PHYTOCHROME REGULATION OF STEM GROWTH AND INDOLE-3-ACETIC ACID LEVELS IN THE lv AND Lv GENOTYPES OF Pisum

Phytochrome influences stem elongation and the mechanism for this is not understood. The levels of indole-3-acetic acid (IAA) were analyzed in an leLv genotype of Pisum sativum L. which responded to end-of-day far-red light by doubling growth rate. The IAA levels in epidermal peels increased 40% after far-red light whereas IAA levels of the entire stem tissue changed insignificantly. This increase was reversible by red light. Under light-grown conditions, the lv mutation increases stem elongation rates by 2–3-fold and is thought to block the transduction of a phytochrome signal. Analysis of the short-term stem elongation kinetics of dark- and light-grown Lv and lv seedlings suggests that lv blocks the action of the light-stable form of phytochrome. The higher growth rate of lv plants was found to be associated with abnormally high epidermal IAA levels typical of far-red treated Lv plants. End-of-day far-red treatments did not substantially increase epidermal IAA levels in lv plants. These observations support the view that phytochrome regulation of stem elongation may occur in part through modulation of epidermal IAA levels. The lv mutation may result in increased internode growth in part by blocking the ability of phytochrome to decrease epidermal IAA levels.     

ANALYSIS OF LIGHT-CONTROLLED ANTHOCYANIN FORMATION IN COLEOPTILES OF Zea mays L.: THE ROLE OF UV-B, BLUE, RED AND FAR-RED LIGHT

Abstract— Light-induced anthocyanin formation in Zea mays L. coleoptiles was investigated in seven different varieties of this species. Under the test conditions, four varieties showed practically no response to any waveband used (UV, continuous red and continuous far-red), two responded strongly to both UV and far-red, and one showed a strong response only to far-red. The radiation-sensitive varieties showed, however, only a very weak response to continuous red light. In those varieties sensitive to far-red light, a pretreatment with continuous red light led to a greatly enhanced response to UV or in one case the manifestation of a response to UV that was previously lacking. Further investigations in one radiation-sensitive variety (INRA) showed that the UV response was to UV-B radiation below 350 nm. The UV response, as well as the far-red and blue responses in this variety, showed fluence-rate dependency. Red light was almost ineffective and showed only a very weak fluence-rate dependency.     

PHOTOBIOLOGIE DU MÉSOCOTYLE D''AVOINE-III. DOUBLE EFFET DE LA LUMIÈRE BLEUE

Abstract— Using excise sections of oat first-internodes, a dual effect of blue light can be demonstrated on elongation when the sections are first irradiated in distilled H₂O, then incubated with gibberellic acid (GA). At low light energies (230 ergs/cm² per sec, for 2 min), a pretreatment with blue light enhances the GA effect above the elongation it can produce in the dark. At high energies (650 ergs/cm²/sec for 45 min), the same wavelengths cause an inhibition of the GA-induced elongation. An action spectrum for the two effects show a maximum near 435 mμ in both cases. Neither light effect is visible when indoyl-3-acetic acid is used instead of GA. Several physiological effects distinguish the two blue effects. The promotive effect is most marked in the young regions of the mesocotyl, whereas the maximum inhibitive effect is located in slightly older tissues. Time-course experiments showed that the promotive effect is partly due to an extension of the duration of elongation. The inhibitory effect is only temporary and vanishes about 30 hr after the beginning of the experiment. The promotive effect of blue light resembles the effect of far-red light, but the former can be observed with gibberellins A₂, A₄, A₅, A₆ and A₇ which are practically inactive after an irradiation with far-red light. The inhibitory effect of blue light is different from the red-light effect as shown by the time-course experiments.     

SOME EFFECTS OF LIGHT ON LEAF GROWTH IN PISUM SATIVUM AND TROPAEOLUM MAJUS

Abstract— The effect of wave-length of light on leaf expansion in Tropaeolum majus 'Double Orange Gleam' and Pisurn sativum 'Meteor' has been studied. In both species leaf growth is strongly promoted by light.
Increasing the daily duration of exposure to light increased leaf expansion in Tropueolum in both blue and red wave-bands over a range of light intensities. In Pisum a similar effect of ail increase in duration of irradiation was found over the whole range of intensities used for blue light but only at the highest intensity for red light: at the two lower intensities in red an increase in duration of the light treatment beyond 1 hr did not increase leaf expansion.
In both species a period of 4 hr of blue followed by 4 hr of red promoted leaf growth more than 4 hr of red followed by 4 hr of blue. The effect of a 4 hr period of red light was largely prevented when it was followed by far-red; the effect of 4 hr of blue light, on the other hand, was not affected by subsequent exposure to far-red.
It is concluded that leaf growth in Pisum and Tropaeolum is dependent not only on the 'low-energy' red/far-red reversible reaction but also on one or more 'high-enerFy' photo-reactions.     

PHOTOCONTROL OF ANTHOCYANIN SYNTHESIS: PHYTOCHROME,CHLOROPHYLL AND ANTHOCYANIN SYNTHESIS*

Abstract —Anthocyanin synthesis in cabbage and mustard seedlings depends upon duration and irradiance of the light treatment. The relative effectiveness of radiation in various spectral regions depends upon the length of the irradiation and decreases with increasing dose. In intermittent light treatments, far-red light can reverse the promoting action of red light if the dark interval between successive irradiations is longer than one hour. If the length of the dark interval is less than one hour, far-red applied immediately after each red irradiation, enhances anthocyanin accumulation. Anthocyanin accumulation under various light treatments seems to correlate, to some extent, with the rate of phytochrome decay, but not with chlorophyll production. Anthocyanin accumulation is inhibited by 2,4-dinitrophenol and by the ammonium ion, but not by DCMU. The ammonium ion inhibits anthocyanin accumulation induced by a single, short red irradiation. This suggest that the ammonium ion may have a wider spectrum of action in vivo than in chloroplast preparations where it acts as a specific uncoupler of photophosphorylation. Streptomycin inhibits chlorophyll synthesis and enhances anthocyanin accumulation. These results suggest that there is very little, if any, interaction between photosynthesis and ‘high-irradiance-reaction’ anthocyanin synthesis in cabbage and mustard seedlings.     

RESEARCH NOTE

Abstract— The endogenous levels of indole-3-acetic acid (IAA), abscisic acid (ABA) and gibberellins (GA) were examined by gas chromatography-mass spectrometry in Prunus cerasus plantlets grown under different light conditions in relation to previous work on the photocontrol of stem elongation. The endogenous levels of free and conjugated IAA in the apical sections of red-grown shoots were about two-fold higher than those in the blue-treated plants, and these corresponded with maximum shoot elongation. By contrast, greater concentrations of ABA and GA were found in blue-grown plants compared to red with intermediate shoot growth. When blue was combined with red or far red, lower levels of IAA, ABA and GA correlated with less growth. These results suggest that the regulation of stem elongation by phytochrome and a blue-absorbing pigment may, at least in part, occur through a modulation of hormone levels.     

PHYTOCHROME-MEDIATED THRESHOLD CONTROL OF HYPOCOTYL GROWTH IN PARTLY DE-ETIOLATED MUSTARD (Sinapis alba L.) SEEDLINGS

Abstract— Hypocotyl elongation in etiolated mustard ( Sinapis alba L.) seedlings is known to be controlled by phytochrome (Pfr) through a threshold mechanism. The Pfr threshold value required to suppress hypocotyl growth was low (3 times 10⁻²% Pfr, based on total phytochrome in the hypocotyl at 36 h after sowing = 100%). In the present study the question was addressed whether the threshold control by Pfr of hypocotyl elongation also operates in light-pretreated, partly de-etiolated seedlings after transfer to darkness. The experimental results show that this is the case. Calculation of the threshold level in far-red light pretreated seedlings led to a very low value (3 times 10⁻⁷%) compared to etiolated seedlings (3 times 10⁻²%). In red light pretreated seedlings the threshold level was calculated to be 9 times 10⁻⁷%. Since the light pretreatment affected the rate of degradation of phytochrome strongly (half-life of Ptot in continuous red light was found to be 35 min in far-red pretreated instead of 47 min in etiolated material), the difference in threshold level between far-red and red pretreated material cannot be interpreted unambiguously. However, the conclusion can be drawn that light nretreatment strongly increases the degradation rate of Pfr and decreases the threshold level.     

PHYTOCHROME-MEDIATED PHOTOTROPISM IN PROTONEMATA OF THE MOSS Ceratodon purpureus BRID

Abstract— Protonemata of the moss Ceratodon purpureus cultured in white light were transferred to darkness for 3 days and then used for phototropic experiments. Irradiation of the apical region of vertically position protonemata with small beams (0.2 mm) of red light induced a growth response towards the irradiated side (positive phototropism). The phototropic response showed irradiance dependence. The effect of red light was completely reversed by far-red light following red light irradiations, demonstrating that phytochrome was the photoreceptor pigment. Far-red light or UV-blue light had no influence on either bulging or phototropism. Experiments with linearly polarized red or far-red light showed a different dichroic distribution of phytochrome in its different forms, the red-absorbing form, P_r and the far-red-absorbing form, P_fr. Red light with a vibration plane parallel to the long axis of the filaments was most effective. The effectiveness of far-red light was expressed best when its vibration plane was 90° to the electrical vector of the inductive red light.     

Gradient formation of anthocyanin in seedlings of Fagopyrum and Sinapis unilaterally exposed to red and far-red light

Abstract— Anthocyanin synthesis was measured in hypocotyl halves excised from Fagopyrum and Sinapis seedlings irradiated unilaterally or equilaterally with red or far-red light. Although no phototropic curvatures are produced by red or far-red exposure, a significant gradient in anthocyanin formation was observed for Fagopyrum seedlings and the trend for gradient formation is present in Sinapis seedlings. The gradient production in Fagopyrurn is correlated with this tissue's greater optical density. Since the intensities used do not inhibit elongation completely (through the phytochrome system) and an intensity gradient is present in the tissue (as evidenced by anthocyanin formation) it is concluded that (a) a steeper light gradient is required to induce phototropic curvatures or (b) a diffusible material affecting elongation growth prevents any differential from being established across the tissue.     

MODE OF COACTION OF PHYTOCHROME AND BLUE LIGHT PHOTORECEPTOR IN CONTROL OF HYPOCOTYL ELONGATION

Abstract The rate of hypocotyl longitudinal growth in seedlings of Sesamum indicum L. is strongly inhibited by continuous blue light (cBL)† and slightly by continuous far-red light while continuous red light (cRL) or red light pulses are hardly effective from 60 h after sowing onwards. Between 36 and 60 h after sowing the growth rate responds to red light pulses the effect of which is fully reversible by long wavelength far-red light. When seedlings are kept in cBL for 3 days and then treated with red light hypocotyl growth rate responds strongly. However, RL effectiveness decreases with time after transfer from BL to RL. BL → darkness transfer experiments with different levels of P_fr established at the beginning of darkness show that after a BL pretreatment phytochrome (P_fr) alone is capable of fully controlling growth rate. When white light (WL) is given no BL effect is detectable in weak WL. Only high light fluxes maintain a typical BL growth rate. At medium WL fluxes elongation rate returns gradually to the dark rate. The simplest explanation of the data is that light absorbed by a separate BL photoreceptor is necessary to maintain responsivity to P_fr. With increasing age of the seedlings the requirement for BL increases strongly. On the other hand, brief light pulses—given to demonstrate photoreversibility of phytochrome—remain equally effective provided that responsivity to P_fr exists.     

PHOTORESPONSES OF Arabidopsis SEEDLINGS EXPRESSING AN INTRODUCED OAT phyA cDNA: PERSISTENCE OF ETIOLATED PLANT TYPE RESPONSES IN LIGHT-GROWN PLANTS

The photocontrol of hypocotyl elongation has been studied in etiolated and light-grown wild type (WT) Arabidopsis thaliana (L. Heynh) seedlings, and in two homozygous isogenic lines that have been transformed with the oat phy A gene coding sequence under the control of the cauliflower mosaic virus (CaMV) 35S promoter. For etiolated seedlings the inhibition of hypocotyl elongation by continuous broad band far-red light (FR) is saturated at much lower photon fluence rates in the transgenic seedlings compared with WT seedlings. Furthermore, whereas de-etiolation of WT seedlings leads to loss of responsiveness of the hypocotyls to prolonged FR, de-etiolated transgenic seedlings continue to show a pronounced FR-mediated inhibition of elongation. This may reflect the persistence of a FR-high irradiance response (HIR) mediated by the introduced oat phytochrome A. Although the hypocotyls of light-grown transgenic seedlings display a qualitatively normal end-of-day FR growth promotion, such seedlings display an aberrant shade-avoidance response to reduced red:far-red ratio (R:FR). These results are discussed in relation to the proposal that the constitutive expression of phytochrome A leads to the persistence of photoresponse modes normally restricted to etiolated plants.     

LIGHT-GROWN PLANTS OF THE CUCUMBER LONG HYPOCOTYL MUTANT EXHIBIT BOTH LONG-TERM AND RAPID ELONGATION GROWTH RESPONSES TO IRRADIATION WITH SUPPLEMENTARY FAR-RED LIGHT

Seedlings of wild type (WT) and the lh mutant of Cucumis sativus were grown in white light and given supplementary far-red radiation either to the whole plant, or via fiber-optic probes directed at the apical region of the hypocotyl. In both WT and mutant seedlings, reducing the ratio of red to far-red radiation resulted in significant increases in extension growth. Direct measurement of extension rate by transducer techniques revealed that the mutant seedlings responded to additional far-red radiation by an increment in extension rate that was equivalent to that observed with the WT seedlings. Assuming that the lh mutant is deficient in phytochrome B (Kendrick and Nagatani, The Plant Journal 1: 133–139, 1991), these results indicate that although phytochrome B clearly has an important role in the induction of the shade avoidance syndrome, it is unlikely to be the sole responsible receptor.     

INFLUENCE DE LA LUMIÈRE SUR LES MOUVEMENTS DE NUTATION DES PLANTULES

Abstract— Red light can promote (a) the straightening of the curvature ( Phaseolus vulgaris, Pisum sativum ) (b) the formation of a loop ( Phacelia tanacetifolia and Picea abies ) or (c) the induction of a curvature which does not occur in the darkness ( Lactuca sativa ). Thesc red-light induced movements could be reversed by following each brief red exposure with short irradiation by far-red light. These reactions are controlled by the phytochrome system.
On the other hand, exposure to far-red and blue light during a long period can induce other movements:
(a) The light re-opens the hook which has been closed by red radiation ( Lactuca sativa ).
(b) The light induces the straightening of the dark-induced curvature ( Phacelia tanacetifolia ). These facts may be due to an unknown property of phytochrome or to the action of another photoreceptor.     

THE SYNERGISTIC INFLUENCE OF A PRE-IRRADIATION ON THE PHOTOINHIBITTON OF GHERKIN SEEDLINGS

Abstract— A pre-irradiation of etiolated gherkin seedlings increases the effect of a subsequent irradiation with red light, whereas it does not influence the inhibitive effect of blue light. Blue and far red radiation are more active as a pre-irradiation than red light. It is concluded that at least two photoreactions are involved in the control of the elongation of the gherkin hypocotyl and that the blue, far red sensitive reaction has a synergistic effect on the red sensitive (Phytochrome mediated) reaction.     

PHYTOCHROME CONTROL OF EXTRACELLULAR PEROXIDASE ACTIVITY IN MUSTARD INTERNODES: CORRELATION WITH GROWTH, and COMPARISON WITH THE EFFECT OF WOUNDING

Abstract— The effects of phytochrome status on extracellular peroxidase activity were investigated in Sinapis alba L. seedlings grown for 12 days under continuous white light and transferred to darkness after a red light or a far-red light pulse. The rates of extension growth and dry matter accumulation in the first internode were increased by the far-red light pulse. Extracellular proteins, obtained by low speed centrifugation of intact internodes infiltrated with CaCl₂, were separated by isoelectrofocusing, and four extracellular acidic peroxidases were resolved, the most active being A3 and A4 (both ˜60 kD). The activity of A4 was reduced by the far-red light pulse perceived by phytochrome, while the activity of A3 was unaffected. The promotion of internode extension growth caused by far-red light is biphasic [Casal and Smith (1989) Plant, Cell Environ. 12 ,511–50]. Changes in peroxidase activity were detected prior to the second, but not to the first phase of the internode growth promotion. The effects on both growth and peroxidase activity were virtually restricted to the upper half of the internode and, once established, did not subsequently increase in magnitude.
In contrast to the effects mediated by phytochrome, blue light pretreatments affected growth but not extracellular peroxidase activity. Wounding the internode reduced extension growth, increased the activity of A3, but caused no significant effects on A4.
Other extracellular proteins, separated in sodium dodecyl sulphate polyacrylamide gels and stained with Coomassie blue, showed no significant differences. The concentration of extracellular proteins was higher in the upper than the lower half of the internode.
Results are discussed in terms of phytochrome effects in light grown plants, peroxidase activitv-arowth relationships, and extracellular peroxidase isoform functions.     

EVIDENCE FOR PHYTOCHROME CONTROLLED ENDOMITOSIS AND CELL ELONGATION IN PISUM SATIVUM EPICOTYLS

Elongation and endomitosis were studied in the epicotyl cortex cells of germinating seeds of Pisum sativum cv. Rondo. One min of red light per 24 h is sufficient to fully inhibit endomitosis. Terminal far-red irradiation can reverse the red effect to the level established by far-red light alone. This justifies the conclusion that phytochrome is involved in the regulation of endomitotic DNA replication. Since far-red light alone inhibits endomitosis to about 50%, we conclude that very low levels of Pfr are required to influence the endomitotic cycle.     

PHOTOBIOLOGIE DU MÉSOCOTYLE D'AVOINE—II. STIMULATION DE L'ÉLONGATION PAR LA LUMIÈRE ROUGE-SOMBRE EN PRÉSENCE DE DIVERSES GIBBÉRELLINES

Abstract— Far-red light has the property of promoting the elongation of Avena mesocotyl sections in the presence of a gibberellin. Part of this effect is not reversible by red light (around 655 mμ ). The wavelengths which are most effective are those in the neignbourhood of 720 mμ , as revealed by the action spectrum. Amongst the 8 gibberellins tested, only A₁, A₃, and A₉, are capable of producing, after far-red irradiation, a greater elongation than the one they cause in the dark.     

PHYTOCHROME-MEDIATED PHOTOTROPISM AND DIFFERENT DICHROIC ORIENTATION OF Pr AND Pfr IN PROTONEMATA OF THE FERN ADIANTUM CAPILLUS-VENERIS L.

Abstract— Single-celled protonemata of Adiantum capillus-veneris were cultured under continuous red light for 6 days and then in the dark for 15 h. Brief local exposure of a flank (5 times 20 /mi) of the subapical region of a protonema to a microbeam of red light effectively induced a phototropic response toward the irradiated side. The degree of the response was dependent upon the fluence of the red light. Red/far-red reversibility was typically observed in this photoreaction, showing that phytochrome was the photo-receptive pigment. When the flank was irradiated with a microbeam of linearly polarized red and far-red light, red light with an electrical vector parallel to the cell surface was most effective. However, the far-red light effect was most prominent when its electrical vector was normal to the cell surface. These polarized light effects indicate the different dichroic orientation of P_r (red-light-absorbing form of phytochrome) and P_r (far-red-light-absorbing form of phytochrome) at the cell flank.     

PHYTOCHROME INDUCTION OF PHOTOREACTIVATING ENZYME IN Phaseolus vulgaris L. SEEDLINGS*

Abstract— Photoreactivating enzyme (PRE) activity was measured in hypocotyls of Phaseolus vulgaris L. seedlings using a radioimmunoassay for thymine dimers. In dark-grown seedlings a five-fold increase in PRE activity was observed after 6 h of irradiation with blue or far-red light. Short time irradiations with red light were also effective. Reversibility of this red-light-effect by a subsequent short term irradiation with far-red light and also the high effectiveness of continuous far-red light indicate that PRE activity is under phytochrome control. This observation points to PRE induction via gene activation.     

LIGHT REQUIREMENTS FOR THE ENHANCED SYNTHESIS OF A PLASTID mRNA DURING SPIRODELA GREENING

A plastid mRNA (5 × 10⁵ mol wt) appears as a burst 3 h after white light greening of steady state dark grown plants of Spirodela oligorrhiza. In this species, chlorophyll synthesis begins after 12 h. The light requirement is different from the pulse of far-red reversible red light required to abolish the lag of chlorophyll synthesis in many species, including Spirodela. Continuous high energy far-red is not stimulatory. When the illumination is not continued throughout the time of incorporation, the stimulation is minimal. Low energy blue and red light are stimulatory, and green and far-red light are ineffectual. Blue light was > 5 times as effective as red light at many dose levels. Illumination with 3 × 10¹⁷ quanta/m²/s (50pEm/cm²/s) blue light at 476 nm gave about half maximum stimulation.