Corn leaf glutamate synthase: Purification and properties of the enzyme

An assay for ferredoxin-glutamate synthase is introduced thatuses an anion exchange resin to isolate the glutamate formedand subsequent determination with the ninhydrin procedure. Theenzyme was purified 200-fold from corn leaves by ammonium sulfatefractionation and chromatography on DEAE-cellulose, DEAE-Sephaceland ferredoxin- Sepharose. The purified enzyme had a specificactivity of 14 µmoles glutamate formed min^–1mg^–1protein. The enzyme has a molecular weight of 160,000. The pHoptimum for catalytic activity is 6.9. The isoelectric pointis at pH 4.2. The apparent Km values of the enzyme for L-glutamine,2-oxoglutarate and ferredoxin are 1,100, 240 and 1.7 µM.The enzyme has a high specificity toward these substrates witha stoichiometry between glutamate formation and glutamine consumption.Sulfhydryl reagents, bathophenanthroline, phthalein acids andazaserine produced strong inhibition of the enzyme activity. ¹Permanent address: Department of Agricultural Chemistry, KyotoUniversity, Kyoto 606, Japan. ²To whom inquiries should be addressed. (Received July 7, 1979; )     

STUDIES ON HOMOSERINE DEHYDROGENASE IN PEA SEEDLINGS

Partially purified homoserine dehydrogenase was prepared frompea seedlings. The optimum pH for this enzyme is approximately 5.4. The K_mvaluesfor ASA and TPNH are 4.6xl0^–4Af and 7.7xl0^–5M, respectively.This enzyme can also utilize DPNH but less effectively thanTPNH. In contrast with yeast homoserine dehydrogenase whichis insensitive to — SH reagents, the pea enzyme is inhibitedalmost completely by 10^–4MPCMB and 10^–5MHgCl₂, theinhibition being removed by 10^–2M thioglycolate. Homoserinedehydrogenase was found not only in decotylized seedlings, butalso in cotyledons. The significance of this enzyme in homoserine biosynthesis ingerminating pea seeds has been discussed. (Received February 20, 1961; )     

THE DISTRIBUTION OF FORMYLTETRAHYDROFOLATE SYNTHETASE IN PLANTS, AND THE PURIFICATION AND PROPERTIES OF THE ENZYME FROM PEA SEEDLINGS

1. Formyltetrahydrofolate synthetase (E. C. 6. 3. 4. 3) was foundto be widely distributed in higher plants and the high enzymeactivity was observed in green leaves of Brassica and Alliumspecies, spinach, and in pea seedlings. In pea seedlings, theenzyme activity changed during the course of germination, andmost of the enzyme activity was located in a soluble fractionof the cytoplasm.
2. The enzyme was labile and lost the activityrapidly, even whenstored at 5 in the presence of 0.1 M mercaptoethanol.It was,however, found that ammonium sulfate was very effectivein stabilizingthe enzyme activity.
3. The enzyme has been purifiedapproximately 500-fold from extractsof pea seedlings by treatmentswith ammonium sulfate, protaminesulfate, hydroxylapatite, calciumphosphate gel, and DEAE-cellulosecolumn chromatography.
4. Thepurified enzyme was specific for formate, ATP and FAH₄,andthe Michaelis constants for these reactants were 2.1 10^–2M, 5.1 10^–4 M, and 5.6 10^–3 M, respectively.
5. The optimum pH was found to be 8.0, and the optimal temperaturewas observed at 37. Both NH₄^$ and a divalent cation (Mg^SS orMn^SS) were required for the optimal activity.

¹ Studies on the Enzymatic Synthesis and Metabolism of FolateCoenzymes in Plants. II. (For the previous paper see reference(8)) A part of this paper was presented at the Meeting of theKansai Division of the Agricultural Chemical Society of Japan,Kyoto, January 29, 1966.     

Different Intracellular Localization of Two Cytochrome P-450 Systems, Ipomeamarone 15-Hydroxylase and Cinnamic Acid 4-Hydroxylase, in Sweet Potato Root Tissue Infected with Ceratocystis fimbriata

Ipomeamarone 15-hydroxylase activity was mainly recovered inthe pellet fraction between centrifugations at 10,000 and 100,000?gfrom a crude extract of Ceratocystis fimbriata-infected sweetpotato root tissue, whereas cinnamic acid 4-hydroxylase activitywas found between centrifugations at 300 and 10,000?g. Whenparticles in the crude extract were fractionated by sucrosedensity gradient centrifugation, the rough-surfaced microsomeswere distributed over a wide density range from 1.09 to 1.14g cm^–3, judging from the distributions of protein, RNAand NADPH-cytochrome c reductase activity. Phosphorylcholine-glyceridetransferase activity was only in the lighter half of the microsomalfraction (density: 1.09–1.11 g cm^–3). Ipomeamarone15-hydroxylase activity was found in heavier half of the microsomalfraction (density: 1.10–1.14 g cm^–3). We proposethat this tissue has two rough-surfaced endoplasmic reticulumspecies, only one of which carries phosphorylcholine-glyceridetransferase, and that the cytochrome P-450 system is localizedon the species lacking the enzyme. Cinnamic acid 4-hydroxylaseactivity was mainly found in a fraction that had densities of1.17–1.19 g cm^–3 and contained vesicular particlesof various sizes. ¹ Present address: Laboratory of Food Hygienics, Faculty ofAgriculture, Kagawa University, Miki-cho, Kida-gun, Kagawa 761-07,Japan. (Received September 6, 1984; Accepted December 27, 1984)     

Purification and properties of DNA topoisomerase II from Daucus carota cells

Topoisomerase II was partially purified from Daucus carota cellsby a procedure including ammonium sulphate fractionation, ion-exchange,and affinity chromatography steps. The type II enzyme, identifiedfor its ability to unknot knotted P4 DNA and decatenate Trypanosomacruzi kDNA, requires ATP and Mg²⁺ for activity. The unknottingactivity was sensitive to an inhibitor of the mammalian typeII enzyme, the drug VP16 (IC₅₀ 32 mmol m^–3), whereas inhibitorsof DNA gyrase showed a limited effect on activity. The SDS-PAGEanalysis of the dsDNA cellulose fraction revealed the presenceof four polypeptides of apparent molecular masses of 72, 71,34, and 33 kDa among which only a polypeptide of about 70 kDacrossreacted with antibodies against yeast topoisomerase II.Immunoprecipitation experiments with monoclonal antibodies tothe and ß isoforms of the human enzyme confirmedthe recognition of a polypeptide of 70 kDa. The sedimentationcoefficient (S) of the topoisomerase II in the phosphocellulosefraction, calculated by analytical glycerol gradient, was 6.1corresponding to a molecular mass of about 123 kDa. Resultssuggest the presence in carrot of a protein of molecular massof 70 kDa having the typical properties of an eukaryotic topoisomeraseII and carrying epitopes recognized by MoAbs to both human and ß enzymes. The 70 kDa polypeptide might then representthe monomer of a homodimer enzyme of 123 kDa. Key words: Daucus carota, topoisomerase II, immunoprecipitation     

Some properties of shikimate: NADP oxidoreductase produced in sweet potato root tissue after slicing

The activity of shikimate: NADP oxidoreductase [EC 1. 1. 1.25] in sweet potato root tissue increased soon after slicing.Enzyme preparations obtained from both sliced tissue and fromfresh tissue probably contained a single enzyme component, andthey showed identical chromatographical behaviour. K_m values of the enzyme for NADP and shikimate were 1.0x10^–4Mand 1.3 x 10^–3M, respectively. Enzyme activity was potentlyinhibited by SH-inhibitors such as p-chloromercuribenzoate andoxidized glutathione. Enzyme activity was affected neither by mononucleotides suchas ATP, ADP and AMP, divalent cations, Mg⁺⁺, Ca⁺⁺ and Mn⁺⁺,nor by metabolites such as tryptophan, phenylalanine, tyrosineand t-cinnamic acid which are involved in aromatic compoundsyntheses. The enzyme rapidly lost its activity. This inactivation reactionshowed a time course consisting of two steps of the first-orderreaction. The inactivated enzyme preparation was not reactivatedby thiol compounds such as cysteine, 2-mercaptoethanol and glutathione,although these reagents, to a certain extent, protected theenzyme from inactivation. The results suggest that denaturationof the enzyme protein was involved in inactivation of the enzyme. ¹Part 74 of the phytopathological chemistry of sweet potatowith black rot and injury. ²Present address: Department of Biology, Faculty of Science,Tokyo Metropolitan University, Setagaya-ku, Tokyo. (Received August 5, 1968; )     

Some Properties of an Acid Phosphatase Isolated from the Seed Coats of Developing Pea Seeds

An acid phosphatase (EC 3 1 3 2)isolated from the seed-coatsof developing pea seeds was estimated to have MW 30000 by gelfiltration on Sephadex G-75 It was shown to act on a broad spectrumof physiological substrates, the most preferred being ß-glycerophosphate,3-phosphoglycerate and ADP, wich all showed rates of about halfthe maximum rate shown with p-nitrophenyl phosphate (p-NPP)Another model substrate frequently used in enzyme localizationstudies, -naphthyl acid phosphate, was hydrolysed at about 30% of the rate shown with p-NPP This acid phosphatase was enhancedor stabilized by the chelators EDTA and 1, 10-phenanthrolme,unaffected by Mg²⁺ and N-ethyl maleimide, but strongly inhibitedby Zn²⁺ and F^– Both oxidized and reduced glutathione werewithout effect at low concentration and slightly inhibitoryat high concentration (15 mm) Thiol groups are clearly not involvedin regulating the activity of this acid phosphatase, a featurewhich distinguishes it from acid phosphatases from several otherplant species. Pisum sativum L, pea, acid phosphatase, seed-coats, seed development     

The occurrence and properties of dihydrofolate reductase in pea seedlings

Dihydrofolate reductase (E.C. 1.5.1.3 [EC] ) was found in pea seedlingsand was partially purified by treatments with ammonium sulfate,protamine sulfate and by DEAE-cellulose column chromatography.Some properties of the enzyme were investigated. Optimum pHfor the reaction was 6.5. In the enzyme reaction, FAH₂ and NADPH₂were specifically required. MICHAELIS constants for FAH₂ andNADPH₂ were 4.3x10^–6 M and 4.0x10^–5 M, respectively.Folate antagonists such as aminopterin, methotrexate and pyrimethaminewere potent inhibitors of this enzyme. Enzyme activity was almostcompletely inhibited at a concentration of 10^–7 M of aminopterinand methotrexate and 10^–6 M of pyrimethamine. Growth of germinating pea seeds was inhibited by aminopterin,methotrexate and pyrimethamine, and it recovered significantlywith a tetrahydro-derivative of folate, CF, but not with dihydrofolicor folic acid. These results suggest that growth inhibitionof pea seedlings by these antagonists is due to inhibition ofdihydrofolate reductase in seedlings. ¹Studies on the enzymatic synthesis and metabolism of folatecoenzymes in plants IV. (For the previous paper, Part III, seeReference (21)) . Part of this paper was presented at the AnnualMeeting of the Agricultural Chemical Society of Japan held atTokyo on April 4, 1967 (Received October 8, 1969; )     

Biosynthesis of folic acid compounds in plants VI. The occurrence and properties of the dihydrofolate-synthesizing enzyme in pea seedlings

An enzyme, which catalyzes the formation of dihydrofolate fromdihydropteroic acid and L-glutamic acid, was found in pea seedlings.The enzyme was purified approximately 25-fold from the crudeextracts of pea seedlings, and its some properties were investigated.Optimum pH for the enzyme activity was found to be 8.8. Pteroicand tetrahydropteroic acids were not active as substrate. Theenzymatic reaction required as cofactors ATP, divalent (Mg²⁺or Mn²⁺) and univalent (K⁺, NH₄⁺ or Rb⁺) cations. The productwas characterized as dihydrofolic acid by bioautography. MICHAELIS constants for L-glutamic acid, ATP, dihydropteroicacid and Mg²⁺ were 7.0x10^–4, 9.0x10^–5, 3.5x10^–6and 1.2x10^–3 M, respectively. The MICHAELIS constant forMn²⁺ was 3.0x10^–4. The enzyme was inhibited by PCMB orsilver nitrate and, to some extent, by L-aspartic acid. Inhibitionby PCMB was completely reversed by addition of 2-mercaptoethanol.Enzyme activity was distributed widely among plants. The importanceof magnesium and potassium ions for enzyme catalysis is discussed. ¹For the previous paper, Part V, see Reference (30). (Received March 28, 1970; )     

Studies on the control and properties of ornithine transcarbamylase in germinated spores of Geotrichum candidum

The effects of arginine and urea on the levels of ornithinetranscarbamylase (OTC) were investigated in relation to thephysiological functions of this enzyme in Geotrichum candidum.OTC was repressed in germinated spores to half of its initiallevel when exogenous arginine exceeded 12 mM. The repressionof OTC could not be correlated with intracellular arginine concentration.The addition of urea at the final concentration of 0.035 M increasedthe specific activity of OTC by 5.5 and 2.5 fold as comparedto enzyme levels in arginine-repressed spores and control sporesrespectively. Simultaneous addition of urea and arginine duringgermination prevented either arginine repression or urea inductionof OTC. The enzyme was partially purified from germinated sporesand isolated as a single protein band after disc electrophoresis.Two distinct pH optima for the forward reaction (pH 8.8–9)and backward reaction (pH 7.8) were found. Km values for ornithineand carbamyl phosphate were 5 x 10^–3 M and 6.8 x 10^–4so respectively. The Km for citrulline in the catabolic directionwas 1 x 10^–2 M. Enzymes obtained from cell-free extractsof germinated spores could synthetize ATP from citrulline andADP under physiological conditions by coupling the phosphorolysisof citrulline with carbamate kinase activity. The initial rateof germination was stimulated in the presence of citrullineas the sole nitrogen source, as compared to arginine, glutamineor yeast extract. These observations suggest that citrullinemay be catabolized during germination by means of OTC ratherthan via the energy-consuming urea cycle. (Received June 26, 1971; )     

Nucleoside diphosphate kinase from lily pollen

Nucleoside diphosphate kinase was a predominantly soluble enzymein lily pollen (Lilium longiflorum, var. Ace), and very littleenzyme activity was associated with the mitochondrial fraction.GTP was the preferred substrate when ADP was the second substrate.The enzyme was purified 18-fold to a specific activity of 7µmoles/min/mg protein. ¹This study was supported by grant GB-8764 from the U.S. NationalScience Foundation. (Received October 5, 1970; )     

In Vitro Synthesis of Pteroylpoly-{gamma}-glutamates by Cotyledon Extracts of Pisum sativum L.

The formation of folylpolyglutamate derivatives by germinatingpea seeds (Pisum sativum L. cv Homesteader) was examined invivo and in vitro. Differential microbiological assay of cotyledonextracts showed that total folate concentrations increased from163 ng folate equivalents per g fresh weight at day 1 to 680ng per g fresh weight at day 3 of germination. Over a 7 daygermination period, folylpolyglutamate derivatives accountedfor 46–73% of the total cotyledonary folate pool. Theconcentration of these polyglutamate forms of folate increased6.5 fold during the first four days of germination and thenremained relatively constant. Dialyzed extracts of 1–4 day old cotyledons had abilityto incorporate [³H]glutamate and [¹⁴C]tetrahydrofolate intofolylpolyglutamates. This activity was mainly associated withprotein precipitating at 35–45% of saturation with ammoniumsulphate. The folylpolyglutamate synthetase of pea cotyledonshad requirements for ATP and the monoglutamate of tetrahydrofolate.The latter folate was a more effective substrate than 5,10-methylenetetrahydrofolatebut the diglutamate of unsubstituted tetrahydrofolate was notutilized. Ion exchange chromatography of the reaction productssuggested that [³H]glutamate and [¹⁴C]tetrahydrofolate wereincorporated into di-, and tetraglutamates of tetrahydrofolate.Folates of longer glutamyl chain lengths were only detectedwhen the synthetase reaction proceeded for 12 h or longer. (Received August 23, 1985; Accepted January 22, 1986)     

Intracellular Localization and Properties of NADH-Glutamate Dehydrogenase from Vitis vinifera L.: Purification and Characterization of the Major Leaf Isoenzyme

Glutamate dehydrogenase was partially purified from grapevine(Vitis vinifera L. cv. Soultanina) tissues and its activityand isoenzymic pattern were studied. Seven anodal migratingisoenzymes were revealed after PAGE. Leaf protoplasts were isolatedfrom in vitro-grown axenic shoot cultures and used to studythe intracellular localization of GDH. Results revealed thatthe enzyme was associated with the mitochondrial fraction. Theisoenzyme with the lowest electrophoretic mobility, which accountedfor 35 to 40% of total activity, was purified 2050-fold to homogeneityfrom leaves. The purification method included ammonium sulphatefractionation, DEAE-cellulose chromatography, Sephadex G-200gel filtration and NAD-sepharose affinity chromatography. Themolecular weight of the native enzyme was estimated to be 252kDa and it consisted of identical 42.5 kDa subunits. pH optimumfor the aminating reaction was 8.0 and for the deaminating reaction9.3. At optimum pH conditions the apparent K_m values for ammonium,as ammonium chloride and ammonium sulphate, -ketoglutarate,NADH, glutamate, and NAD⁺ were 45.0, 13.0, 2.1, 0.069, 18.0,and 0.195 mM, respectively. The amination reaction of GDH wasfully activated with about 100 µM Ca²⁺ while the deaminationreaction was not affected by the addition of Ca²⁺. The isoenzymesof GDH showed different magnitude of their activating responseto calcium ions. Key words: Vitis vinifera L., glutamate dehydrogenase     

The Occurrence of 1,3-{beta}-Glucanase in Healthy and Verticillium-infected, Resistant and Susceptible Tomato Plants

Leaf, stem, and root extracts of near-isogenic tomato plantscv. Craigella, resistant and susceptible to Verticillium albo-atrum,showed constitutive 1,3-ß-glucanase activity whichincreased following inoculation with the pathogen. Partiallypurified enzyme extracts were obtained by dialysing a 30–80%ammonium sulphate fraction of the tissue brei. The enzyme hadpH and temperature optima of 5?5 and 44 ?C respectively, withhigh activity between 50 and 60 ?C. The response to laminarinconcentration was linear between 1?2 and 7?5 mg ml^–1.Root inoculation of susceptible plants with 10⁶ propagules ml^–1V. albo-atrum led to a umform 300 per cent increase in all steminternodes except the terminal one, which was 500 per cent ofthe controls. No spatial relationship of enzyme activity tothe localization of fungus within the stem was apparent. Petioles,leaves, and roots of susceptible infected plants similarly showedan increase in activity but less than that in stems. Changedlevels of stern enzyme activity at different times after inoculationwere associated with reductions in the number of vessels containinghyphae. Extracts of plants of the resistant isoline showed increasedglucanase activity over controls, but this was substantiallylower than that in susceptible plants and was associated withthe greatly reduced mycelial colonization in resistant plants. It is concluded that single gene resistance in tomato to Verticilliumis not associated with innately higher levels of 1,3-ß-glucanasein healthy plants. The increased activity in infected plantsis proportional to the overall quantity of pathogen in the plantor of pathogenic metabolites.     

Purification and properties of a nitrite reductase from Porphyra yezoensis Ueda

Nitrite reductase was extracted from the red alga Porphyra yezoensisUeda and purified through precipitation with ammonium sulfate,column chromatographies, and polyacrylamide gel disk electrophoresis.The enzyme preparation thus obtained showed a single band ondisk electrophoresis. The absorption spectrum had three maxima at 385 nm (Soret band),580 nm (-band), and 278 nm; the ratio of absorbance of the Soretband to the -band was 4.3. The molecular weight and the numberof amino acid residues were estimated to be 63,000 and 601,respectively. The enzyme activity was optimal at around pH 7.5, and its activitywas heat labile as indicated by reduction of activity by about70% when heated at 37°C for 10 min. The enzyme used ferredoxin and methyl viologen, but not NADP⁺or NAD⁺, as the electron carriers. Moreover, reduced forms ofthe latter two showed no effect on its activity. Km values ofthis enzyme for NO₂^–, Fd, and MV were 8.1 x 10^–4M, 4.3 x 10^–8 M, and 3.7 x 10^–4 M, respectively.Almost half of its activity was lost when potassium cyanidewas added at a concentration as low as 10^–5 M, and theKi value was 1.8 x 10^–5 M. Thus, the nitrite reductaseof Porphyra must be systematically grouped in EC 1.7.7.1 [EC] . Itresembled closely that of Chlorella, except for the amountsof some amino acids. ¹ Present address: Department of Biological Sciences, Universityof Tsukuba, Sakura-Mura, Ibaraki, 300-31 Japan. ² Present address: Department of Fisheries, College of Agricultureand Veterinary Medicine, Nihon University, Shimouma, Setagaya-ku,Tokyo, 154 Japan. (Received June 10, 1975; )     

Polypeptide Composition of Envelopes of Spinach Chloroplasts: Two Major Proteins Occupy 90% of Outer Envelope Membranes

Outer and inner envelope membranes of spinach chloroplasts wereisolated using floatation centrifugation followed by sedimentationsucrose density gradient centrifugation after disruption ofintact chloroplasts by freezing and thawing. Two major fractionswith buoyant densities of 1.11 and 1.08 g cm^–3 and a minorfraction with a density of 1.15 g cm^–3 were obtained.They were identified as innei and outer envelope and thylakoidfractions, respectively, by analyzing their polypeptide compositionby high-resolution SDS-PAGE and the N-terminal sequences oftheir protein components. Due to the refinement of the isolation procedure, most of theribulose-l,5-bisphosphate carboxylase/oxygenasc (RuBisCO), whichhad always been observed as a contaminant, was eliminated fromthe outer envelope fraction. Application of high-resolutionSDS-PAGE revealed that this fraction was rich in the low-molecular-massouter envelope protein, E6.7 [Salomon et at. (1990) Proc. Natl.Acad. Sci. USA 87: 5778] and a protein with a molecular massof 15 kDa which is homologous to the 16 kDa outer envelope proteinof pea [Pohlmeyer et al. (1997) Proc. Natl. Acad. Sci. USA 94:9504]. The two proteins account for 90% of the total proteinspresent in outer envelope membranes. Proteins which are suggestedto function in translocation of nuclear-encoded polypeptideswere not identified in the envelopes from spinach in the presentstudy. Differences in the protein composition of outer envelopemembranes arc discussed based on the developemental stages ofchloroplasts. ¹Present address: Biological Function Section, Kansai AdvancedResearch Center, Communications Research Laboratory, Ministryof Posts and Telecommunications, Kobe, Hyogo, 651-24 Japan.     

Trehalose-P synthase of mycobacteria: its substrate specificity is affected by polyanions

The trehalose-P synthase was purified to near homogeneity fromthe cytoplasmic fraction of Mycobacterium smegmatis. At thefinal stage of purification, the enzyme preparation showed onemajor band of 59 kDa on SDS gels. The 59 kDa band became labeledwith N₃-UDP[³²P]-glucose, and this labeling was inhibited ina concentration-dependent manner by either unlabeled UDP-glucoseor GDP-glucose. The native enzyme also had a molecular weightof about 60 kDa by gel filtration, indicating that the activeenzyme is a monomer. The 59 kDa protein was subjected to endoproteinaseLys-C digestion, and three peptides isolated by HPLC were sequenced.The sequences of 56 amino acids in these three peptides showed60% identity to the trehalose-P synthases of Saccharomyces cerevesiaeand Schizosaccharomyces pombe. The purified mycobacterial enzymecatalyzed the synthesis of trehalose-P from glucose-6-P anda variety of nucleoside diphosphate glucose derivatives, dependingon whether a polyanion was absent or present. Thus, UDP-glucoseand GDP-glucose were the best glucosyl donors, but maximum activitywith UDP-glucose required the presence of a polyanion such asheparin, whereas activity with GDP-glucose was relatively independentof polyanion. The presence of heparin in the incubation mixtureincreased the affinity of the enzyme for UDP-glucose by a factorof 100, or more. However, the affinity for GDP-glucose was onlytwofold better in the presence of heparin. The purified synthasealso utilized ADP-glucose and CDP-glucose, but the K_m for theseglucosyl donors was quite high even in the presence of polyanion.The effect of heparin on UDP-glucose activity was dose-dependentand maximum at about 1–2 µ;g of heparin/incubation.However, the size of the heparin molecule (i.e., the numberof monosaccharide residues) was critical for activation, andonly those heparins with 18 or more monosaccharide units wereeffective in stimulating activity. trehalose polyanions mycobacteria GDP-glucose heparin     

Plasma membrane isolation from freshwater and salt-tolerant species of Chara: antibody cross-reactions and phosphohydrolase activities

Plasma membranes were isolated using the aqueous polymer two-phasepartition method from the algae Chara corallina and Chara longifolia,algae which differ in their ability to grow in saline environments.Enrichment of plasma membrane and depletion of tonoplast relativeto the microsomal fraction was monitored using phosphohydrolaseassays and crossreactions to antibodies raised against higherplant transporters. Antibodies to the vacuolar ATPase and pyrophosphatasecross-reacted with epitopes in the microsomal fraction, butshowed little affinity for the plasma membrane fraction. Pyrophosphataseactivity also declined in the plasma membrane fraction relativeto the microsomal fraction. The V-type H⁺ -ATPase activity,sensitive to nitrate or bafilomycin, was low in both fractions,though the cross-reaction to the antibody was reduced in theplasma membrane fraction. By contrast, the antibody recognitionof a P-type H⁺-ATPase amino acid sequence from Arabidopsis didnot occur strongly in the anticipated 90–100 kDa range.While there was enhanced recognition of a polypeptide at around140 kDa in the plasma membrane fraction, salt treatment of Charalongifolia resulted in plasma membrane fractions with reducedamounts of this epitope, but no change in vanadate-sensitiveATPase activity, suggesting that it does not represent the onlyP-type ATPase. Microsomal membranes from saltadapted C. longifoliahave higher reactivity with the antibody to the tonoplast ATPase. Key words: Chara, plasma membrane, salt tolerance, ATPase     

Structural and Kinetic Properties of NADP-Malic Enzyme from the Inducible Crassulacean Acid Metabolism Plant Mesembryanthemum crystallinum L.

NADP-malic enzyme (EC 1.1.1.40 [EC] ), which is involved in Crassulaceanacid metabolism (CAM), was purified to electrophoretic homogeneityfrom the leaves of the inducible CAM plant Mesembryanthemumcrystallinum. The NADP-malic enzyme, which was purified 1,146-fold,has a specific activity of 68.8 µmol (mg protein)^–1min^–1. The molecular weight of the subunits of the enzymewas 64 kDa. The native molecular weight of the enzyme was determinedby gel-filtration to be 390 kDa, indicating that the purifiedNADP-malic enzyme is a hexamer of identical subunits. The optimalpH for activity of the enzyme was around 7.2. Double-reciprocalplots of the enzymatic activity as a function of the concentrationof L-malate yielded straight lines both at pH 7.2 and at pH7.8 and did not reveal any evidence for cooperativity of bindingof L-malate. The K_m value for L-malate was 0.35 mM. Hill plotsof the activity as a function of the concentration of NADP⁺indicated positive cooperativity in the binding of NADP⁺ tothe enzyme with a Hill coefficient (nH) of 2.0. An S_0.5 value(the concentration giving half-maximal activity) of 9.9 µMfor NADP⁺ was obtained. Oxaloacetate inhibited the activityof the NADP-malic enzyme. Effects of succinate and NaHCO₃ onthe activity of NADP-malic enzyme were small. (Received October 30, 1991; Accepted May 1, 1992)