Light-induced changes in membrane potential in Spirogyra

Spirogyra cells exhibited changes in membrane potential whenthey were exposed to light. Cells made chloroplast-free didnot show any light-induced potential change (LPC) upon illuminationwith white light and also monochromatic red (680 nm) and farred (720 nm) light. LPC was observed when the cell containedonly a small fragment of chloroplast, whether the cell had anucleus or not. The magnitude of LPC depended on the amountof chloroplast in the cell. DCMU at 10^–5 M, CCCP at 10^–5 M and DNP at 10^–4M at pH 5.5 suppressed LPC, while CCCP at 1–5 ? 10^–6M, NH₄Cl at 5 ? 10^–2 M and DNP at 10^–4 M at pH 7.0stimulated LPC. PMS at 10^–4 M stimulated LPC and couldinduce LPC which was completely inhibited by DCMU. These factssuggest that LPC is related to noncyclic and cyclic electronflows. The influences of light and dark conditions and various metabolicinhibitors (DCMU, DNP, CCCP, NH₄Cl) on ATP level have been investigated.No significant difference in the ATP level was observed betweencells in the light and dark. DNP at 10^–4 M (pH 5.5) andCCCP at 5 ? 10^–6 M decreased the ATP level significantly,while DCMU and NH₄Cl only slightly. Good correlation was notfound between the total ATP level and LPC in Spirogyra. LPC occurred even when the external medium contained only asingle salt such as KCl, NaCl or CaSO₄. LPC was also recorded in chloroplasts in situ and in vitro.The mode of LPC of chloroplasts was quite different from thatof the cell. On illumination, the chloroplast potential changedvery rapidly and transiently in the positive direction thenrecovered spontaneously to almost the original potential level. Possible causes of LPC are discussed in relation to the electrogenicion pump. ¹ Present address: Department of Botany, Faculty of Science,University of Tokyo, Hongo, Bunkyo, Tokyo 113, Japan. (Received November 9, 1977; )     

Demonstration of light-induced potential change in Chara cells lacking tonoplast

Chara cells without tonoplasts, prepared by replacing the cellsap with EGTA-containing media, showed essentially the samepattern of light-induced changes in membrane potential and membraneresistance as normal cells although the concentrations of ionsand ATP in the cytoplasm decreased considerably (1/3–1/10)after loss of the tonoplast. Removal of the tonoplast reducedthe rate of photosynthetic O₂ evolution to about 50% of thatof normal cells but did not affect the magnitude of light-inducedpotential change. Not a full but a certain level of electronflow seems necessary to activate the putative electrogenic H⁺-pump. ¹ Present address: Department of Botany, Faculty of Science,University of Tokyo, Japan. ² Present address: Niigata College of Pharmacy, Niigata 950-21,Japan. (Received September 4, 1978; )     

Energy conversion and changes in physical parameters in chloroplasts and subchloroplast particles II. Energy conversion in chloroplasts and different types of subchloroplast particles

The light-induced absorbance change at 515 nm, light-inducedhydrogen ion uptake and ATP formation were compared in chloroplastsand different types of sonicated subchloroplast particles. Noparallel relationship among the activities for ATP formation,hydrogen ion uptake and the 515-nm change was observed in differenttypes of preparations. NH₄Cl inhibited ATP formation in chloroplastsbut had little effect on subchloroplast particles. In contrast,the light-induced hydrogen ion uptake was inhibited by NH₄Clin a similar manner. Tetraphenylboron (TPB), at 1 µM, inhibited ATP formationby about 30% in both chloroplasts and subchloroplast particles.In the presence of TPB, ATP formation in chloroplasts was stronglyinhibited by NHC₄Cl, but in subchloroplast particles the additionalinhibitory effect of NH₄Cl was small. A synergistic inhibitionof photophosphorylation by valinomycin plus NH₄Cl was much clearer.Although acceleration of the recovery of the 515-nm change byNH₄Cl or valinomycin was moderate, the 515-nm change virtuallydisappeared when NH₄Cl and valinomycin were added simultaneously. Although the membrane potential has a major role as the principaldriving force for ATP formation in subchloroplast particles,the simultaneous abolishment of the pH gradient and membranepotential may be required to uncouple ATP formation. ¹Present address: Fukuoka Women's University, Kasumigaoka, Fukuoka813, Japan. ²Present address: Ryukyu University, Naha, Okinawa 903, Japan. (Received February 5, 1974; )     

Tentoxin Inhibits Both Photophosphorylation in Thylakoids and the ATPase Activity of Isolated Coupling Factor F1 from the Cyanobacterium Anacystis nidulans

Tentoxin strongly inhibited the ATPase activity of isolatedcoupling factor 1 (AF₁) from the cyanobacterium Anacystis nidulans,with 50% inhibition occurring at 0.3 µM. When thylakoidsfrom A. nidulans were preincubated with 0.3 µM tentoxinfor 30 min, photophosphorylation was inhibited by 50%. Measurementsof fluorescence from 9-aminoacridine indicated that tentoxininhibited the utilization of the proton gradient by ATP formationin thylakoids. These results indicate that tentoxin is a strongenergy-transfer inhibitor of photophosphorylation in A. nidulans.Tentoxin decreased the level of ATP in intact cells both inthe light and in darkness, its effects being much stronger inthe dark. Tentoxin at 50 µM strongly inhibited the growthof the cells. ³Present address: Corporate Research and Development Laboratory,Tonen Co. 1-3-1 Nishi-tsurugaoka, Ohi-machi, Saitama, 354 Japan ⁴Present address: Technology and Engineering Laboratories, AjinomotoCo., Inc. Suzuki-cho 1, Kawasaki, 210 Japan     

Characterization of Hexose Transporter for Facilitated Diffusion of the Tonoplast Vesicles from Pear Fruit

Tonoplast vesicles were prepared from the flesh tissue of maturepear fruit. Sugar uptakes into the vesicles determined by twodifferent methods, the membrane and the gel filtration methods,were quite similar. The uptake was highest for glucose and subsequently,in order, for fructose, sucrose and sorbitol. It was not stimulatedby addition of ATP, although the vesicles could create a protongradient. However, the uptakes were significantly inhibitedby p-chloromercuribenzene sulphonate (PCMBS, SH-reagent andinhibitor of sugar transporter). Further, the PCMBS-sensitiveuptakes of glucose and fructose saturated with their increasedconcentrations. Thus, these PCMBS-sensitive uptakes are mediatedby the transporter of facilitated diffusion. The uptakes ofglucose or fructose each had two K_m values. K_m values for glucosewere 0.35 and 18 mM, and those for fructose were 1.6 and 25raM. The uptake of 0.2 mM glucose was inhibited by 2 mM fructoseand that of 2 mM fructose was inhibited by 2 mM glucose, butneither was inhibited by sucrose or sorbitol. O-methyl-glucose(OMG) also inhibited both the glucose and fructose uptakes.Therefore, the same transporter may mediate both glucose andfructose uptakes at lower concentrations; this hexose transportsystem differed from the sucrose and sorbitol transport systems. ¹Research Fellow of the Japan Society for the Promotion of Science. ²Present address: Faculty of Agriculture, Tohoku University,1-1 Tsutsumidori-Amamiyamachi, Aoba-ku, Sendai, 981 Japan.     

Estimation of Cytoplasmic Free Mg2+ Levels and Phosphorylation Potentials in Mung Bean Root Tips by In Vivo 31P NMR Spectroscopy

The cytoplasmic [MgATP]/[ATP]_free ratios, free Mg²⁺ concentrations,and phosphorylation potentials in mung bean [Vigna mungo (L.)Hepper] root tip cells were investigated by ³¹P nuclear magneticresonance spectroscopy. ³¹P NMR spectra show well defined peaksdue to G6P, cytoplasmic P_i, vacuolar P_i, ATP, UDP-glucose andnicotinamide adenine nucleotides. The concentrations of phosphorusmetabolites were determined from quantitative ³¹P NMR spectra.The [MgATP]/[ATP]_free ratio was 9.45. Accordingly, about 90%of the cytoplasmic ATP was complexed to Mg²⁺. Utilizing thedissociation constant (K_d) determined for MgATP, the cytoplasmicfree Mg²⁺ concentration was estimated to be 0.4mM. The NMR-derivedphosphorylation potential, [ATP]/([ADP][P_i]), was 960 M^-1. Thesodium azide treatment decreased the [ATP]/[ADP] ratio and thephosphorylation potential, and increased the [Mg²⁺]^free. Metabolicinhibition may have been enhanced by an increase in [Mg^2+freeand a decrease in the free energy change for ATP hydrolysis,which resulted due to a decrease in the ATP level. ¹Present address: National Food Research Institute, TsukubaCity, Ibaraki 305, Japan. (Received February 8, 1988; Accepted June 1, 1988)     

Effect of Cytoplasmic Ca2+ on the Membrane Potential and Membrane Resistance of Chara Plasmalemma

Effects of cytoplasmic Ca²⁺ on the electrical properties ofthe plasma membrane were investigated in tonoplast-free cellsof Chara australis that had been internally perfused with media,containing either 1 mM ATP to fuel the electrogenic pump orhexokinase and glucose to deplete the ATP and stop the pump. In the presence of ATP, cytoplasmic Ca²⁺ up to 2.5?10^–5M did not affect the membrane potential (about -190 mV), butmembrane resistance decreased uniformly with increasing [Ca²⁺]_i.In the absence of ATP, the membrane potential, which was onlyabout -110 mV, was depolarized further by raising [Ca²⁺]_i from1.4?10^–6 to 2.5?10^–5 M. Membrane resistance, whichwas nearly the twofold that of ATP-provided cells, decreasedmarkedly with an increase in [Ca²⁺]_i from zero to 1.38?10^–6M, but showed no change for further increases. Internodal cellsof Nitellopsis obtusa were more sensitive to intracellular Ca²⁺with respect to membrane potential than were those of Charaaustralis, reconfirming the results obtained by Mimura and Tazawa(1983). The effect of cytoplasmic Ca²⁺ on the ATP-dependent H⁺ effluxwas measured. No marked difference in H⁺ effluxes was detectedbetween zero and 2.5?10^–5 M [Ca²⁺]_i; but, at 10^–4M the ATP-dependent H⁺ efflux was almost zero. Ca²⁺ efflux experimentswere done to investigate dependencies on [Ca²⁺]_i and [ATP]_i.The efflux was about 1 pmol cm^–2 s^–1 at all [Ca²⁺]_iconcentrations tested (1.38?10^–6, 2.5?10^–5, 10^–4M).This value is much higher than the influx reported by Hayamaet al. (1979), and this efflux was independent of [ATP]_i. Thepossibility of a Ca²⁺-extruding pump is discussed. ¹ Present address: Botanisches Institut der Universit?t Bonn,Venusbergweg 22, 5300 Bonn, F.R.G. (Received September 22, 1984; Accepted February 19, 1985)     

Possible Involvement of Abscisic Acid in Increases in Activities of Two Vacuolar H+-Pumps in Barley Roots under Aluminum Stress

Levels of abscisic acid (ABA) in barley roots increased upontreatment with AlCl₃. Treatment with AlCl₃ or ABA increasedboth ATP-dependent and PP_i-dependent H⁺-pumping activities intonoplast-enriched membrane vesicles. Increase in the H⁺-pumpingactivities caused by aluminum stress could result from increasedlevels of ABA. ¹Present address: Department of Botany, Faculty of Science,Hirosaki University, Hirosaki, Aomori, 036 Japan     

Plasma Membrane H+-ATPase in Guard-Cell Protoplasts from Vicia faba L.

The activity of plasma membrane H⁺-ATPase was measured withmembrane fragments of guard-cell protoplasts isolated from Viciafaba L. ATP hydrolytic activity was slightly inhibited by oligomycinand ammonium molybdate, and markedly inhibited by NO₃^–and vanadate. In the presence of oligomycin, ammonium molybdateand NO₃^–, the ATP-hydrolyzing activity was strongly inhibitedby vanadate. It was also inhibited by diethylstilbestrol (DES),p-chloromercuribenzoic acid (PCMB) and Ca²⁺, but slightly stimulatedby carbonyl cyanide m-chlorophenylhydrazone (CCCP). The acitivityhad higher specificity for ATP as a substrate than other phosphoricesters such as ADP, AMP, GTP and p-nitrophenylphosphate; theK_m was 0.5 mM for ATP. The activity required Mg²⁺ but was notaffected by K⁺, and it was maximal around pH 6.8. When guard-cellprotoplasts were used instead of membrane fragments, the ATPaseactivity reached up to 800µmol Pi.(mg Chl)^–1.h^–1in the presence of lysolecithin. These results indicate thatthe guard cell has a high plasma membrane H⁺-ATPase activity. (Received December 23, 1986; Accepted April 28, 1987)     

Oxidation-reduction reactions between electron transfer components and hydrogen peroxide in photosystem II of chloroplasts

The light-induced oxygen evolution, photoreduction of 2,6-dichlorophenolindophenol (DPIP) and carotenoid photobleaching induced by carbonylcyanide m-chlorophenylhydrazone (CCCP) were investigated withspinach chloroplast fragments in the presence of H₂O₂. Oxygenevolution in the presence of H₂O₂ was not inhibited by CCCPand was only partially inhibited by 5 µM 3-(3,4-dichlorophenyl)-1,1-dimethylurea(DCMU) which completely inhibited the Hill reaction with DPIP.The degree of inhibition by DCMU was decreased by a simultaneousaddition of CCCP. Carotenoid photobleaching in the presenceof CCCP was stimulated by H₂O₂. The CCCP-induced carotenoidphotobleaching was completely inhibited by DCMU. However, itwas only partially inhibited by DCMU in the presence of H₂O₂.These data indicate that H₂O₂ donates electrons at a site betweenthe CCCP-sensitive site and the reaction center of photosystemII and is reduced at a site between the DCMU-blocked site andthe reaction center of photosystem II. ¹Present address: Department of Biology, Kyushu Dental College,Kitakyushu 803, Japan. (Received June 20, 1974; )     

Stabilization and Transport Capacity of Cowpea and Barley Vacuoles

Subjecting either cowpea or barley protoplasts to a combinedosmotic and pH shock provides the optimum conditions for theisolation of cowpea and barley vacuoles. Incubation of vacuolesin a defined medium resulted in 50% lysis after 30 min (cowpea)and 20 min (barley). The addition of 1 mM EDTA resulted in increasedstability of vacuoles with 50% lysis occurring after 50 min(cowpea) and 120 min (barley). Other compounds were tested fortheir effects on the stability of vacuoles. The longer life of vacuoles in the presence of EDTA allowedtransport studies to be carried out using radiolabeled tracers.The uptake of [¹⁴C]sucrose (10 mM) by cowpea vacuoles was stimulatedapproximately two-fold by the presence of MgATP (10 mM); theK_m for [¹⁴G]sucrose uptake by cowpea vacuoles was 12.5 mM. Uptakeof [³H]GA₁ ([³H]gibberellin A₁) by cowpea vacuoles was alsostimulated two-to-four fold in the presence of 10 mM MgATP comparedto untreated vacuoles. No MgATP stimulation of [³H]GA₁ or [¹⁴C]sucroseuptake could be observed in barley vacuoles. The effect of pHon uptake of [³H]GA₁ was studied in both cowpea and barley vacuoles.Uptake was optimal at about neutral pH which also coincidedwith the optimum pH for maximum stability of vacuoles. ¹ Dedicated to the memory of Prof. J. Ashida. ² Present address: International Plant Research Institute, 853Industrial Road, San Carlos, CA 94070, U.S.A. ³ Present address: Institute de Agroquimica y Tecnológiade Alimentos, Jaíme Roig, 11, Valencia 10, Spain. (Received December 11, 1982; Accepted February 24, 1983)     

NO2 Suppression of Light-Induced Nitrate Reductase in Squash Cotyledons

NADH-nitrate reductase (NR) (EC 1.6.6.1 [EC] ) activity in the cotyledonsof squash (Cucurbita maxima Duch.) seedlings showed daily variationwhen the seedlings were subjected to an alternating light-darkcycle. When the seedlings were transferred into continuous darkness,NR activity rose at first and then decreased continuously. Irradiationafter continuous darkness induced a rapid increase in NR activity;this light induction of NR activity was inhibited completelyby fumigation with 4 ppm nitrogen dioxide (NO₂). This inhibitoryeffect of NO₂ was prominent even at 1 ppm and became more pronouncedas the concentration of NO₂ increased. NO₂ fumigation did notremarkably affect the content of reductant (NADH) in the cotyledons.The results of immunoblotting using anti-NR serum indicatedthat irradiation induced the increase in the NR-polypeptidecontent and NO₂ fumigation inhibited the increase, suggestingthat NO₂ put an inhibitory effect on the synthesis of NR inducedby irradiation. ⁴ Present address: College of Environmental Health, Azabu University,Fuchinobe, Sagamihara, Kanagawa 229, Japan ⁵ Present address: Faculty of Home Economics, Otuma Women'sUniversity, Sanban-cho, Chiyoda, Tokyo 102, Japan (Received October 21, 1987; Accepted January 13, 1988)     

Evidence for the Involvement of Mitochondrial Respiration in Calcification in a Marine Coccolithophorid, Emiliania huxleyi

In the marine coccolithophorid, Emiliania huxleyi, CaCO₃ productionunder illumination showed a lag phase for about 3 h and thenincreased greatly. During the lag phase the rate of CaCO₃ productionin the light was similar to that in the dark. The productionof CaCO₃ in the dark was inhibited by the addition of 170 µMCCCP, 1 mM KCN and 1 mM SHAM. These results suggest that a littleproduction of CaCO₃ is supported by energy from mitochondrialrespiration, but that large amount of CaCO₃ production requiresphotosynthesis. ¹Present address: SDS Biotech K.K., Tsukuba Technology Center,Midorigahara 2-1, Tsukuba, Ibaraki, 300-26 Japan     

A sulfite-dependent adenosine triphosphatase of Thiobacillus thiooxidans. Its partial purification and some properties

A sulfite-dependent ATPase [EC 3.6.1.3 [EC] ] of Thiobacillus thiooxidanswas activated and solubilized by treatment with trypsin [EC3.4.4.4 [EC] ], and purified 84-fold with a 32% recovery. It requiredboth Mg²⁺ and SO₃^2– for full activity, and its optimumpH was found at 7.5–8.0. Mn²⁺, Co²⁺, and Ca²⁺ could partiallysubstitute for Mg²⁺, while SeO₃^2– and CrO₄^2– couldpartially substitute for SO₃^2–. The enzyme hydrolyzed ATP and deoxy-ATP most rapidly and otherphosphate esters were poorer substrates. The apparent Km valuefor ATP was 0.33 mM. The enzyme activity was strongly inhibitedby 0.2 mM NaN₃ and 10 mM NaF. (Received July 27, 1977; )     

Effects of Osmotic Stress, Ionic Stress and IAA on the Cell-Membrane Resistance of Vigna Hypocotyls

The cell-membrane resistance (R_m) of Vigna hypocotyls was examined,and the effects of osmotic stress, ionic stress and IAA on R_mwere investigated. R_m decreased by 64 to 77% under osmotic stressin the presence of absorbable solutes (40 mM sorbitol, 15 mMKC1, 30 mM sucrose; or 40 mM sorbitol, 15 mM KC1, 30 mM sucroseplus 10^–4 M IAA) or under ionic stress (50 mM NaCl or50 mM KC1). R_m was not changed by perfusion with 10^–4M IAA. Therefore, the hyper-polarizations of the membrane potentialobserved in both cases should be ascribed totally to the activationof the electrogenic proton pump. Although R_m showed an increaseof 1.6 fold when the hypocotyls were subjected to osmotic stress(100 mM sorbitol or 100 mM sorbitol plus 10^–4 M IAA),83.6% or 92.4% of the hyperpolarization of the membrane potential(V_px was also the result of the activation of the pump. Theresults, calculated on the basis of the current source model,support the viewpoint that the hyperpolarization of the cellmembrane potential of Vigna hypocotyls under osmotic stress,ionic stress or in the presence of IAA is an expression of theactivation of the proton pump, and is not caused by an increasein R_m. ¹ Present address: Researchers and Planners of Natural Environment, Yotsugi Bldg. (2F), 1-5-4 Horinouchi, Suginami-Ku, Tokyo,166 Japan ² Present address: Graduate School of Integrated Science, YokohamaCity University, 22-2 Seto, Kanazawa-Ku, Yokohama, 236 Japan (Received February 14, 1991; Accepted July 24, 1991)     

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     

Fatty acid synthesis by spinach chloroplasts I. Property of fatty acid synthesis from acetate

Intact chloroplasts (about 70% Class I chloroplasts) isolatedfrom spinach leaves incorporated 150 nmoles of [1-¹⁴C] acetateinto fatty acids per mg chlorophyll in 1 hr at pH 8.3, 25°Cand 25,000 lux. On electron and phase-contrast microscopiescombined with hypotonic treatment of chloroplasts, this syntheticactivity was shown to be proportional to the percentage of ClassI chloroplasts in the preparation. Light was necessary for thesynthesis, the activity in the complete reaction mixture inthe dark being only 2% of that in the light. The synthetic activityincreased with increasing intensities of light to reach saturationat 6,000 lux. CoA and ATP were most effective as cofactors,HCO₃^–, HPO₄^2–, Mg^2$ and Mn^2$ were less effective.ATP could be replaced by ADP in the presence of Pi, suggestingpossible supply of ATP by photophosphorylation. Omission ofthe NADPH-generation system and NADH did not affect the synthesis,indicating sufficient provision of endogenous NADPH and NADHin intact chloroplasts under light. Addition of DTE did notcause recovery of the synthetic activity of intact chloroplastsin the dark. ¹ Present address: Radioisotope Centre, University of Tokyo,Yayoi, Bunkyo, Tokyo 113, Japan. (Received August 26, 1974; )     

Effects of Deoxygibberellin C (DGC) and 16-Deoxo-DGC on Gibberellin 3{beta}-Hydroxylase and Plant Growth

Deoxygibberellin C (DGC), a C/D ring-rearranged isomer of GA₂₀,was shown to inhibit the conversion of [2,3-³H₂]GA₉ to [2-³H]GA₄by gibberellin 3ß-hydroxylase from immature seedsof Phaseolus vulgahs. Deoxygibberellin C inhibited the promotionof growth by exogenously applied GA₂₀ of rice (Oryza sativaL.) seedlings. Evidence is also presented that DGC is a competitiveinhibitor of the 3ß-hydroxylase from P. vulgaris.However, DGC only weakly inhibited the conversion catalyzedby the 3ß-hydroxylase from Cucurbita maxima at highconcentrations, and it did not inhibit the promotion of growthby exogenously applied GA₉ of cucumber (Cucumis sativus) seedlings.These results suggest that the 3ß-hydroxylases fromP. vulgaris and C. maxima have different structural requirementswith respect to their substrates. 16-Deoxo-DGC also inhibitedcatalysis of the same conversion by 3ß-hydroxylasefrom P. vulgaris, and it slightly inhibited the conversion catalyzedby the enzyme from C. maxima. Application of 16-deoxo-DGC causedthe promotion of the growth of seedlings of both rice and cucumber. ³ Present address: Genetic Engineering Center, Korea Instituteof Science and Technology, Daejeon 305–606, Korea ⁴ Present address: Department of Agricultural Chemistry, UtsunomiyaUniversity, Utsunomiya-shi, Tochigi, 321 Japan (Received September 25, 1990; Accepted December 17, 1990)     

The enzyme system for the entrance of 14CO2 in the dark CO2-fixation of brown algae

High activity of phosphoenolpyruvate (PEP)-carboxykinase, orADP: oxalacetate (OAA) carboxy-lyase activity (a kind of EC4. 1. 1. 32) was discovered in enzyme extracts or partiallypurified preparations obtained from the brown algae, Eiseniabicyclis, Dictyota dichotoma, Spatoglossum pacificum; and Hizikiafusiformis. Enzyme activities were determined by measuring theradioactivity incorporated in the products of dark ¹⁴CO₂-fixationand by spectrophotometric determinations. Except for the lowactivity of "malic enzyme" (EC 1. 1. 1.40), no activities ofother carboxylases, i.e. PEP-carboxylase, PEP-carboxytransphosphorylase,and pyruvate carboxylase could be detected in algal extractsprepared under various conditions. Malate dehydrogenase (EC1. 1. 1. 37), fumarase (EC 4. 2. 1. 2), and glutamic: oxalacetictransaminase (EC 2. 6. 1. 1) were also detected. The algal PEP-carboxykinase required ADP and Mn²⁺ for maximumactivity in the carboxylation reaction; and ATP and Mn²⁺, butnot GTP, for maximum activity in both the decarboxylation andOAA-¹⁴CO₂-exchange reactions. The optimum pH of purified PEP-carboxykinase was in the regionof 7.0 to 7.3 in both the carboxylation and decarboxylationreactions, and its Km values for HCO₃^–, PEP, and ADP were10 mM, 0.3 mM, and 0.07 mM, respectively, in the carboxylationreaction, and values for OAA and ATP were 0.05 mM and 0.4 mM,respectively, in the decarboxylation reaction. Furthermore,the decarboxylation reaction was markedly inhibited by 20 mMHCO₃^–. The physiological role of PEP-carboxykinase as the enzyme responsiblefor the entrance reaction of the dark CO₂-fixation is discussed. ¹ Contributions from the Shimoda Marine Biological Station ofTokyo Kyoiku University, No. 236. This work was supported inpart by a Grant-in-Aid for Co-operative Research from the Ministryof Education, Japan and Matsunaga Science Foundation (to T.Ikawa). ² Present address: Department of Antibiotics, the National Instituteof Health, Shinagawa, Tokyo, Japan. (Received February 22, 1972; )     

Characterization of Two Proton Transport Systems in the Tonoplast of Plasmalemma-Permeabilized Nitella Cells

ATP-dependent and PP_i-dependent H⁺-transport systems of thetonoplast were characterized in plasmalemma-permeabilized Nitellacells, where direct access to the protoplasmic surface of thetonoplast was possible. Since H⁺ transport across the tonoplastcan be measured in situ, the identity of the membrane responsiblefor H⁺ pumping is unequivocal. H⁺ transport was evaluated bythe accumulation of neutral red. While both transport systemswere obligately dependent on Mg²⁺, the two transport systemsshowed completely different sensitivity to NO₃^– and K⁺,suggesting the presence of two types of H⁺-pumps in Nitellatonoplast. NO₃^– applied to the protoplasmic surface, completelyand reversibly inhibited ATP-dependent transport but had noeffect on PP_i-dependent transport. By contrast, NO₃^– appliedinto the vacuole by the vacuolar perfusion technique did notinhibit ATP-dependent or PP_i-dependent H⁺ transport. Replacementof K⁺ with the organic cation, BTP, inhibited PP_i-dependenttransport but not the ATP-dependent one, indicating that PP_i-dependenttransport is K⁺ dependent. The sensitivities of the H⁺ transportsystems found in the tonoplast of Nitella are quite similarto those of higher plant tonoplasts. ¹ Present address: Department of Botany, Faculty of Science,University of Tokyo, Hongo, Tokyo 113, Japan. (Received February 21, 1987; Accepted May 27, 1987)