Synthesis of Citrulline and Arginine in Chlorella pyrenoidosa

The distribution of radioactivity in Chlorella during dark ¹⁴CO₂fixation was investigated either (a) in normal cells with andwithout added ammonium chloride, or (b) in nitrogen-starvedcells supplied with intermediates of the Krebs-Henseleit ureacycle. In the control experiments almost all the activity was presentin compounds of or associated with, the tricarboxylic acid cycle. The amino-acids citrulline and arginine became radioactive onlyin the presence of ammonia or ornithine where initially theycomprised 40–60 per cent. of the total activity, reactionsof the Krebs–Henseleit urea cycle being implicated intheir formation. No evidence could be found for a complete ureacycle. Unidentified compounds deriving their radioactivity fromthe C₄ carbon of citrulline and/or arginine were detected andformed up to 40 per cent. of the total ¹⁴CO₂ incorporated after25 min.     

Studies on the control of cell division in a green alga, Ankistrodesmus gracilis (Chlorococcales) III. Induction synchrony with controlled division patterns

When stagnant cells of Ankistrodesmus gracilis obtained froma standard culture were inoculated into the basal medium atcell densities lower than 1.0 ? 10⁷ cells/ml, cell proliferationoccurred stepwise at time intervals of about 30 hr. At a densityof 5.5 ? 10⁴cells/ml, the increase in cell number per step wasabout 2.7-fold. When inoculated into a glutamine medium thetime interval was 24 hr, and the average increase of cell numberwas about 4-fold. When cells were preincubated at about 5.0? 10⁵ cells per ml in the basal medium for 30 hr, then transferredinto a glutamine or arginine medium at about 7.0 ? 10⁶ cells/ml,synchronous division occurred about 18 hr later with binaryfission or about 33 hr later with multiple fission, respectively. (Received May 16, 1979; )     

Malate: A Possible Source of Error in the NAD Glutamate Dehydrogenase Assay

The effects of externally induced metabolic perturbations areoften studied through changes of the enzyme activity patternsin crude plant extracts. From glutamate dehydrogenase (GDH)it is reported that environmental changes not only influencethe amount of the enzymatic activity, but also the ratio ofthe aminating to the deaminating activities (NADH/NAD⁺ ratio).Using crude cell extracts of suspension cultures of wheat (Triticumaestivum L. cv. Heines Koga II) we find evidence that the pretreatmentof the homogenate directly influences this ratio. Dialysis ofthese crude cell extracts resulted in a 70% loss of the NAD⁺activity, while the NADH activity remained unchanged. The deaminatingactivity in the dialysed extract could be completely restoredupon addition of a dialysable factor which was identified tobe malate. The interference of malate with the glutamate dehydrogenasereaction is caused through the action of malate dehydrogenaseand glutamate oxaloacetate transaminase which are both presentin high activities in the extracts. Only in exhaustively dialysedcell extracts can the proper deaminating GDH activity be determined.The results are discussed in the light of the controversialreports on the variable ratio of the NADH/NAD⁺ activity of GDH. Key words: Glutamate dehydrogenase, malate, NADH/NAD⁺, activity, Triticum aestivum     

Effects of dark preincubation and chloramphenicol on blue light-induced CO2 incorporation in Chlorella cells

Chlorella cells incubated in the dark longer than 12 hr showedpronounced blue light-induced ¹⁴CO₂ fixation into aspartate,glutamate, malate and fumarate (blue light effect), whereasthose kept under continuous light showed only a slight bluelight effect, if any. 2) During dark incubation of Chlorellacells, phosphoenolpyruvate carboxylase activity and the capacityfor dark ¹⁴CO₂ fixation decreased significantly, whereas ribulose-1,5-diphosphatecarboxylase activity and the capacity for photosynthetic ¹⁴CO₂fixation (measured under illumination of white light at a highlight intensity) did not decrease. 3) In cells preincubatedin the dark, intracellular levels of phosphoenolpyruvate and3-phosphoglycerate determined during illumination with bluelight were practically equal to levels determined during illuminationwith red light. 4) The blue light effect was not observed incells incubated widi chloramphenicol, indicating that blue light-inducedprotein synthesis is involved in the mechanism of the effect. (Received April 9, 1971; )     

The Divalent Cation Pump and its Role in the Regulation of Malic Enzyme Activity in Purified Mitochondria from Potato Tuber

The control of the activity of the matrix-located malic enzyme(EC 1.1.1.39 [EC] ) by Mn²⁺ was investigated in Percoll-purified mitochondriafrom potato (Solarium tuberosum) tuber. Malic enzyme activitywas tightly controlled by the amount of Mn²⁺ available in thematrix space and could be stimulated by the addition of exogenousMn²⁺. A net uptake of Mn²⁺ into the matrix space of energizedmitochondria was measured. The uptake of Mn²⁺ was mediated bythe active cation pump present in the mitochondria. The activityof this cation pump was shown to be dependent on the membranepotential sustained by the activity of the respiratory chain.The uptake of Mn²⁺ was totally abolished in the presence ofan uncoupler and strongly depressed in the presence of rutheniumred, a specific inhibitor of the Ca²⁺-pump which is presentin animal mitochondria. Thus, the effect of Mn²⁺ on matrix-locatedMn²⁺-dependent malic enzyme was strongly influenced by the presenceof an uncoupler or of ruthenium red. In addition, this effectwas reduced in the presence of Ca²⁺. The possible physiologicalsignificance of the presence of this cation pump is discussedin relation to the presence of a matrix-located, NAD⁺-dependentmalic enzyme in plant mitochondria. (Received November 21, 1988; Accepted March 6, 1989)     

sgk: an essential convergence point for peptide and steroid hormone regulation of ENaC-mediated Na+ transport

To studythe role of sgk (serum, glucocorticoid-induced kinase) inhormonal regulation of Na⁺ transport mediated by theepithelial Na⁺ channel (ENaC), clonal cell lines stablyexpressing human sgk, an S422A sgk mutant, or aD222A sgk mutant were created in the background of the A6model renal epithelial cell line. Expression of normal sgkresults in a 3.5-fold enhancement of basal transport and potentiationof the natriferic response to antidiuretic hormone (ADH). Transfectionof a S422A mutant form of sgk, which cannot bephosphorylated by phosphatidylinositol-dependent kinase (PDK)-2, results in a cell line that is indistinguishable from the parent linein basal and hormone-stimulated Na⁺ transport. The D222Asgk mutant, which lacks kinase activity, functions as adominant-negative mutant inhibiting basal as well as peptide- andsteroid hormone-stimulated Na⁺ transport. Thussgk activity is necessary for ENaC-mediated Na⁺transport. Phosphorylation and activation by PDK-2 are necessary forsgk stimulation of ENaC. Expression of normal sgkover endogenous levels results in a potentiated natriferic response toADH, suggesting that the enzyme is a rate-limiting step for the hormoneresponse. In contrast, sgk does not appear to be therate-limiting step for the cellular response to aldosterone or insulin.

     

Overexpression of human KCNA5 increases IK V and enhances apoptosis

Apoptotic cell shrinkage, an early hallmark of apoptosis, is regulated by K⁺ efflux and K⁺ channel activity. Inhibited apoptosis and downregulated K⁺ channels in pulmonary artery smooth muscle cells (PASMC) have been implicated in development of pulmonary vascular medial hypertrophy and pulmonary hypertension. The objective of this study was to test the hypothesis that overexpression of KCNA5, which encodes a delayed-rectifier voltage-gated K⁺ (Kv) channel, increases K⁺ currents and enhances apoptosis. Transient transfection of KCNA5 caused 25- to 34-fold increase in KCNA5 channel protein level and 24- to 29-fold increase in Kv channel current (I_K(V)) at +60 mV in COS-7 and rat PASMC, respectively. In KCNA5-transfected COS-7 cells, staurosporine (ST)-mediated increases in caspase-3 activity and the percentage of cells undergoing apoptosis were both enhanced, whereas basal apoptosis (without ST stimulation) was unchanged compared with cells transfected with an empty vector. In rat PASMC, however, transfection of KCNA5 alone caused marked increase in basal apoptosis, in addition to enhancing ST-mediated apoptosis. Furthermore, ST-induced apoptotic cell shrinkage was significantly accelerated in COS-7 cells and rat PASMC transfected with KCNA5, and blockade of KCNA5 channels with 4-aminopyridine (4-AP) reduced K⁺ currents through KCNA5 channels and inhibited ST-induced apoptosis in KCNA5-transfected COS-7 cells. Overexpression of the human KCNA5 gene increases K⁺ currents (i.e., K⁺ efflux or loss), accelerates apoptotic volume decrease (AVD), increases caspase-3 activity, and induces apoptosis. Induction of apoptosis in PASMC by KCNA5 gene transfer may serve as an important strategy for preventing the progression of pulmonary vascular wall thickening and for treating patients with idiopathic pulmonary arterial hypertension (IPAH). potassium ion channel; pulmonary hypertension     

Incorporation of radioactive molybdenum into protein during nitrate reductase formation and effect of molybdenum on nitrate reductase and diaphorase activities of spinach (Spinacea oleracea L.)

Spinach plants grown without molybdenum lack nitrate reductaseand when plants are deprived of nitrate existing activity islost. Transfer of molybdenum-deficient plants to a solutioncontaining (NH₄)₂⁹⁹MoO₄) or nitrate-starved plants to NaNO₃solution induced enzyme activity in 24 hr. After purificationby selective adsorption, precipitation and disc electrophoresis,the protein from molybdenum-deficient plants given ⁹⁹Mo showedradioactivity only where nitrate reductase was revealed on theacrylamide gel. Molybdenum was similarly selectively concentratedinto the enzyme as a result of induction by nitrate in plantsgrown with sub-optimal molybdenum supply in order to minimizeeffects of isotope dilution on measurement of ⁹⁹Mo incorporation. There was no exchange in vitro between ⁹⁹Mo and purified activeenzyme in the resting state over 18 hr at 4°C, or with functioningenzyme held at room temperature for 24 hr. There was evidenceeither for possible in vivo exchange of ⁹⁹Mo andenzyme boundMo or for slight synthesis of fresh enzyme under conditionsof net loss of enzyme in nitrate starved plants. Five NADH₂ and two NADPH₂ reactive diaphorases which could beseparated by electrophoresis were present in extracts. Onlyone of these having strong NADH₂ and weak NADPH₂ activity wasdirectly associated with nitrate reductase. The same complexalso showed the only benzyl viologen (BV.) reactive nitratereductase. Nitrate reductase in spinach is therefore considered to be amolybdenum-dependant and molybdenum-containing protein in whichNADH₂ (with weak NADPH₂) and BVelectron donor functions anddiaphorase/reductase activities remain closely associated duringpurification and electrophoresis. The techniques provide a simple means for the production andpurification of enzyme containing radioactively labelled Moapplicable to investigations on the structure of the enzyme. (Received January 16, 1971; )     

Stimulatory Effect of Chloride Ions on NADP Malic Enzyme from Leaves of two C4 Species of Cyperus

NADP malic enzyme (EC 1.1.1.40 [EC] ) from leaves of two C₄ speciesof Cyperus (C. rotundus and C. brevifolius var leiolepis) exihibiteda low level of activity in an assay mixture that contained lowconcentrations of Cl^–. This low level of activity wasmarkedly enhanced by increases in the concentration of NaClup to 200 mM. Since the activity of NADP malic enzyme was inhibitedby Na₂SO₄ and stimulated by relatively high concentration ofTris-HCl (50–100 mM, pH 7–8), the activation ofthe enzyme by NaCl appears to be due to Cl^–. Variationsin the concentration of Mg²⁺ affected the K_A (the concentrationof activator giving half-maximal activation) for Cl^–,which decreased from 500 mM to 80 mM with increasing concentrationsof Mg²⁺ from 0.5 mM to 7 mM. The K_m for Mg²⁺ was decreased from7.7 mM to 1.3 mM with increases in the concentration of NaClfrom zero to 200 mM, although the increase of V_max was not remarkable.NADP malic enzyme from Cyperus, being similar to that from otherC₄ species, was able to utilize Mn²⁺. The K_m for Mn²⁺ was 5mM, a value similar to that for Mg²⁺. The addition of 91 mMNaCl markedly decreased the K_m for Mn²⁺ to 20 +M. NADP malicenzyme from Setaria glauca, which contains rather less Cl^–than other C₄ species, was inactivated by concentrations ofNaCl above 20 mM, although slight activation of the enzyme wasobserved at low concentrations of NaCl at pH7.6. (Received February 20, 1989; Accepted June 12, 1989)     

Effects of incubation of nuclei from a long-day duckweed, Lemna gibba G3, under different ionic conditions on the activity of RNA synthesis

The effects of medium compositions used for incubation of nucleiisolated from a duckweed, Lemna gibba G3, on maintenance ofRNA synthetic activity were examined. The activity in the isolatednuclei decreased rapidly when they were incubated at 30^?C. Partof this decrease was regulated by the ionic conditions of theincubation medium. The optimum concentration of MgCl₂ for themaintenance of the activity was 30 mM. MgCl₂ could be replacedby CaCl₂. Potassium ion concentration above 100 mM caused adrastic decrease in activity. Magnesium ion had two differentfunctions: stabilization of the binding of RNA polymerase Iand of stimulating factors to nuclei. The patterns of SephacrylS-200 column chromatography of the stimulating factors presentin the nuclei during the day phase in a diurnal cycle were differentfrom those of the night phase. This pattern also changed accordingto whether the nuclei were extracted with a low (3 min) Mg mediumor an optimum (30 mM) Mg medium. We will discuss the role ofmagnesiumion in the occurrence of the diurnal rhythm of RNAsynthesis in the duckweed. (Received September 26, 1978; )     

Some Physiological Responses of Chlorella pyrenoidosa to 2,4-Dichlorophenoxyacetic Acid

An 18-h treatment of synchronously-grown Chlorella pyrenoidosawith 2,4-D did not significantly alter the size, dry weight,degree of synchrony, or pigment content of the cells, nor weredetectable quantities of ethylene produced. When Chlorella pyrenoidosawas treated with 5?10^–4 M 2,4-D, there was a statisticallysignificant stimulation of both net oxygen uptake and productionwhile 5?10 M 2,4-D inhibited both processes. When Chlorellapyrenoidosa was treated with 5?10^–4 M and 5?10^–3M 2,4-D, significantly greater amounts of glycollate were presentin the culture medium, even though an assay for glycollate dehydrogenaseshowed that the activity of this enzyme from 2,4-D-treated Chlorellapyrenoidosa was three times greater than in control cells. Looselybound 2,4-D was partitioned from a nonaqueously isolated chloroplastfraction, while other cell fractions failed to show detectablequantities of 2,4-D. It is postulated that in Chlorella pyrenoidosathe chloroplast is a target for 2,4-D action and that interferencein photorespiratory processes may underlie the observed responses.     

Influence of Abscisic Acid on Nitrate Accumulation and Nitrate Reductase Activity in Potato Tuber Slices

Abscisic acid (ABA) at concentrations of 1 to 10 µg.ml^–1suppressed development of nitrate reductase activity in freshtuber slices of Solanum tuberosum L. incubated in KNO₃. Suppressionof activity was evident after 3 hr and continued for 20 hr beforerecovery. This recovery may be due to inactivation of the hormone.Nitrate accumulation was enhanced by ABA. At exogenous NO₃ levelsof 0.1 to 5 mM, the hormone enhanced both NO₃ accumulation andnitrate reductase activity. When applied 24 hr after incubation in NO₃, ABA promoted a markeddecline in enzyme activity in the absence of exogenous NO₃,but was less effective in the presence of NO₃. Slices incubatedin NO₃ and ABA also exhibited increased loss of enzyme activityupon removal of NO₃. Preincubating slices in the hormone for24 hr in a NO₃- free medium resulted in stimulation of nitratereductase activity. Addition of NO₃ resulted in a marked stimulationof enzyme activity over a period of 8–10 hr. The ABA response is not related to tissue levels of free aminoacids and is not affected by different NO₃ sources. These resultssuggest the ABA effect on nitrate reductase activity is influencedby NO₃ status of the cells. Where external NO₃ levels are lowit stimulated NRA while it inhibited activity where NO₃ contentis high. (Received May 12, 1981; Accepted October 12, 1981)     

Effect of abscisic acid on membrane-bound epidermal ATPase from tobacco leaves

Membrane-bound Mg⁺⁺-activated ATPase activity in epidermal stripsfrom tobacco leaves (Nicotiana tabacum L. Samsun NN) was stimulatedby abscisic acid (ABA) when the strips were floated on ABA solutionin light or in darkness. The optimum ABA concentrations in lightand in darkness were 10^–5 M and 10^–6 M, respectively.Carbonyl cyanide m-chlorophenylhydrazone (CCCP) and N, N'-dicyclohexylcarbodiimide(DCCD) completely blocked the basal level membrane-bound epidermalATPase activity. ABAinduced membrane-bound epidermal ATPaseactivity was completely inhibited by CCCP, but only partly byDCCD. H⁺-influx into epidermal strips on a solution in light was lowerthan that in darkness. ABA stimulated H⁺-influx into epidermalstrips in light and in darkness. CCCP suppressed basal levelH⁺-influx, whereas DCCD did not. CCCP also suppressed ABA-inducedH⁺-influx, whereas DCCD did not. Interaction between H⁺-influxand membranebound epidermal ATPase activity is discussed. (Received May 23, 1978; )     

Active oxygen participation in chlorophyll destruction and lipid peroxidation in SO2-fumigated leaves of spinach

Chlorophyll a and carotenoids of spinach began to be destroyed2 to 3 hr after fumigation with 2 ppm SO₂ under light, whereaschlorophyll b was undamaged during 8 hr of exposure to SO₂.Pheophytin a was not affected by the fumigation. When disks excised from leaves fumigated with SO₂ at 2 ppm for2 hr were illuminated, chlorophyll a and carotenoids were brokendown, while they were not destroyed in darkness. The destructionof these pigments was suppressed under nitrogen. Chlorophylla destruction was inhibited by l,2-dihydroxybenzene-3,5-disulfonate(tiron), hydro-quinone and ascorbate, but not by l,4-diazabicyclo-[2,2,2]-octane(DABCO), methio-nine, histidine, benzoate and formate. Chlorophylla destruction was inhibited by phenazine methosulfate but stimulatedby methyl viologen. Addition of superoxide dismutase (SOD) tothe homogenate of SO₂-fumigated leaves inhibited the chlorophylla destruction. The activity of endogenous SOD was reduced to40% by 2-hr fumigation before the loss of chlorophyll was observed.These results suggest that chlorophyll a destruction by SO₂was due to superoxide radicals (O₂^–). Moreover, malondialdehyde (MDA), a product of lipid peroxidation,was formed in SO₂-fumigated leaves. MDA formation was inhibitedby tiron, hydroquinone and DABCO but not by benzoate and formate.MDA formation was increased by D₂O. These results suggest thatlipid peroxidation in SO₂-fumigated leaves was due to singletoxygen ¹O₂ produced from O_2^–. (Received May 15, 1980; )     

Active oxygen participation in chlorophyll destruction and lipid peroxidation in SO2-fumigated leaves of spinach

Chlorophyll a and carotenoids of spinach began to be destroyed2 to 3 hr after fumigation with 2 ppm SO₂ under light, whereaschlorophyll b was undamaged during 8 hr of exposure to SO₂.Pheophytin a was not affected by the fumigation. When disks excised from leaves fumigated with SO₂ at 2 ppm for2 hr were illuminated, chlorophyll a and carotenoids were brokendown, while they were not destroyed in darkness. The destructionof these pigments was suppressed under nitrogen. Chlorophylla destruction was inhibited by l,2-dihydroxybenzene-3,5-disulfonate(tiron), hydro-quinone and ascorbate, but not by l,4-diazabicyclo-[2,2,2]-octane(DABCO), methio-nine, histidine, benzoate and formate. Chlorophylla destruction was inhibited by phenazine methosulfate but stimulatedby methyl viologen. Addition of superoxide dismutase (SOD) tothe homogenate of SO₂-fumigated leaves inhibited the chlorophylla destruction. The activity of endogenous SOD was reduced to40% by 2-hr fumigation before the loss of chlorophyll was observed.These results suggest that chlorophyll a destruction by SO₂was due to superoxide radicals (O₂^–). Moreover, malondialdehyde (MDA), a product of lipid peroxidation,was formed in SO₂-fumigated leaves. MDA formation was inhibitedby tiron, hydroquinone and DABCO but not by benzoate and formate.MDA formation was increased by D₂O. These results suggest thatlipid peroxidation in SO₂-fumigated leaves was due to singletoxygen ¹O₂ produced from O_2^–. (Received May 15, 1980; )     

Mechanism of Photoregulated Carotenogenesis in Rhodotorula minuta I. Photocontrol of Carotenoid Production

Rhodotorula minuta cells, which have only traces of carotenoidswhen grown in the dark, started carotenoid production with theonset of illumination and the amount increased almost linearlyuntil 70 hr then remained constant thereafter when incubationwas continued under illumination, with the number of cells continuingto increase. The rate of carotenoid production [Vc (µgg^–1 hr^–1)] depended on the intensity of light [I(ergcm^–2 sec^–1)], with the relationship of Vc=0.74 logI–1.46. The final carotenoid content [C(µg g^–1)]of cells incubated under continuous light was also controlledby the light intensity [I], with the relationship of C=52 logI–81. Control of carotenoid production by light occursas a two-phase process consisting of a temperatureindependentphotochemical reaction and light-independent biochemical reactions. (Received September 12, 1981; Accepted February 20, 1982)     

An analysis of relative elemental growth rate, epidermal cell size and xyloglucan endotransglycosylase activity through the growing zone of ageing maize leaves

The effect of development on leaf elongation rate (LER) andthe distribution of relative elemental growth rate (REGR), epidermalcell length, and xyloglucan endotransglycosylase (XET) activitythrough the growing zone of the third leaf of maize was investigated.As the leaf aged and leaf elongation slowed, the length of thegrowing zone (initially 35 mm) and the maximal REGR (initially0.09 mm mm^–1 h^–1) declined. The decline in REGRwas not uniform through the growth profile. Leaf ageing sawa maintenance of REGR towards the base of the leaf. Epidermalcell size was not constant at a given position in the growingzone, but was seen to increase as the leaf aged. There was apeak of XET activity close to the base of the growing zone.The peak of XET activity preceded the zone of maximum REGR.XET activity declined as leaves aged and their elongation rateslowed. When leaf elongation was complete a distinct peak ofXET activity remained close to the base of the leaf. Key words: Leaf elongation rate (LER), relative elemental growth rate (REGR), xyloglucan endotransglycosylase (XET)     

Linearity and Functioning Forms in the Carboxylase Reaction of Spinach Ribulose 1,5-Bisphosphate Carboxylase/Oxygenase

The reaction of spinach RuBisCO activated with CO₂ and Mg²⁺proceeded in two phases, an initial burst for a few minutesand the subsequent linear phase, in the presence of saturatingconcentrations of CO₂, ribulose 1,5-bisphosphate (RuBP), andMg²⁺. The percentage of the activity in the linear phase tothat in the initial burst was 55% with RuBisCO prepared withpolyethylene glycol, and very close to the value with the enzymereleased immediately from isolated chloro-plasts. RuBisCO preparedwith ammonium sulfate had a much larger decrease of the activityin the linear phase. The Euglena enzyme had a linear courseof reaction with time for up to 20 minutes. The K_m for CO₂ of spinach RuBisCO activated beforehand was 20µM in the initial burst, and 28 µM in the linearphase. In the carboxylase reaction initiated with inactive enzyme,the activity was initially negligible, but in 5 minutes increasedto the level observed in the linear phase of the activated enzyme.The K_m for CO₂ in the linear phase of the pre-inactivated enzymewas 70 µM. The concentration of RuBP was the immediate cause of the two-phasiccourse of the carboxylase reaction of spinach RuBisCO. The curvatureof the time course was not observed below 35 µM RuBP.The enzyme required over 88 µM RuBP for the conventionaltwo-phasic course. Further increase of the concentration ofRuBP increased the extent of the curvature, but did not startthe curvature sooner after the start of the reaction. Even ifspinach RuBisCO was in the linear phase, dilution of RuBP orits consumption by the enzymatic reaction to less than 30 µMcaused the enzyme to show the resumed biphasic reaction courseafter addition of a high concentration of RuBP. ¹This paper is the twenty-fourth in a series on PhotosyntheticCarbon Metabolism in Euglena gracilis. (Received September 19, 1988; Accepted November 25, 1988)     

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)