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     

Studies with Liatris spicata Willd. 1. Effect of Temperature on Sprouting, Flowering and Gibberellin Content

Dormancy was induced during storage of Liatris spicata cormsgrown in Israeli summer conditions, but plants left in soilcontinued vegetative growth. Corms of winter-grown plants sproutedfreely. Treatment with GA₃ restored both sprouting and floweringin summer-grown corms, but in winter corms GA₂ was effectiveonly after corms were stored at low temperature. All the plantsflowered after 4 weeks at 2 °C and GA³ treatment. The content of gibberellins in the main bud of freshly excavatedcorms decreased during the first 18 d of storage but increasedto the initial level after 4 months of cold storage. The numberof flowering stems increased to 2.5 per corm when corms werecold-stored up to 75 d, but decreased with a longer storage. Liatris spicata, dormancy, flowering, gibberellin, sprouting     

Identification and Semi-Quantification of Gibberellins from the Pollen and Anthers of Zea mays by Immunoassay and GC/MS

Radioimmunoassays and enzyme-linked immunosorbent assays formethyl esters of gibberellins A₁, A₃, A₄, and A₇ were establishedusing an antiserum specific for GA₁-Me. The antiserum was characterizedby high titer and specificity for such C₁₉-GAs with 3ß-hydroxylgroup as GA₁, GA₃, GA₄ and GA₇. Combination of this antiserumand HPLC enabled us to identify and quantify GA, and GA₄ fromthe pollen of Zea mays with a high degree of reliability. Similarly,identification and quantification of GA₉ and GA₂₀ were alsomade possible by use of an antiserum specific for GA₂₀-Me. Combineduse of immunoassays and GC/MS enabled us to identify nine GAsfrom the pollen and four from the anthers of Zea mays. The identificationof non-13-hydroxylated GAs, such as GA₄ and GA₉, in additionto 13-hydroxylated GAs from the pollen and the anthers suggeststhat the early-non-hydroxylation pathway, as well as the early-13-hydrox-ylationpathway, operates in the male reproductive organs of Zea mays,and that the organ-specific biosynthesis and/or localizationof GAs in Zea mays is similar to that in Oryza saliva. (Received May 7, 1990; Accepted August 20, 1990)     

Mitotic Activities and Levels of Nuclear DNA in the Apical Meristem of Silene armeria (strain SI.2) Following Application of Gibberellin A3

Strain S1.2 of Silene armeria was grown under an 8h-photoperiodand treated with GA₃ every day for 20 days. This growth substancecaused stem elongation, but no flowering in this long-day plant.Changes in the mitotic index and DNA content of cells in thevarious zones of the apical meristem before, during and afterGA₃ treatment were described. Mitotic activity and increasein the proportion of nuclei at the 4C level (S+G₂ phase of thecell cycle) were strongly stimulated in the rib-meristem, andto a lesser extent in the lateral zone, but not in the axialzone. This stimulation of apical activity reached a peak aftertwo GA₃ treatments and then declined gradually, so that after20 days the activity in GA₃-treated meristems was lower thanthat in untreated controls; at this point most cells were inthe G₁ phase. When the GA₃ treatment was discontinued, there was a gradualincrease in the mitotic activity which ultimately reached thesame level as that in controls. Stem elongation ceased and leavesformed aerial rosettes. It is concluded that in vegetative plants of strain S1.2 ofSilene armeria GA₃ acts mainly on the rib-meristem cells whichresults in stem elongation. Lack of response in the axial cellsexplains why GA₃ fails to induce flowering in this strain ofSilene armeria. (Received June 18, 1983; Accepted August 3, 1983)     

Dwarfism Caused by Floral-Bud Removal in Petunia and its Reversal by Gibberellin

The effect of floral-bud removal at different stages of developmenton the plant height and on the total number of buds of Petuniawas studied. Continuous removal of all the floral buds 2 d beforeanthesis caused a marked decrease in plant height and also increasedthe total number of floral buds formed thereafter. At otherstages of floral bud development, bud removal had a lesser effecton both phenomena. Moreover, the plants did not respond to budremoval at anthesis. GA₃ at 25 ppm applied to plants from which the buds had beenremoved, promoted stem elongation. The most pronounced effectwas on plants from which the buds were removed 2 d before anthesis,but it had no effect on plants from which the buds were removedat anthesis stage. The possible involvement of endogenous growth hormones in theresponse of Petunia plants to floral-bud removal and to applicationof GA₃ is discussed. Bud removal, bud number, dwarfness, GA₃, Petunia, plant height     

Effects of Gibberellins and Prohexadione on the Activities of Oryzain and {alpha}-Amylase in Rice Seeds

Oryzains, cysteine proteinases of rice seeds, are induced byGA₃ in germinating rice seeds [Abe et al. (1987) Agric. Biol.Chem. 51: 1509]. The effects of GA₁, GA₃, GA₄, GA₉, and GA₂₀on the production of oryzain and -amylase were investigatedin embryoless half- and whole-seeds of rice (cv. Nipponbare).When gibberellins (GAs) were incubated with embryoless half-seeds,GA₁, GA₃ and GA₄ induced oryzain and -amylase, but GA₉, andGA₂₀ did not. GA₉ and GAM induced oryzain and -amylase productionin whole seeds, but this production was inhibited by the simultaneousapplication of prohexadione, an inhibitor of 2ß- and3ß-hydroxylation of GAs. Prohexadione did not inhibitthe activities of oryzain and -amylase induced by GA₁. Theseresults suggest that GAs possessing the 3ß-hydroxylgroup induce activities of oryzain and -amylase in rice seedsand that GA₉ and GA₂₀ have activity only after they are convertedmetabolically to active GAs, probably GA₄ and GA₁, respectively.GA₁, was more active than GA₄ in both half seeds and wholeseeds incubation. Oryzain and -amylase activities induced byGA₄ were significantly inhibited in the presence of 10^–4M prohexadione. This suggests that the conversion of GA₁, toGA₄ (13-hydroxylation) might be inhibited at a high dose ofprohexadione in whole seeds. ⁴Present address: Institute of Food Development, Kyung Hee University,Suwon 449-701, Korea     

Gibberellin A12 Is Converted to Gibberellin A53 in Cultured Cells of Nicotiana tabacum and Catharanthus roseus

The metabolism of GA₁₂ and its precursors was investigated incultured cells of seven cell lines of Nicotiana tabacum andthree cell lines of Catharanthus roseus using ^l4C-labeled substrates.The presence of a metabolic pathway from ent-7-hydroxykaurenoicacid to GA₅₃ via GA₁₂-aldehyde and GA₁₂ was demonstrated inthe cultured cells. GA₁₂ was effectively converted to GA₅₃ incells of BY-2, 2b-4, 2b-13 and CG from N. tabacum. By contrast,GA₅₃ was not converted to any other GAs in all of the linesof cells examined. The metabolism of C₁₉-GAs was also examinedusing ³H-labeled substrates. The conversion of GA₂₀ to GA₂₉and GA, and of GA₄ to GA₃₄ occurred more efficiently in cellsfrom C. roseus than in cells from N. tabacum. However, 13-hydroxylationof GA₄ and GA₉ was not observed in any of the cell culturesexamined. Among the various metabolites, GA₅₃, GA₂₉ and GA₃₄were identified by full-scan GC/MS. (Received December 20, 1990; Accepted May 27, 1991)     

Effects of Gibberellins on Seed Germination of Phytochrome-Deficient Mutants of Arabidopsis thaliana

Experiments were carried out to explore the involvement of gibberellins(GAs) in the light-induced germination of Arabidopsis thaliana(L.) Heynh, using wild type (WT) and phytochrome-deficient mutants(phyA, phyB and phyAphyB deficient in phytochrome A, B and Aplus B, respectively). Seed germination of WT and phytochrome-deficientmutants was inhibited by uniconazole (an inhibitor of an earlystep in biosynthesis of GA, the oxidation of ent-kaurene) andprohexadione (an inhibitor of late steps, namely, 2rß-and 3rß-hydroxylation). This inhibition was overcomeby simultaneous application of 10^-5 M GA₄. The relative activityof GAs for promoting germination of uniconazole-treated seedswas GA₄>GA₁=GA₉>GA₂₀. The wild type and the phyA and phyBmutants had an increased response to a red light pulse in thepresence of GA₁, GA₄, GA₉, GA₂₀ and GA₂₄ but there were no significantdifferences in activity of each GA between the mutants. Therefore,neither phytochrome A nor hytochrome B appears to regulate GAbiosynthesis from GA₁₂ to GA₄ during seed germination, sincethe conversion of GA₁₂ to GA₉ is regulated by one enzyme (GA20-oxidase). However, GA responsiveness appears to be regulatedby phytochromes other than phytochromes A and B, since the phyAphyBdouble mutant retains the photoreversible increased responseto GAs after a red light pulse. (Received February 13, 1995; Accepted July 11, 1995)     

Synergistic Effect of Isourea and Triazinone Derivatives on Activity of Various Gibberellins

The synergistic effects of 2-ethyl-3-methoxycarbonyl-l-(p-tolylcarbamoyl)-isoureaand 4-ethoxy-l-(p-tolyl)-s-triazine 2,6(1H,3H)-dione on GA_{1,3,4,7,8,9,17,19,20ana 53} in rice seedlings were investigated. Each synergist showeda very high effect when combined with GA_{1,3,9 or 17}, a higheffect with GA_{4,7,19 or 20}, little effect with GA₅₃, and noeffect with GA₈. (Received July 22, 1981; Accepted October 2, 1981)     

A Crucial Role for Gibberellins in Stress Protection of Plants

The hypothesis that there is an intimate relationship betweengibberellin levels and plant stress protection has been testedusing near-isogenic lines of a normal and dwarf barley (Hordeumvulgare L.). Application of paclobutrazol (a triazole), inducedstress protection in the normal line and application of GA₃to the dwarf reversed the inherent stress tolerance. Reversalof the dwarf phenotype by specific gibberellins (GAs) suggeststhat the conversion of GA₂₀ to GA₁ and GA₉ to GA₄ has been compromised.These observations indicate that modulation of specific GAsplays a key role in stress protection. The preferential useof non-chemical technologies including enzyme regulation, phytochromeA overexpression, and breeding for induction of stress tolerancein plants are discussed. (Received November 26, 1998; Accepted March 11, 1999)     

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     

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.     

Effects of a Plant Growth Regulator, Prohexadione Calcium (BX-112), on the Elongation of Rice Shoots Caused by Exogenously Applied Gibberellins and Helminthosporol, Part II

Prohexadione calcium (BX-112) is a novel plant growth regulatorthat inhibits the late stages of the biosynthesis of gibberellinsin plants. Fourteen kinds of gjbberellin, helminthosporol and'helminthosporic acid were applied simultaneously with BX-112to rice seedlings (Oryza sativa L. ), and their growth-promotingactivities in terms of shoot elongation were examined. The growth-promotingactivities of GA₁, GA₄, GA₁₈, GA₂₂, GA₂₃, GA₃₈, helminthosporoland helminthosporic acid were not inhibited by BX-112, but thoseof GA₅, GA₉, GA₁₅, GA₁₉, GA₂₀, GA₃₁, GA₄₄ and GA₅₃ were inhibited.These results suggest that 3ß-hydroxylation is animportant and necessary step in the biosynthesis of gibberellinsthat promote shoot elongation in rice seedlings. The weak promotionof shoot elongation by GA₂₂ in the presence of BX-112 suggeststhat the effect of a hydroxyl group at C-18 of GA₂₂ might beable to mimic the effect of the 3ß-hydroxyl groupof GA₁. Helminthosporol and helminthosporic acid may promotethe shoot elongation of rice by mimicking physiologically activegibberellins and not by stimulating their biosynthesis. ¹Part I is the previous paper by Nakayama et al. (1990a) ³Present address: Frontier Research Program RIKEN, Wako-shi,Saitama, 351-01 Japan. (Received June 26, 1991; Accepted September 4, 1991)     

Effects of Gibberellins and Their Methyl Esters on Dark Germination and Antheridium Formation in Lygodium japonicum and Anemia phyllitidis

The effects of GA₃, GA₄ and GA₉ and their methyl esters on darkspore germination and antheridium formation of the ferns Lygodiumjaponicum and Anemia phyllitidis were investigated. Althoughall induced both germination and antheridium formation in Lygodium,only the gibberellins induced these effects inAnemia. (Received August 28, 1986; Revision received November 14, 1986. )     

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; )     

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)     

The Effect of (2-chloroethyl)-trimethylammonium Chloride on the Growth of Barley

Barley (Hordeum vulgare L. C.I.666) was shown to be susceptibleto the growth retardant (2-chloroethyl)-trimethylammonium chloride(CCC). The estimation of cell number in the dwarfed third leafblade indicated that a decrease in mitotic activity had occurredin treated plants. There was also a decrease in cell size intreated plants. The dwarfing action of CCC was reversed by exogenousgibberellic acid (GA₃) but this was shown to be the result ofincreased cell elongation only. GA₃ did not promote cell divisionin healthy or CCC-treated plants. Assay of endogenous gibberellinsshowed a significant reduction in the level of a substance correspondingto GA₃ in CCC-treated plants. It is suggested that CCC-induceddwarfing of barley is largely the result of a reduction in meristematicactivity. This may be related to an effect on gibberellin biosynthesisbut is not reversed by the application of exogenous GA ₃.     

Effects of Low Irradiance Stress on Gibberellin Levels in Pea Seedlings

Using gas chromatography-selected ion monitoring with internalstandards we analyzed endogenous levels of GA₁, GA₈, GA₁₉, GA₂₀,GA₂₉, GA₄₄ and GA₅₃ in shoots of pea cv. Alaska grown underdifferent levels of irradiance: high irradiance, 386±70µmolm^-2s^-1, control (100%); medium (50%); low (10%); darkness (0%).The average plant heights for medium and low irradiance anddark grown plants were 157%, 275%, and 460% of the control plants,respectively. Plants grown in medium and low irradiance developedthe same numbers of internodes as control plants but plantsin darkness developed fewer internodes and exhibited suppressedleaf expansion. The endogenous levels of GA₁ GA₈ and GA₂₉ werehigher in medium and low irradiance grown plants than thoseof the high irradiance control. In particular, the GA₂₀ levelof low irradiance plants was markedly higher (7.6-fold) thanthat of control plants. In dark-grown plants GA₁, and GA₈ levelsalso slightly increased but GA₂₀ and GA₂₉ levels decreased andthe levels of GA₁₉, GA₄₄ and GA₅₃ did not change. Feeding ofGA₁, and a GA biosynthesis inhibitor (uniconazole) to plantsgrown at reduced irradiance and in darkness suggests that theresponsiveness of plants to GA₁, also increased at low irradianceand in darkness. In conclusion, plants increase both GA₁, andGA₂₀ biosynthesis or altered catabolism and GA₁, responsivenessunder low irradiance stress ¹Present address: Dept. of Plant Physiol., Warsaw AgriculturalUniversity, Rakowiecka 26-30, 02-528 Warsaw, Poland     

Effects of a Plant-Growth Regulator, Prohexadione, on the Biosynthesis of Gibberellins in Cell-Free Systems Derived from Immature Seeds

Inhibition of the biosynthesis of gibberellins by prohexadione,3,5-dioxo-4-propionylcyclo-hexanecarboxylic acid, was studiedwith cell-free systems derived from immature seeds of Cucur-bitamaxima, Phaseolus vulgaris and Pisum sativum. Prohexadione,at a concentration of 10–⁴ M, inhibited C-7 oxidationof GA₁₂-aldehyde, C-20 oxidation of GA₁₅, conversion of C₂₀-gib-berellinsto C₁₉-gibberellins, 3ß-hydroxylation, 2,3-dehydrogenationof GA²⁰, 2,3-epoxidation of GA₅ and 2ß-hydroxylationof GA₉ and GA₂₀. The 3ß-hydroxylase activity appearedto be more sensitive to prohexadione than were the C-20 oxygenaseand the 2ß-hydroxylase activities. The conversionof mevalonic acid to GA₁₂-aldehyde and the 13-hydroxylationof GA₁₂ were not affected by prohexadione at a concentrationof 3 ? 10^–4 M. All of the steps inhibited by prohexadioneare oxidation steps catalyzed by soluble enzymes that require2-oxoglutarate, Fe²⁺ and oxygen, and all of them occur distalto the synthesis of GA₁₂-aldehyde in the biosynthesis of gibberellins. (Received April 4, 1990; Accepted September 14, 1990)     

IAA-oxidase in Impatiens balsamina Affected by GA3 and Tannic Acid

The activity of IAA-oxidase increased in the leaves of Impatiensbalsamina plants receiving inductive photoperiodic cycles andin plants receiving treatments with gibberellic acid (GA₃) and/ortannic acid (TA), even under non-inductive photoperiods; theactivity also increased in the stem receiving inductive photoperiodiccycles (8 h). Treatment with GA₃ and TA mimics the effect ofSD cycles in the development of some isoenzymes of IAA-oxidase.Thus a new isoenzyme at R_f 0.48 developed in the leaves andone at R_f 0.82 developed in both the stem and the leaves ofall plants receiving inductive treatments – photoperiodicor chemical – but not in water-treated controls undernon-inductive photoperiods. Another isoenzyme at R_f 0.68 developedonly in the stems. Flowering, gibberellic acid, IAA oxidase, Impatiens, phenols, photoperiod