Experimental control of flowering in Pistia stratiotes L.

GA₃, salicylic acid and EDDHA induced flowering in Pistia stratiotesin vitro under short days and conditions of continuous light.It has been hypothesized that EDDHA and salicylic acid bringabout the same effect on flowering in Pistia and the duckweedspecies Lemma gibba G3 whereas the effect of GA₃ on the floweringmechanism of these species is basically different. (Received March 14, 1978; )     

Effects of Interactions between Low-temperature Treatments, Gibberellin (GA3) and Photoperiod on Flowering and Stem Height of Spring Rape (Brassica napus var. annua)

Exogenous gibberellin A₃(GA₃) reduced the number of leaf nodesat flowering and time to flowering and increased the stem heightat flowering in three genotypes of spring rape (Brassica napusvar.annua L.). The responses to GA₃were similar to those forlong days (LD) and low-temperature treatments, suggesting thatthe effect of photoperiod and the vernalization response areprobably mediated through gibberellins. The response to exogenousGA₃was greatest in non-cold-treated plants in short days (SD)suggesting that endogenous GAs are limiting in these conditions.CCC, an inhibitor of gibberellin biosynthesis, caused a smallincrease in the number of leaf nodes at flowering and time toflowering and a small decrease in the stem height at flowering,but unexpectedly, its effect was hardly influenced by the applicationof exogenous GA₃. Genotypes that showed the clearest responsesto the treatments with regard to the number of leaf nodes atflowering and time to flowering did not show the clearest responseswith regard to the stem height at flowering; the pattern ofresponses of the number of leaf nodes at flowering and timeto flowering was distinct from that of stem height at flowering.This indicates that flower formation and stem elongation areseparable developmental processes which may be controlled bydifferent endogenous gibberellins, different levels of a specificendogenous gibberellin, or different responses to gibberellin.Copyright 1999 Annals of Botany Company Brassica napus var. annua, gibberellin, photoperiod, spring rape, vernalization.     

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)     

Effects of Gibberellic Acid and Naphthaleneacetic Acid on Petiole Senescence and Subtended Peduncle Growth of Cyclamen persicum Mill

Removal of the blade from the leaf subtending the first flowerbud on Cyclamen persicum ‘Swan Lake’ plants causedthe petiole of that leaf to senesce, but had no effect on thegrowth of the flower peduncle in the debladed petiole's axil.A 10 mg NAA l^–1 application generally had no effect onpetiole senescence, peduncle elongation or flowering date whenapplied to the cut end of the petiole after blade removal. A25 mg GA₃ l^–1 application or a combination of 25 mg GA₃l^–1 application or a combination of 25 mg GA₃ l^–1plus 10 mg NAA l^–1 delayed petiole senescence and enhancedpeduncle elongation and subsequent flowering. No treatment significantlyaltered peduncle length at the time of flowering. Cyclamen persicum Mill, ‘Swan Lake’, tissue receptivity, flowering, GA₃, NAA     

Effect of cycloheximide on GA3 response and on photoperiodic reactions of Impatiens balsamina L.

GA₃ increased the extension growth of Impatiens balsamina L.till 56 days under 8- and 24-h photoperiods. Cycloheximide whichdecreased height slightly under inductive conditions at a laterstage did not affect the GA₃-promoted extension growth. BothGA₃ and cycloheximide caused enhancement of the rate of differentiation,although this effect was temporary in the case of GA₂. Cycloheximidedoes not affect photoperiodic induction, whereas it hastensand increases the magnitude of GA₂-induced flowering.     

Flowering and Endogenous Levels of Plant Hormones in Lemna Species

The occurrence and endogenous level of various plant hormoneswere measured for the short-day plants Lemna paucicostata 151and 381 and the long-day plant Lemna gibba G3 to determine whetherany of them are involved in the photoperiodic control of flowering.ABA, IAA, GA₁, GA₂₉, GA₃₄, GA₅₃, trans- and cis-zeatin, trans-and cis-ribosyl zeatin, N⁶-(²-isopentenyl) adenine and N⁶-(²-isopentenyl)adenosine were definitely detected in each species, while GA₄was only detected in L. gibba G3 and GA₂₀ was only detectedin L. paucicostata 151. The endogenous levels of ABA and IAAwere in the range of 1–7 ng/g fr wt and were not significantlydifferent in vegetative and flowering plants. The endogenousgibberellin levels were generally higher in Lemna grown underlong-day rather than short-day conditions. The endogenous cytokininlevels were almost the same in both flowering and vegetativeplants of L. paucicostata 151 and 381. In L. gibba G3, however,the level of cis-ribosyl zeatin, N⁶-(²-isopentenyl) adenineand N⁶-(²-sopentenyl) adenosine were higher in vegetative thanin flowering plants. These results indicate that there is not necessarily a directrelation between endogenous plant hormone levels and flowering,and that the chemical basis for the photoperiodic control offlowering cannot be explained solely by changes in hormone levels.The possibility remains, however, that one or more of the planthormones has some influence of secondary importance on the floweringprocess in Lemna. (Received January 29, 1986; Accepted July 12, 1986)     

Stimulation of the Flowering of Pharbitis nil Chois. by Gibberellin A3 : Time Dependent Action at the Apex

Gibberellin A₃ (GA₃) stimulated flowering when it was appliedto the shoot apex of seedlings of Pharbitis nil, dwarf strainKidachi; but, not when it was applied to the cotyledons. GA₃applied to the plumule before or shortly after the start ofan inductive dark period promoted both flowering and shoot elongation;but, the later the time of application during the dark periodless the promotion of flowering, although marked promotion ofshoot elongation always took place. The variation with time in the response of flowering to GA₃indicates that early floral processes at the apex are stimulatedby GA₃, but that subsequent processes are insensitive to it.The early processes of floral stimulus produced by a 16 hr inductivedark period probably are completed within 20 hr at 28°Cafter the end of the dark period. At low temperatures, suchas 15 and 20°C, early floral processes continued for morethan 40 hr. When cotyledons were removed at various times, the export ofthe floral stimulus to the shoot apex was apparent within hoursof the generation of the floral stimulus in the cotyledons,which started with the passage of the critical 9-hr dark period. (Received February 18, 1981; Accepted March 24, 1981)     

Specific interactions in the physiology of flowering and gibbosity of Lemna gibba G3

Fronds of Lemna gibba G3 became conspicuously gibbous when ethrel,an ethylenereleasing compound, was added to the nutrient medium.Maximal gibbosity was obtained at ethrel concentrations of 1µg/ml and higher. Unlike the chelating agent, EDDHA, whichcauses profuse flowering and markedly gibbous fronds under long-dayconditions, ethrel did not affect flowering. In the presenceof an optimal concentration of EDDHA (10 µ/ml), ethreleven significantly inhibited flowering and caused developmentof excessively gibbous fronds. Autoclaved gibberellic acid specifically negated the ethreleffect as it does that of EDDHA. Three decomposition productsof GA₃, allogibberic acid, epiallogibberic acid and gibbericacid, also nullified flowering and gibbosity in the presenceof EDDHA. A fourth decomposition product of GA₃, epigibbericacid, inhibited gibbosity but hardly affected flowering. Salicylic acid was confirmed to affect flowering and gibbosityin L. gibba G3. However, contrary to an earlier report, it didnot induce flowering under short-day conditions. (Received January 10, 1976; )     

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     

The Role of Benzoic Acid and Plant Hormones in Flowering of Lemna gibba G3

The level of benzoic acid was measured in Lemna gibba G3 grownon M and E media under inductive and non-inductive daylengths.Benzoic acid was slightly higher in plants grown on M mediumbut there was no difference in the benzoic acid levels in floweringand vegetative plants. When L. gibba G3 was grown under continuouslight on 1/10 M medium or 1/2 H medium there was virtually noflowering, but addition of benzoic acid to either medium ledto a substantial flowering response. In both cases this floweringresponse was inhibited by the plant hormones IAA, GA₃, ABA andzeatin, with IAA and GA₃ being the least inhibitory and ABAbeing the most inhibitory. This same pattern of inhibition wasseen when L. gibba G3 was grown on M medium under continuouslight, conditions that lead to photoinduction of flowering.These results leave open the possibility that endogenous benzoicacid may interact with other factors to influence the floweringresponse in L. gibba G3. (Received November 13, 1984; Accepted February 27, 1985)     

Metabolism of [14C]GA20 in a Cell-Free System from Developing Seeds of Phaseolus vulgaris L.

The metabolism of [¹⁴C]GA₂₀ during seed maturation of Phaseolusvulgaris was studied using cell-free systems from embryos rangingin age from 10 DAF (day after flowering) to 24 DAF. Enzyme preparationsfrom very immature seeds actively converted GA₂₀ to GA¹, GA₅and GA₆. The ratio of incubation products suggested the biosyntheticpathway of GA₂₀—GA₅—GA₆. Fluctuation in the levelsof endogenous C₁₉-GAs, namely GA₁, GA₄, GA₅, GA₆, GA₈, GA₉ andGA₂₀ was analyzed by GC-SIM using internal standards to compareenzyme activity with the levels of endogenous GAs. AlthoughGA₁, GA₄ and GA₆ showed maximum levels on 20 DAF, enzyme activitydecreased during seed maturation and showed weak activity on20 DAF. ¹Graduate student of the University of Tokyo, Department ofAgricultural Chemistry, Bunkyo-ku, Tokyo 113, Japan. ³Present address: Pesticides Research Laboratory, TakarazukaResearch Center, Sumitomo Chemical Co., Ltd., Takarazuka, Hyogo655, Japan. (Received December 17, 1987; Accepted March 30, 1988)     

Responses of normal and dwarf Pharbitis nil to an extended dark period and gibberellic acid

The effects of a 24 hr short day, a 24 hr long day, and a 48hr short day were analyzed with regard to flowering and stemgrowth of normal and dwarf Pharbitis nil, and were comparedto effects of these photoperiodic treatments plus applied GA₃.Both short day treatments produced the same number of flowersper plant after seven cycles. The applied GA₃ was effectivein overcoming the growth deficiency of the dwarf; however, theextended dark period of the 48 hr short day and applied GA₃were both required to enhance a flowering response in the dwarfequal to that of the normal. These results indicate that somefactor is present during the extended dark period which enhancesflowering. ¹ This work was supported by NSF Grant GB-7510 and State supportedresearch TTU-191-4771 to M. W. C. ² Present address: Department of Biology, Union University,Jackson, TN 38301, U.S.A. (Received September 4, 1979; )     

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)     

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)     

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)     

Metabolism of Gibberellins in Cell-Free Extracts of Anthers from Normal and Dwarf Rice

Cell-free extracts were prepared from anthers of normal anddwarf rice (Oryza sativa L.), and the metabolism of radioisotope-labeledgibberellins in the extracts was analyzed by HPLC and gas chromatography-massspectrometry (GC/MS). GA₁₂ was converted to GA₁₅ and GA₃₄ inthe extracts. GA₂₀ was converted to GA¹, GA₈ and GA₂₉, but GA₉was converted only to GA₃₄. The extracts of the dwarf cultivar,Waito-C (dy mutant), showed the same 3ß-hydroxylationactivity as did those of the normal cultivar, Nihonbare, indicatingthat the dy gene is not expressed in the anthers. These resultssuggest that the regulation of the biosynthesis of gibberellinsin rice is organ-specific. (Received November 9, 1989; Accepted January 10, 1990)     

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)     

Enhancement of Gibberellic Acid-stimulated Hypocotyl Elongation of Lettuce (Lactuca sativa L. cv. Grand Rapids) by Phlorizin and Light

The interaction of light, gibberellic acid (GA₃), and phlorizinin the growth of lettuce (Lactuca sativa L. cv. ‘GrandRapids’) hypocotyls was investigated. At all concentrationsof GA₃, phlorizin enhanced GA₃-induced growth at luminous intensitiesabove 50 ft-c (continuous light). Without GA₃, phlorizin hadno effect on hypocotyl growth in the light but it inhibitedgrowth in the dark. Both seedlings and hypocotyl sections respondedto phlorizin in the presence of GA₃. There was no iteractionbetween phlorizin and KCl. Water-growth was severly inhibitedby light. GA₃,-induced growth was slightly inhibited by light,and then only at luminous intensities above 50 ft-c. Thus, relativeto H₂O-growth, GA₃-induced growth increased with increasingluminous intensity up to 450 ft-c, where it reached saturation.It seems that a synergism may exist between light and GA₃ aswell as between phlorizin and GA₃. Lactuca sativa L, lettuce, hypocotyl elongation, gibberellic acid, phlorizin, light     

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. )