Biochemical evidence for a calcium-dependent protein kinase from Pharbitis nil and its involvement in photoperiodic flower induction

A soluble Ca(2+)-dependent protein kinase (CDPK) was isolated from seedlings of the short-day plant Pharbitis nil and purified to homogeneity. Activity of Pharbitis nil CDPK (PnCDPK) was strictly dependent on the presence of Ca(2+) (K(0,5)=4,9 microM). The enzyme was autophosphorylated on serine and threonine residues and phosphorylated a wide diversity of substrates only on serine residues. Histone III-S and syntide-2 were the best phosphate acceptors (K(m) for histone III-S=0,178 mg ml(-1)). Polyclonal antibodies directed to a regulatory region of the soybean CDPK recognized 54 and 62 kDa polypeptides from Pharbitis nil. However, only 54 kDa protein was able to catalyse autophosphorylation and phosphorylation of substrates in a Ca(2+)-dependent manner. CDPK autophosphorylation was high in 5-day-old Pharbitis nil seedlings grown under non-inductive continuous white light and was reduced to one-half of its original when plants were grown in the long inductive night. Also, the pattern of proteins phosphorylation has changed. After 16-h-long inductive night phosphorylation of endogenous target (specific band of 82 kDa) increased in the presence of calcium ions. It may suggest that Ca(2+)-dependent protein kinase is involved in this process and it is dependent on light/dark conditions.     

Gibberellins are not essential for photoperiodic flower induction of Pharbitis nil

The influence on photoperiodic flowering of (2-chloroethyl)trimethylmmonium chloride (CCC), an inhibitor of gibberellin (GA) biosynthesis, was studied in the short-day plant Pharbitis nil cv. Violet. The cotyledons contained high levels of endogenous bioactive gibberellins, whereas in the plumules and first leaves the levels were low or undetectable. The first leaf responded to a single'dark treatment by inducing flowering when it was 10 mm or wider. Similar seedlings, but without cotyledons, were used as the assay plants to study the effect of CCC on photoperiodic flowering. Treatment with CCC had no effect on flowering of seedlings without cotyledons, although stem elongation was inhibited. By contrast. CCC inhibited flowering of the intact seedlings with cotyledons. Gibberellic acid applied to the shoot apex or to the first leaf promoted flowering in the CCC-treated seedlings without cotyledons. The results indicate thai gibberellins are not essential for the flower induction process in leaves, but that they promote flower initiation and/or later processes in the shoot apices.     

The involvement of cyclic GMP in the photoperiodic flower induction of Pharbitis nil

The involvement of cGMP in the regulation of the flowering of Pharbitis nil was investigated through exogenous applications of cGMP and chemicals that are able to change the cGMP level and analyses of endogenous cGMP level. Exogenous applications of cGMP and 8-pCPT-cGMP (a cyclic GMP non hydrolyzed analog) to P. nil plants, which were exposed to a 12-h-long subinductive night, significantly increased flowering response. NS-2028 (guanylyl cyclase inhibitor) inhibited flowering when that compound was applied during a 16-h-long inductive night, whereas SNP (guanylyl cyclase activator) increased the flowering when plants were subjected to a 12-h-long subinductive night. The inhibitors of cyclic nucleotides phosphodiesterase (isobutyl-methylxanthine and dipyridamole), which increase the cytosolic cGMP level, promoted the flowering and allowed the length of the dark period necessary for induction of flowering to be reduced. The endogenous cGMP level was also measured after the treatment of P. nil seedlings with those chemicals. Results have clearly shown that compounds that were used in physiological experiments modulated endogenous cGMP level. There was a significant difference in the cyclic GMP level between 16-h-long night conditions and a long night with a night-break. During a long inductive night the oscillation of cGMP was observed with four main peaks in 4, 7, 11, 14 h, whereas a 10 min flash of red light in the middle of the night was able to modify these rhythmical changes in the second half of the long night. These results have shown that there are oscillations in the concentration of cGMP in the night and the biosynthesis and/or deactivation of cGMP is affected by light treatment and therefore it may be involved in the regulation of photoinduction processes in cotyledons. From these combined results, we propose a hypothesis that cGMP is involved in the control of photoperiodic flower induction in Pharbitis nil.     

Pn-AMPs,the hevein-like proteins from Pharbitis nil confers disease resistance against phytopathogenic fungi in tomato,Lycopersicum esculentum

The antifungal activity of hevein-like proteins has been associated with their chitin-binding activities. Pn-AMP1 and Pn-AMP2, two hevein homologues from Pharbitis nil, show in vitro antifungal activities against both chitin and non-chitin containing fungi. Purified Pn-AMPs retained antifungal activities only under non-reducing conditions. When Pn-AMP2 cDNA was constitutively expressed in tomato (Lycopersicon esculentum) plants under the control of CaMV35S promoter, the transgenic plants showed enhanced resistance against both the non-chitinous fungus Phytophthora capsici, and the chitin-containing fungus Fusarium oxysporum. Thus, the chitin component in the fungal cell wall is not an absolute requirement for Pn-AMP's antifungal activities. These results when considered together suggest that Pn-AMPs have the potential for developing transgenic plants resistant to a wide range of phytopathogenic fungi.     

Allene oxide cyclase is essential for theobroxide-induced jasmonic acid biosynthesis in Pharbitis nil

Theobroxide, a natural product, strongly stimulates the biosynthesis of jasmonic acid (JA) in Pharbitis nil. In this study, we investigated the accumulation of protein by the immunoblot analysis of lipoxygenase (LOX), allene oxide synthase (AOS), and allene oxide cyclase (AOC), key enzymes in JA biosynthesis, and how the endogenous levels of JA in P. nil are affected by theobroxide. The effect of JA on the accumulations of these proteins was monitored simultaneously. The results show that theobroxide treatment led to a high level accumulation of JA, which is due to high accumulations of LOX, AOS, and AOC proteins induced by theobroxide treatment both under short day (SD) and long day (LD) conditions. However, under SD conditions AOS and AOC proteins are not enhanced by JA treatment. Kinetic analysis of protein levels shows that a biphasic activation of AOC protein by theobroxide is displayed and the first activation of AOC protein together with elevated JA levels is observed within 30min after treatment. Meanwhile, AOS and LOX proteins are activated by theobroxide later than AOC protein, suggesting that AOC plays an essential role in the initial JA formation induced by theobroxide. Since theobroxide-increased JA levels also show a biphasic manner similar to AOC activation and AOS, LOX proteins are activated later than AOC, and thus we propose a positive JA feedback regulation. Interestingly, AOS protein, which is also the enzyme for the biosynthesis of 9,10-ketol-octadecadienoic acid (KODA, a flowering inducing factor), accumulates markedly due to the simultaneous involvement of theobroxide and SD conditions, suggesting that AOS probably plays a role in flower bud formation in P. nil.     

Acylated peonidin glycosides from duskish mutant flowers of Ipomoea nil

Five acylated peonidin glycosides were isolated from the pale gray-purple flowers of a duskish mutant in the Japanese morning glory (Ipomoea nil or Pharbitis nil) as major pigments, along with a known anthocyanin, Heavenly Blue Anthocyanin (HBA). Three of these were based on peonidin 3-sophoroside and two on peonidin 3-sophoroside-5-glucoside as their deacylanthocyanins; both deacylanthocyanins were acylated with caffeic acid and/or glucosylcaffeic acids. By spectroscopic and chemical methods, the structures of the former three pigments were determined to be 3-O-[2-O-(6-O-(trans-caffeoyl)-beta-D-glucopyranosyl)-beta-D-glucopyranoside], 3-O-[2-O-(6-O-(3-O-(beta-D-glucopyranosyl)-trans-caffeoyl)-beta-D-glucopyranosyl)-6-O-(4-O-(6-O-(3-O-(beta-D-glucopyranosyl)-trans-caffeoyl)-beta-D-glucopyranosyl)-trans-caffeoyl)-beta-glucopyranoside], and 3-O-[2-O-(6-O-(trans-caffeoyl)-beta-D-glucopyranosyl)-6-O-(4-O-(6-O-(3-O-(beta-D-glucopyranosyl)-trans-caffeoyl)-beta-D-glucopyranosyl)-trans-caffeoyl)-beta-D-glucopyranoside] of peonidin. The structures of the latter two pigments were also confirmed as 3-O-[2-O-(6-O-(trans-caffeoyl)-beta-D-glucopyranosyl)-beta-D-glucopyranoside]-5-O-beta-D-glucopyranoside, and 3-O-[2-O-(6-O-(trans-caffeoyl)-beta-D-glucopyranosyl)-6-O-(4-O-(6-O-(3-O-(beta-D-glucopyranosyl)-trans-caffeoyl)-beta-D-glucopyranosyl)-trans-caffeoyl)-beta-D-glucopyranoside]-5-O-beta-D-glucopyranoside of peonidin. The mutation affecting glycosylation and acylation in anthocyanin biosynthesis of Japanese morning glory was discussed.     

Chloride absorption and distribution in chlorine-deficient Pharbitis nil

Determination and distribution of radioactive chloride in Pharbitis nil was investigated by a bio-imaging analyzer. When leaves that contained various amounts of ³⁶Cl were analyzed with the imaging analyzer and then each sample was homogenized and its radioactivity measured in a liquid scintillation counter, radioactive levels recorded by the analyzer were directly proportional to the radioactivity determined by the counter. When plants that had been grown in full nutrient solution were incubated in [³⁶Cl]-containing solution, more activity was found in young leaves than in mature leaves, while little radioactivity was detected in shrivelled leaves and the nonsymptomatic cusp of young leaves of plants that had been grown in chlorine-deficient solution.     

Participation of polyamines in the flowering of the short-day plant Pharbitis nil

The effect of the exogenous application of polyamines on the flowering induction of the short-day plant Pharbtis nil was investigated. Putrescine, spermidine and spermine applied on the cotyledons of 4-day seedlings had no significant effect on the flowering of this plant under conditions of full induction caused by a 16-hour-long inductive night. Under the conditions of partial induction caused by a 13-hour-long subinductive night, polyamines inhibit or stimulate flowering, depending on the time of application. Also, inhibitors of the biosynthesis of polyamines influenced the flowering process. Analysis of endogenous polyamines revealed significant fluctuations in their content in cotyledons during an inductive night, as well as under continuous light conditions. Particularly large changes occurred in spermidine and spermine levels. The putrescine level in induced seedlings was lower than in non-induced ones. However, induced seedlings contained a higher level of spermine and spermidine. The highest spermidine and spermine levels were observed at the 8th h of the night, although the total concentration of spermine during photoinduction was always 2–3 times lower than that of spermidine. A break in the inductive night, leading to a complete inhibition of flowering, had caused significant changes in the polyamine level by the end of the night. The results suggest that the flowering induction of Pharbitis nil took place at a low putrescine level and increased spermidine and spermine levels.     

The effect of carbon source on callus induction and regeneration ability in Pharbitis nil

Flower buds, cotyledons and hypocotyls of Pharbitis nil were used as plant material. Flower buds (1–2 mm long) were excised from 3-week-old plants, grown in soil. Cotyledons of 7-day-old sterile seedlings were cut into 25 mm² squares cotyledons whereas hypocotyls were cut to 1 mm long fragments. Explants were transferred into Petri dishes containing the Murashige and Skoog medium (MS), supplemented with either BA (11 μM·L⁻¹) alone or BA (22 μM·L⁻¹) and NAA (0.55 μM·L⁻¹), and different sugars: sucrose, fructose, glucose, mannose or sorbitol (autoclaved or filter-sterilized). Addition of glucose instead of sucrose to the medium stimulated the induction of callus on flower buds and cotyledonary explants, but inhibited its growth on fragments of hypocotyls. The medium supplemented with fructose (especially filter-sterilized) stimulated the development of flower elements. Organogenesis of shoots and roots on explants was also observed. Flower buds and hypocotyls were able to regenerate both organs. Addition of fructose or glucose to the medium stimulated the organogenesis of shoots, whereas root organogenesis was inhibited on all explants used. Sorbitol strongly inhibited both induction of callus and organogenesis on all explants used.     

Photoperiodically independent flowering of Pharbitis nil plants regenerated from flower buds

Summary Flower buds and anthers of the short-day plant Pharbitis nil were treated either with thermic shock (7 or 35°C) or osmotic/trophic shock (12% sucrose) for 24 h. Explants were transferred either to Murashige and Skoog medium (MS) with addition of 6-benzylaminopurine (BA; 4.4μM) and 6% sucrose or to the same growth medium containing 22 μM BA and 3% sucrose. Both media were supplemented with α-naphthaleneacetic acid (NAA; 0.55 μM). Osmotic/trophic shock stimulated the occurrence of shoots on flower buds grown on medium containing 22 μM BA. Thermic shock (7 and 35°C) inhibited this process on both types of explants. Regenerated plantlets were transferred to MS medium supplemented with 6% sucrose, gibberellic acid (GA₃; 1.44μM), NAA (0.55 μM) and Ca²⁺ (0.66 mgl⁻¹). After 3–4 wk they were able to produce flowers without photoperiodic induction.     

Jasmonates Inhibit Flowering in Short-Day Plant Pharbitis nil

The role of jasmonates in the photoperiodic flower induction of short-day plant Pharbitis nil was investigated. The plants were grown in a special cycle: 72 h of darkness, 24 h of white light with lowered intensity, 24-h long inductive night, 14 days of continuous light. At 4 h of inductive night the cotyledons of non-induced plants contained about two times the amount of endogenous jasmonates (JA/JA-Me) compared to those induced. A 15-min long pulse of far red light (FR) applied at the end of a 24-h long white light phase inhibited flowering of P. nil. The concentration of jasmonates at 2 and 4 h of inductive night in the cotyledons of the plants treated with FR was similar. Red light (R) could reverse the effect of FR. R light applied after FR light decreased the content of jasmonates by about 50%. Methyl jasmonate (JA-Me) applied to cotyledons, shoot apices and cotyledon petioles of P. nil inhibited the formation of flower buds during the first half of a 24-h long inductive or 14-h long subinductive night. Application of JA-Me to the cotyledons was the most effective. None of the plants treated with JA-Me on the cotyledons in the middle of the inductive night formed terminal flower buds. The aspirin, ibuprofen and phenidone, jasmonates biosynthesis inhibitors partially reversed the effect of FR, stimulating the formation of axillary and terminal flower buds. Thus, the results obtained suggests that phytochrome system control both the photoperiodic flower induction and jasmonates metabolism. Jasmonates inhibit flowering in P. nil.     

Cyclic GMP stimulates flower induction of <Emphasis Type="Italic">Pharbitis nil</Emphasis> via its influence on cGMP regulated protein kinase

It was revealed that cGMP is involved in the control of photoperiodic flower induction. Further insight into the signalling function of cGMP is likely to be obtained by analysis of its effectors. Therefore, in the present study, we used various agents that cause changes in cGMP-dependent kinase (PKG) activity and examined their effects on the activity of kinase isolated from Pharbitis nil and flower induction. It was found that exogenous applications of PKG activators (cGMP, 8-pCPT-cGMP, 8-Br-cGMP, 8-pCPT-PET-cGMP) to cotyledons which were exposed to a 12-h-long subinductive night significantly increased flowering response. From among the many antagonists of cGMP-dependent protein kinase Rp-8-Br-PET-cGMPS, Rp-8-pCPT-cGMP and the synthetic heptapeptide inhibitor of PKG were used for our analysis. When Rp-8-Br-PET-cGMPS and Rp-8-pCPT-cGMP were applied during a 16-h-long inductive night, significant reduction in the number of flower buds was observed, whereas synthetic heptapeptide did not change the intensity of flowering. The influence of the analysed chemicals on protein kinase activity was also examined in vitro. With the exception of synthetic heptapeptide, which seems ineffective, the enzyme activity was stimulated by all agonists and significantly reduced by all antagonists. The activity of protein kinase was assayed in P. nil soluble protein fractions from plants grown under flower-inducing and non-inducing conditions. In vitro phosphorylation was slightly greater in the soluble fraction obtained from plants grown under the flower-inducing condition, reaching 1.05 nmol/min/mg protein, when compared to the control 0.81 nmol/min/mg protein. In relation to the results described above, we can conclude that cGMP as a mediator participating in photoperiodic flower induction may govern this process by the phosphorylation mechanism via its influence on cGMP-dependent protein kinase activity.     

Evidence that photoperiodic, dark time measurement in Pharbitis nil involves a circadian rather than a semidian rhythm

Experiments were carried out to determine whether a semidian (12 h) rhythm in flowering response operates in Pharbitis nil as the basis for photoperiodic time measurement. The effect of 5 min far-red light followed by 85 min dark (FRD) given 4, 8,14 and 22 h before the end of a 48 h photoperiod on night-break timing and critical night length was determined. When given 4 h before the end of a 48 h photoperiod, an interruption with FRD advanced the phase of the circadian rhythm in the night-break inhibition of flowering. In contrast, earlier interruptions of the photoperiod had no effect on the phase of the rhythm. The critical night length was modified by FRD given 4 h (shortened) or 8 h (lengthened) before the end of the photo-period; when given at other times FRD did not alter the critical night length. The results are discussed in relation to the basis for photoperiodic timekeeping, with particular reference to suggestions for the involvement of a semidian rhythm. A circadian model based on the concept of limit cycles is described.     

Cloning and structural analysis of the snap-back DNA of Pharbitis nil

We isolated and cloned DNA fragments that exist as inverted-repeat structures in the genome of Pharbitis nil. The method used exploited the fact that if inverted repeat DNA is present in the DNA fragment, intramolecular double-stranded structures can be partly formed within single-stranded DNA molecules after denaturation and rapid renaturation of the fragment. The rapidly renaturing DNA fragments (termed snap-back DNA) were isolated by hybroxylapatite column chromatography and treatment with mungbean nuclease and were cloned into the pUC9 vector. Four snap-back DNA members out of thousands of independent clones obtained were characterized with respect to the reiteration frequency and the nucleotide sequences. When used as probes in Southern hybridization experiments, some of the members identified restriction fragment length polymorphism among the cultivars, suggesting that these sequences might be fluid in the genome. One of the four clones has regions of nucleotide sequence homology to those of inverted-repeat regions in the transposon Taml of Antirrhinum majus.     

Induction and stimulation of in vitro flowering of Pharbitis nil by cytokinin and gibberellin

The influence of BA, GA₃ and IAA applied successively onflower bud formation in shoot apices of Pharbitis nil hasbeen investigated. The shoot apices were isolated from seedlings cultivatedunder non-inductive continuous light and from seedlings exposed to asubinductive (12 h) dark period. BA and GA₃ introducedsuccessively into culture medium replaced the inductive night, causing theflowering of plantlets in completely non-inductive continuous light (optimalconcentration of BA – 10^–7–10^–6mol dm^–3, GA₃ –10^–7–10^–6 moldm^–3) and stimulated this process under thesubthresholdinduction. These hormones applied in reverse sequence (in the first placeGA₃, then BA) did not affect flowering of explants. IAA nullifiedthestimulating effect of BA and GA₃. The influence of phytohormones onflowering may result from the change of growth correlations within the shootapical meristem.     

Production and purification of polyclonal antibodies to Pisum and Avena labile phytochrome which cross-react with phyA from Pharbitis nil

Little work was done so far with phytochrome from Pharbitis nil. Purification of phyA from this plant has been exceptionally difficult. Labile phytochrome was presented in too small amount to obtain either absorption spectra or enough protein to produce antibodies. Monoclonal antibodies mAP5, MAC 50, 52, 198 recognized Pharbitis nil labile phytochrome poorly, so it was necessary to develop independently an antiserum against labile phytochrome. The antiserum was prepared against proteolytically undegraded phytochrome obtained from etiolated Avena and Pisum seedlings using conventional methods. The antiserum to phytochrome from each of the above mentioned plants was prepared by injecting purified phytochrome into rabbits. The newly produced polyclonal antibodies to phyA from Avena and Pisum were used to characterize phytochrome from etiolated seedlings of Pharbitis nil. The cross reaction was tested by immunobloting. Both kinds of PAbs recognised phyA from Pharbitis nil, however IgG against the labile phytochrome from Pisum gave stronger reaction. The recognized peptide had the molecular weight of about 120-kDa.     

The Involvement of Cyclic ADPR in Photoperiodic Flower Induction of Pharbitis nil

Cyclic adenosine diphosphate ribose (cADPR) is a potent endogenous calcium-mobilizing agent synthesized from NAD⁺ by ADP-ribosyl cyclases described for several animal cells. Pharmacological studies suggest that cADPR is an endogenous modulator of Ca²⁺-induced Ca²⁺ release channels. There is also information about the sub-micromolar concentration of cADPR in plant cells. Whether cADPR can act as a Ca²⁺-mobilizing intracellular messenger in plant tissue is an unresolved question. Despite the obvious importance of monitoring cADPR cellular levels under various physiological conditions in plants, its measurement has been technically difficult and requires specialized reagents. In the present study a widely applicable sensitivity assay for cADPR is described. We show that Pharbitis nil tissue from cotyledons contains a certain cADPR level. To explain the possible roles of this second messenger in photoperiodic flower induction, some physiological experiments were also performed. The exogenous applications of cADPR to Pharbitis nil plants, which were exposed to a 12-h-long subinductive night, significantly increased flowering response. Nevertheless 8-Br-cADPR inhibited flowering when these compounds were applied during a 16-h-long inductive night. The effect of ruthenium red, a calcium channel blocker and ryanodine, a calcium channel stimulator, on the photoperiodic induction of flowering was also studied. Ruthenium red, when applied before and during an inductive 16-h dark period, slightly inhibited flowering, whereas ryanodine, when applied before and during a 12-h long subinductive night, stimulated flower bud formation. We also confirmed evidence that Ca²⁺ ions are involved in the photoperiodic induction of flowering. Thus, the obtained results may suggest the involvement of cyclic ADPR-activated Ca²⁺ mobilization in the photoperiodic flower induction process in Pharbitis nil.     

Effect of pH and temperature on protein kinase release by Leishmania donovani

During their life cycle Leishmania are exposed to environments that differ markedly in pH and temperature. The effect of these factors on protein kinase release into the surrounding environment by Leishmania donovani promastigotes was examined. Promastigotes release protein kinase activity both constitutively and following induction by incubation with an exogenous substrate, phosvitin. The substrate specificity of the constitutive and induced activities was similar, unlike that previously described for Leishmania major promastigotes. The Leishmania donovani enzymes phosphorylate phosvitin, but not casein, mixed histones or protamine sulphate, and both activities are shed over a wide pH range from 6 to 9. Transfer of promastigotes from pH 7.4/30 degrees C to pH 5.0-5.5/37 degrees C, conditions that mimic those encountered by parasites following transmission from sandflies to a mammalian host and uptake by macrophages, inhibited release of the constitutive activity. Identical conditions had only a minor effect on induced protein kinase release. Both types of protein kinase activities released at pH 7.4 were still active when assayed at pH 5.0. Characterisation of the constitutive and induced promastigote protein kinases showed that casein kinase 1- and casein kinase 2-like activities are released by Leishmania donovani. Constitutive enzyme release decreased over time, however, the addition of phosvitin to these "casein kinase-depleted" promastigotes induced elevated casein kinase 1 and casein kinase 2 shedding. These results suggest that shed protein kinase might play a role in parasite survival and adaptation to host environments.     

Comparison of gibberellin-like substances from cotyledons and phloem exudate collected from cotyledons of Pharbitis nil in relation to photoperiodic flowering

Gibberellin (GA)-like substances were analyzed in extracts from cotyledons and phloem exudate collected from cotyledons in photoinduced and vegetative seedlings of the short-day plant Pharbitis nil Chois. var. Violet, using high performance liquid chromatography (HPLC) and the dwarf rice bioassay, to see whether any specific GA-like substances were transported from the photoinduced cotyledons via phloem. Cotyledon extracts exhibited five peaks of free GA-like activity in HPLC, whereas only one or two active peaks were detected in phloem exudate extracts. The level of free GA-like activity was considerably lower in phloem exudate than in the cotyledons. In five out of six analyses of cotyledons and phloem exudate, there were substantially higher levels of free GA-like substances in photoinduced plants. Conjugated GA-like substances were present in much higher levels than free GA-like substances in the cotyledon extracts but the levels were not influenced by daylength. In phloem exudate extracts there was no conjugated GA-like substances. The free GA-like substances that are transported via phloem cochromatographed with GA_5/20 and GA₁₉ on HPLC. These were significantly higher in photoinduced plants and thus could have some influence on the photoperiodically-induced flowering in P. nil.