A Comparison of Seed and Seedling Phytochrome in Avena sativa L. using Monoclonal Antibodies

Hilton, J.R. and Thomas, B. 1985. A comparison of seed and seedlingphytochrome in Avena saliva L.using monoclonal antibodies.—J.exp. Bot. 36: 1937–1946.The kinetics of phytochrome accumulationduring imbibition and germination of seeds of Avena saliva L.cv. Saladin has been determined in vivo by spectrophotometryand in extracts by using Enzyme–Linked Immunosorbent Assay(EL1SA). In vivo measurements show two phases of phytochromeincrease. The first occurs during the initial 2 h of imbibitionand is associated with the hydration of the seed proteins; thesecond larger increase begins after 16 h, due probably to denovo synthesis. An ELISA using monoclonal antibodies purifiedfrom dark grown Avena seedlings detected only the second increasein phytochrome content. Mixing experiments indicate that theinability to detect phytochrome by ELISA during the first 16h is not due to the presence of inhibitors in the extracts.It is concluded that pre–existent seed phytochrome isantigenically dissimilar to seedling phytochrome. These twopools of phytochrome are stable and unstable respectively withregard to Pfr destruction. Key words: Immunology, phytochrome, seed     

Time Dependence of Phytochrome-mediated Carotenoid and Chlorophyll Synthesis in Sorghum bicolor L

In 5-day-old etiolated Sorghum seedlings, red light irradiationfor 1 s enhanced carotenoid and chlorophyll accumulation, and5 min of red light treatment saturated the photoresponse. Thedegree of red/far-red photoreversibility of carotenoid accumulationwas dependent on the age of the plant. No significant escapefrom far-red reversibility was observed up to 30 min after theonset of a saturating red light pulse in 5-day-old etiolatedseedlings. Thereafter, the escape was relatively fast and completedwithin 180 min. Sorghum bicolor L, carotenogenesis, phytochrome, time dependence, chlorophyll synthesis     

Is the far-red-absorbing form of Avena phytochrome A that is present at the end of the day able to sustain stem-growth inhibition during the night in transgenic tobacco and tomato seedlings?

Avena phytochrome A (phyA) overexpressed in tobacco (Nicotiana tabacum L.) and tomato (Lycopersicon sculentum Mill) was functionally characterised by comparing wild-type (WT) and transgenic seedlings. Different proportions of phytochrome in its far-red-absorbing form (Pfr/P) were provided by end-of-day (EOD) light pulses. Stem-length responses occurred largely in the range of low Pfr/P (3–61%) for WT seedlings and in the range of high Pfr/P (61–87%) for transgenic seedlings. A similar shift was observed when the photoperiod was interrupted by short light pulses providing different Pfr/P ratios and followed by 1 h dark incubation. In other experiments, Avena phyA was allowed to re-accumulate in darkness and subsequently phototransformed to Pfr but no extra inhibition of stem extension growth was observed. In transgenic tomato seedlings the response to EOD far-red light was faster and the response to a far-red light pulse delayed into darkness was larger than in the WT. Avena phyA Pfr remaining at the end of the photoperiod appears intrinsically unable to sustain growth inhibition in subsequent darkness. Avena phyA modifies the sensitivity and the kinetics of EOD responses mediated by native phytochrome.Abbreviations EOD end-of-day - FR far-red light - Pfr/P pro-portion of phytochrome in its FR-absorbing form - phyA phyto-chrome A - phyB phytochrome B - R red light - RFR R to FR ratio - WT wild type We thank Dr Brian Thomas for providing the antibodies used in this work, and Federico Guerendiain for his excellent technical assistance. This work was financially supported by grants UBA AG 040 and Fundacion Antorchas A-12830/1-19 (both to J.J.C.), PID-CONICET (to R.A.S. and J.J.C.), United States Department of Energy DE-FG02-88ER13968 (to R.D.V.).     

Photoregulation of Phenylalanine Ammonia Lyase is not Correlated with Anthocyanin Induction in Photomorphogenetic Mutants of Tomato(Lycopersicon esculentum)

Photoregulation of phenylalanine ammonia lyase (PAL)(EC 4.3.1.5 [EC] )was analyzed in wild type (WT) and mutants: phytochrome dencient-awrea(au), high pigment exhibiting exaggerated phytochrome response(hp) and the double mutant (au.hp) of tomato (Lycopersicon esculentum(Mill.) cv. Ailsa Craig). Red light, acting via phytochrome,stimulates PAL activity in cotyledons and hypocotyls of tomatoseedlings. The time course of photoinduction of PAL in cotyledonsof the mutants (au and au.hp) and WT seedlings has a peak ofactivity at 4 h, after which the activity falls sharply, exceptin hp seedlings where activity is maintained at a high level.In hypocotyls, photoinduction of PAL also shows an initial rise,reaching a maximum at 3 h, followed by a sharp decline in themutants (au and au.hp) and WT seedlings. However in hp seedlingsphotoinduction of PAL is about 3 fold that in WT. The photoinductionof PAL appears to be dependent on de novo synthesis of proteinand nucleic acids. The use of a PAL specific inhibitor a-aminooxyß-phenylpropionic acid indicated that PAL is an essentialcomponent of the anthocyanin biosyn-thetic pathway in the tomatoseedlings. However, a comparison of anthocyanin biosynthesis[Adamse et al. (1989) Photochem. Photobiol. 50: 107] and PALphotoinduction data revealed that phytochrome mediated inductionof PAL and anthocyanin in the tomato seedlings are not correlated.While au and au.hp mutant seedlings show a similar increasein PAL level as in the WT, there is little formation of anthocyaninin these mutant seedlings. The results indicate that, in contrastto the photoregulation of anthocyanin synthesis which is dependenton the presence of the labile phytochrome (IP) pool in tomatoseedlings, the photoinduction of PAL is mediated via a smallpool of phytochrome in au mutant: stable phytochrome (sP) ora residual /P pool. (Received August 6, 1991; Accepted September 27, 1991)     

Effect of malformin on phytochrome reactions in Vigna and Avena

The rate of destruction of the far red absorbing form of phytochrome(Pfr) in green or etiolated cuttings of Vigna radiata was slowerin the presence of malformin than in its absence. Malforminhad no effect on the accumulation of total phytochrome in thedark, or on the reaccumulation of phytochrome after destructionin red light. The amount of photoconversion of the red absorbingform of phytochrome (Pr) to Pfr or Pfr to Pr by given dosesof red or far red radiation was slightly but consistently lessin malformin-treated cuttings of V. radiata than in controls.Malformin had no effect on the rate of destruction or photoconversionof phytochrome in etiolated shoots of Avena sativa. The decreasein destruction rate of Pfr by malformin in V. radiata may contributeto the inhibition of dark abscission by malformin after lighttreatment. (Received October 3, 1979; )     

Timing of the initial action of phytochrome with regard to protochlorophyll synthesis in the mustard seedling

Summary Significant accumulation of photoconvertible protochlorophyll(ide) in the cotyledons of the mustard seedling takes place from 24 h after sowing onwards (25° C). The rate of accumulation in darkness is greatly increased by a pretreatment with red or far-red light. The strong effect of continuous red light, given from the time of sowing, remains fully reversible by a 756 nm-light pulse up to about 18 h after sowing. On the other hand, the effect of continuous far-red light which can be detected at 15 h after sowing is not influenced by a subsequent application of 756 nm-light pulses. An interpretation of the data requires the concept that continuous red light and continuous far-red light act from different sites. This conclusion is based on a comparison of the present data with the earlier published data on phytochromemediated anthocyanin synthesis in the mustard seedling cotyledons.Abbreviations PChl protochlorophyll(ide) - Chl chlorophyll(ide) - P_tr far-red absorbing form of the phytochrome system (physiologically active) - P_r red absorbing form of the phytochrome system - [P_tot] [P_r]+[P_fr] Supported by a grant from the Deutsche Forschungsgemeinschaft (SFB 46).     

The Role of Phytochrome in Anthocyanin Synthesis in Seedlings of Vigna radiata (L.) Wilczek

Previously, it has been demonstrated that the red light-inducedanthocyanin accumulation in mung bean seedlings is mediatedby phytochrome [Dumortier and Vendrig Z. Pflanzenphysiol. 87:313 (1978)]. In this paper the importance of phytochrome forthe accumulation of anthocyanins in seedlings of mung beanswas studied in non-irradiated seedlings and in seedlings irradiatedwith 5 min R. A short FR-irradiation given early after sowing reduced theamount of anthocyanins which were normally found in non-irradiatedseedlings. This indicates that P_FR may be important for at leastpart of the anthocyanin synthesis in the dark. As for the redlight-mediated anthocyanin accumulation, irradiation appearedto be most effective when given to seedlings at the age of 36–48hr. Although the seedlings were sensitive to red light irradiationbefore that time, they were not able to synthesize anthocyaninsuntil they had reached the age of 36 hr. Complete escape ofred/far-red reversibility occurred only when far-red was given12 hr after red, although partial escape could be observed witha shorter time-interval. Furthermore, the time-course of anthocyaninaccumulation after a two-fold R-irradiation was compared withthe effect of a single R-exposure. From the results could beconcluded that the pattern of anthocyanin accumulation is dependenton the time during which P_FR is present in the seedlings. Theseexperiments also indicate that P_FR not only plays a role inthe synthesis of anthocyanins but probably also in their degradation. The results of our study show that phytochrome is importantfor anthocyanin accumulation in non-irradiated mung bean seedlingsas well as in R-irradiated, and that it probably is also involvedin the degradation of the pigment. (Received January 18, 1982; Accepted April 30, 1982)     

Avena phytochrome a overexpressed in transgenic tobacco seedlings differentially affects red/far-red reversible and very-low-fluence responses (cotyledon unfolding) during de-etiolation

Etiolated seedlings of tobacco (Nicotiana tabacum L.) were exposed to single light pulses predicted to establish different proportions of phytochrome in its far-red absorbing form (Pfr/P). The angle between the cotyledons was compared in wild-type and transgenic seedling overexpressing Avena phytochrome A over the range of both very low-fluence responses (VLFR) and low-fluence responses (LFR). The unfolding of the cotyledons increased linearly for 24 h after the light pulse. At this time the Pfr/P-response curve showed two linear segments. The segment below a calculated Pfr/P = 3% (i.e. VLFR) was steeper than the segment above 3% (i.e. LFR). In the VLFR range the slope was almost threefold higher in transgenic than wild-type seedlings. However, in the LFR range the difference was less than 50%. From these data we propose that Avena phytochrome A makes a higher contribution to VLFR than LFR in etiolated tobacco seedlings.Abbreviations FR far-red light - LFR low-fluence response - Pfr/P proportion of phytochrome (P) in its FR-absorbing form (Pfr) - R red light - VLFR very low-fluence response Financial support was provided by the University of Buenos Aires and Fundación Antorchas (Argentina) to J.J.C., CONICET (Argentina) to R.A.S. and the U.S. Department of Energy (DE-FG02-88ER13968) to R.D.V.     

Phytochrome Control of Turion Formation in Spirodela polyrhiza L. Schleiden

Turion yield in Spirodela polyrhiza, strain SJ, is increasedby increasing the daily light period. This effect is more pronouncedin autotrophic than in mixotrophic conditions. Night-break irradiation(15 mins) increased turion yield by 150 % under the conditionsof an 8-h daily light period. Besides the effect of night-breakirradiation, end-of-day far-red irradiation decreased turionyield with increasing photoperiod, whereas end-of-day red irradiationwas without any effect. This demonstrates the promoting effectof the P_fr form of phytochrome on formation of light-grown turions. Formation of dark-grown turions was increased by about 240%by a single red light pulse and was reversed by an immediatelyapplied far-red light pulse. Consequently, under heterotrophicconditions phytochrome modulates the turion formation process. Spirodela polyrhiza L. Schleiden, duckweed, Lemnaceae, photomorphogenesis, phytochrome, turion     

Analysis of phytochrome kinetics in light-grown Avena sativa L. seedlings

The phytochrome content, the rate of phytochrome accumulation after a light/dark transition and the rate of phytochrome destruction after a 1.5 d reaccumulation period in darkness were measured in light grown Avena sativa L. seedlings. The results using spectrophotometrical methods (Norflurazon treated seedlings) and the radio-immunoassay (RIA) (green seedlings) were almost identical. The rate of phytochrome synthesis was analysed by measuring the activity of poly(A⁺)-RNA coding for the phytochrome apoprotein. It was demonstrated that the rate of phytochrome synthesis is different in light and in dark. These results were confirmed by measuring the incorporation of radioactive label in vivo. Five minutes red (and 5 min far-red) light strongly reduces the rate of phytochrome synthesis. Even after prolonged dark periods only 50% of the initial rate of phytochrome synthesis is recovered for light and dark grown seedlings which received one red light pulse.     

Effects of lanthanum on rhythmic and nyctinastic leaflet movements in Albizzia lophantha

The involvement of extracellular calcium in rhythmic and nyctinasticmovement oi Albizzia lophantha Benth. leaflets has been studiedby testing the effect of LaCl₃ and its interaction with thephytochrome control of these movements. A 2h pulse of LaCl₃(10–50 mM) promotes a loss of rhythmicity, leaving leafletsin an open position, and also overrides the phase shift causedby phytochrome. A 2 h pulse of LaCl₃ (1 mM) decreases the amplitudeof rhythmic oscillations but does not promote arhythmicity normodify the phase shift caused by red light. The red light pulseabolishes the damping effect of 1 mM La³⁺. LaCl₃ inhibits nyctinasticclosure and decreases the phytochrome control of nyctinasticclosure. A subsequent supply of CaCl₂ (10 to 100 mM) does notreverse La³⁺ (10 mM) inhibition of closure. Light-induced openingis independent of LaCl, but rhythmic opening in darkness showsdifferent responses to La³⁺ depending on the time at which La³⁺is applied. Data suggest that extracellular calcium is requiredfor the closure mechanism and for the expression of rhythmicmovement. It could also be involved in the phytochrome transductionpathway and/or in the linking steps between phytochrome andthe circadian clock. Key words: Albizzia lophantha, calcium, circadian rhythm, lanthanum, phytochrome     

Intracellular localisation of phytochrome in oat coleoptiles by electron microscopy

The intracellular localisation of phytochrome in oat (Avena sativa L. cv. Garry Oat) coleoptiles was analysed by electron microscopy. Serial ultrathin sections of resin-embedded material were indirectly immunolabeled with polyclonal antibodies against phytochrome together with a gold-coupled second antibody. The limits of detectability of sequestered areas of phytochrome (SAPs) were analysed as a function of light pretreatments and amounts of the far-red absorbing form of phytochrome (Pfr) established. In 5-d-old dark-grownAvena coleoptiles SAPs were not detectable if less than 13 units of Pfr — compared with 100 units total phytochrome of 5-d-old dark-grown seedlings — were established by a red light pulse. In other sets of experiments, seedlings were preirradiated either with a non-saturating red light pulse to allow destruction to occur or with a saturating red followed by a far-red light pulse to induce first SAP formation and then its disaggregation. These preirradiations resulted in an increase of the limit of detectability of SAP formation after a second red light pulse to 38–41 and 19–23 units Pfr, respectively. We conclude that with respect to Pfr-induced SAP formation an adaptation process exists and that our data indicate that SAP formation is not a simple self-aggregation of newly formed Pfr.Abbreviations FR far-red light - Pfr, Pr far-red-absorbing and red-absorbing forms of phytochrome, respectively - Plot total phytochrome (Pfr + Pr) - R red light - SAP sequestered areas of phytochrome This work was supported by Deutsche Forschungsgemeinschaft (SFB 206). The competent technical assistance of Karin Fischer is gratefully acknowledged.     

Rapid Phytochrome-Controlled Protein Phosphorylation and Dephosphorylation in Avena sativa L.

The time course for in vivo changes in the protein phosphorylationpattern was measured after red and red/far-red light. Avenacoleoptile tips were incubated in ³²P-labeled phosphate andirradiated. The supernatant fractions of homogenates were subjectedto SDS-poly-acrylamide gel electrophoresis and then autoradiographed.Within seconds, the radioactive label of two proteins decreasedand the radioactive label of one protein increased. These datasuggest that the phosphorylation states for these proteins maybe under phytochrome control. (Received July 20, 1987; Accepted July 20, 1988)     

Modes of control by the circadian oscillator and the hourglass mechanism of the activities of cytoplasmic and chloroplast glyceraldehyde 3-phosphate dehydrogenases in Lemna gibba G3

Two types of clocks, i.e., the circadian oscillator and thehourglass mechanism, which under continuous light and darknessrespectively control the mutually inverse temporal changes inthe activities of Cyt-NAD-GPD and Chl-NADP-GPD of Lemna gibbaG3, were studied. Both clocks controlled the apparent Km values,not the Vmax values, of the GPD reactions for their substrateand coenzymes. A red light pulse inserted 3 hr after the onsetof the dark period eliminated the sigmoidal changes in darkness,but evoked rhythmical changes which otherwise did not occurin continuous darkness. Thus, the photosynthetic rhythm, ifpresent, would not sustain the GPD rhythms. This effect of ared light pulse was not nullified by a subsequent far red lightpulse. A far red light pulse given at the 3rd hour of an extendeddark period made conspicuous the sigmoidal changes in activityof GPDs in the dark period, and its effect was nullified bya subsequent red light pulse, suggesting that phytochrome isinvolved in the hourglass mechanism. (Received September 26, 1978; )     

Effect of Growth Regulators and Light on Pollen Germination and Pollen Tube Growth in Pinus roxburghii Sarg

Pine (Pinus roxburghii) pollen grown in suspension cultureswas used to study the effects of growth regulators and lightconditions on germination and pollen tube growth. Indol-3-ylacetic acid, gibberellic acid, ethylene, abscisic acid and cyclicAMP (cAMP) at low concentrations (1–10 mg 1^–1) promotedgermination and tube growth. Addition of 1 and 10 mg 1^–1cAMP to any of the growth regulators had a promotory effect.Pollen tube growth decreased in white light as compared to thedark, and was increased in red light. Far-red light counteractedthe effect of red light. The effect of growth regulators incausing the enhanced tube growth appears to be manifested throughsubstances such as cAMP, and phytochrome seems to be involved. Pinus roxburghii, pine, pollen germination, pollen tube growth, growth regulators, cyclic AMP, phytochrome     

Altered Phytochrome Regulation of Greening in an aurea Mutant of Tomato

A brief pulse of red light accelerates chlorophyll accumulation upon subsequent transfer of dark-grown tomato (Lycopersicon esculentum) seedlings to continuous white light. Such potentiation of greening was compared in wild type and an aurea mutant W616. This mutant has been the subject of recent studies of phytochrome phototransduction; its dark-grown seedlings are deficient in phytochrome, and light-grown plants have yellow-green leaves. The rate of greening was slower in the mutant, but the extent (relative to the dark control) of potentiation by the red pulse was similar to that in the wild type. In the wild type, the fluence-response curve for potentiation of greening indicates substantial components in the VLF (very low fluence) and LF (low fluence) ranges. Far-red light could only partially reverse the effect of red. In the aurea mutant, only red light in the LF range was effective, and the effect of red was completely reversed by far-red light. When grown in total darkness, aurea seedlings are also deficient in photoconvertible PChl(ide). Upon transfer to white light, the aurea mutant was defective in both the abundance and light regulation of the light-harvesting chlorophyll a/b binding polypeptide(s) [LHC(II)]. The results are consistent with the VLF response in greening being mediated by phytochrome. Furthermore, the data support the hypothesis that light modulates LHC(II) levels through its control of the synthesis of both chlorophyll and its LHC(II) apoproteins. Some, but not all, aspects of the aurea phenotype can be accounted for by the deficiency in photoreception by phytochrome.     

Studies on the light controlling the time of flower-opening in Pharbitis nil

Flower buds of Pharbitis nil, strain Violet, open about 10 hrafter the onset of darkness at 24?C. Daylight fluorescent lightat 0.3–3 W/m² given during the first 4 hr of this darkperiod delayed the time of flower-opening, but that given laterhad only a slight effect or was ineffective. Red light was mosteffective in delaying the time of flower-opening, and a 5-minred light pulse given every 30 min also was effective. The effectof this 5-min red light was partly reversed by a subsequentfar-red light pulse which suggests that the absence of P_fr duringthe first 4 hr in the dark is necessary for normal timing offlower-opening. Five minutes of red light given 10 hr after the onset of darknessadvanced the phase of the circadian rhythm which controls thetime of flower-opening; buds opened about 7 hr earlier on thefollowing day. This effect of red light was also reversed bya subsequent exposure to far-red light, which suggests the participationof phytochrome in this reaction. (Received October 8, 1979; )     

The appearance of glutamine synthetase in turions of Spirodela polyrhiza (L.) Schleiden as regulated by blueand red light, nitrate and ammonium

Control by light and nitrogen (nitrate and ammonium) of theappearance of glutamine synthetase (GS; EC 6.3.1.2 [EC] ) in turionsof Spirodela polyrhiza (L.) Schleiden, strain SJ, was investigatedduring the pregermination period, i.e. up to 48 h after onsetof light. Immediately after transfer from after-ripening conditions(5C, darkness, D) to germination conditions (25C), GS activitydid not respond to light or nitrate. After 72 h in D (25C)activity increased in continuous light. Therefore, the regulatoryrole of light, nitrate and ammonium in the process of appearanceof GS was mainly studied between 72 and 120 h after transferfrom after-ripening to germination conditions (phase II of thepre-germination process). The inducing effect of red light ismediated by the photoreceptor phytochrome: the effect of long-termcontinuous red light (6 or 24 h) can be reversed, at least inpart, by a subsequent far-red light pulse (‘end of day’Irradiation). Blue light is more effective than red light ininducing the appearance of GS. Therefore, a specific blue lighteffect has to be assumed. This represents a novel mode of lightaction in regulating the level of the ammonium assimilatingenzyme in an angiosperm system. lmmunoblots showed that (i)increase in the enzymatic activity is caused by de novo synthesisof the enzyme protein, (ii) two different subunits (38 and 42kDa) contribute to the total activity which must be attributedto two different isofornis. In accordance with results fromother higher plants, the 38 kDa subunit (presumably relatedto the cytosolic isoform) did not increase in the presence oflight, whereas the 42 kDa subunit (presumably related to theplastidic isoform) was induced. The maximal enzyme level wasreached only in the presence of both light (blue light) andnitrate. Light induction was also observed in the presence ofammonium; however, GS activity was decreased, when comparedto nitrate-treated turions. Comparison of these results withprevious observations suggest that the influence of light andnitrate on the germination response and regulation of the nitrate/ammoniumassimilation pathway in turions appear to be unrelated phenomena. Key words: blue light, germination, glutamine synthetase, phytochrome, Spirodela polyrhiza, turion