The role of gibberellic acid in the pollen-pistil interaction in sporophytic self-incompatible systems

Self-incompatibility is exhibited by callose deposition in the stigmatic papillae and total inhibition of pollen germination in sporophytic self-incompatible (SSI) systems of Ipomoea cairica (Convolvulaceae), Brassica campestris and Raphanus sativus (Brassicaceae). This has been partially overcome, in vitro by treating pollen and/or stigma with gibberellic acid (GA₃). Experiments employing tryptophan and chlorocholine chloride either alone or in combination with GA₃ (10^–3 M) further elucidate the role of gibberellin in overcoming the barrier to self-compatibility. These results support our earlier contention [7, 24] that growth regulators play a significant role in pollen-pistil recognition in SSI systems.     

In vitro germination and growth of lily pollen tubes is affected by calcium inhibitor with reference to calcium distribution

The calcium inhibitors A23187, EGTA and La³⁺ inhibit pollen grain germination and growth of pollen tubes of Lilium davidii var. unicolor at different concentrations. Treatment with 10⁻⁴ or 10⁻⁵ M ionophores A23187 reduced germination rate and resulted in distortion of pollen tube. Addition of 2 or 10 mM of the chelator EGTA disturbed the direction of pollen tube growth and extended the diameter of pollen tube as observed by light and confocal microscopy. The Ca²⁺-channel blocker lanthanum chloride (La³⁺) restrained germination or markedly caused transformation of pollen tube. Furthermore, all treatments led to disappearance of any calcium gradient. Calcium distribution in pollen grain and pollen tube was altered as shown by confocal microscopy for each treatment. This indicates that the inhibitors influence pollen development by affecting the calcium gradient which may play a critical role in germination and tube growth. Fourier transform infrared (FTIR) spectra indicated slight increases in contents of amide I and a substantial decrease in the content of aliphatic esters and saturated esters in treated pollen tubes compared with normal pollen tubes. The FTIR analysis confirmed that EGTA and La³⁺ weakened the accumulation of ester in pollen tubes, which may be associated with an increased content of amide I.     

Hormonal status of the pollen-pistil system at the progamic phase of fertilization after compatible and incompatible pollination in Petunia hybrida L.

The hormonal status of the pollen-pistil system in Petunia hybrida L. during the progamic phase of fertilization was investigated. The contents of indolyl-3-acetic acid (IAA), abscisic acid (ABA), and cytokinins, as well as the rate of ethylene production in the pistils and their parts (stigma, style, and ovary) were measured over an 8-h period following compatible and self-incompatible pollination. In both pollinations, the phytohormones were present in various proportions in the stigma, style and ovary: the stigma was the main site of ethylene synthesis and contained 90% of the ABA, while the style contained 80% of the total cytokinin content in the pollinated pistil. Relatively low levels of hormones in the ovary did not influence the hormonal status of the pollen-pistil system. The interaction of the male gametophyte with the stigmatic tissues was accompanied by a 7- to 10-fold increase in ethylene production and a 1.5- to 2.0-fold increase in IAA content in the pollen-pistil system over 0–4 h. Pollen tube growth after self-incompatible pollination, in contrast to compatible pollination, was accompanied by a 3-fold increase in the ABA content in the stigma and style and by a 5-fold higher cytokinin content in the stylar tissues. Thus, the ethylene/ABA status of the stigma may play a role in controlling the processes of adhesion, hydration, and germination of pollen grains during pollination while the auxin/cytokinin status of the style may be involved in controlling pollen tube growth.     

Gibberellic acid impairs fertilization in Clementine mandarin under cross-pollination conditions

We investigated the effect of gibberellic acid (GA₃) in the fertilization of Clementine mandarin cv. ‘Clemenules’ (Citrus clementina Hort. ex Tan.), a parthenocarpic variety that produces seedless fruit due to its self-incompatible nature, but yields seedy fruits when grown under cross-pollination conditions.Experiments were conducted with on-tree ‘Clemenules’ flowers and ‘Fortune’ mandarin pollen (C. clementina Hort. ex Tan. × C. reticulata Blanco), which is sexually compatible with the former. Preanthesis treatment at −2 days after anthesis (−2 DAA) enhanced ovule abortion in both unpollinated and cross-pollinated (at +2 DAA) flowers. In the latter, the number of pollen tubes reaching the ovules was significantly reduced although pollen grains were not treated; thus, fertilization was partially avoided and seed set was reduced. When GA₃ was applied at anthesis (0 DAA) at the time of pollination, ovule abortion was again enhanced, and pollen tube growth was completely arrested; thus, fertilization was prevented and seed set was impeded. When GA₃ was applied 24 h after pollination (+1 DAA in flowers pollinated at anthesis), pollen tube growth was impaired but not arrested and ovule abortion was enhanced; therefore, fertilization was not prevented but impaired.We conclude that, when applied the days around anthesis, GA₃ (10 mg l⁻¹) impairs fertilization by either enhancing ovule abortion or reducing pollen tube growth, in ‘Clemenules’ flowers under cross-pollination conditions. The intensity of the response depends on the physiological flower state at the moment of treatment.     

Endogenous ethylene and reversing methyl jasmonate inhibition of Amaranthus caudatus seed germination by benzyladenine or gibberellin

BA at 10^–5 M, GA₃ at 3×10^–4 M or GA₄₊₇ at 3×10^–5 M partially or largely reversed the inhibition of Amaranthus caudatus seed germination due to JA-Me. BA or GA₃ did not affect ethylene production and ACC oxidase activity in vivo in the presence of JA-Me before radicle protrusion. However, both increased ethylene production after 72 h of incubation, when the reversal of the JA-Me inhibition of seed germination was observed. AVG at 3×10^–4 M decreased ethylene production when it was applied simultaneously with BA and JA-Me or GA₃ and JA-Me, but it had no effect on seed germination. NBD almost completely reversed the stimulatory effect of BA, GA₃ or GA₄₊₇ on the germination of seeds in the presence of JA-Me. Exogenous ethylene reversed the inhibitory effect of NBD. The results indicate that action of endogenous ethylene is involved in the response of JA-Me inhibited seeds to BA or GA_s.     

Ethylene metabolism in Pisum sativum L.: Kinetic parameters,the effects of propylene,silver and carbon dioxide and comparison with other systems

The kinetic parameters of in vivo ethylene metabolism by seedlings of Pisum sativum L. cv. Alaska have been determined. The oxidation of ethylene to CO₂, (Ox) and the incorporation of ethylene into the tissue (TI) were both shown to display Michaelis-Menten kinetics (K_m Ox = 0.9 × 10^–6 M liquid phase, V_max Ox = 2.4 × 10^–10 moles g^– dry mass h^–1 K_m TI = 1.6 × 10^–6 M liquid phase, V_max TI = 4.5 × 10^–10 moles g^–1 dry mass h^–1). Propylene competitively inhibited both Ox (K_i = 7.0 × 10^–6 M) and TI (K_i = 3.7 × 10^–7 M). A system comparable to Ox was absent from imbibed cotyledons of Vicia faba L. cv. Aquadulce even at saturating concentrations of ethylene similar to those used in kinetic analysis on Pisum. Silver ions were shown to inhibit TI but promoted Ox, while carbon dioxide inhibited Ox but promoted TI. Kinetic data on both these effects are presented. Data on the effect of a range of concentrations of CO₂ on TI and Ox are also presented.To whom editorial correspondence should be sent     

Germination and <Emphasis Type="Italic">In Vitro</Emphasis> Growth of Petunia Male Gametophyte Are Affected by Exogenous Hormones and Involve the Changes in the Endogenous Hormone Level

The data obtained characterize the changes in the contents of endogenous phytohormones (IAA, cytokinins, GA, and ABA) in germinating pollen grains and growing pollen tubes of a self-compatible clone of petunia (sPetunia hybrida L.) within an 8-h period under in vitro conditions. The hydration and initiation of germination of pollen grains brought the ABA content down to a zero level, while the levels of GA, IAA, and cytokinins increased 1.5–2-fold. Later, in the growing pollen tubes, the GA content increased twofold, while the levels of IAA and cytokinins decreased. The exogenous ABA and GA₃ considerably promoted pollen germination and pollen tube growth; however, only the treatment with GA₃ produced the maximum length of pollen tubes. The exogenous IAA promoted and the exogenous cytokinins hindered the growth of pollen tubes. The membrane potential, as assessed with a potential-sensitive dye diS-C₃-(5), considerably increased in the pollen grains treated with ABA and benzyladenine, whereas IAA and GA₃ did not practically affect it. The authors conclude that the mature pollen grains contain the complete set of hormones essential for pollen germination and pollen tube growth. ABA, GA, and IAA together with cytokinins control the processes of pollen grain hydration, germination, and pollen tube growth, respectively.__________Translated from Fiziologiya Rastenii, Vol. 52, No. 4, 2005, pp. 584–590.Original Russian Text Copyright © 2005 by Kovaleva, Zakharova, Minkina, Timofeeva, Andreev.     

Ionophore A 23187 stops tip growth,but not cytoplasmic streaming,in pollen tubes ofLilium longiflorum

Summary The effects of the cationophore A 23187 on growing pollen tubes ofLilium longiflorum and on pollen germination were testedin vitro, and measured light microscopically. The ionophore is a very potent inhibitor of pollen tube growth: ionophore contentrations down to 10^–7 M stop tip growth. Cytoplasmic streaming is less sensitive: Only with added external Ca²⁺ and higher concentrations of the ionophore the cytoplasmic streaming is stopped. Pollen germination is less sensitive to ionophore than pollen tube growth at later stages. The ionophore inhibition is partially reversible in a medium containing no added external Ca²⁺, but is not reversible in a Ca²⁺-enriched medium. EDTA addition to the medium prevents pollen germination and growth totally. It is hypothesized that the pollen ofLilium longiflorum needs Ca²⁺ to sustain oriented exocytosis at the pollen tube tip. The ionophore A 23187 seems to interfere with the electrical pulse/Ca²⁺-orientation mechanism of exocytosis by equilibration of the Ca²⁺-gradient.     

Responsiveness of Amaranthus retroflexus seeds to ethephon, 1-aminocyclopropane 1-carboxylic acid and gibberellic acid in relation to temperature and dormancy

Dormant Amaranthus retroflexus seeds do not germinate in the dark at temperatures below 35°C. Fully dormant seeds germinate only at 35–40°C whereas non-dormant ones germinate within a wider range of temperatures (15 to 40°C). Germination of non-dormant seeds requires at least 10% oxygen, but the sensitivity of seeds to oxygen deprivation increases with increasing depth of dormancy. 10^–6 to 10^–4 M ethephon, 10^–3 M 1-aminocyclopropane 1-carboxylic acid (ACC) and 10^–3 M gibberellic acid (GA₃) break this dormancy. In the presence of 10^–3 M GA₃ dormant seeds are able to germinate in the same range of temperatures as non-dormant seeds. The stimulatory effect of GA₃ is less dependent on temperature than that of ethephon, while ACC stimulates germination only at relatively high temperatures (25–30°C). The results obtained are discussed in relation to the possible involvement of endogenous ethylene in the regulation of germination of A. retroflexus seeds.Abbreviations ACC 1-aminocyclopropane 1-carboxylic acid - GA₃ gibberellic acid - SD standard deviation     

Stimulation of growth of culturedNicotiana tabacum W 38 pollen tubes by poly(ethylene glycol) and Cu(II) salts

Summary Growth of pollen tubes ofNicotiana tabacum W 38 in a defined liquid medium buffered at pH 5.9 and containing sucrose, amino-acids, boric acid, salts and an antibacterial agent was stimulated by the addition of poly(ethylene glycol) 6000 (PEG-6000) and Cu_(II) salts. In the absence of both these supplements, up to 50% of the hydrated pollen grains did not develop further, and the germinated tubes were slow-growing and abnormal, with thickened walls, kinked growth, and fragile, swollen tips containing granular cytoplasm. Addition of 10–15% (w/v) purified PEG-6000 increased germination to 80–90% and prevented the progressive bursting of pollen grains and tube tips, but growth was still slow and kinked and tips remained swollen. Addition of 30 M CuSO₄ did not stimulate germination or prevent tip bursting, but produced straight-growing tubes with smooth-sided tips resembling the tips of tubes growing through stylar tissue; the free Cu²⁺ concentration under these conditions was about 1.0 M due to chelation by amino-acids, and similar tube morphologies were obtained with 1.0–1.5 M added CuSO₄ when NH₄Cl replaced the amino-acids. When the medium containing amino-acids was supplemented with both 12.5% PEG-6000 and 30 M CuSO₄, long-term (48 h) growth of straight pollen tubes with smooth-sided tips, thin walls and long ladders of callose plugs was observed; growth occurred at 250 m/h, approximately 30–40% of the rate observed in the style. Although omission of CuSO₄ from this complete medium severely affected tube growth and callose plug deposition, it did not alter the timing of generative-nucleus division, and thus the different parameters associated with the second phase of pollen-tube growth can be uncoupled in culture. High levels of FeSO₄ (300 M) had a similar morphogenetic effect to CuSO₄, but addition of 300 M L-ascorbate or D-iso-ascorbate was required to prevent precipitation of Fe_(III) oxide and prolong the stimulation of pollen-tube growth; EDTA removed the morphogenetic effect of both CuSO₄ and FeSO₄. Further, an impure grade of PEG-4000 was contaminated with an organic morphogen that allowed continued slow growth of pollen tubes with smooth, straight-sided tips in the absence of added CuSO₄ or FeSO₄, with tube morphology unaffected by ascorbate or EDTA. However, the long-term morphogenetic effect of trace levels of CuSO₄ suggests that Cu_(II) salts play an important role in pollen-tube development in at least this species ofNicotiana.Abbreviations A₄₇₅ absorbance at 475 nm - DAPI 4,6-diamidino-2-phenylindole - EDTA ethylene-diamine N,N,N,N-tetraacetic acid - MES 2-(N-morpholino)-ethane sulphonic acid - OG ordinary grade of poly(ethylene glycol) - PEG poly(ethylene glycol) - SP Specially Purified for Biochemistry grade of poly(ethylene glycol)     

Pollen tube growth is affected by exogenous hormones and correlated with hormone changes in styles in <Emphasis Type="Italic">Torenia fournieri</Emphasis> L.

In the present report, we described the effects of indole-3-acetic acid (IAA), zeatin (ZT), gibberellin (GA₃), and abscisic acid (ABA) on in vitro pollen germination and pollen tube growth in Torenia fournieri L. The results showed that IAA and GA₃ stimulated in vitro pollen tube growth, ABA inhibited pollen tube growth, and ZT had no significant effect on the process. The stimulating effect of exogenous IAA was particularly distinct, and led to synchronous growth of straighter and more slender pollen tubes compared with the controls. However, no significant changes were found in the germination of the treated pollen. The auxin efflux inhibitor, 10 μM 1-N-naphthylphthalamic acid (NPA), was also found to stimulate pollen tube growth. We measured the content of hormones (free IAA, ZT, GA₃, and ABA) in the stigmas and styles before and after pollination. The hormone contents of stigmas measured 0.5 h after pollination (0.5 HAP) showed that ABA content decreased, whereas the content of IAA, ZT, or GA₃ did not change significantly. The hormone level in pollinated styles (4 HAP) when pollen tubes had grown into the middle part of style was characterized by an increase in free IAA and GA₃ and a decrease in ABA, which was in agreement with the results that IAA and GA₃ promoted but ABA inhibited pollen tube growth in vitro. Furthermore, the change of IAA level in styles was most notable, which was accordant to the fact that auxin stimulated significantly pollen tube growth in vitro. Using immunoenzyme and immunogold labeling techniques and an anti-IAA monoclonal antibody, we confirmed that free IAA was present throughout style tissues, and distributed in the nucleus and cytoplasm of style cells. All these results suggested that hormones, especially IAA, play important roles in pollen tube growth of T. fournieri. Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

The involvement of hydrogen peroxide in UV-B-inhibited pollen germination and tube growth of Paeonia suffruticosa and Paulownia tomentosa in vitro

Previous studies have shown that UV-B could affect pollen germination and tube growth. However, the mechanism of response of pollen to UV-B has not been clear. The purpose of this study was to investigate the role of hydrogen peroxide (H₂O₂) in the UV-B-induced reduction of in vitro pollen germination and tube growth of Paeonia suffruticosa Andr. and Paulownia tomentosa Steud. Exposure of pollen of the two species to 0.4 and 0.8 W m⁻² UV-B radiation for 3 h resulted in not only the reduction of pollen germination and tube growth, but also the H₂O₂ production in pollen grain and tube. Also, exogenous H₂O₂ inhibited pollen germination and tube growth of the two species in a dose-dependence manner. Two scavengers of H₂O₂, ascorbic acid and catalase, largely prevented not only the H₂O₂ generation, but also the reduction of pollen germination and tube growth induced by UV-B radiation in the two species. These results indicate that H₂O₂ is involved in the UV-B-inhibited pollen germination and tube growth.     

Protein synthesis in tobacco pollen tubes: preferential synthesis of cell-wall 69-kDa and 66-kDa glycoproteins

One- and two-dimensional electrophoresis of Nicotiana tabacum pollen and pollen tube proteins confirmed that a new protein is preferentially synthesized during pollen germination and tube growth and becomes the most abundant protein in pollen tubes. Analysis of proteins extracted with sodium dodecyl sulfate (SDS) from different pollen tube fractions showed that it is the most abundant non-covalently bound wall protein, characterized by molecular mass of 69 kDa, pI between 7.9 and 8.2, and glycosylation with glucose and/or mannose. Amino acid analysis revealed relative abundance of serine, glutamic acid and glycine, but did not show the presence of hydroxyproline. According to all these characteristics, it cannot be classified as an extensin-like protein. Another prominent wall-bound glycoprotein has a molecular mass of 66 kDa and the same pI as the 69 kDa glycoprotein. These two glycoproteins are similar also in ConA binding, rate of synthesis, and rapid incorporation into pollen tube walls. Their synthesis is strongly reduced by tunicamycin and this inhibition results in the occurrence of new polypeptides in the range of 57–61 kDa. Tunicamycin also inhibited pollen tube growth. At 10 ng ml^-1 and 50 ng ml^-1 the inhibitor reduced pollen tube mass after 24 h of culture by 30% and 85%, respectively. This indicates that tobacco pollen presents a system highly sensitive to tunicamycin and that cotranslational N-linked glycosylation on the rough endoplasmic reticulum is required for 66 and 69 kDa glycoprotein formation and for pollen tube growth. Although other proteins appear during pollen germination and tube growth, the new proteins occur at low levels and seem to originate through modifications of preexisting polypeptides. In contrast to 69 and 66 kDa proteins, most proteins detected by [¹⁴C]amino acid incorporation and fluorography of gels were not revealed by Coomassie blue staining.     

Effects of boron on pollen viability in wheat

Grain set failure in wheat, caused by boron (B) deficiency, is associated with poorly developed pollen and anthers. This paper presents results of a study of the effect of B on pollen viability when it was supplied "internally" through the roots and externally in an agar medium for in vitro germination.There was no major effect of B supply to wheat plants on the number of pollen anther^-1 or the percentage of pollen with positive reaction to iodine. Pollen germination in the medium was, however, responsive to both internal and external B supply. When B was not added to the medium, germination was poor, regardless of the level of B supplied to the plant, in both a B deficiency sensitive (SW41) and a B deficiency tolerant (Sonora 64) genotypes. The percentage of germinated pollen and length of the pollen tube increased with increasing medium B. With 20–100 mg H₃BO₃ L^-1 in the medium, the percentage of germinated pollen and length of the pollen tube responded positively to increasing B supply to the plant.No difference was found between sensitive and tolerant genotypes in the effect of B on their pollen viability. On the other hand, without added B in the nutrient solution applied to the plant, grain set was depressed in the B deficiency sensitive SW41 and not in the B deficiency tolerant Sonora 64. A difference in B supply to the germinating pollen in the stigma and style is one possible explanation for this variation in the response to B among wheat genotypes.     

Development of membrane- and calcium-gradients during pollen germination of Lilium longiflorum

Chlorotetracyclin (10^-4M) has been used to observe the distribution of membrane-associated calcium during pollen germination of Lilium longiflorum. For comparison, the general membrane distribution has been determined with 4·10^-5 M fluorescamine. The pollen grains show a calcium gradient with either weak or strong chlorotetracycline-fluorescence intensity, but always increasing toward the germination colpus. This gradient intensifies during germination, reaching a maximum before the pollen tube emerges. The typical tip-to-base calcium gradient of the tube does not change during growth. Independent of the developmental stage, the pollen grains show a flat fluorescamine-fluorescence gradient with the highest intensity in one half of the grain. Pollen tubes reveal a tip-to-base membrane gradient, independent of their length. As an additional marker for membrane distribution, the distribution of phosphorus, measured by proton-induced X-ray emission in chemically fixed tubes, has been used. A tip-to-base phosphorus gradient, distinct from the calcium gradient measured with the same method, was detected.Abbreviation CTC chlorotetracycline     

Second-messenger-induced signalling events in pollen tubes of Papaver rhoeas

A role for cytosolic free Ca²⁺ (Ca²⁺_i) in the regulation of growth of Papaver rhoeas pollen tubes during the self-incompatibility response has recently been demonstrated [Franklin-Tong et al. Plant J. 4:163–177 (1993); Franklin-Tong et al. Plant J. 8:299–307 (1995); Franklin-Tong et al. submitted to Plant J.]. We have investigated the possibility that Ca²⁺_i is more generally involved in the regulation of pollen tube growth using confocal laser scanning microscopy (CLSM). Data obtained using Ca²⁺ imaging, in conjunction with photolytic release of caged inositol 1,4,5-trisphosphate [Ins(1,4,5)P₃], point to a central role of the phosphoinositide signal transduction pathway in the control of Ca²⁺ fluxes and control of pollen tube growth. These experiments further revealed that increases in cytosolic levels of Ins(1,4,5)P₃ resulted in the formation of distinct Ca²⁺ waves. Experiments using the pharmacological agents heparin, neomycin and mastoparan further indicated that Ca²⁺ waves are propagated, at least in part, by Ins(1,4,5)P₃-induced Ca²⁺ release rather than by simple diffusion or by “classic” Ca²⁺-induced Ca²⁺ release mechanisms. We also have data which suggest that Ca²⁺ waves and oscillations may be induced by photolytic release of caged Ca²⁺. Ratio-imaging has enabled us to identify an apical oscillating Ca²⁺ gradient in growing pollen tubes, which may regulate normal pollen tube growth. We also present evidence for the involvement of Ca²⁺ waves in mediating the self-incompatibility response. Our data suggest that changes in Ca²⁺_i and alterations in growth rate/patterns are likely to be closely correlated and may be causally linked to events such as Ca²⁺-induced, or Ins(1,4,5)P₃-induced wave formation and apical Ca²⁺ oscillations.Presented at the 1997 SEB Annual Meeting: Interactive MultiMedia Biology - Experimental Biology Online Symposium, Canterbury, 7-11 April     

Effect of light intensity and ammonium-N on carotenogenesis ofTrentepohlia odorata andDunaliella bardawil

AxenicTrentepohlia odorata was cultured at three different NH₄Cl levels (3.5 × 10^–2, 3.5 × 10^–3, 3.5 × 10^–4 M) and three different light intensities (48, 76, 122 µmol m^–2 s^–1). Chloride had no effect on growth over this range of concentration. High light intensity and high NH₄Cl concentration enhanced the specific growth rate. The carotenoid content increased under a combination of high light intensity and low N concentration. WhenD. bardawil was exposed to the same combination of growth conditions, there was an increase in its carotenoid content. The light saturation and the light inhibition constants (K _s andK _i, respectively) for growth, and the saturation constant (K _m) for NH₄Cl were determined. TheK _s andK _i values were higher inT. odorata (66.7 and> 122 mol m^–2 s^–1, respectively) than inD. bardawil (5.1 and 14.7 µmol m^–2 s^–1, respectively). TheK _m value determined at 122 µmol m^–2 s^–1, however, was lower inT. odorata (0.048 µM) than inD. bardawil (0.062 µM).Author for correspondence     

Gibberellin induces endopeptidase activity in detached cotyledons of Pisum sativum

Endopeptidase activity in cotyledons of 5-day seedlings of Pisum sativum increased rapidly during germination. However, the increase of the activity in detached cotyledons was depressed. We examined whether a growth regulator can be substituted for the embryonic axis on the development of endopeptidase activity. As monitored by an assay with azoalbumin, the development of endopeptidase activity from crude extracts of detached cotyledons appeared to be slightly accelerated by incubation with 10^–5 M GA₃. However, the pattern after gelatin-polyacrylamide gel suggested that the activity induced in detached cotyledons during a 5-d incubation at 10^–7 M GA₃ was the same as that in attached ones during germination for 5 days and an even greater increase in activity was obtained with 10^–5 M GA₃. These results suggest that GA₃ from the embryonic axis induces endopeptidase activity in attached cotyledons at the first stage of germination.Abbreviations ABA abscisic acid - IAA indole-3-acetic acid - GA gibberellic acid     

Ethylene synthesis in petunia stigma tissues governs the growth of pollen tubes in progamic phase of fertilization

In the pollen-pistil system of petunia (Petunia hybrida L.) self-compatible and self-incompatible clones within 7 h after self-pollination, we determined the content of ACC (1-aminocyclopropane-1-carboxylic acid), the activity of two enzymes (ACC synthase and ACC oxidase), and the rate of ethylene production. Depending on the type of pollination, germination of pollen on the stigma surface and the pollen tube growth in the tissues of style were accompanied by different levels of ACC and ethylene release. The pollen-pistil system of the self-compatible clone contained twice more ACC than in the self-incompatible clone, whereas the pollen-pistil system in the self-incompatible clone produced 4–5 times more ethylene than in the self-compatible clone. For both types of pollination, ACC and ethylene were predominantly produced in the stigma tissues. The rate of ethylene production therein was 50 times greater than in the styles and ovaries, and the content of ACC was 100 times higher than in the styles and ovaries. Germination of male gametophyte after both types of pollination was accompanied by elevated ACC synthase activity (especially in the case of compatible pollination), whereas notable increase in ACC oxidase activity was manifested in growing pollen tubes after self-incompatible pollination     

Uptake of sulphate,taurine, cysteine and methionine by symbiotic and free-living dinoflagellates

Sulphate uptake by Amphidinium carterae, Amphidinium klebsii and Gymnodinium microadriaticum grown on artificial seawater medium with sulphate, cysteine, methionine or taurine as sulphur source occurred via an active transport system which conformed to Michaelis-Menten type saturation kinetics. Values for K _m ranged from 0.18–2.13 mM and V _max ranged from 0.2–24.2 nmol · 10⁵ cells^–1 · h^–1. K _m for symbiotic G. microadriaticum was 0.48 mM and V _max was 0.2 nmol · 10⁵ cells^–1 · h^–1. Sulphate uptake was slightly inhibited by chromate and selenate, but not by tungstate, molybdate, sulphite or thiosulphate. Cysteine and methionine (0.1 mM), but not taurine, inhibited sulphate uptake by symbiotic G. microadriaticum, but not by the two species of Amphidinium. Uptake was inhibited 45–97% under both light and dark conditions by carbonylcyanide 3-chlorophenylhydrazone (CCCP); under dark conditions sulphate uptake was 40–60% of that observed under light conditions and was little affected by 3-(3,4-dichlorophenyl) 1,1-dimethylurea (DCMU).The uptake of taurine, cysteine and methionine by A. carterae, A. klebsii, cultured and symbiotic G. microadriaticum conformed to Michaelis-Menten type saturation kinetics. K _m values of taurine uptake ranged from 1.9–10 mM; for cysteine uptake from 0.6–3.2 mM and methionine from 0.001–0.021 mM. Cysteine induced a taurine uptake system with a K _m of 0.3–0.7 mM. Cysteine and methionine uptake by all organisms was largely unaffected by darkness or by DCMU in light or darkness. CCCP significantly inhibited uptake of these amino acids. Thus energy for cysteine and methionine uptake was supplied mainly by respiration. Taurine uptake by A. carterae was independent of light but was inhibited by CCCP, whereas uptake by A. klebsii and symbiotic G. microadriaticum was partially dependent on photosynthetic energy. Taurine uptake by cultured G. microadriaticum was more dependent on photosynthetic energy and was more sensitive to CCCP. Cysteine inhibited uptake of methionine and taurine by cultured and symbiotic G. microadriaticum to a greater extent than in the Amphidinium species. Methionine did not greatly affect taurine uptake, but did inhibit cysteine uptake. Taurine did not affect the uptake of cysteine or methionine.