13C/12C Ratios of carbon dioxide from peanut and sunflower seedlings and tobacco leaves in light and in darkness

Shoots of intact peanut and sunflower seedlings evolved CO₂in the light which was enriched more than 10 per mille in ¹³Ccompared with simultaneous CO₂ evolution from the roots. Carbondioxide collected from tobacco leaves in the light was 10 permille enriched in ¹³C compared with that collected in the dark.Anaerobic conditions inhibited photorespiration but did notchange isotopic ratios of dark respiration. ¹ Department of Biology, Fresno State College, Fresno, California93710, U. S. A. ² Deceased. (Received February 29, 1972; )     

Form of Inorganic Carbon Utilized for Photosynthesis in Chlamydomonas reinhardtii1

The effect of carbonic anhydrase (CA) on time courses of photosynthetic¹⁴C incorporation in the presence of ¹⁴CO₂ or NaH¹⁴CO₃ was studiedwith cells of Chlamydomonas reinhardtii which had been grownunder ordinary air (low-CO₂ cells) or air enriched with 4% CO₂(high-CO₂ cells). Experimental data obtained at 20°C andpH 8.0 suggested that the major form of inorganic carbon utilizedby high-CO₂ cells was CO₂, while that utilized by low-CO₂ cellswas HCO₃^–. The cell suspension showed CA activity which was comparableto that observed in the sonicate of cells. Both activities werehigher in low-CO₂ cells than in high-CO₂ cells. The mechanism by which HCO₃^– is utilized by low-CO₂ cellsof C. reinhardtii is discussed. ³Present address: Department of Biology, Faculty of Science,University of Niigata, Niigata 950-21, Japan. (Received August 4, 1982; Accepted January 19, 1983)     

Action Spectra Confirm Two Separate Actions of Phytochrome in the Induction of Flowering in Lemna paucicostata 441

Action spectra studies have shown that in the short day plant(SDP) Lemna paucicostat441 there are at least two actions ofphytochrome in the induction of flowering. At the beginningof the dark period far-red light inhibited flowering, and theaction spectrum corresponded to the absorption spectrum of P_FR,while at the middle of the inductive dark period both red andfar-red light were inhibitory. The action spectrum for the redlight corresponded to that of PR absorption, but there was activityin the region beyond 720 nm which exactly coincided with theabsorption by P_FR observed at the beginning of the dark period,indicating that at the middle of the dark period there was absorptionby both P_R and P_FR. The difference in quantum efficiency betweenthe red and far-red light effects was about 60-fold. These resultsare consistent with there being a stable pool of P_FR necessaryfor the induction of flowering and another pool of phytochromein a different cellular environment which participates in thenight-break reaction as P_R. ¹ Present address: School of Applied Biology, Faculty of Science,Lancashire Polytechnic, Preston PR1 2TQ, U.K. ² 2 Present address: Division of Environmental Biology, NationalInstitute for Environmental Studies, Yatabemachi, Tsukuba, Ibaraki305, Japan. ³ Present address: Division of Plant Biological Regulation,The Riken Institute for Frontier Research Program, Hirosawa,Wako-shi, 351-01, Japan. (Received December 13, 1986; Accepted July 17, 1987)     

Anion-dependent changes of energy transfer in chloroplasts I. Effects of Tris salts on electron flow and phosphorylation

Washing spinach chloroplasts with high-concentration Tris-saltbuffers induced various types of anion-dependent changes inthe electron flow and photophosphorylation in chloroplasts. Tris-HCl buffer caused enhancement of NADP photoreduction andinhibition of phosphorylation. Tris-HNO₃ buffer, on the otherhand, caused inhibition of both electron flow and phosphorylationand decreased trypsin-activated Ca²+-dependent ATPase activity.Tris-H₂SO⁴ and Tris-H₃PO⁴ buffers, however, had no effect onthe rates of electron flow and photophosphorylation. Determination of the presence of the coupling factor (as measuredby ATPase activity) revealed a normal enzyme activity levelin chloroplasts washed with Tris-HCl or Tris-H₂SO⁴ buffer. Removalof the coupling factor by EDTA from chloroplasts washed withTris salts inhibited phosphorylation severely. Phosphorylationactivity could be partially restored by reconstitution withthe coupling factor in die presence of Mg²+. In addition to their different effects on electron flow, Tris-HCland Tris-HNO₃ induced a marked decrease in phosphorylative activityitself. The much decreased rate of phosphorylation can be explainedby the release of the coupling factor and by damage to the high-energystate generating mechanism by Tris-HNO₃-washing and by modificationof the coupling factor in the case of Tris-HCl-washing. ¹Present address: Biology Department, College of Science andEngineering, Ryukyu University, Naha, Okinawa. Japan. (Received June 27, 1972; )     

Anion-dependent changes of energy transfer in chloroplasts II. Relationships of the coupling factor to light-induced proton transport and absorbance change at 515 nm

Roles of the coupling factor in light-induced proton transportand 515-nm absorption change were investigated in chloroplastswashed with high concentrations of Tris salts (pH 7.2). Washingthe chloroplasts with Tris-HCl and Tris-HNO₃ buffers diminishedboth the light-induced pH rise and absorbance change at 515-nm,while Tris-H₂SO₄ buffer was much less effective. Inhibited activitiescould be restored by replacement of the coupling factor afterextraction with EDTA. N,N'-dicyclohexylcarbodiimide also restoredboth activities. Effects of various anions on the proton pumpand 515-nm shift were also investigated. The order of effectivenesswas NO₃^–>Cl^–>SO₄^2–. The role of thecoupling factor and its mode of action; the action mechanismsof Tris and anionsn energy transducing processes in chloroplasts,photophosphorylation, proton transport and absorbance changeat 515 nm, are discussed. ¹Present address: Biology Department, College of Science andEngineering, Ryukyu University, Naha, Okinawa, Japan. (Received June 27, 1972; )     

Effects of GA3 and IBA on rooting and on the sprouting of buds on stem cuttings of Ipomoea fistulosa

Both IBA and GA₃ enhance rooting, IBA being more effective particularlyat a concentration of 100 mg/liter as compared to 10 mg/liter.IBA decreases while GA₃ increases the sprouting of buds, withboth effects increasing with concentration. GA₃-caused promotionof rooting appears to be due to an increased synthesis of auxinand to an adequate supply of mobilized food materials. ¹ Present address: Department of Biology, University of Missouri,St. Louis, U.S.A. (Received January 26, 1972; )     

Photosynthesis by Guard Cell Chloroplasts of Vicia faba L.: Effects of Factors Associated with Stomatal Movement

The properties of photosynthetic O₂ evolution by mesophyll cellchloroplasts (MCC) and guard cell chloroplasts (GCC) isolatedfrom protoplasts of Vicia faba L. have been studied and effectson O₂ evolution of factors known to regulate stomatal movementshave been compared. The O₂ evolution of GCC was CO₂-dependent.The saturating light intensity for O₂ evolution was between150 and 200 µmol m^–2s^–1 for MCC and was between400 and 1,000µmol m^–2s^–1 for GCC. Light quality(red vs. blue) had no significant effect on O₂ evolution byeither MCC or GCC. The O₂ evolution rate of MCC was stronglydependent on external K⁺ concentration, but GCC did not respondsignificantly to variations in external K⁺ concentration between0 and 250 mM. The optimal external pH for O₂ evolution by MCCwas approximately 7.5, and either higher or lower external pHsignificantly inhibited O₂ evolution. However, O₂ evolutionby GCC was only slightly enhanced when external pH was increasedfrom 6.0 to 8.0. Our observation of differential sensitivityof MCC and GCC to light intensity and to variations of cytoplasmicK⁺ and pH may indicate differential regulation of photosynthesisin MCC and GCC. ¹Current address: Biology Department, Pennsylvania State University,208 Mueller Laboratory, University Park, PA 16802, U.S.A.     

Photosynthesis-Dependent Volume Regulation in Guard Cell Protoplasts from Vicia faba L.

A rapid and convenient procedure was developed for isolatingguard cell protoplasts (GCPs) from epidermal strips of Viciafaba L. The mean rates of O₂ uptake in the dark and evolutionin light of the isolated GCPs were 200 and 290 µmol O₂mg^–1 Chl h^–1, respectively, showing net O₂ evolutionin light. Photosynthetic O₂ evolution was suppressed completelyby 5 µM DCMU. Addition of 5 µM DCMU to the incubationmedium after 30 min of light exposure also suppressed the light-inducedswelling of GCP, indicating possible participation of PS IIin volume regulation in GCP. ⁴Present address: Division of Environmental Biology, The NationalInstitute for Environmental Studies, Yatabe machi, Tsukuba,Ibaraki 305, Japan. (Received December 17, 1983; Accepted March 21, 1984)     

A Re-evaluation of the Mole Fraction of PFR at the Red-light-induced Photostationary State of Undegraded Rye Phytochrome

Photochemical properties were determined for undegraded phytochromepurified from lyophilized rye seedlings (Secale cereale cv.Cougar). The preparation was shown to be a two-component systemduring phototransformations and dark transformation from red-light-inducedphotostationary state. The mole fraction of P_FR at the 665-nm-light-inducedphotostationary state was 0.84. The ratio of the quantum yieldof photoconversion from P_R to P_FR to that from P_FR to P_R was1.53. ¹ Present address: Division of Biological Regulation, NationalInstitute for Basic Biology, Myodaijicho, Okazaki 444, Japan (Received March 18, 1981; Accepted August 3, 1981)     

Binding Affinities of Oxidized and Reduced Forms of Tetrahalogenated Benzoquinones to the QB Site in Oxygen-Evolving Photosystem II Particles from Synechococcus elongatus

Binding affinities of the Q_B site for four tetrahalogenatedbenzoquinones (THBQs) were investigated by measuring their abilityto serve as electron acceptors or act as inhibitors of oxygenevolution in Synechococcus photosystem II particles. Iodanil,bromanil and chloranil but not fluoranil induced a rapid oxidationof Q_A^– and doubled the area over the fluorescence inductioncurve, indicating dark oxidation of Q₄₀₀. Analyses of thesetwo THBQ-induced reactions and inhibition of the acceleratedQ_A^– oxidation by DCMU yielded binding constants of thequinones comparable to those determined from measurements ofoxygen evolution. Generally, THBQs bound tightly to the Q_B site.However, the binding affinity varied in a wide range with THBQs.The Q_B site bound iodanil with an extremely high affinity butfluoranil relatively weakly. The hydroquinone forms of the THBQsalso bound to the Q_B site and inhibited Q_A^– oxidationby Q_B. The concentrations of the hydroquinones required for50% inhibition of Q_A^– oxidation suggest that the Q_B sitebinds the hydroquinones more weakly than the corresponding quinonesexcept for fluoranil, which binds to the Q_B site more tightlyin its reduced form than in oxidized one. The abilities of THBQsto function as electron acceptors or inhibitors of oxygen evolution,and as oxidants of Q₄₀₀ in the dark, are discussed in relationto the binding affinities of the quinones to the Q_B site. ⁴Present address: Department of Biology, Faculty of Science,Toho University. Miyama 2-2-1, Funabashi, 274 Japan     

Ultrastructure of Dunaliella tertiolecta Cells Grown under Low and High CO2 Concentrations1

The cells of Dunaliella tertiolecta grown under ordinary air(low-CO₂ cells) had a well developed pyrenoid with many morestarch granules than those grown under air enriched with CO₂(high-CO₂ cells). The chloroplast was located close to the plasmamembranein low-CO₂ cells, while that in high-CO₂ cells was located inthe inner area of the cells. Chloroplast envelope was electronicallydenser in low-CO₂ cells than in high-CO₂ cells, while the oppositeeffect of CO₂ was observed for the plasmamembrane. ²On leave from Institute of Biology, University of Novi Sad,Novi Sad, Yugoslavia. (Received November 7, 1985; Accepted March 5, 1986)     

Furosemide: a Specific Inhibitor of Pi Transport across the Plasma Membrane of Plant Cells

A search was made for inhibitors of P_i uptake that act directlyon the P_i transporter in the plasma membranes of Catharanthusroseus cells to inhibit P_i uptake without inhibition of protonpumping. Using standard electrodes, we monitored changes inpH and in the concentration of K⁺ ions, as well as the rateof P_i uptake, when an inhibitor to be tested was applied tothe cells in unbuffered medium. A9C (28 µM), a blockerof anion channels, inhibited P_i uptake but it also inhibitedthe proton pump. However, a structurally similar inhibitor,furosemide, inhibited P_i uptake without inhibiting proton pumping. It is suggested that the carboxylic group of these inhibitorsinteracts with the P_i-binding site (probably an amino group)of the P_i transporter in the plasma membrane and that the hydrophobicstructure of these inhibitors facilitates their accumulationin the plasma membrane. ³Present address: Department of Biology, Hitotsubashi University,2-1 Naka, Kunitachi, Tokyo, 186 Japan     

Effects of in Vivo Treatment with Abscisic Acid and/or Cytokinin on Activities of Vacuolar H+ Pumps of Tonoplast-Enriched Membrane Vesicles Prepared from Barley Roots

We investigated the effects of in vivo treatment (1 day) ofbarley roots with abscisic acid (ABA) and/or a cytokinin (6-benzyladenine;BA) on the ATP- and PP_i-dependent H⁺ transport activities oftonoplast-enriched membrane vesicles prepared from the roots.Treatment with ABA significantly increased the two H⁺ transportactivities. By contrast, treatment with BA significantly decreasedPP_i-dependent H⁺ transport activity, while the change in ATP-dependentH⁺ transport activity was small. Increases in the two H⁺ transportactivities caused by treatment with ABA were suppressed duringtreatment with ABA and BA. Changes in the NO^–-inhibitableATPase activity and the Na⁺-inhibitable PP_iase activity of membranevesicles after treatment of roots with phytohormone(s) (ABA,BA, ABA + BA) were similar to changes in the ATP- and PP_i dependentH⁺ transport activities of the membrane vesicles, respectively.Immunoblot analysis with antibodies raised against the functionalcatalytic subunits of the vacuolar H⁺ pumps (H⁺- ATPase andH⁺-PP_iase) of mung bean revealed that only the level of thefunctional catalytic subunit of the H⁺-PP_iase of the membranevesicles was significantly increased by treatment with ABA aloneand in combination with BA. These results suggest that treatmentwith ABA has a stimulatory effect on the activities of the twoH⁺ pumps of the vacuolar membrane of barley roots, with increasein the level of the catalytic subunit of the H⁺-PP_iase, andthat treatment with BA has an inhibitory effect on the two H⁺pump activities of the vacuolar membrane without changes inthe levels of the catalytic subunits of either H⁺ pump, withthe limitation that treatment with BA has an inhibitory effectonly when the activity of the H⁺-ATPase has been increased bytreatment with ABA. ³Present address: Department of Biology, Faculty of Science,Hirosaki University, Hirosaki, 036 Japan     

Role of carbonic anhydrase in photosynthesis in Chlorella derived from kinetic analysis of 14CO2 fixation1

Time courses of photosynthetic ¹⁴CO₂ fixation and its simulationare presented for Chlorella cells grown under low CO₂ concentration(low-CO₂ cells) and subsequently exposed to 0.2 mM NaH¹⁴CO₃or 130 ppm ¹⁴CO₂ in the presence or absence of carbonic anhydrase(CA) in the suspending medium. It was shown that Chlorella cells utilized only free CO₂ whenNaHCO₃ was given in the presence or absence of CA, or when CO₂was bubbled in the absence of CA. However, the present simulationindicated that both CO₃ and HCO₃^– were utilized when CO₂was given in the presence of CA. Based on these results, weconcluded that 1) Chlorella cells absorb only free CO₂ and 2)this gas is provided to algal cells in two ways, i.e., by directand indirect CO₂ supply. Usually, the dissolved CO₂ is directlyutilized by the algal cells (direct supply of CO₂). However,when the concentration of dissolved CO₂ is extremely low andwhen there is CA, CO₂ reconverted from HCO₃^– is also utilizedby Chlorella cells (indirect supply of CO₂). The utilizationof HCO₃^– indicated by the above simulation was explainedby the indirect supply of CO₂. We further assumed that the indirectsupply of CO₂ to ribulose 1,5-bisphosphate carboxylase occursmainly in the chloroplasts of low-CO₂ cells containing highCA. Thus, under low CO₂ concentrations, low-CO₂ cells can carryout more efficient CO₂ fixation than high-CO₂ cells, resultingin the lower apparent Km(CO₂). ³Department of Biology, Faculty of Science, Niigata University,Niigata, Japan. (Received April 2, 1980; )     

LIGHT-INDUCED OXYGEN EVOLUTION CAUSED BY HYDROGEN PEROXIDE IN CATALASE-INHIBITED CHLORELLA CELLS

1. Chlorella cells and spinach chioroplasts, whose catalase activityhad been more than 90% inhibited by 10^–5 M azide, werefound to decompose H₂O₂ photochemically to liberate oxygen,indicating that H₂O₂ was used as an oxidant of the HILL reaction.
2. That, however, the observed phenomena cannot be fully accountedfor in terms of the HILL reaction with H₂O₂ was revealed bythe observation that an extract of Chiorella cells, which hadbeen completely freed from chlorophyll, also showed a light-acceleratedO2 evolution from H₂O₂ in the presence of 10^–5 M azide.This extract contained a large quantity of catalase, which seemedto have been, in some way, involved in the reaction in question.
3. The catalatic H₂O₂ decomposition caused by crystalline catalaseof mammalian liver (in the presence of 10^–5 M azide) wasnot accelerated by the effect of light.

¹ Present address: Department of Biology, Faculty of Science,Niigata University, Niigata. (Received June 4, 1961; )     

Light-induced chemiluminescence of luminol in spinach chloroplast fragments: Reaction of O2- with electron transfer components

Chemiluminescence of luminol (CLL) was induced by illuminatedspinach chloroplast fragments. CLL was diminished by superoxidedismutase or under anaerobic conditions and increased by anautoxidizable electron acceptor, methyl viologen. The optimumpH for CLL was 10.0-10.5. Ferredoxin and cytochrome c reducing substance (CRS) did notaffect the intensity of CLL, but accelerated the dark decayin the absence of methyl viologen. In the presence of methylviologen, ferredoxin and CRS lowered the intensity and acceleratedthe dark decay. 3-(4-Chlorophenyl)-1,1-dimethylurea diminishedCLL. Carbonylcyanide m-chlorophenylhydrazone accelerated theinitial rate of CLL increase at low concentration and inhibitedit at high concentration. Half-decay time of CLL after the cessationof light was shortened by inhibiting electron transfer on theoxidizing side of photosystem II. We conclude that most of the CLL observed in illuminated chloroplastsis dependent on O₂^–. The results also suggest that O₂^–is reduced by reduced ferredoxin or CRS and oxidized on theoxidizing side of photosystem II. The half life of O₂^–in illuminated chloroplasts was estimated from the half-decaytime of CLL to be a few sec. ¹ Present address: Kyushu Dental College, Department of Biology,Kitakyushu 803, Japan. (Received May 30, 1977; )     

Responses of normal and dwarf Pharbitis nil to an extended dark period and gibberellic acid

The effects of a 24 hr short day, a 24 hr long day, and a 48hr short day were analyzed with regard to flowering and stemgrowth of normal and dwarf Pharbitis nil, and were comparedto effects of these photoperiodic treatments plus applied GA₃.Both short day treatments produced the same number of flowersper plant after seven cycles. The applied GA₃ was effectivein overcoming the growth deficiency of the dwarf; however, theextended dark period of the 48 hr short day and applied GA₃were both required to enhance a flowering response in the dwarfequal to that of the normal. These results indicate that somefactor is present during the extended dark period which enhancesflowering. ¹ This work was supported by NSF Grant GB-7510 and State supportedresearch TTU-191-4771 to M. W. C. ² Present address: Department of Biology, Union University,Jackson, TN 38301, U.S.A. (Received September 4, 1979; )     

The effects of valinomycin on respiration and volume changes in plant mitochondria

The effects of valinomycin on the respiration and volume changeshave been studied with isolated mitochondria from bean hypocotyl(Phaseolus vulgaris L.) and cauliflower bud (Brassica oleraceaL.). In the presence of 10 mM K salts of chloride, acetate,phosphate, and sulfate respiration is stimulated by valinomycinconcomitant with osmotic swelling. When swelling declines respirationwith organic acid substrates also declines. In the presenceof the K salts of acetate and PO₄ but not Cl^– the terminationof respiration leads to contraction. The contraction in K-PO₄is inhibited by addition to the external medium of between 65to 100 mM K-PO₄. The results are interpreted to suggest thatvalinomycin in the presence of KCl facilitated the movementof K down an electrical gradient, with the Cl anion followingand osmotic swelling resulting. However, in a medium containingacetate or PO₄ the anions are actively transported against anelectrical gradient at the expense of metabolic energy. Valinomycinfacilitates the influx of K⁺ with the actively transported anionand swelling follows. When respiration terminates the activelytransported anions move passively back down their electrochemicalgradient and osmotic contraction follows. ¹ Present address: Department of Biology, Fort Lewis College,Durango, Colorado 81301, U.S.A. (Received July 21, 1972; )     

Alkalization of the Medium by Unicellular Green Algae during Uptake Dissolved Inorganic Carbon

When Chlorella vulgaris 11h, Chlorella vulgaris C-l, Chlamydomonasreinhardtii, Chlamydomonas moewusii, Scenedesmus obliquus, orDunaliella tertiolecta were illuminated in with 0.5 mM NaHCO₃,the pH of the medium increased in a few minutes from 6 to about9 or 10. The alkalization, which was accompanied by O₂ evolution,was dependent on light, external dissolved inorganic carbon(DIC) as HCO^-₃, and algae grown or adapted to a low, air-levelCO₂ in order to develop a DIC concentrating mechanism. Therewas little pH increase by algae without a DIC concentratingprocess from growth on 3% CO₂ in air. Photosynthetic O₂ evolutionwithout alkalization occurred using either internal DIC or externalCO₂ at acidic pH. The PH increase stopped between pH 9 to 10,but the alkalization would restart upon re-acidification betweenpH 6 and 8. Alkalization was suppressed by the carbonic anhydraseinhibitors, acetazolamide, ethoxyzolamide or carbon oxysulfide.The pH increase appeared to be the consequence of the externalconversion of HCO^–₃ into CO₂ plus OH^– during photosynthesisby cells with a high affinity for CO₂ uptake. Cells grown onhigh CO₂ to suppress the DIC pump, when given low levels ofHCO^–₃ in the light, acidified the medium from pH 10 to7. Air adapted Scenedesmus cells with a HCO^–₃ pump, aswell as a CO₂ pump, alkalized the medium very rapidly in thelight to a pH of over 10, as well as slower in the dark or inthe light with DCMU or without external DIC and O₂ evolution.Alkalization of the medium during photosynthetic DIC uptakeby algae has been considered to be part of the global carboncycle for converting H₂CO₃ to HCO^–₃ and for the formationof carbonate salts by calcareous algae from the alkaline conversionof bicarbonate to carbonate. These processes seem to be a consequenceof the algal CO₂ concentrating process. ¹Present address: Department of Biology, Faculty of Science,Niigata University, Niigata, 950-21 Japan.     

Gibberellin Control of Microtubule Arrangement in the Mesocotyl Epidermal Cells of the d5 Mutant of Zea mays L.

The mesocotyl length of dark-grown maize seedlings is much shorterin the dwarf (d₅) than in the normal. The elongating zone ofd₅ mesocotyl is restricted to 1 mm below the coleoptilar node,while that of the normal extends to almost 4 mm. When the 4mm portion below the node was marked at 1 mm intervals and designatedas A, B, C and D from the top, gibberellin (GA₃) particularlystimulated elongation of the A–B region of d₅ and alsoC to some extent. Electronmicroscopic observation of microtubulesin the epidermal cells of these regions of d₅ showed that microtubuleswere longitudinally and/or randomly oriented in all other regionsexcept the region immediately below the node. Following 100µM GA₃ treatment for 21 h, the microtubule arrangementbecame transverse to the cell axis in A and B. Even in C a significantnumber of transversely oriented microtubules were observed.On the other hand, in normal seedlings microtubules were orientedtransversely to the cell axis in all four regions regardlessof GA₃ treatment. Results indicate that the dwarf habit of d₅seedlings can be ascribed to their possession of a small populationof elongating cells, the microtubules of which are predominantlyoriented transversely to the cell axis as a result of insufficientsupply of endogenous gibberellin. ¹Present address: Department of Cell Biology, National Institutefor Basic Biology, Myodaiji, Okazaki 444, Japan. (Received December 17, 1985; Accepted March 10, 1986)