Studies on NADP-isocitrate dehydrogenase from maturing castor bean seeds

NADP-specific isocitrate dehydrogenase from the soluble fractionof maturing castor bean endosperm was partially purified (approximately180-fold) and some of its enzymatic properties were studied.Mg⁺⁺, Mn⁺⁺, Cd⁺⁺, Ba⁺⁺, Co⁺⁺, Zn⁺⁺, and Sr⁺⁺ were activatorsof the enzyme reaction at a concentration of 6.7x10 M. The optimumpH of this enzyme was about 8.5. The enzyme was stable in thenarrow range from pH 7.0 to pH 8.0. Km values for isocitrateand NADP at pH 8.5 were 3.5x10^–6 M and 3.6x10^–6M, respectively. Enzyme stability was not affected by NaCl concentrationand enzyme reaction was inhibited at 5x10^–6 M PCMB (80%inhibition). It is suggested that the condensation product ofglyoxylate and oxalacetate also inhibits the reaction. NADP-IDHin the crude extract from maturing castor bean endosperm washeat-stable but the dialyzed enzyme preparation and the partiallypurified enzyme were labile against heat treatment at 57°C.When Mg⁺⁺ was added to the partially purified enzyme in thepresence of isocitrate or NADP, the enzyme was stabilized againstheat treatment. Mn⁺⁺, Ca⁺⁺, Co⁺⁺, Sr⁺⁺ or Ba⁺⁺ could be substitutedfor Mg⁺⁺. Addition of only one of the factors, Mg⁺⁺, isocitrateor NADP, had no effect on the heat stability. Moreover, a combinationof isocitrate and NADP did not establish stabilization. A divalentcation plays a central role, while adenine nucleotide, especiallyATP, may have an important part in stabilization. (Received August 14, 1972; )     

Effects of temperature and various metal ions on the solubility of tobacco RuDP carboxylase

Tobacco RuDP carboxylase is completely soluble in 0.07 M NaClor 0.01 M Na₂SO₂, but is almost completely insoluble in salt-freesolutions at 40°C; the solubility seeming to depend on ionicstrength. Lowering the temperature increased solubility of theprotein. The solubility in 0.01–0.04 M NaCl at 0°Cwas more than double that at 40°C. RuDP solubilized theprotein even in a salt-free medium. The protein became insolubleagain on the addition of various divalent cations. Effectivenessof the metal ions was Zn⁺⁺> Ni⁺⁺>Co⁺⁺>Mn⁺⁺>Mg⁺⁺>Ca⁺⁺.Although most of the metal ions inhibited (Mg⁺⁺ activated) enzymeactivity, no direct correlation was found between the degreeof solubility depression and the degree of enzyme inhibition. (Received October 4, 1971; )     

Characterization of membrane-bound Mg++-activated ATPase isolated from the lower epidermis of tobacco leaves

Membrane-bound Mg⁺⁺-activated ATPase was separated from thelower epidermis of tobacco leaves (Nicotiand tabacum L. SamsunNN) on stepwise sucrose density gradient centrifugation. Membrane-bound epidermal ATPase was localized in the interfaceof densities in sucrose of 1.12 to 1.16 in the sedimentary fractionbetween 1,500?g to 10,000?g from the homogenate of the lowerepidermis. The epidermal ATPase activity was activated by divalentcations (Mg⁺⁺>Mn⁺⁺Co⁺⁺>Fe⁺⁺>Zn⁺⁺>Ca⁺⁺) and furtherstimulated by KCl by ca. 20%. The pH optimum for Mg⁺⁺-activationof the epidermal ATPase was ca. 6.0. The enzyme hydrolyzed ATPmore rapidly than other nucleoside triphosphates. The optimumtemperature for activation of the epidermal ATPase activitywas ca. 40?C. 50% of the epidermal ATPase activity was lostin 18 min at 55?C and in 2.5 days at 2.5?C. The apparent Kmvalue of the epidermal ATPase was 4.7?10^–4 M and Vmaxwas 65.4 nmoles Pi/mg protein/min. The epidermal ATPase wasstrongly inhibited by N, N'-dicyclohexylcarbodiimide (DCCD)in vitro whereas oligomycin, carbonyl cyanide m-chlorophenylhydrazone(CCGP), indoleacetic acid (IAA) and abscisic acid (ABA) wereinsensitive to the epidermal ATPase activity. (Received May 23, 1978; )     

Electron transport dependent adenosine triphosphatase activity in castor bean endosperm mitochondria

The release of inorganic phosphate from ATP by mitochondriaisolated from endosperms of castor bean (Ricinus communis) wasstimulated by Mg⁺⁺, but not by Ca⁺⁺. EDTA, succinate, NADH₂or oligomycin depressed the reaction. The depression by succinatewas removed by KCN, antimycin A or anoxia. DNP alone did notaffect activity but did stimulate the Pi release in the presenceof succinate under aerobic conditions. Enhanced Pi release inthe presence of succinate and DNP was cancelled by KCN, antimycinA, oligomycin or anoxia. On the basis of these results, themechanism of ATPase action in castor bean endosperm mitochondriais discussed. (Received January 27, 1969; )     

ATP-ASE ACTIVITY IN ISOLATED FLAGELLA OF CHLAMYDOMONAS SNOWIAE

ATPase in isolated glycerinated flagella of Chlamydomonas snowiaeis shown to be inhibited by high ATP concentrations, by DNPat pH 6.0 and by salyrgan. The enzyme is activated by Mg⁺⁺ andthe activation is reversed by Ca⁺⁺. A number of other factorswhich can affect the phototactic behaviour of the cells do notaffect ATPase activity, indicating that the response of directionalmotility is under separate control in the intact cell. ¹ This work is based on part of an M. Sc. thesis of I.C.-K.     

Effect of Root Zone Temperature on the Mineral Composition of Xylem Sap and Plasma Membrane K+-Mg++-ATPase Activity of Grafted-Cucumber and -Figleaf Gourd Root Systems

Cucumber (Cucumis sativus L.) seedlings were grafted onto cucumber-(CG) or figleaf gourd- (FG, Cucurbita ficifolia Bouché)seedlings in order to determine the effect of solution temperature(12, 22, and 32°C) on the mineral composition of xylem sapand the plasma membrane K⁺-Mg⁺⁺-ATPase activities of the roots.Low solution temperature (12°C) lowered the concentrationof NO^–₃ and H₂PO^–₄ in xylem sap of CG plants butnot of FG plants. Concentrations of K⁺, Ca⁺⁺ and Mg⁺⁺ in xylemsap were less affected than anions by solution temperature.The plasma membrane of FG plants grown in 12°C solutiontemperature showed the highest K⁺- Mg⁺⁺-ATPase activity at allATP concentrations up to 3 mM and at low reaction temperatureup to 12°C, indicating resistance of figleaf gourd to lowroot temperature. (Received December 27, 1994; Accepted March 10, 1995)     

Adenosine triphosphatase in isolated membranes of Staphylococcus aureus

The preparation of cytoplasmic membranes from suspensions of Staphylococcus aureus lysed by an enzyme recently isolated in these laboratories is described. These membranes contained: protein, 34.4%; ribonucleic acid, 6.6%; lipids, 34.5%; and total phosphorus, 1.4%. Such membranes exhibited adenosine 5′-triphosphatase (E.C. 3.6.1.3) activity, liberating orthophosphate at an initial rate of 0.53 μmole per min per mg of protein under optimal conditions. The enzyme was Mg⁺⁺-dependent and K⁺- or Na⁺-stimulated. Maximal activity was observed with a molar adenosine 5′-triphosphate (ATP) to Mg⁺⁺ ratio of 1. One mole of orthophosphate was liberated per mole of ATP; the other product of digestion was adenosine 5′-diphosphate. Inorganic pyrophosphate and the 5′-triphosphates of guanosine, uridine, and cytidine were also attacked by membrane preparations, but more slowly than ATP. Ouabain, p-chloromercuribenzoate, and 2,4-dinitrophenol did not alter adenosine triphosphatase activity, whereas both Atebrine and chlorpromazine were inhibitory.     

Mg++ -activated and -inhibited ATPases from mung bean hypocotyls

Mg⁺⁺-activated and inhibited ATPases were isolated from dark-grownmung bean hypocotyls. The enzymes hydrolyzed nucleoside tri-,di- and monophosphates and ß-glycerophosphate. Theeffect of Mg⁺⁺ was most marked when ATP and other nucleosidetriphosphates were used as substrates. Mg⁺⁺-activated ATPases: The activity of enzyme-I was localizedin the membranes and was not released by treatment with 0.1%deoxycholate. Enzyme-II was released and separated by CM-cellulosecolumn chromatography. Enzyme-V was separated from the solublefraction of the cell homogenate by DEAE-cellulose column chromatography.The rates of activivation by Mg⁺⁺ of enzyme-II and enzyme-Vwere very small compared to that of enzyme-I. Mg⁺⁺-inhibited ATPases: Enzyme-II and -IV were precipitatedwith 50–80% ammonium sulfate from the soluble fractionof the cell homogenate and were separated by successive columnchromatographies on Sepharose 6B and DEAE-cellulose. The activitiesof enzyme-III and -IV were inhibited by Mg⁺⁺, when ATP, UTPand GTP were used as substrates. Enzyme-III was purified approximately38-fold, and was more remarkably inhibited by Mg⁺⁺ than wasenzyme-IV. ¹Present address: Institute for Plant Virus Research, 959 Aobacho,Chiba 280, Japan. (Received January 7, 1974; )     

Activation of Ribulose Bisphosphate Carboxylase Purified from Wheat Leaves

A stable freeze-dried powder was prepared of partly purifiedribulose bisphosphate carboxylase from wheat leaves. As withpreparations from other leaves it is necessary to incubate theenzyme with Mg^2$ and CO₂ to achieve maximum activity. At 25°C this activity was 0.75 IU mg^–1 protein for a preparationactivated at 50 °C for 10 min; the K_m for CO₂ was 15 µM. The time for reactivation of enzyme that had been inactivatedthrough the absence of CO₂ and Mg^2$ was influenced by the lengthof the inactivating treatment. After a short inactivation periodthe enzyme was reactivated within a few minutes, whereas aftera longer period several hours were needed. Enzyme in the latterstate had some properties in common with enzyme inactivatedby lower temperatures but in the presence of CO₂ and Mg^2$. Theenzyme kinetic characteristics are similarly affected by bothkinds of inactivation; the maximum velocity is decreased butthe affinity for CO₂ is not affected. Reactivation following a long inactivating treatment becomesmore dependent on Mg^2$ concentration as the temperature is increasedfrom 0 to 20 °C.     

Ecto-ATPase

Summary An ecto-adenosine triphosphatase (E.C. 3.6.1.4 ATP-phosphohydrolase) is shown to be localised on the outer surface of varieties of cell membrane. The enzyme is different from the ATPase involved in biological energy transduction and ion transport mechanism. The characteristic of the enzyme lies in having a very broad substrate specificity and is inhibited by EDTA and higher concentration of ATP. The enzyme is dependent on bivalent metal ions, Mg⁺⁺ or Ca⁺⁺ for its optimum activity. The enzyme is highly sensitive to SH-reagents but insensitive to inhibitors of mitochondrial ATPase or Na⁺−K⁺-ATPase. The possible functions of the enzyme in being oriented outside the cell membrane is discussed.     

Characteristics of an adenosine triphosphatase in erythrocyte membranes stimulated by 2,4-dinitrophenol

Studies were made of the stimulation by 2,4-dinitrophenol (DNP) of an adenosine triphosphatase (ATPase) in stromata of human erythrocytes. Activation by 2,4-dinitrophenol occurs in the range 10^?5 to 10^?3 M and was seen in whole cells, ghosts reconstituted with Mg and ATP, and in osmotic ghosts prepared at a low ratio of cells to water. Phloretin and phloridzin also activated the DNP sensitive system but inhibited it at higher concentrations. DNP increased the K_m and V_max values of the enzyme equally. The DNP sensitive and Na⁺ + K⁺ sensitive enzymes of the stromata were compared. The activities of the two ATPases are additive, require the presence of Mg⁺⁺ and require that the substrate be located at the inner surface of the membrane. The two enzymes differ in their substrate specificity, in their sensitivity to inhibition by ouabain and phloretin and in their sensitivity to some factor in hemolysates. The possible roles of this system in the erythrocyte were discussed.     

Interrelationships between Potassium, Calcium, and Magnesium Nutrition of Zea mays L.

The uptake of potassium, calcium, and magnesium ions by maizeand the interrelationships among the cations have been investigatedat 48 K: Ca: Mg ratios in culture solutions. Calcium was foundto stimulate K⁺ and Mg⁺⁺ uptake at certain cation ratios butinhibit it at others. Potassium did the same for Ca⁺⁺ uptake,and Mg⁺⁺ for Ca⁺⁺ and K⁺. The uptake of Mg⁺⁺ was generally enhancedby K⁺. The sum of the cations in the plants expressed in meqwas fairly constant for treatments of the same K⁺ concentrationat the low to moderate levels of K⁺, but at considerably higher(> 24 meq l^–1) K⁺ levels the constancy was not dependenton K⁺ concentration. Potassium depressed, but Mg⁺⁺ stimulatedphosphorus accumulation. Calcium stimulated phosphate absorptionat certain cation ratios but had no effect at others. The plantyield increased with increasing K⁺ up to 24 meq l^–1 ofK⁺ after which the yield tended to fall with further increasein K⁺. The yield was also increased by Ca⁺⁺. Magnesium increasedthe yield at certain cation ratios and either depressed it orwas without effect at others.     

Enzymes involved in the last steps of the biosynthesis of mannitol in brown algae

Mannitol-1-phosphate dehydrogenase (EC 1.1.1.17 [EC] ) and mannitol-1-phosphatase(EC number yet unassigned) were detected in the brown algae,Spatoglossum pacificum and Dictyota dichotoma. The enzymes wereextracted from algal fronds and their properties were investigatedusing partially purified preparations. Mannitol-1-phosphatase shows maximum activity at pH 7. The enzymehad a narrow substrate specificity. The Km value for mannitol-1-phosphateis 8.3x10^–4 M (30°C, pH 7.0). The enzyme is activatedby Mg⁺⁺ and Mn⁺⁺and is strongly inhibited by PCMB, Hg⁺⁺and NaF. Mannitol-1-phosphate dehydrogenase showed maximum activitiesat pH values 6.5 and 10.2 in reductive and oxidative reactions,respectively. The dehydrogenase also showed narrow substratespecificity; mannitol-1-phosphate and NAD or fructose-6-phosphateand NADH₂ are utilized, respectively, in oxidative and reductivereactions by the enzyme. Km values for these substrates andthe coenzymes are 2.5x10^–4 M and 7.1x10^–5 M forthe first pair and 2.8x10^–4 M and 1.3x10^–5 M forthe latter pair. This enzyme was strongly inhibited by PCMBand Hg⁺⁺, but was only slightly affected by adenosine phosphates. Possible roles of these enzymes in the biosynthesis of mannitolin brown algae are discussed. ¹ Contributions from the Shimoda Marine Biological Station ofTokyo Kyoiku University, No. 233. This work was supported inpart by a Grant-in-Aid for Co-operative Research from the Ministryof Education, Japan and in part by a grant to one of us (T.Ikawa) from the Matsunaga Science Foundation. ² Present address: Chemical and Physical Laboratory, HoechstJapan Research Laboratory, Minamidai, Kawagoe, Japan. (Received February 22, 1972; )     

Evidence implicating a membrane ATPase in the control of passive permeability of excitable cells

The temperature sensitivity of the ATPase enzyme systems in a muscle microsomal preparation from the crayfish, Astacus pallipes, was studied. Preincubation of the enzyme preparation in the range 33–36°C produced a marked inactivation of the ATPases; the Mg⁺⁺-dependent ATPase was very much more sensitive to this treatment than the Na⁺-K⁺-Mg⁺⁺-dependent ATPase. Thus, the Arrhenius μ for the inactivation of the Mg⁺⁺-dependent ATPase produced by eight minute preincubation is > 100 Kcals. These results are compared with the changes that are observed during the heat death of the whole animal, where exposure to 35°C produces a dramatic change in Na⁺ permeability within five minutes. Arrhenius μ for heat death is also > 100 Kcals and operates over the identical critical temperature range. It is suggested that the Mg⁺⁺-dependent ATPase controls passive permeability in these excitable cells and the results also confirm the view that Mg⁺⁺ and Na⁺-K⁺-Mg⁺⁺ ATPases are separate enzymes.     

Coupling of malate decarboxylation to CO2 fixation and the reduction of 3-phosphoglyceric acid in corn bundle sheath cells,2

1. In the presence of NADP⁺ and Mg⁺⁺, the bundle sheath strandsisolated from corn (Zea mays) leaves by cellulase treatmentsdecarboxylated malate in the light at an initial rate (200 µmoles/mgchl.hr), which was sufficient to account for photosyntheticCO₂ fixation in intact leaves. This rate gradually slowed downand then stopped. The final level of the malate decarboxylatedwas approximately equal to the amount of NADP⁺ added.
2. Rapidand continued decarboxylation of malate was observed whenNADP⁺,3-phosphoglyceric acid and ATP (and Mg⁺⁺) were addedtogether.The addition of ADP instead of ATP showed a similareffect.Light did not show any effect on the malate decarboxylationin the presence of ATP or ADP.
3. When malate was added to thebundle sheath strands in the presenceof exogenous NADP⁺ NADP⁺was rapidly reduced. The reductionstopped after 2 min when,73% of the added NADP⁺ was reduced.The further addition of3-phosphoglyceric acid and ATP broughtabout a decrease in theNADPH-level, which rose again to attaina new steady level.
4. The transfer of radioactivity from (1-¹⁴C-3-phosphoglycericacid to dihydroxyacetone phosphate in the bundle sheath strandsin the presence of ATP and NADP⁺ was greatly enhanced by theaddition of malate.
5. In the presence of ribose 5-phosphateand ATP, the rate of ¹⁴C-transferfrom (4-¹⁴C)-malate to theintermediates of the reductive pentosephosphate cycle was equalto that of ¹⁴CO₂ fixation in the light.

All these results support the current view that in the bundlesheath cells of C₄ plants belonging to the NADP-malic enzyme-group,the decarboxylation of malate is coupled to the fixation ofthe released CO₂ and the reduction of 3-phosphoglyceric acidformed as a result of CO₂ fixation. ¹ Part of this research was reported at the 40th Annual Meetingof the Botanical Society of Japan Osaka, December, 1975. ³ Present address: Laboratory of Chemistry, Faculty of Medicine,Teikyo University, 359 Otsuka, Hachioji-City, Tokyo 173, Japan. (Received April 30, 1977; )     

Reconstitution and Characterization of H+-Translocating ATPase from the Plasma Membrane of Phaseolus mungo L. Roots

Plasma membrane H⁺-translocating ATPase was partially purifiedfrom mung bean (Phaseolus mungo L.) roots and reconstitutedinto soybean phospholipid (asolectin) liposomes by the n-octylglucosidedilution method. The resulting proteoliposomes were mainly unilamellarvesicles ranging in size from 0.05 to 0.2 µm. The existenceof ATP-drived H⁺-pumping across the proteoliposomes was demonstratedby the quenching of quinacrine fluorescence in the presenceof Mg²⁺. The quenching could be abolished by an uncoupler, FCCP,and an inhibitor of H⁺-translocating ATPase, vanadate. The reconstitutedATPase consisted of three major polypeptides of 105 KDa, 67KDa and 57 KDa. Its pH optimum, divalent cation stimulationand vanadate sensitivity were similar to those of partiallypurified ATPase. However, the specificity toward ATP was muchgreater following reconstitution. Also reconstitution reducedthe degree of inhibition by DCCD. Local anesthetics (e.g. dibucaine)had no effect on H⁺-pumping activity but increased the ATPaseactivity when proteoliposomes were reconstituted in their presence. (Received May 2, 1986; Accepted October 17, 1986)     

Thermal Properties of Membrane Lipids from two Cyanobacteria, Anacystis nidulans and Synechococcus sp.

The composition and positional distribution of fatty acids inmonogalactosyldiacylglycerol, digalactosyldiacylglycerol, phosphatidylglyceroland sulphoquinovosyldiacylglycerol from two cyanobacteria, Anacystisnidulans and Synechococcus sp. grown at 25°C have been determinedand compared with measurements of the phase separation temperaturesof the lipids. Only monogalactosyldiacylglycerol in Anacystisand sulphoquinovosyldiacylglycerol in Synechococcus showed phaseseparation temperatures above 0°C. The phase transitiontemperature of a sample of sulphoquinovosyldiacylglycerol containingover 90% of the dihexadecanoyl molecular species has been determinedto be 43°C for the Na⁺ salt and 38°C for the Mg⁺⁺ salt. ^*Deceased. September 14, 1986. (Received June 25, 1986; Accepted August 25, 1986)     

Contractile Proteins of a Benthic Fish. II. Composition and ATPase Properties of Actomyosin

SYNOPSIS. Actomyosin was extracted from skeletal muscle of Coryphaenoides,a benthic fish living at 2,200 meters depth, at a temperatureof 2°C, or less, and at pressure of 3,000 psi. On SDS-ureaelectrophoresis on acrylamide gel, the actomyosin extracts yieldcomponents of apparent molecular weight 210,000 (myosin heavychains), 47,000 (actin), 35,000 (tropomyosin and/or troponinsubunits), and 13,000 (myosin light chains). The Mg²⁺-ATPaseof Coryphaenoides actomyosin shows a complex Arrhenius plot,with marked denaturation at temperatures above 30°C, anddiminished temperature sensitivity at temperatures below 15°C.Mg²⁺-ATPase is inhibited by pressure, with activation volumesof + 160 cc/mole at 25°C, and + 230 cc/mole at 2°C.Ca²⁺-ATPase of actomyosin exhibits the same pH, temperature,and pressure dependence as Ca²⁺-ATPase of myosin. The overalldata would be consistent with a positive activation volume thatis independent of temperature (to first approximation) and isrelated to the interaction of actin and myosin, and a negativeactivation volume that is temperature dependent and is relateddirectly to activation of myosin ATPase. The net effect appearsto be an adaptive mechanism whereby Mg²⁺-ATPase of Coryphaenoidesactomyosin is relatively insensitive to pressure and temperatureunder conditions encountered by the living fish.     

Studies on the phosphomannose isomerase of Amorphophallus konjac C. Koch II. Effect of divalent metal ions on the EDTA-treated enzyme

Konjak phosphomannose isomerase was inactivated in a time-dependentprocess by metal binding agents, and the inactivated enzymewas instantaneously reactivated by adding such metal ions asZn⁺⁺, Co⁺⁺, Fe⁺⁺, Mn⁺⁺ and Cu⁺⁺. However, neither Ca⁺⁺ nor Mg⁺⁺were effective for reactivation. Zn⁺⁺, at a low concentration,brought about complete reactivation of the enzyme at pH 6–7. The EDTA-treated enzyme was more susceptible to heat denaturationwhen compared with the native enzyme, but the addition of variousmetal ions caused the recovery of the thermal stability of theEDTA-treated enzyme. The magnitude of the recovery dependedon the metal ion species and the concentrations. The most effectivemetal ion was Co⁺⁺, which caused the recovery of thermal stabilityto a level higher than that of the native enzyme. Phosphomannoseisomerase was inhibited by pchloromercuribenzoate and HgCl₂;the inhibition by p-chloromercuribenzoate being more pronouncedas incubation progressed. In contrast, the EDTA-treated enzymewas more readily inhibited by the mercurial ion than was thenative enzyme. Zn⁺⁺, when added to the EDTA-treated enzyme,markedly restored its resistance to the mercurial-induced inhibition.The metal-substituted enzyme was also inhibited by EDTA in atime-dependent process. ¹ This paper constitutes part 4 of studies on konjak mannanbiosynthesis. (Received March 3, 1975; )     

BIOCHEMICAL AND ULTRASTRUCTURAL PROPERTIES OF A MITOCHONDRIAL INNER MEMBRANE FRACTION DEFICIENT IN OUTER MEMBRANE AND MATRIX ACTIVITIES

Treatment of the inner membrane matrix fraction of rat liver mitochondria with the nonionic detergent Lubrol WX solubilized about 70% of the total protein and 90% or more of the following matrix activities: malate dehydrogenase, glutamate dehydrogenase, and isocitrate dehydrogenase (NADP). The Lubrol-insoluble fraction was enriched in cytochromes, phospholipids, and a Mg⁺⁺-stimulated ATPase activity. Less than 2% of the total mitochondrial activity of monoamine oxidase, an outer membrane marker, or adenylate kinase, an intracristal space marker could be detected in this inner membrane fraction. Electron micrographs of negatively stained preparations showed vesicles (≤0.4 µ diameter) literally saturated on the periphery with the 90 A ATPase particles. These inner membrane vesicles, which appeared for the most part to be inverted with respect to the normal inner membrane configuration in intact mitochondria, retained the succinicoxidase portion of the electron-transport chain, an intact phosphorylation site II with a high affinity for ADP, and the capacity to accumulate Ca⁺⁺. A number of biochemical properties characteristic of intact mitochondria and the inner membrane matrix fraction, however, were either absent or markedly deficient in the inner membrane vesicles. These included stimulation of respiration by either ADP or 2,4-dinitrophenol, oligomycin-sensitive ADP-ATP exchange activity, atractyloside sensitivity of adenine nucleotide requiring reactions, and a stimulation of the Mg⁺⁺-ATPase by 2,4-dinitrophenol.