developmentin these cultivars when unopened buds were emasculated and culturedwithout pollination, although GA₃ induced some swelling of thereceptacle base. Fragaria x ananassa Duch., strawberry fruit set, fruit growth, growth regulators     

Endogenous Gibberellins in the Vegetative Shoots of Tall and Dwarf Cultivars of Phaseolus vulgaris L.

A series of 13-hydroxygibberellins, gibberellin A₁ (GA₁), GA₁₉,GA₂₀, GA₄₄ and GA₅₃, were identified by GC/MS (full scan) fromvegetative shoots of tall (cv. Kentucky Wonder) and dwarf (cv.Masterpiece) Phaseolus vulgaris L. It is suggested that GA₁is active per se in the control of shoot elongation of P. vulgarisL., and that dwarfism in Masterpiece is not due to shortageof the active GA, but to its low ability to respond to the bioactiveGA. (Received August 29, 1988; Accepted November 21, 1988)     

Control by Light of Hypocotyl Elongation and Levels of Endogenous Gibberellins in Seedlings of Lactuca sativa L.

Four 13-hydroxygibberellins, gibberellin A₁ (GA₁), 3-epi-GA₁,GA₁₉ and GA₂₀ were identified by full-scan GC/MS in extractsof lettuce seedlings (Lactuca sativa L. cv. Grand Rapids). Theresults suggest that the early-13-hydroxylation biosyntheticpathway to GA₁ functions in the lettuce seedlings. It was alsofound that GA₁ is active per se in the control of hypocotylelongation in lettuce seedlings. To investigate the relationshipbetween control by light of hypocotyl elongation and levelsof endogenous GAs in lettuce, endogenous levels of GAs werequantified by radioimmunoassay in seedlings that had been grownfor 5 days in the dark (5D) and in those that had been grownfor 4 days in the dark and then under white light for 1 day(4D1L). The endogenous level of GA₁ in the upper and lower partsof hypocotyls in 5D seedlings was about four times higher thanthat in 4D1L seedlings. The response of explants (hypocotylsegments with cotyledons) from dark-grown seedlings to GA₁ isknown to be similar in the dark and under white light when theexplants are treated with inhibitors of the biosynthesis ofGA. Therefore, the above information suggests that the highlevel of GA₁ in hypocotyls of dark-grown seedlings is responsiblefor the rapid elongation of hypocotyl, while irradiation bywhite light decreases the endogenous level of GA₁ in the hypocotylswith a resultant decrease in the rate of hypocotyl elongation. (Received March 13, 1992; Accepted May 21, 1992)     

Metabolism and Translocation of Gibberellins in Seedlings of Pharbitis nil. (I) Effect of Photoperiod on Stem Elongation and Endogenous Gibberellins in Cotyledons and Their Phloem Exudates

Gibberellin A₁, (GA₁), GA₁₉, and GA₂₀ in phloem exudates andcotyledons of seedlings of Pharbitis nil cv. Violet, grown underdifferent photoperiodic conditions, were qualitatively and semi-quantitativelyanalyzed by a combination of high performance-liquid chromatography(HPLC) and radioimmunoassays (RIA). The levels of GA₁₉ and GA₂₀were higher in cotyledons from plants grown under dark treatment(DT) conditons of 16 h-light/8 h-dark for 6 days followed by8 h-light/16 h-dark for 3 days than in those grown under continuouslight (CL) for 9 days. This relationship was also observed forthe GAs in phloem exudates, although the levels were much lowerthan in the cotyledons. When GAs were applied to the cotyledons,elongation of the epicotyl was promoted more by GA₂₀ than byGA₁ or GA₁₉, especially under the CL treatment. The relativeeffect of GA₁ and GA₂₀ on the epicotyl elongation was reversedwhen these GAs were applied to epicotyls pre-treated with prohexadione,an inhibitor of 2-oxoglutarate-dependent dioxygenases. ³Present address: Frontier Research Program, The Institute ofPhysical and Chemical Research (RIKEN), 2-1 Hirosawa, Wakoshi,Saitama, 351-01 Japan ⁴Present address: Laboratory of Horticulture, Faculty of Agriculture,Nagoya University, Nagoya, 464-01 Japan     

Identification of rice root proteins regulated by gibberellin using proteome analysis

Gibberellin (GA) promoted rice (Oryza sativa L.) root elongation in a concentration-dependent manner with roots grown in 0.1 µm GA₃ being 13.8% longer than controls. On the other hand, the roots of Tan-ginbozu, a semi-dwarf cultivar were 69.8% shorter in comparison with Nipponbare, a normal cultivar. Treatments with 10 µm uniconazole-P and 10 µm abscisic acid (ABA) caused decreases in root length in Tan-ginbozu by 44.6 and 79.2%, respectively. To investigate how GA influences rice root growth, proteome analysis techniques were applied. Extracted proteins were separated by two-dimensional polyacrylamide gel electrophoresis and analysed using an automated protein sequencer and mass spectrometer. Sixteen proteins show differences in accumulation levels as a result of treatment with GA₃, uniconazole-P and ABA treatment and/or the difference between the semi-dwarf cultivar, Tan-ginbozu, and normal cultivars. Among these proteins, fructose-bisphosphate aldolase (EC 4.1.2.13) increased in roots treated with GA₃, occurred in low levels in Tan-ginbozu roots, and decreased in roots treated with uniconazole-P or ABA. Moreover, roots from seedlings grown in 100 µm glucose were 9.1% longer than controls. These results indicate that increases in fructose-bisphosphate aldolase activity stimulate the glycolytic pathway and may play an important role in the GA-induced growth of roots.     

Relations between DNA, RNA and Protein Synthesis, and the Cellular Basis of the Growth Response in Gibberellic acid-Treated Pea Internodes

1. A study was made of the influence of gibberellic acid (GA₂)on nucleic acid, protein, and cell-wall synthesis in pea internodesin vivo. 2. GA₃-treated fifth internodes finally contained more thantwice as much total RNA and protein as comparable untreatedones, and the contents of RNA and protein were closely relatedto the length of internode cortical cells. 3. Cell elongation, RNA, protein, and cell-wall synthesis werestimulated 24–48 h before there was any demonstrable GA₃effect on DNA synthesis and cell division. 4. Treated fifth internodes finally contained twice as manycortical cells as control internodes, a response that was matchedby a proportionate increase in the amount of DNA. 5. Internodes treated with actinomycin D or cycloheximide failedto elongate in response to GA₃ treatment, indicating that bothRNA and protein synthesis are essential for gibberellin-stimulatedcell elongation to occur in this tissue. 6. 5-fluorodeoxyuridine at concentrations which completely blockcell division did not prevent cells from elongating in the presenceof GA₃. 7. With the possible exception of pectic substances there wasno change in the relative proportions of each of the major cell-wallconstituents in treated, as compared to control internodes.