Light-Induced Chloroplast Shrinkage in vivo Detectable After Rapid Isolation of Chloroplasts From Pisum sativum

A light-induced shrinkage of chloroplasts in vivo could be detected with chloroplasts isolated within 2 minutes of harvesting pea plants. As determined both by packed volume and Coulter counter, the mean volume of chloroplasts from plants in the dark was 39 μ³, whereas it was 31 μ³ for chloroplasts from plants in the light. Upon illumination of the plants, the half-time for the chloroplast shrinkage in vivo was about 3 minutes, and the half-time for the reversal in the dark was about 5 minutes. A plant growth temperature of 20° was optimal for the volume change. The chloroplast shrinkage was half-maximal for a light intensity of 400 lux incident on the plants and was light-saturated near 2000 lux. The light-absorbing pigment responsible for the volume change was chlorophyll. This light-induced shrinkage resulted in a flattening and slight indenting of the chloroplasts. This chloroplast flattening upon illumination of the plants may accompany an increase in the photosynthetic efficiency of chloroplasts.     

Subcellular Distribution of Inorganic Phosphate, and Levels of Nucleoside Triphosphate, in Mature Maize Roots at Low External Phosphate Concentrations: Measurements with 31P-NMR

Maize plants were grown in nutrient solution without phosphate,or in which inorganic phosphate (Pi) was maintained at nearlyconstant concentrations of 1 µM, 10µM or 0·5mM. In vivo ³¹P-NMR measurements showed that there was no discernibledifference in the cytoplasmic Pi content (µmol cm^–3root volume) of the mature roots of plants exposed to 1 µM,10µM or 0·5 mM external phosphate for up to 12d. However, the vacuolar Pi content of the mature roots variedabout 10-fold between these three groups. The cytoplasmic Pi content of roots receiving no external phosphatedecreased significantly after about 7 d total growth, and atabout this time the vacuolar pool of Pi became too small foraccurate measurement. The presence of 1 µM Pi in the nutrientsolution completely prevented this decline in cytoplasmic Pi,and there was some evidence that it also raised the Pi contentof the root vacuoles above the almost undetectable level foundin the totally P-starved roots. During the first 7–9 d of growth, the nucleoside triphosphatecontent of the mature roots was unaffected by the concentrationof phosphate in the nutrient solution. The results highlight the close control of cytoplasmic concentrationsof certain important phosphorus metabolites in roots growingin soil of normal agricultural fertility. Key words: Vacuole, cytoplasm, intracellular compartmentation, NTP, P-nutrition     

Reactions of birch leaves to changes in light during early ontogeny: comparison between in vivo and in vitro techniques to measure carbon uptake

Trends in several photosynthetic parameters and their responseto changed growth light were followed for 15 d in leaves ofyoung birch saplings using a rapid-response gas exchange measuringequipment. These in vivo measurements were compared to biochemicalassays that were made from the same leaves after the gas exchangestudies. The measurements were made on leaves that were selectedprior to the study and were at that time of similar age. Forthe first 7 d the photosynthetic parameters were followed fromthe growth conditions of moderate light (200 µmol m^–2s^–1; referred to as controls later in the text). On day7 some of the saplings were transferred to grow either underhigh (450 µmol m^–2 s^–1; referred to as highlight plants) or low (75 µmol m^–2 s^–1; referredto as low light plants) light and the capability of the preselectedleaves for acclimation was followed for 6 d. For comparison,at the end of the experiment the measurements were made on bothcontrols and on young leaves that had developed under high andlow light. Generally the in vivo measured rate of CO₂ uptake (gross photosynthesis)both at 310 ppm CO₂ and 2000 ppm CO₂ corresponded very wellto the biochemically determined CO₂ fixation capacity in vitroafter rapid extraction (measured as the initial and total activityof Rubisco, respectively). However, if the flux of CO₂ intothe chloroplasts was limited by the closure of the stomata,as was the case of the high light plants, then the in vitromeasured Rubisco activity was greater than the in vivo measuredCO₂ uptake. V_max, calculated from the mesophyll conductanceat 1% O₂, exceeded the initial activity of Rubisco (assayedat saturating RuBP and CO₂) constantly by 60%. The catalyticactivity of Rubisco in birch leaves was overall very low, evenwhen calculated from the total activity of Rubisco (K_cat 0.63–1.18 s^–1), when compared to herbaceous C₃ species. Signs of light acclimation were not observed in most of thephotosynthetic parameters and in chloroplast structure whenmature birch leaves were subjected to changes in growth lightfor 6 d. However, the change of the growth light either to highor low light caused day-to-day fluctuations in most of the measuredphotosynthetic parameters and in the case of the high lightplants signs of photoinhibition and photodestruction were alsoobserved (decrease in the amount of chlorophyll and increasein chlorophyll a/b ratio). As a result of these fluctuationsthese plants achieved a new and lower steady-state conditionbetween the light and dark reactions, as judged from the molarratio of RuBP to Rubisco binding site. Key words: Acclimation, photosynthesis, light, Rubisco, birch     

The Rate of Photosynthesis in Isolated Chloroplasts

Chloroplasts were isolated using aqueous and nonaqueous procedures.Aqueous chloroplasts lost approximately 50 per cent, of theirsoluble proteins during isolation. Nonaqueous chloroplasts retainedall their soluble enzymes, but lost their ability to performthe light reactions of photosynthesis. It was possible to reconstitutea chloroplast system of higher activity by adding soluble enzymesfrom nonaqueous chloroplasts to protein-deficient aqueous chloroplasts.The properties of the reconstituted chloroplast system wereas follows: 1. The CO₂ fixation rate of the reconstituted chloroplast system( 4 µM./. chlorophyll/hr.) was 3–4 times that ofthe aqueous chloroplasts ( I µM./. chlorophyll/hr.). Thefixation of aqueous chloroplasts isapparently limited in partby lack of soluble enzymes. 2. During light-fixation, the reconstituted chloroplast systemaccumulated PGA. This indicates that the reduction of PGA totriosephosphate is a rate-limiting step in this system. 3. It was possible to increase the CO₂ fixation to 12 µM.CO₂/mg. chlorophyll/ hr. by addition of ATP and TPNH to thesystem, but the reduction of PGA was still rate-limiting. 4. Further increase in the fixation rate was obtained by concentratingthe reaction mixture. Part of the striking differences of theCO₂-fixing capabilities of chloroplasts in vivo and in vitrois caused by dilution effects. Extrapolation of the dilutioneffect to the protein concentration which exists in chloroplastsyields a CO₂ fixation rate of approximately 30 µM./mg.chlorophyll/hr. 5. Inhibitors which are located in vivo outside the chloroplastsaffect the CO₂ fixation in vitro. 6. Under consideration of the examined factors which influencethe CO₂ fixation of isolated chloroplasts, it is possible toraise the fixation from approximately 1 per cent, to at least15 per cent, of the fixation in vivo.     

Developmental and Biochemical Regulation of 'Constitutive' Nitrate Reductase Activity in Leaves of Nodulating Soybean

The developmental profile of ‘constitutive’ nitratereductase activity (cNRA) in leaves of soybean (Glycine max(L.) cv. Bragg) plants at different ages is described. The youngestleaves had most cNRA and the activity dropped off as a newerleaf developed above it. Each leaf had its distinct active periodof in vivo cNRA. This pattern was different in urea-grown andsymbiotically-grown plants (inoculated with Bradyrhizobium japonicumstrain USDA 110), where the latter had no detectable in vivocNRA in older leaves. Urea-grown plants maintained considerablein vivo NRA in such older leaves. When symbiotically-grown plantshad their nodules removed, in vivo cNRA reappeared in olderleaves within 1 d of removal, nearly reaching levels of youngleaves at 3 d after nodule excision. Allantoic acid (ALL), oneof the known transport ureides of soybeans, was implicated asa possible signal molecule from nodules to leaves. Allantoicacid (100 µM) inhibited in vitro c₁ NRA significantly,with 400 µM ALL resulting in complete inhibition. In contrast,allantoin (ALN) had no inhibitive effect on NRA. Inhibitionof c₁NRA by ALL was by a competitive process, judging from Lineweaver-Burkeplots against nitrate. Kinetics showed a constant Vmax of around105 nmol NO₂ mg^–1 protein h^–1 and a K_m for nitrateof 15 mM, which increased to 60 mM in the presence of 200 µMallantoic acid. Non-specific (ionic and pH-related) influenceswere eliminated. Allantoic acid also had a slight stimulatingeffect of in vitro NRA (up about 25% at 400 µM). Thesefindings suggest that c1NRA may be involved in ureide metabolism,rather than in vivo nitrate metabolism. Key words: Root-shoot interaction, nitrogen metabolism, nodulation, symbiosis     

Effect of mechanical deformation on structure and function of polymorphonuclear leukocytes

Kitagawa, Yuko, Stephan F. Van Eeden, Darlene M. Redenbach,Maleki Daya, Blair A. M. Walker, Maria E. Klut, Barry R. Wiggs, andJames C. Hogg. Effect of mechanical deformation on structure andfunction of polymorphonuclear leukocytes. J. Appl.Physiol. 82(5): 1397-1405, 1997.The presentstudies were designed to test the hypothesis that mechanicaldeformation of polymorphonuclear leukocytes (PMN) leads to functionalchanges that might influence their transit in the pulmonarycapillaries. Human leukocytes were passed through 5- or 3-µm-porepolycarbonate filters under controlled conditions. Morphometricanalysis showed that the majority of PMN were deformed and that thisdeformation persisted longer after filtration through 3-µm filtersthan through 5-µm filters (P < 0.05) but did not result in the cytoskeletal polarizationcharacteristic of migrating cells. Flow cytometric studies of thefiltered PMN showed that there was a transient increase in thecytosolic free Ca²⁺ concentrationafter both 3- and 5-µm filtration (P < 0.01) with an increase in F-actin content after 3-µm filtration(P < 0.05). AlthoughL-selectin expression on PMN wasnot changed by either 5- or 3-µm filtration, CD18 and CD11b wereincreased by 3-µm filtration (P < 0.05). Priming of the PMN withN-formyl-methionyl-leucyl-phenylalanine (0.5 nM) before filtration resulted in an increase of CD11b by both 5 (P < 0.05)- and 3-µm(P < 0.01) filtration. Neither 5- nor 3-µm filtration induced hydrogen peroxide production. We conclude that mechanical deformation of PMN, similar to what occurs in thepulmonary microvessels, induces both structural and functional changesin the cells, which might influence their passage through the pulmonarycapillary bed.

     

Modification of the root plasma membrane lipid composition of cadmium-treated Pisum sativum

The effects of in vivo Cd treatments on pea root plasma membrane(PM) lipid composition were studied. In the long-term experiment,plants were supplied with Cd: moderate stress (10 µM)or strong stress (50 µM) for 10 d. Growth of root andshoot was severely affected in 50 µM Cd-treated plants,as evidenced by the approximately 7-fold reduction in theirRelative Growth Increment (RGI). Treatment with Cd (10 µM)resulted in changes to the lipid composition of the pea rootPM, including increases in the degree of unsaturation of phospholipid-associatedfatty acids and in the relative amount of stigmasterol (30–42%).This change was accompanied by a reduction in sitosterol content(26.8 to 17.4 µg mg^–1 protein). However, the sterolcomposition was not altered in plants treated with 50 µMCd for 10 d. The content of phosphatidylethanolamine and phosphatidylcholine(major phospholipids present in pea root PM) decreased as Cdlevel increased, but the ratio between them remained unaffected.In the short-term experiment, plants exposed to Cd (50 µM)accumulated less sitosterol (from 27.7 to 14.0 µg g mg^–1protein) over 72 h, but no significant effect on other measuredlipids was observed. The physiological repercussions of changesin plasma membrane lipid composition, as a result of Cd exposureare discussed. Key words: Cadmium, lipids, pea, Pisum sativum, plasma membranes     

Studies of pesticides effects on Chlorella metabolism III. Effect of isopropyl 3-chlorocarbanilate (chlorpropham) on cell cycle and biosynthesis

Isopropyl 3-chlorocarbanilate (chlorpropham) inhibited Chlorellagrowth by 50% at 1.3 µM under non-photosynthetic conditions.Average DNA content per cell was increased 2.5-fold by chlorprophamtreatment at 4.7 µM. Oxygen uptake was not significantlyaffected at 47 µM. Protein synthesis was more sensitiveto chlorpropham than the other biosynthetic processes tested,but it was not inhibited at 1.3 µM. In cell cycle studiesperformed under photosynthetic conditions, 50% inhibition ofgrowth occurred at 4 µM. At 14 µM, growth in termsof cell number was completely suppressed while inhibition ofgrowth in terms of average cell volume was partial, resultingin comparatively larger cell volume. This was accompanied by3.0-fold increase in average DNA content per cell. (Received March 8, 1976; )     

Phototactic Chloroplast Displacement in the Photosynthetic Mutant, Lemna paucicostata Strain 1073

The photosynthetic mutant, strain 1073, of Lemna paucicostataTorr. (L. perpusilla Hegelm.) which has a block in the electrontransport chain between plastoquinone and cytochrome f is capableof light-induced chloroplast displacement movements. At 8000–14000 lx, chloroplasts of the mutant move from their positionadjacent to the inner periclinal wall of the mesophyll cellsto the anticlinal walls, i.e. along those walls parallel tothe direction of the light. Light does not appear to enhancerespiration of the photosynthetic mutant or of the wild typestrain (6746). These and other results support the idea thatchloroplast displacement in light is not solely the result oflight effects on photosynthesis and respiration. Lemna paucicostata Torr., photosynthetic mutant, phototaxis, chloroplast displacement     

Cellular Levels of Ribulose 1,5 Bisphosphate Carboxylase and Chloroplast Compartment Size in Wheat Mesophyll Cells

Pyke, K. A. and Leech, R. M. 1987. Cellular levels of ribulose1,5 bisphosphate carboxylase and chloroplast compartment sizein wheat mesophyll cells.—J. exp. Bot. 38: 1949–1956. The amount of the photosynthetic enzyme ribulose 1,5 bisphosphatecarboxylase (RUBISCO),as determined in mesophyll cells in primarywheat leaves was related to the size of the chloroplast compartmentwithin the cell for wheat species of three ploidy levels. Asimilar comparison was made for several genotypes of the hexaploidbreadwheat Triticum aestivum. Estimation of total chloroplastvolume per mesophyll cell was made assuming chloroplasts tobe oblate spheroid in shape. A significant correlation was found between the amount of RUBISCOper cell and the total chloroplast volume per cell for diploid,tetraploid and hexaploid wheat species. A significant correlationbetween cellular RUBISCO level and total chloroplast volumeper cell was also observed for a range of genotypes of the hexaploidT. aestivum but these genotypes of T. aestivutn accumulate agreater amount of RUBISCO per unit chloroplast volume than doany other wheat species. For these genotypes of T. aestivumthe stromal concentration of RUBISCO was estimated at 0·5mol m^–3 with a ribulose Msphosphate binding site concentrationof 4·0 mol m^–3. These results are discussed with respect to a gene dosage hypothesisto explain the accumulation of RUBISCO in leaf mesophyll cells. Key words: Ribulose, bisphosphate carboxylase, wheat chloroplasts, mesophyll cells     

Effects of Anion Channel Inhibitors on Light-Induced Potential Changes in the Liverwort Conocephalum conicum

The effect of three different anion channel inhibitors, namely(5-nitro-2-3-phenylpropyl-amino)benzoic acid (NPPB), Zn²⁺ andanthracene-9-carboxylic acid (A-9-C) on the action potentialin the liverwort Conocephalum conicum were tested. All threecaused an increase of the excitability threshold and a decreaseof action potential amplitudes. This confirms the involvementof anion channels in the action potentials in Conocephalum.In plants treated with 1 or 2 mM A-9-C but not with NPPB (50or 100 µM) and Zn²⁺ (100 or 500 µM), a light-inducedtransient depolarization occurred. In contrast to action potentials,the amplitude of this voltage transient depended on the lightintensity and on the duration of preceding dark period. Alsoin contrast to action potentials, which are blocked by TEA,when applied together with A-9-C, TEA even increased the amplitudesof the light-induced voltage transients to up to 170 mV. Thedepolarization was obviously limited by the voltage-dependentopening of K⁺ channels in the absence of TEA. The amplitudeof the light-induced voltage transients (in the presence ofTEA) increased in elevated CaCl₂ concentrations pointing toa Ca²⁺ permeability giving rise to the depolarization. However,none of the Ca²⁺ channel blockers tested, La³⁺, Gd³⁺, nifedipine,verapamil or diltiazem, had an effect. The light-induced voltagetransients in A-9-C treated plants are quite different fromlight- and electrically triggered action potentials but sharesome similarities with light-induced generator potentials. (Received July 9, 1996; Accepted February 20, 1997)     

Differential modulation of caffeine- and IP3-induced calcium release in cultured arterial tissue

To investigatethe Ca²⁺-dependent plasticity ofsarcoplasmic reticulum (SR) function in vascular smooth muscle,transient responses to agents releasing intracellularCa²⁺ by either ryanodine(caffeine) orD-myo-inositol1,4,5-trisphosphate [IP₃;produced in response to norepinephrine (NE),5-hydroxytryptamine (5-HT), arginine vasopressin (AVP)] receptorsin rat tail arterial rings were evaluated after 4 days of organculture. Force transients induced by all agents were increased comparedwith those induced in fresh rings. Stimulation by 10% FCSduring culture further potentiated the force andCa²⁺ responses to caffeine (20 mM)but not to NE (10 µM), 5-HT (10 µM), or AVP (0.1 µM). The effectwas persistent, and SR capacity was not altered after reversibledepletion of stores with cyclopiazonic acid. The effects of serum couldbe mimicked by culture in depolarizing medium (30 mMK⁺) and blocked by the additionof verapamil (1 µM) or EGTA (1 mM) to the medium, loweringintracellular Ca²⁺ concentration([Ca²⁺]_i)during culture. These results show that modulation of SR function canoccur in vitro by a mechanism dependent on long-term levels of basal[Ca²⁺]_iand involving ryanodine- but notIP₃ receptor-mediatedCa²⁺release.     

Extracellular ATP stimulates volume decrease in Necturus red blood cells

This study examined whether extracellular ATP stimulatesregulatory volume decrease (RVD) in Necturusmaculosus (mudpuppy) red blood cells (RBCs). Thehemolytic index (a measure of osmotic fragility) decreased withextracellular ATP (50 µM). In contrast, the ATP scavenger hexokinase(2.5 U/ml, 1 mM glucose) increased osmotic fragility. In addition, theATP-dependent K⁺ channelantagonist glibenclamide (100 µM) increased the hemolytic index, andthis inhibition was reversed with ATP (50 µM). We also measured cellvolume recovery in response to hypotonic shock electronically with aCoulter counter. Extracellular ATP (50 µM) enhanced cell volumedecrease in a hypotonic (0.5×) Ringer solution. In contrast, hexokinase (2.5 U/ml) and apyrase (an ATP diphosphohydrolase, 2.5 U/ml)inhibited cell volume recovery. The inhibitory effect of hexokinase wasreversed with the Ca²⁺ ionophoreA-23187 (1 µM); it also was reversed with the cationophore gramicidin(5 µM in a choline-Ringer solution), indicating that ATP was linkedto K⁺ efflux. In addition,glibenclamide (100 µM) and gadolinium (10 µM) inhibited cell volumedecrease, and the effect of these agents was reversed with ATP (50 µM) and A-23187 (1 µM). Using the whole cell patch-clamp technique,we found that ATP (50 µM) stimulated a whole cell current underisosmotic conditions. In addition, apyrase (2.5 U/ml), glibenclamide(100 µM), and gadolinium (10 µM) inhibited whole cell currents thatwere activated during hypotonic swelling. The inhibitory effect ofapyrase was reversed with the nonhydrolyzable analog adenosine5'-O-(3-thiotriphosphate) (50 µM), and the effect of glibenclamide or gadolinium was reversed withATP (50 µM). Finally, anionic whole cell currents were activated withhypotonic swelling when ATP was the only significant charge carrier,suggesting that increases in cell volume led to ATP efflux through aconductive pathway. Taken together, these results indicate thatextracellular ATP stimulated cell volume decrease via aCa²⁺-dependent step that led toK⁺ efflux.

     

Flower Induction by Nitrogen Deficiency in Lemna paucicostata 6746

Lemna paucicostata 6746, a short-day plant, produced flowerbuds even under continuous light when cultured in nitrogen-deficientmodified Hoagland medium with 1% sucrose for 3 days or morefollowed by culture on nitrogen-rich medium (either nitrateor ammonium). Flowering was also induced by culture on mediumcontaining 20–100 µM nitrate as the sole nitrogensource for 10 days or more, but not on medium with a low ammoniumconcentration. However, if plants cultured on medium containing5–20 µM ammonium as the sole nitrogen source for10 days were grown in a nitrogen-rich medium for a further 4days, they produced flower buds. Thus, nitrogen deficiency caninduce day length-independent flowering in Lemna paucicoslata6746, but nitrogen is required for the manifestation of flowering. (Received January 31, 1986; Accepted April 24, 1986)     

Effects of Some Growth Regulators and Benzoic Acid Derivatives on Flower Initiation and Root Elongation of Pharbitis nil, Strain Kidachi

Seedlings of Pharbitis nil, strain Kidachi, were grown undercontinuous light at 20°C in vessels containing 5,000-mlnutrient solution, 24 plants per vessel. NAA (0.005–0.5µM), GA₃ (0.1–0.5 µM), kinetin (0.5–5µM), benzyladenine (0.05–5 µM) or abscisicacid (4 µM) added to the nutrient solution induced long-dayflowering, and the flowering was always accompanied by suppressionof root elongation. 3,4-Dichlorobenzoic acid (0.05–10µM) and some other benzoic acid derivatives which arehighly effective for the induction of flowering in Lemna paucicostataalso showed similar effects. Neither NAA, kinetin nor 3,4-dichlorobenzoicacid applied via the apical part of the hypocotyl could causeflowering or suppression of root elongation. Thus, the flower-inducingeffect of the above substances was presumed to be secondaryto the suppression of root elongation. Ethrel (1–50 µM)added to the nutrient solution suppressed root elongation, butdid not induce flowering probably because it has flower-inhibitingactivity. ¹ This paper is dedicated to the memory of Dr. Joji Ashida,the first president of the Japanese Society of Plant Physiologists. (Received December 15, 1982; Accepted February 25, 1983)     

Effect of elevated CO2 on the utilization of light energy in Nothofagus fusca and Pinus radiata

Red beech (Nothofagus fusca (Hook. F.) Oerst.; Fagaceae) andradiata pine (Pinus radiata D. Don; Pinaceae) were grown for16 months in large open-top chambers at ambient (37 Pa) andelevated (66 Pa) atmospheric partial pressure of CO₂, and incontrol plots (no chamber). Summer-time measurements showedthat photosynthetic capacity was similar at elevated CO₂ (lightand CO₂-saturated value of 17.2 µmol m^–2 s^–1for beech, 13.5 µmol m^–2 s^–1 for pine), plantsgrown at ambient CO₂ (beech 21.0 µmol^–2 s^–1,pine 14.9 µmol m^–2s^–1) or control plants grownwithout chambers (beech 23.2 µmol m^–2 s^–1,pine 12.9 µmol m^–2 s^–1). However, the higherCO₂ partial pressure had a direct effect on photosynthetic rate,such that under their respective growth conditions, photosynthesisfor the elevated CO₂ treatment (measured at 70 Pa CO₂ partialpressure: beech 14.1 µmol m^–2 s^–1 pine 10.3)was greater than in ambient (measured at 35 Pa CO₂: beech 9.7µmol m^–2 s^–1, pine 7.0 µmol m^–2s^–1) or control plants (beech 10.8 µmol m^–2s^–1, pine 7.2 µmol m^–2 s^–1). Measurementsof chlorophyll fluorescence revealed no evidence of photodamagein any treatment for either species. The quantity of the photoprotectivexanthophyll cycle pigments and their degree of de-epoxidationat midday did not differ among treatments for either species.The photochemical efficiency of photosystem II (yield) was lowerin control plants than in chamber-grown plants, and was higherin chamber plants at ambient than at elevated CO₂. These resultssuggest that at lower (ambient) CO₂ partial pressure, beechplants may have dissipated excess energy by a mechanism thatdoes not involve the xanthophyll cycle pigments. Key words: Carotenoids, chlorophyll fluorescence, photosynthesis, photoinhibition, photoprotection, xanthophyll cycle     

Long Term Effects of High CO2 Concentration on Photosynthesis of Water Hyacinth (Eichhornia crassipes (Mart.) Solms)

The photosynthetic response to CO₂ concentration, light intensityand temperature was investigated in water hyacinth plants (Eichhorniacrassipes (Mart.) Solms) grown in summer at ambient CO₂ or at10000 µmol(CO₂) mol^–1 and in winter at 6000 µmol(CO₂)mol^–1 Plants grown and measured at ambient CO₂ had highphotosynthetic rate (35 µmo1(CO₂) m^–2 s^–1),high saturating photon flux density (1500–2000) µmolm^–2 s^–1 and low sensitivity to temperature in therange 20–40 °C. Maximum photosynthetic rate (63 µmol(CO₂)m^–2 s^–1) was reached at an internal CO₂ concentrationof 800 µmol mol^–1. Plants grown at high CO₂ in summerhad photosynthetic capacities at ambient CO₂ which were 15%less than for plants grown at ambient CO₂, but maximum photosyntheticrates were similar. Photosynthesis by plants grown at high CO₂and high light intensity had typical response curves to internalCO₂ concentration with saturation at high CO₂, but for plantsgrown under high CO₂ and low light and plants grown under lowCO₂ and high light intensity photosynthetic rates decreasedsharply at internal CO₂ concentrations above 1000 µmol^–1. Key words: Photosynthesis, CO₂, enrichment, Eichhornia crassipes     

Relation between Ultra-Violet Spectral Change and Nucleotide Binding of the Chloroplast Coupling Factor 1

Properties of the nucleotide binding sites on chloroplast couplingfactor 1 (CF₁) were studied by equilibrium dialysis and UV spectroscopy.From our direct binding studies, we identified at least fourkinds of ADP binding sites on CF₁; a barely dissociable ADPbinding site (site A), a slowly exchangeable high affinity sitewith dissociation constant (Kd) 0.021 µM (site B), anotherslowly exchangeable high affinity site with Kd 1.6 µM(site C) and several low affinity (Kd {small tilde}30 µM)sites. The Kd values for sites B and C of the other nucleotidestested were 0.5 µM and 16 µM (GDP), 8 µM and34 µM (CDP), 17 µM and 20 µM (UDP) and 1.4µM and 1.4 µM (PP₁). From a comparison of the observed UV spectral change and theamount of nucleotide bound to these sites, as calculated fromthe above Kd values, we concluded that the nucleotide bindingto site B or G induces UV spectral changes that are almost thesame in shape and magnitude. The estimated difference molarabsorption coefficient () was 3.4?10³M^–1_ADP cm^–1for ADP at 278 nm. Our conclusions were strengthened by thegood agreement between the observed spectra and the calculatedspectra (derived from the Kd and values of ADP and GDP) whenADP and GDP were added together to CF₁. The cause of the unusual behavior of GDP in the UV differencespectrum which was unexplained in our previous report was shownto be competition between the GDP added and previously boundADP at sites B and C; this distorted the real spectrum inducedby GDP. (Received October 3, 1983; Accepted February 13, 1984)     

Vacuolar Membrane Lesions Induced by a Freeze-Thaw Cycle in Protoplasts Isolated from Deacclimated Tubers of Jerusalem Artichoke (Helianthus tuberosus L.)

The processes of freezing injury in Jerusalem artichoke (Helianthustuberosus L.) tubers were studied using protoplasts isolatedfrom cold-acclimated and deacclimated tubers. Prior to freezing,protoplasts were preloaded with 10 µM fluorescein diacetate(FDA) in an isotonic sorbitol solution. After freeze-thawingat various temperatures, cell viability was evaluated undera fluorescence microscope. In cold-acclimated tubers, more than80% of protoplasts survived freezing to – 20°C. Bycontrast, in deacclimated tubers, the cell survival abruptlydeclined after freezing to temperatures below – 5°C.Thus, freezing tolerance differed significantly between protoplastsisolated from cold-acclimated and deacclimated tubers. Two distincttypes of cell injury, which were caused by either damage toplasma membrane (cell-lysis type) or by damage to the vacuolarmembrane (abnormal-staining type), were observed, dependingon the cold hardiness and freezing temperature. In the cellsof the abnormal-staining type, shrinkage of the central vacuolarspace and simultaneous acidification of the cytoplasmic spacewere characteristically observed immediately before completecell-rehydra-tion during thawing. The decrease in freezing toleranceof protoplasts after deacclimation was suggested to be due mainlyto destabilization of the vacuolar membrane by freeze-induceddehydration stress. ¹Contribution no. 3945 from The Institute of Low TemperatureScience, Hokkaido University. This research was supported inpart by the grant from Japan Society for the Promotion of Science(JSPS-RFTF 96L00602) ²Present address: Tohoku National Agricultural Experiment Station, Morioka, Iwate, 020-01 Japan     

Rates of Photosynthesis in Characean Cells: I. PHOTOSYNTHETIC 14CO2 FIXATION BY NITELLA TRANSLUCENS

A study has been made of photosynthetic ¹⁴CO₂ fixation by isolated‘mature’ internodes of Nitella translucens. Experimentalconditions were similar to those used in studies of the ionicrelations of these cells. Maximum rates of photosynthesis were33–40µµmoles CO₂, fixed per cm² of surfacearea per second (equivalent to 12–15 /xmoles fixed permg chlorophyll per hour). ^l4CO₂ fixation was inhibited to thedark level by 3(3,4,dichlorophenyl)-1, 1-dimethylurea (at 0-6µM or 10µM) and by the uncoupler carbonyl cyanide-m-chlorophenylhydrazone(SµM). The presence of imidazole or ammonium sulphate(both of which uncouple ATP production in vitro) did not resultin an inhibition of 14CO2 fixation. These results are discussedin relation to published work on solute uptake by Nitella translucens.During photosynthesis there was rapid movement of ¹⁴C-labelledorganic compounds out of the chloroplasts. ¹⁴C-labelled sucrose,ammo-acids, and sugar phosphates were found in samples of vacuolarsap.