The responsiveness of Avena fatua aleurone protoplasts to gibberellic acid

The sensitivity to gibberellic acid (GA₃) of aleurone protoplasts isolated from a single harvest of an inbred line of Avena fatua seed that had been after-ripened over anhydrous CaCl₂ at 25±2°C and 4±2°C for three years was assessed. Protoplasts isolated from aleurones of seed stored at 25°C produced substantially more -amylase in response to 10^–7 M GA₃ than those isolated from aleurones of seed stored at 4°C. The apparent difference in responsiveness does not appear to be due to a change in the duration of the lag phase between addition of GA₃ and the production of -amylase. The dose response of aleurone protoplasts to GA₃, measured as -amylase production, is complex and appears to have three phases. Protoplasts from seed stored at both temperatures respond appreciably to 10^–14 M GA₃. With increasing concentrations of GA₃, up to 10^–9 M, -amylase production increases similarly in protoplasts from both lots of seed, reaching a level approximately 2.7–3.8 times greater than when no GA₃ is applied. GA₃-induced -amylase production increases markedly as the concentration is raised from 10^–9 M to 10^–6 M, and the response then appears to be saturated. Over this part of the response curve protoplasts from the two seed lots differ markedly in their responsiveness to GA₃. Those from seed stored at 25°C produce considerably more -amylase, >130-fold higher than the minus GA₃ control, than those from seed stored at 4°C, <35-fold higher than the minus GA₃ control. This apparent difference in the responsiveness of aleurone protoplasts to GA₃ could be correlated with the loss of embryo dormancy in seed stored at 25°C. Seed stored at 4°C retained the dormancy characteristics present immediately after harvesting.     

Synergistic promotion of gibberellin and cytokinin on direct regeneration of floral buds from in vitro cultures of sepal segments in sinningia speciosa hiern

Summary This study reports the direct regeneration of flower buds from cultured sepal segments of Sinningia speciosa Hiern. Two types of floral bud regeneration were observed: regeneration of floral buds only (designed as B^F) and regeneration of both floral and vegetative buds (designed as B^F+V). The capacity of B^F regeneration was closely related to the location of sepal segments and the concentration of exogenous gibberellin (GA₃) and cytokinin in the medium. On the medium containing 1.0mgl^&#x2212;1 GA₃, the addition of 6-benzyladenine (BA) significantly increased the frequency of total flower bud (B^F+B^F+V) formation, with the frequency up to 91.5% in the presence of 0.4mgl^&#x2212;1 BA. On the medium containing 0.1mgl^&#x2212;1 BA, the addition of GA₃ also increased the frequency of total flower bud regeneration, with the frequency up to 74.3% in the presence of 1.0mgl^&#x2212;1 GA₃, but no further increase in regeneration was observed when the GA₃ concentration was higher than 1.0mgl^&#x2212;1. The capacity of B^F regeneration from different locations of sepal segments was differential. The adaxial part of sepal segments gave rise to the highest frequency of 56.7 and 84.3% for B^F and B^F+B^F+V, respectively.     

Induction of stem elongation on in vitro chicory root explants under unfavourable photoperiodic conditions by gibberellin A3

Flowering stems are formed under long-day conditions on root explants of chicory (Cichorium intybus L.) cultured in vitro while under short days, only vegetative growth is observed. Under short-day conditions (12 h), stem elongation is induced by treating newly formed shoot apices with GA₃ (1 l, 10^–3M). No flower buds were formed on the GA₃-induced stems. Long days seem to be indispensable for the induction of flower buds on the elongated stem.     

Hormonal Profile in Vegetative and Floral Buds of Azalea: Levels of Polyamines, Gibberellins, and Cytokinins

The floral transition includes a complex system of factors that interact and involve various biochemical signals, including plant growth regulators. The physiological signals involved in the control of the floral transition have been sparsely studied and mainly in plant species whose genetics are poorly known. In this work, the role of polyamines, gibberellins, and cytokinins was investigated by analyzing their endogenous content in vegetative and floral buds of azalea. The results showed that there is a clear distinction between floral and vegetative buds with respect to the levels of these plant hormones, with floral buds containing higher amounts of conjugated polyamines, gibberellins (GAs) from the non-13-hydroxylation pathway (GA₉, GA₇, and GA₄), and cytokinins (particularly isopentenyl-type species), and vegetative buds containing higher amounts of free polyamines and gibberellins from the early 13-hydroxylation pathway and fewer cytokinins. In conclusion, there is a specific pattern of endogenous hormone profiles in both vegetative and floral bud development in azalea, which may be relevant for future research on the control of flowering by exogenous hormone applications.     

Morphological and hormonal characterisation of strawberry vitroplants raised through axillary or stipular adventitious shooting

Adventitious stipular bud formation occurred in vitro in many strawberry cultivars during the proliferation phase onmedium containing Knop macronutrients, MS micronutrients, vitamins, aminoacids,2.22 M BAP, 2.46 M IBA and 0.29M GA₃. As described previously for cultivarGorella,cultivar Elsanta also showed adventitious stipular buds developing on theabaxial median zone between the stipule tips. To compare the shoots producedfrom both types of buds, clonal propagation was initiated from stipular budsandfrom axillary buds on the above mentioned medium. Stipular buds were separatedfrom the meristem-tip initiated plantlet and cultivated in the presence of alower BAP concentration (1.33 M) to prevent further stipularbud formation.During proliferation cycles, stipular originated propagules werevery easily distinguished by their specific leaf phenotype and light greencolour in comparison to plantlets cloned for an axillary bud. Theirmultiplication rate and cytokinin content were also higher than for axillarybuds. No significant difference was observed in auxin content.     

Gibberellins and bud break,vegetative shoot growth and flowering in Metrosideros collina cv. Tahiti

Applications of the growth promotive gibberellins (GAs) GA₄ and 2,2-dimethyl GA₄, and of C-16,17 endo-dihydro GA₅, which is known to promote flowering while inhibiting stem growth in the long-day grass Lolium temulentum, were made to micropropagated plants of Metrosideros collina cv. Tahiti, a highly ornamental cultivar with an intermittent flowering pattern. Gibberellin A₄ and 2,2-dimethyl GA₄ stimulated vegetative growth both in elongating shoots, and internodes of shoots developing from buds that were quiescent at the time of GA application. Abscission of the apices of expanding shoots, a feature of mature Metrosideros plants, was inhibited by these GAs, the rejuvenation of micropropagated plantlets being enhanced. However, C-16,17 endo-dihydro GA₅ differed from GA₄ and 2,2-dimethyl GA₄ by having no promotive effects on vegetative growth, and no inhibition of apical abscission. Notwithstanding this contrasting effect on vegetative growth, high doses of GA₄ or C-16,17 endo-dihydro GA₅ similarly reduced flowering on shoots to which either GA was applied. Reduced flowering in response to applied GAs is common in many woody angiosperms, and in this instance was probably the combined result of abortion of developing floral structures in quiescent buds, and a preferential inhibition of bud break for floral buds relative to vegetative buds, particularly by GA₄. Finally, both C-16,17 endo-dihydro GA₅ and GA₄ strongly inhibited bud break in this woody angiosperm, although GA₄ could initially stimulate bud break when applied to vegetative buds close to the expansion stage. The above findings, in toto, highlight the sensitivity of Metrosideros to both classes of GA in a variety of growth and development processes.     

The Interaction of Plant Growth Regulators and Vernalization on the Growth and Flowering of Cauliflower (Brassica oleracea var. botrytis)

The growth and flowering response of a cold-requiring cauliflower (Brassica oleracea var. botrytis cv. 60 day) to a range of temperatures under 10 h photoperiod and to growth regulator application were investigated. Endogenous gibberellin A₁(GA₁) concentrations were also assessed under these treatments. Flowering and growth of the inflorescence stalk were correlated with plant developmental stage at the time of a vernalizing cold treatment. Temperature and its duration also affected flowering and inflorescence development. The most effective temperature for inflorescence induction was 10 °C. Flowering did not occur in non-vernalized plants (25 °C) even though they had been treated with GA₃. Application of GA₃ promoted inflorescence stalk elongation greatly in vernalized plants (10 °C), but less so in partially vernalized plants (15 °C or 20 °C). Paclobutrazol (PP₃₃₃) sprayed at the 8–9 leaf stage significantly suppressed inflorescence stalk length and slightly delayed flower bud formation and anthesis. Vernalization at 10 °C increased endogenous GA₁ content in both leaves and the inflorescence stalk irrespective of GA₃ or PP₃₃₃ treatment. Application of GA₃ tended to increase GA₁ levels, while PP₃₃₃ significantly reduce GA₁, both irrespective of vernalization. Vernalization is an important factor for flowering, but not curd formation in this cauliflower cv. 60 day and GA₁ is likely a causal factor in inflorescence stalk elongation.     

In vitro morphogenetic responses of Ilex paraguariensis nodal segments treated with different gibberellins and Prohexadione-Ca

One-bud nodal segments of Ilex paraguariensis (yerba mate) were cultured in vitro in a sugar-rich medium with different gibberellins or an inhibitor of their synthesis. Bud sprouting, shoot length (assessed as shoots of less or more than 5 mm) and bud abscission were evaluated after 45 d of culture in a growth chamber at 27±2 °C, with a 14 h photoperiod of white fluorescent light. There was a differential effect of the two types of gibberellins used; the double bond ring-A gibberellins (GA₃ and GA₇) inhibited shoot length, while the non double bond-ring A gibberellins (GA₁ and GA₄) stimulated shoots with a length of more than 5 mm. Prohexadione-Ca (Bx-112; a late step gibberellin biosynthesis inhibitor), at high doses, restrained bud sprouting up to 75%, but lower doses promoted shoot lengthening.     

Floral induction by gibberellic acid in Impatiens balsamina,a qualitative short-day plant

Summary In the qualitative short-day plant Impatiens balsamina, gibberellic acid (GA₃) not only promoted the formation of floral buds in response to suboptimal photoinductive conditions and reduced the number of SD cycles that are required for their development into flowers, but also caused initiation of floral buds under non-inductive photoperiods. In plants treated with repeated applications of GA₃, the floral buds developed into flowers irrespective of whether the apex was left intact or was removed. In those that received a single application of GA₃ the floral buds developed into flowers only in decapitated plants.     

Gibberellic acid causes earlier flowering and synchronizes fruit ripening of coffee

The effect of 100 mgl^–1 gibberellic acid (GA₃) on flowering and fruit ripening synchrony, fruit set, fruit fresh weight, and vegetative growth were studied for different size classes of coffee (Coffea arabica L. cv. Guatemalan) flower buds. Flower buds that were > 4 mm, but not developed to the candle stage at the time of GA₃ treatment, reached anthesis 20 days earlier than the controls, and their development was independent of precipitation, unlike the controls. Fruit from buds that were treated with GA₃ at the candle stage showed earlier and more synchronous ripening than the control, although no differences in flowering were found during anthesis. Buds that were smaller than 4 mm at the time of treatment did not respond to GA₃ applications. Treatment with GA₃ did not affect fruit set, fresh weight of fruits, or vegetative shoot growth.     

Effects of temperature on the rates of oxygen consumption during morphogenesis and diapause in the egg stage of Letopterna dolobrata (Heteroptera,Miridae)

Summary Oxygen consumption at 25°C was measured continously throughout the egg stage of Leptopterna dolobrata (more than 9 months).The rate of O₂-uptake (l O₂/100 eggs · 1 h) is low in freshly laid eggs. Maintaining the eggs at a constant temperature of 16°C, respiration rises abruptly from the first day after oviposition and continues rising steadily for 3 days, reaching an average value of 1.4 l. Oxygen consumption persists at or near this high level during the developmental phase of prediapause, which lasts about 15 days. After some days of oscillating high and low values, respiration decreases, and from the 24th day a low level (0.3–0.4 l) is reached. If the eggs are incubated at 16°C continuously, this low diapause-level is maintained until the end of the experiments (42 weeks) and diapause is terminated in a few eggs only.A significant increase in the success of hatching is obtained by exposing the eggs to a sufficient period of chilling.24 groups of diapausing eggs were chilled at 5°C for certain periods (10, 18, 22, 26, 31, and 34 weeks) and afterwards transferred to 16°C and re-incubated. The changes of their O₂-uptake at 25°C were traced throughout their chilling and successive re-incubating periods.Oxygen consumption is greatly accelerated during the cold treatment of the eggs. The low values of the diapause-level are raised progressively during the first 6 weeks of chilling. After this primary rapid increase, respiration remains at a level 5-times as high as the diapause values over a period up to the 25th week at 5°C. This is almost exactly the duration of mesodiapause (6 months).The rates of O₂-uptake during the subsequent re-incubation at 16°C depend on the extent of chilling. The ability of diapause-breaking is correlated to the rates of O₂-uptake, measured after setting of re-incubation. If respiration never decreases by the onset of re-incubation, diapause is terminated in most of the eggs, and the rates of O₂-uptake increase as re-incubation goes on towards the emergence of the larvae (postdiapause period).A preliminary interpretation of the cold-stimulated O₂-uptake in diapausing Leptopterna-eggs is given.Dedicated to Prof. Dr. H. Precht (Kiel) on the occasion of his 65th birthday     

Quantification of GA1, GA3, GA4, GA7, GA9, and GA20 in vegetative and male cone buds from juvenile and mature trees of Pinus radiata

The gibberellins GA₁, GA₃, GA₄, GA₇, GA₉ and GA₂₀ were quantified in vegetative and pollen cone buds of juvenile and mature trees of Pinus radiata by combined gas chromatography-mass spectrometry and selected ion monitoring (GC-MS-SIM) using deuterated GAs as internal standards. Higher levels of GA₇ and GA₉ and lower levels of GA₄ were detected in juvenile vegetative buds compared to mature buds, and there were no differences in relation to age for GA₁, GA₃ and GA₂₀. Conversely, when differences between vegetative and pollen cone buds from a mature tree were studied, the highest levels of GA₁ and GA₄ were found in pollen cone buds, similar levels of GA₃, GA₇ and GA₉ were observed in both, and ten fold lower levels of GA₂₀ were found in pollen cone buds as compared with vegetative buds. These results indicate a difference in GA metabolism in relation to both the tree age as well as the physiological status of buds: vegetative or reproductive in this conifer.     

Replacement of chilling requirement in seeds of Ruellia humilis by gibberellic acid

Summary Gibberellic acid (GA₃) completely replaced the chilling requirement of intact, dormant seeds of Ruellia humilis. At 30° 100 and 1000 mg/l completely replaced the chilling requirement, while in seeds germinated at 25° 100 mg/l GA₃ was ineffective but 1000 mg/l entirely replaced the after-ripening requirement at low temperature.This work was supported by an NIH Biomedical Sciences Support Grant to the University of Kentucky.     

Dormancy in peach (Prunus persica L.) flower buds

Morphological studies were carried out with peach flower buds collected monthly in 1989 and 1990, from two months before leaf fall (7 March) until two to three weeks before bloom (7/8 August). Chilled (2–4°C for 30 days) and unchilled buds were exposed to 20 to 25°C, 100% RH and continuous light. Gibberellin A₃ (3 ng or 30 ng) was applied to some of the non-chilled cuttings at three days intervals. Then, 12, 19, and 26 days after they were planted, the buds were sampled and processed for histological studies. Cultured flower buds (chilled or unchilled) had accelerated anther and gynoecium morphogenesis after 12 days under controlled conditions, compared to buds processed immediately after collection from the field. Chilling treatment augmented the bud culture effect, while Gibberellin A₃ applications to the excised buds retarded bud morphogenesis to a stage comparable to that of buds collected directly from the field. This, suggests that the comparatively high levels of Gibberellin A_1/3 we previously found in mid winter [15, 18] could be at least one of the factors that controls floral bud dormancy by retarding anther and gynoecium development.     

Growth stimulation ofEuphorbia lathyris L. by GA4+7 and BA

Container-grownEuphorbia lathyris plants were treated with foliar sprays of various combinations of BA and GA₄₊₇ or 0–3600 mg L^–1 Promalin (11 BA + GA₄₊₇) in separate experiments. GA₄₊₇ and Promalin stimulated plants to grow taller. BA and Promalin promoted axillary shoot growth. Multiple applications of Promalin stimulated branching more than single treatments. Dry weight accumulation was stimulated only if the growth regulators were applied to 28–33-cm and not to 56-cm tall plants. Chemical names used: (1, 2, 4a, 4b, 10)-2,4a,7-trihydroxy-1-methyl-8-methylenegibb-3-ene-1,10-dicarboxylic acid 1,4a-lactone (GA₄₊₇),N-(phenylmethyl)-H-purin-6-amine (BA), and Promalin [11 (wt/wt) GA₄₊₇ and BA].The use of the name Promalin or other trade names does not imply endorsement to the exclusion of other products or vendors that may also be suitable.     

Effect of Gibberellic Acid, 2,3,5-Triiodobenzoic Acid and Indole Acetic Acid on Growth and Development of Impatiens balsamina during Different Photoperiods

This paper deals with the effect of 100 mg/1 each of GA₃ TIBA and IAA singly and in combination with each other on stem elongation, development of lateral branches and floral bud initiation in Impatiens balsamina plants exposed to 8-, 16- and 24-h photoperiods. GA₃ enhances stem elongation, the enhancing effect decreasing with IAA as well as with TIBA during 8-h but increasing during 16- and 24-h photoperiods. It decreases the number of lateral branches, the decrease being greatest during 16-, less during 8- and the least during 24-h photoperiods. The time taken for floral buds to initiate with and length of branches during 16-h photoperiods. During 8-h photoperiods, IAA delays the initiation of floral buds, while GA₃ hastens it when used together with TIBA or IAA or both. GA₃ increases the number of floral buds on the main axis but decreases it on lateral branches, while TIBA decreases the number on the main axis but increases it on lateral branches. IAA reduces the number of floral buds on the main axis only when used alone, but on both the main axis as well as on lateral branches when used together with GA₃ and TIBA. Floral buds were not produced on lateral branches when plants were treated with GA₃, TIBA and IAA all together. GA₃ and TIBA induced floral buds even under non-inductive photoperiods, the number of buds and reproductive nodes being less in TIBA- than in GA₃-treated plants during 24-h photoperiods. The time taken for floral buds to initiate with GA₃ and TIBA during noninductive photoperiods is much longer than that during 8-h inductive photoperiods with or without GA₃ or TIBA application. IAA completely inhibits the GA₃- and TIBA-caused induction during 24-h, but only delays it and reduces the number of reproductive nodes and floral buds during 16-h photoperiods.     

Effect of Gibberellic Acid and Some Phenols on Flowering of Impatiens balsamina, a Qualitative Short-day Plant

GA₃ as well as SA (salicylic acid) and β-N (β-naphthol) induce floral buds in Impatiens balsamina under strictly non-inductive photoperiods. The floral bud initiation is accelerated when 1 mg/1 SA is used in combination with 100 mg/1 GA₃. 100 mg/1 GA₃+ 1 mg/1 SA and 100 mg/1 GA₃+ 100 mg/1 β-N increase the number of floral buds as compared with 100 mg/1 GA₃ alone.     

THE EFFECTS OF HORMONES UPON THE DEVELOPMENT OF EXCISED FLORAL BUDS OF AQUILEGIA

Young excised floral buds of Aquilegia were grown on defined medium containing kinetin, indoleacetic acid (IAA), or gibberellic acid (GA₃). Only when 10⁻⁶ or 10⁻⁷ m kinetin was added to the basal medium was there a significant increase in the number of initiated whorls of primordia. Buds on the basal medium or on medium with IAA or GA₃ failed to initiate carpels. On medium with 10⁻⁶ or 10⁻⁷ m kinetin, buds successfully initiated a normal whorl of five carpels. A high level of inorganic nitrogen was also required for the initiation of carpels. With 10⁻⁵ m kinetin, individual buds initiated from 6–18 carpels. Staminodial primordia of these buds were replaced with carpels, or the floral apex enlarged to accommodate a single whorl of many carpels. Kinetin did not support the further differentiation of the floral organs. Sepals, petals, and carpels did differentiate on medium with GA₃, but stamens aborted. However, on medium with GA₃ and kinetin, stamen primordia differentiated into short filaments and anthers. Further unknown growth factors appear to be required for the complete differentiation of floral primordia into mature organs.     

Micropropagation ofPinus sylvestris

Plantlet regeneration from axillary buds, induced on seedling apices ofPinus sylvestris, is described. The influence of medium containing 1, 5, 10 or 50 M BA on the initiation of buds on 3, 6 and 9-week-old seedlings was investigated. With higher BA concentrations the number of apices that formed buds and the total number of buds increased, wheres their length decreased. Soaking the explants for 2 h in 111 M BA and for 5 h in 44 M BA gave better results, best expressed in longer buds. After 30 days, axillary buds were separated and transferred to a medium with 2% sucrose. Separated buds exposed to far-red light during the first week elongated better in comparison with the control. 64% of shoots rooted after a 24 h period of treatment with 53.8 M NAA incorporated in 0.6% water agar and transferred to 1/16-strength Murashige & Skoog medium as modified by Cheng supplemented with 1% sucrose.     

The control of bud dormancy in potato tubers. Measurement of the seasonal pattern of changing concentrations of zeatin-cytokinins

A radioimmunoassay, combined with high-performance liquid chromatography, has been used to analyse the zeatin-type cytokinins of potato (Solanum tuberosum L. cv. Majestic) tubers and tuber buds throughout growth and storage. During tuber growth, zeatin riboside was the predominant cytokinin detected in all tissues. Immediately after harvest, the total cytokinin concentration fell dramatically in the storage tissue, largely as a consequence of the disappearance of zeatin riboside. During storage, levels of cytokinins in the storage tissue remained relatively constant, but increased in the tuber buds. In the buds of tubers stored at 2°C there was a 20-to 50-fold increase in total cytokinin over six weeks, coinciding with the natural break of innate dormancy. At 10°C the rise in the level of bud cytokinins was slower, correlating with the longer duration of innate dormancy. Injecting unlabelled cytokinins into tubers in amounts known to induce sprouting gave rise to increases in cytokinin concentrations in the buds of the same order as the increase associated with the natural break of dormancy. Metabolism of injected cytokinins was greater in non-dormant than in dormant tubers. The roles of cytokinin concentration and the sensitivity of the buds to cytokinin in the control of dormancy are discussed.Abbreviations CK cytokinin - FW fresh weight - HPLC high-performance liquid chromatography - RIA radioimmunoassay - tio⁶ade 6-(4-hydroxy-3-methylbut-trans-2-enylamino)-purine=zeatin - tio⁶adeglc⁹ 6-(4-hydroxy-3-methylbut-trans-2-enylamino)-9--D-glucopyranosyl purine=zeatin-9-glucoside - tio⁶ado 6-(4-hydroxy-3-methylbut-trans-2-enylamino)-9--D-ribofuranosyl purine=zeatin riboside - tio⁶ado-[³H]-diol a radioactive derivative of zeatin riboside, synthesised by periodate-oxidation followed by [³H]NaBH₄-reduction - tio⁶AMP 6-(4-hydroxy-3-methylbut-trans-2-enylamino)-9--D-5-phosphoribofuranosyl purine=zeatin riboside 5-monophosphate - t(ioglc⁴)⁶ade 6-(4-O--D-glucopyranosyl-3-methylbut-trans-2-enylamino)-purine=zeatin-O-glucoside