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.     

Capacity of cytochrome and alternative path in coupled and uncoupled root respiration of Pisum and Plantago

A critical duration of darkness must be exceeded for the photoperiodic induction of flowering in short-day plants. This requires detection of the light/dark transition at dusk and the coupling of this information to a time-measuring system.
Lowering the P_fr/P_tot, ratio photochemically at the end of the day did not accelerate the onset of dark timing in Pharbitis nil Choisy cv. Violet. Time-measurement was initiated when, with no change in spectral quality, the irradiance fell below a threshold value. Thus, if the light/dark transition at dusk is sensed by a reduction in P_fr, this reduction can be achieved as rapidly through thermal reactions as through photochemical ones. When given at hourly intervals during a 6-h extension of a 24-h main light period in white light, pulses of red light were as effective as continuous red light in delaying the onset of timing; pulses every 2 or 3 h were less effective. The effectiveness of intermittent red light indicates that phytochrome is the photoreceptor and the requirement for frequent exposures suggests that P_fr is lost rapidly in the dark. However, the red light pulses could not be reversed by far-red light, which argues against this hypothesis. An alternative explanation is that the perception of light as being continuous occurs only when "new" P_fr is regenerated sufficiently frequently.
The nature of the coupling of the dusk signal to the time-measuring system is discussed and it is suggested that the effect of each red light pulse is to delay the phase of the photoperiodic rhythm by 1–3 h.     

Abscisic acid both promotes and inhibits photoperiodic flowering of Pharbitis nil

Abscisic acid (ABA) has been reported to have diverse effects on photoperiodic flowering. Activity of a natural ABA, (+)-( S )-abscisic acid (S-ABA), was recently suggested to be somewhat different from that of racemic ABA, which has been used in previous work. Use of S-ABA might enable clarification of the role of ABA in flowering. S-ABA inhibited flowering of the short-day plant Pharbitis nil (cv. Violet) when given before or 4 h after the start of a 14-h inductive dark period, and promoted flowering when given 12 h after the start of the dark period or later. The flower-promoting effect was observed when ABA was applied to the shoot apex. These results indicate that ABA has a dual effect on photoperiodic flowering of P. nil : it may inhibit the time-measuring process as well as promote some processes that proceed after generation of the flowering stimulus.     

Abscisic acid both promotes and inhibits photoperiodic flowering of Pharbitis nil

Abscisic acid (ABA) has been reported to have diverse effects on photoperiodic flowering. Activity of a natural ABA, (+)-( S )-abscisic acid (S-ABA), was recently suggested to be somewhat different from that of racemic ABA, which has been used in previous work. Use of S-ABA might enable clarification of the role of ABA in flowering. S-ABA inhibited flowering of the short-day plant Pharbitis nil (cv. Violet) when given before or 4 h after the start of a 14-h inductive dark period, and promoted flowering when given 12 h after the start of the dark period or later. The flower-promoting effect was observed when ABA was applied to the shoot apex. These results indicate that ABA has a dual effect on photoperiodic flowering of P. nil : it may inhibit the time-measuring process as well as promote some processes that proceed after generation of the flowering stimulus.     

A rhythm in the flowering response of photoperiodically-induced Pharbitis nil to agents affecting cytosolic calcium and pH

Previous work with modulators of Ca²⁺ and pH has indicated that elevated levels of cytoplasmic Ca²⁺ and pH are required during the first 4-5 h of the dark period for successful floral induction in Pharbitis nil Chois cv. Violet. In the present study we further examined the effect of modulators of Ca²⁺ and pH by supplying them at various times prior to the inductive dark period. Peaks of inhibition by the Ca²⁺ chelator, EGTA, were observed in seedings treated 8, 18-and 34 h before the start of the dark period. When seedlings of slightly different ages (within one diurnal cycle) were treated with EGTA, maximum inhibition was always obtained in plants treated 8 h before the start of the dark period. Peaks of inhibition by the acidifying agents, salicylic acid and Na-propionate, were observed at -2 to -6 h and at -10 to - 14 h. Treatment with the alkalizing agent, trisodium citrate, enhanced the flowering response with maximum enhancement at -6 to -8 h and at - 18 to - 20 h. We hypothesize that treatment with modulators starts an oscillation in endogenous levels of Ca²⁺ and pH. The levels of Ca²⁺ and pH prevailing at the commencement of the inductive dark period will influence the ability of the plant to perceive or to respond to the photoperiodic induction.     

Involvement of signal transduction pathway components in photoperiodic flower induction in Pharbitis nil

The possible participation of several major components of the signal transduction pathway in photoperiodic flower induction was examined in Pharbitis cotyledons. Exogenous applications of GTP-γ-S (1–10 μ M ) or of the phorbol ester, phorbol 12-myristate-13-acetate (PMA, 0.1–5.0 μ M ) to Pharbitis plants held under a marginal inductive period (11.5 h dark) significantly increased their flowering response. Membrane lipid fluidity, GTP-binding and protein kinase activity were increased following a single flowering-inducing dark period of 16 h; however, a light-break of 10 min that abolished flower induction failed to reverse the dark-induced increase in these processes. Photo-inductive dark conditions significantly increased the content of diacylglycerol (DAG) and phosphoinositides in the cotyledon membranes, together with the activities of their kinases, and a light break decreased them to control levels and below. In addition, a single spraying with GTP-γ-S or PMA at 1 μ M significantly increased both the lipid content and the kinase activities. These compounds also enhanced the kinase activities in vitro. It is concluded that DAG and phosphoinositide metabolism play a role in the linking of the photoperiodic induction of the phytochrome with the flowering response in Pharbitis nil .     

Flowering may be controlled by a quantitative balance between flower-inducing and -inhibiting substances in Pharbitis nil

Phloem exudate prepared from induced cotyledons of Pharbitis nil (SD-PE) showed flower-inducing activity, and the exudate from cotyledons of P. nil grown under continuous illumination (CL-PE) expressed flower-inhibiting activity in apex cultures of P. nil. Following fractionation by ion exchange chromatography, the flower-inducing activity of SD-PE was located in the fraction adsorbed on anion exchange resin (Dowex); the flow-through (FT) fraction from anion and/or cation exchange resins used to separate CL-PE inhibited flowering. The flower-inducing and -inhibiting activities of both fractions from SD-PE and CL-PE were examined in detail. The FT fraction of SD-PE inhibited, and the Dowex fraction of CL-PE induced flowering. The flower-inducing activity of Dowex fraction of SD-PE was about 100 times higher than the same fraction of CL-PE, and the inhibiting activity of FT fraction of CL-PE was about 10 times higher than the same fraction of SD-PE. Therefore, flowering in P. nil may be controlled by a quantitative balance between flower-inducing and -inhibiting substances.     

Flower-inducing and -inhibiting activities of Phloem Exudate from Cotyledons of Pharbitis Seedlings

The flower-inducing and -inhibiting activities of phloem exudate (PE) prepared from cotyledons of Pharbitis seedlings were examined, using apex cultures in vitro from Pharbitis as a bioassay system.The PE was prepared from photoperiodically-induced cotyledons (SD-PE). The SD-PE was subjected to the following fractionations: When the SD-PE was extracted with CHCl₃ and then ethyl acetate, the inducing activity was located in the final aqueous fraction. The activity was localized in the diffusate when the aqueous fraction was dialyzed (molecular weight cut off was 10,000). The diffusate was fractionated by ion exchange chromatography, and flower-inducing activity was found in the fraction adsorbed onto anion exchange resin. When the fraction was applied to a Sep-Pak C18 cartridge, the activity eluted with 25% MeOH. As a result of the above fractionation, activity was increased about 30-fold.The nature of the flower-inhibiting activity of the PE taken from cotyledons exposed to continuous-light conditions was examined (CL-PE). The inhibiting activity was decreased as the cotyledons were exposed to longer dark periods; it appeared to be heat-stable. The CL-PE also inhibited flowering in Lemna. The CL-PE was subjected to the following fractionations: When the CL-PE was extracted with CHCl₃ and ethyl acetate, activity was located in the final aqueous fraction. Activity was localized in the diffusate when the aqueous fraction was dialyzed (molecular weight cut off was 10,000). When the diffusate was fractionated by ion exchange chromatography, the activity was found in the flow-through fraction. When the fraction was applied to a hydroxyapatite cartridge, the activity eluted with 25 mM sodium phosphate buffer. When the fraction was re-dialyzed (molecular weight cut off was 1,000), the diffusate contained the activity. As a result of the above fractionation, activity was increased about 10-fold.     

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.     

Effects of uniconazole and GA3 on cold-induced stem elongation and flowering of Raphanus sativus L.

The effects of gibberellin (GA) on cold-induced stem elongation and flowering of Japanese radish (Raphanus sativus L.) were investigated using application of GA3 and a GA-biosynthesis inhibitor, uniconazole (UCZ). UCZ very strongly inhibited stem elongation and delayed flowering, and the inhibition and delay were completely reversed by GA3 application. These results suggest that GA is necessary not only in the stem elongation but also in the flowering. When cold treatment (CT) was conducted on the plants whose GA level was lowered by UCZ, GA3 applied after CT completely reversed the delay of flowering. Thus low GA level probably did not retard cold induction. Microscopic observation of apical meristem showed that UCZ delayed flowering by delaying the shift from vegetative to dome-shaped meristem. This result suggested that low GA level delayed floral evocation. Consequently it was suggested that low GA level retarded physiological process involved in long day induction or in floral evocation, resulting in delay of floral evocation.     

Calcium and photoperiodic flower induction in Pharbitis nil

The relationship between phytochrome-mediated induction of flowering, Ca²⁺ transport and metabolism in Pharbitis nil Chois cv. Violet seedlings has been investigated. Ethyleneglycol-bis-(β-aminoethylether)-N,N,N', N'-tetraacetic acid (EGTA), a specific Ca⁺ chelator, caused a 30–40% inhibition of flowering in Pharbitis subjected to complete photoperiodic induction. It was most effective when applied during the light period preceding along inductive dark period. The agonist of calcium channels. Bay K-8644, did not affect flowering, while Nifedipine, Verapamil and La³⁺ (antagonists of calcium channels) only slightly inhibited this process. A similar small effect has been found when the plants were treated with Li⁺ (inhibitor of the membrane phospholipids pathway), and with chlorpromazine (a camodulin inhibitor). Except for EGTA, the effect of the other substances did not depend on the timing of their application. The results of the present study suggest that the effect of all the substances applied was not specific, and flowering is not directly dependent on transport and intracellular metabolism of Ca²⁺.     

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.     

Effects of diurnal and bidiurnal photoperiodic treatments on mitosis in Pharbitis

Abstract

Photoperiodic effect on mitotic activity of buds from dwarf Pharbitis has been analyzed. No significant differences in mitotic activity were found in plants grown under long days or diurnal (24 h) light break photoperiodic treatments. Differences in both mitotic activity and flowering were seen in plants subjected to diurnal short days, bidiurnal (48 h) short days, or bidiurnal short days with light breaks. An elevation of mitotic activity occurs in plants grown in bidiurnal photoperiodic treatments compared to diurnal treatments. The differences in mitotic activity of buds, both vegetative and floral, seem to indicate that both phytochrome and light effect on an endogenous rhythm influence meristematic activity. Also, the extended dark period of a bidiurnal short day enhances both mitosis and flowering.     

The semidian rhythm in flowering response of Pharbitis nil in relation to dark period time measurement and to a circadian rhythm

When seedlings of Pharbitis nil Choisy, cv. Violet, are exposed to a single inductive dark period at 27°C, brief interruptions with red light (R) can be promotive after 2–3 h of darkness but increasingly inhibitory to flowering up to the 8–9th h of darkness. This rhythmic response to R interruptions can be advanced in phase by > 1 h when the preceding light period is interrupted with far-red (FR) 2 h before darkness (FR -2 h) or with FR – 15 h, whereas FR –8 h or FR–22 h retard the rhythm. These shifts in the R interruption rhythm are paralleled by equal shifts in the length of the dark period required for flowering. Brief FR interruptions of darkness displayed a similar rhythm which was also advanced by FR –2 h and retarded by FR –8 h. We conclude therefore that the semidian rhythm in the light, which we have previously described, continues through at least the first 12 h of darkness, is manifested in the R interruption rhythm, and determines the critical night length. A circadian rhythm with a marked effect on flowering was also identified, but several lines of evidence suggest that the circadian and semidian rhythms have independent additive effects on flowering and do not appear to show phase interaction.     

Appearance of peroxidase isozymes in floral‐initiated shoot apices of Pharbitis nil

A novel biochemical assay system for detecting the early stage of flowering is reported. Peroxidase isozymes in shoot apices of Pharbitis nil plants that had been exposed to flower‐inducing or non‐inducing conditions were analyzed by isoelectric focusing in polyacrylamide gels and activity staining for peroxidase. Several isozymes with pH 8.5–8.8 appeared for the first time 7 days after the beginning of short‐day treatment, but not after nightbreak (non‐inducing) treatment. When shoot tips were cultured in vitro, these same isozymes also appeared after short‐day treatment but not after night‐break treatment. The extent of the appearance of these isozymes was reduced by exposure to high or low temperature during the inductive dark period and removal of cotyledons after the inductive dark period. Such treatments also reduced the extent of flowering. The appearance of an isozyme with pH 8.5 was more closely correlated with flowering than that of the other isozymes. From these results, the appearance of this peroxidase isozyme in shoot apices is discussed as a biochemical marker of flowering in intact plants and in cultured shoot tips.     

The Relationship Between Flowering Induction and the Level of Adenosine Triphosphate in Pharbitis nil

A study has been made on the changes of ATP and protein content in cotyledons and apices of Pharbitis nil after flowering induction. Protein content of the cotyledons which have just got through the induction is 68% higher than that of the control, but the difference trends to disappear there after. The. difference of protein content between the induced and uninduced apices is not so obvious in the first three days after induction, but quite evident on the fourth day (30% higher in the induced apices) suggesting that there is some relationship between protein metabolism and flowering induction both in the cotyledons and in the apices. Just after the seedlings have been induced, ATP content of the cotyledons is getting much (134%) higher than that of the control and the tendency is retained towards the fourth day after induction. Generally ATP content in apices is one order of magnitude higher than that in cotyledons. Although ATP content in the apices is only slightly higher than that of the control soon after induction, it gains quite a lot in the second day until the fifth day the end of our experiment. In the third day after induction ATP level in the apices reaehs to the maximum (20.6×10-2 μmol/g, apices) which is 37% higher than that of the control. The results show that flowering induction is bound to be followed by increase of proteins and ATP both in apices and in cotyledoms. It also. shows both formation of the stimulus in induced cotyledons and evocation in the apices might be all concerned in expression of some genes and synthesis of new RNA and protein. According to the maximum peak of ATP in the apices and cotyledons appeared in 3rd to 4th day after induction, it seems that the inductive effect both in the cotyledons and apices might continue for some time under the following uninduced condition.     

Involvement of cyclic GMP in phytochrome-controlled flowering of Pharbitis nil

Light is one of the most important environmental factors influencing the induction of flowering in plants. Light is absorbed by specific photoreceptors – the phytochromes and cryptochromes system – which fulfil a sensory and a regulatory function in the process. The absorption of light by phytochromes initiates a cascade of related biochemical events in responsive cells, and subsequently changes plant growth and development.

Induction of flowering is controlled by several paths. One is triggered by the guanosine-3′:5′-cyclic monophosphate (cGMP) level. Thus, the aim of our study was to investigate the role of cGMP in phytochrome-controlled flowering.

It is best to conduct such research on short-day plants because the photoperiodic reactions of only these plants are totally unequivocal. The most commonly used plant is the model short-day plant Pharbitis nil.

The seedlings of P. nil were cultivated under special photoperiodic conditions: 72-h-long darkness, 24-h-long white light with low intensity and 24-h-long inductive night. Such light conditions cause a degradation of the light-labile phytochrome. Far red (FR) treatment before night causes inactivation of the remaining light-stable phytochrome. During the 24-h-long inductive darkness period, the total amount of cGMP in cotyledons underwent fluctuations, with maxima at the 4th, 8th and 14th hours. When plants were treated with FR before the long night, fluctuations were not observed. A red light pulse given after FR treatment could reverse the effect induced by FR, and the oscillation in the cGMP level was observed again.

Because the intracellular level of cGMP is controlled by the opposite action of guanylyl cyclases (GCs) and phosphodiesterases (PDEs), we first tested whether accumulation of the nucleotide in P. nil tissue may be changed after treatment with a GC stimulator or PDE inhibitor.

Accumulation of the nucleotide in P. nil cotyledons treated with a stimulator of cGMP synthesis (sodium nitroprusside) was markedly (approximately 80%) higher. It was highest in the presence of dipyridamole, whereas 3-isobutyl-1-methylxanthine did not significantly affect cGMP level.

These results show that the analysed compounds were able to penetrate the cotyledons’ tissue, and that they influenced enzyme activity and cGMP accumulation.

FR light applied at the end of the 24-h-long white light period inhibited flowering. Exogenous cGMP added on cotyledons could reverse the effect of FR, especially when the compound was applied in the first half of the long night. Flowering was also promoted by exogenous application of guanylyl cyclase activator and phosphodiesterase inhibitors, and in particular dipyridamole.

The results obtained suggest that an endogenous cGMP system could participate in the mechanism of a phytochrome-controlled flowering in P. nil.     

Molecular Genetics Returns to Basic Postulates of the Florigen Theory

The florigen theory, also known as the hormonal theory of flowering in plants, was put forward by M.Kh. Chailakhyan more than 65 years ago. This theory, reviewed here in its historical progress, gave an impetus to a number of modern genetic and molecular studies of flowering in plants. In turn, results of recent investigations restored to a new level Chailakhyan's ideas about florigen, the hormonal stimulus of flowering.