Characterization of Porphobilinogen Synthase from an Aerobic Photosynthetic Bacterium, Erythrobacter sp. Strain OCh 114

Porphobilinogen synthase (formerly 5-aminolevulinic acid dehydratase,EC 4.2.1.24 [EC] ) was purified 7,405-fold from an aerobic photosyntheticbacterium, Erythrobacter sp. strain OCh 114. The molecular weightof the enzyme was determined to be 260,000 by Sephadex G-200gel filtration. The enzyme had a single pH optimum at 8.0 andshowed no requirement for metal ion and thiol compound for itsmaximum activity. The K_m value for 5-aminolevulinic acid was0.29 mM. 4,5-Dioxovaleric acid and levulinic acid were foundto be competitive inhibitors of the enzyme, with K_i values of0.65 and 0.80 mM, respectively. The enzyme was extremely labilein acidic pH and almost completely lost its activity within1 h at pH 6.0 and 30?C. This Erythrobacter enzyme seems to besimilar to the enzyme from the anaerobic photosynthetic bacteriumRhodobacter capsulatus in its molecular and catalytic properties. (Received February 17, 1988; Accepted May 9, 1988)     

Energy Coupled Transport of Sorbitol and Other Sugars into the Protoplast Isolated from Apple Fruit Flesh

The uptake kinetics of sorbitol, sucrose, glucose and fructoseacross the plasma membrane using protoplasts isolated from applefruit flesh (Malus pumila Mill. var. domestica Schneid.) wasinvestigated. When sorbitol was taken up into the cell, PCMBS-sensitivesaturable transport was distinguishable from the diffusive transport.At a low sorbitol concentration, the saturable transport systemaccounted for more than 50% of the total uptake, whereas ata high concentration the diffusive transport system was moredominant. The saturable transport was suggested be a carrier-mediatedtransport system coupled with ATP because the system was inhibitedCCCP or orthovanadate. The K_m value for sorbitol was computedto be 3.6mM. A carrier-mediated transport system coupled withATP was also observed for glucose and fructose with correspondingK_m values of 5.0 and 2.5 mM. However, no saturable transportfor sucrose was observed over a range of 0.1 to 10 mM sucroseconcentration. The relationship among these sugar transportsystems across the plasma membrane, apoplastic unloading, andsugar accumulation vacuoles are discussed. ¹Present address: Laboratory of Horticulture, Faculty of Agriculture,Nagoya University, Chikusa, Nagoya 464, Japan. (Received April 8, 1988; Accepted June 8, 1988)     

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.     

Purification of NADP-Malic Enzyme and Phosphoenolpyruvate Carboxylase from Sugar Cane Leaves

A procedure is described for the purification of phosphoenolpyruvatecarboxylase (EC 4.1.1.31 [EC] ) and NADP-dependent malic enzyme (EC1.1.1.40 [EC] ) from sugar cane leaves. Each enzyme was purified tohomogeneity as judged by sodium dodecyl sulfate-polyacrylamidegel electro-phoresis, with about 30% yield. Phosphoenolpyruvatecarboxylase was purified 54-fold. A molecular weight of 400,000and a homotetrameric structure were determined for the nativeenzyme. The purified carboxylase had a specific activity of20.0 {diaeresis}mol (mg protein)_–1 min_–1, and wasactivated by glucose-6-phosphate and inhibited by L-malate.K_m values at pH 8.0 for phosphoenolpyruvate and bicarbonatewere 0.25 and O.l0 mM, respectively. NADP-malic enzyme, 356-foldpurified, exhibited a specific activity of 71.2 {diaeresis}mol(mg protein)_–1 min_–1 and was characterized as ahomotetramer with native molecular weight of 250,000. Purifiedmalic enzyme showed an absolute specificity for NADP⁺ and requireda divalent metal ion for activity. K_m values of 0.33 and 0.008mM for L-malate and NADP⁺, respectively, were determined. Thisenzyme was inhibited by several organic acids, including ketoand amino acids; while succinate and citrate increased the enzymeactivity when assayed with 10{diaeresis}M L-malate. The effectsshown by amino acids and by citrate were dependent on pH, beinghigher at pH 8.0 than at pH 7.0. (Received October 26, 1988; Accepted February 3, 1989)     

Role of Carbonic Anhydrase and Identification of the Active Species of Inorganic Carbon Utilized for Photosynthesis in Chora corallina

Carbonic anhydrase (CA, EC. 4.2.1.1 [EC] ) activity in air-grown Characorallina was detected mainly in the intracellular fraction,most of which composed of chloroplasts and cytoplasmic gel,and not on the cell surface. Only minor levels of CA activity,on the basis of equivalent volumes, were detected in the cellsap and the cytoplasmic sol. The maximum rate of photosynthetic O₂ evolution by air-grownChara corallina at pH 6.0 was twice that at pH 7.6, while theapparent K_m for external inorganic carbon (C_i) at pH 7.6 wasabout three times that at pH 6.0. However, the apparent K_m(CO₂)was about three times larger at pH 6.0 than at pH 7.6. The K_m(C_i)-valueat pH 7.6 increased severalfold in the presence of acetazolamide(AZA), an inhibitor of CA, but no inhibition was observed atpH 6.0. The pH-dependence may be due to differences in the permeabilityof AZA at the given pH values. Fixation of ¹⁴CO₂ at 20 µMand of H¹⁴CO₃^– at 200 µM over the course of 5 swas very similar at pH 7.4. Addition of CA significantly suppressedthe photosynthetic ¹⁴CO₂-fixation but it stimulated the H¹⁴CO₃^–-fixation.This result indicates that free CO₂ is an active species ofC_i that is incorporated into the cell during photosynthesis. These results together suggest the following: (1) Free CO₂ isutilized for photosynthesis, (2) CA is mainly located insidethe cell and functions to increase the affinity for CO₂ in photosynthesisby facilitating the supply of CO₂ from the plasmalemma to thesite of CO₂-fixation. ³Present address: Biological Laboratory, The University of theAir, Wakaba 2-11, Chiba, 260 Japan. (Received December 9, 1988; Accepted March 22, 1989)     

Purification and Characterization of Arginine Decarboxylase from Soybean (Glycine max) Hypocotyls

Arginine decarboxylase (EC 4.1.1.19 [EC] ) was purified from soybean,Glycine max, hypocotyls by a procedure which includes ammoniumsulfate fractionation, acetone precipitation, gel filtrationchromatography, and affinity chromatography. Using this procedure,ADC was purified to one band in non-denaturing PAGE. The purifiedADC has an M_r of 240 kDa based on gel filtration chromatographyand is a trimer of identical subunits which has an estimatedM_r of 74 kDa based on SDS-PAGE. ADC is active between 30 and50°C and has a K_m value of 46.1 µM. ADC is very sensitiveto agmatine or putrescine but not to spermidine or spermine.In the presence of 0.5 mM agmatine (or putrescine), the enzymeactivity was inhibited by 70%. However, at the same concentrationof spermidine (or spermine), the enzyme activity was inhibitedby only 10–20%. (Received April 2, 1997; Accepted August 18, 1997)     

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)     

Soluble Dissimilatory Nitrate Reductase Containing Cytochrome c from a Photodenitrifier, Rhodopseudomonas sphaeroides forma sp. denitrificans

Dissimilatory nitrate reductase [nitrite: (acceptor) oxidoreductase.EC 1.7.99.4 [EC] ] from a denitrifying photosynthetic bacterium, Rhodopseudomonassphaeroides forma sp. denitrificans proved to be a soluble enzymethat could be purified 47-fold. It was labile, and containedcytochrome c, based on the results of specific staining forheme on polyacrylamide gel electrophoresis and on its absorptionspectrum. Its physiological molecular weight was determinedto be 112k, although heterogeneous molecular weights of 112k,100k, 73k and 60k were found for different preparations. Theoptimum for enzyme activity was about pH 6, and the K_m for thenitrate was 1.6 mM. As an electron donor, benzyl viologen wasvery good; but NADH, NADPH, FAD, FMN, cytochromes b₂ and c₂,dichlorophenolindophenol and phenazine methosulfate were noteffective. Bathophenanthroline and thiocyanate inhibited enzymaticactivity. The addition of 1 mM tungstate to the growing culturein place of molybdate decreased the nitrate reductase in thecells, but a further addition of 1 mM molybdate stopped it.This nitrate reductase is believed to be a molybdo-iron proteinsimilar to the enzymes from other bacteria with a nitrate respiratingability. (Received February 29, 1980; Accepted January 29, 1981)     

Control of Glutamate Dehydrogenase from Green Tobacco Callus Mitochondria by Ca2$ and pH

Glutamate dehydrogenase (GDH) (EC 1.4.1.3 [EC] .) purified from greentobacco callus mitochondria was activated markedly by Ca^2$ inthe amination reaction. This activation was detectable evenat concentrations below 5 µM Ca^2$. Saturation curves for the three substrates of the aminationreaction showed normal Michaelis-Menten kinetics in the presenceof 1 mM of Ca^2$, but pronounced substrate inhibition occurredwithout Ca^2$. The effect of Ca^2$ was chiefly on the maximalvelocity. The saturation curve for NH₄Cl in the presence of Ca^2$ was modulatedby a change in pH. The apparent K_m value for NH₄Cl markedlydecreased whereas that for -ketoglutarate increased slightlywhen the pH was raised from 7.3 to 9.0. In contrast, the K_mfor NADH was little affected by raising the pH. The characteristicof GDH which increases its affinity for NH₄Cl when the pH israised may be compatible with the detoxification of ammonia. ¹ Present address: Mochida Pharmaceutical Co., Ltd. (Received August 24, 1981; Accepted November 28, 1981)     

Purification and Some Properties of Alcohol Acetyltransferase from Banana Fruit

Isoamyl acetate, one of the major characteristic aroma compoundsof banana fruit (Musa sapientum L.), was synthesized by thecondensation of acetyl-CoA and isoamyl alcohol under the actionof alcohol acetyltransferase, which was found to be localizedin the soluble fraction of pulp cells. The activity of thisenzyme increased with the ripening of banana fruit. The enzyme was purified about 62-fold. The purified enzyme wasvery labile at pHs lower than pH 7.0 but relatively stable atpH 7.5{small tilde}9. The enzyme was most active at 30C andpH 8.5. The molecular weight was estimated to be about 40,000by gel filtration. Its K_m values for acetyl-CoA and isoamylalcohol were 50 µM and 0.4 mM, respectively. (Received January 28, 1985; Accepted May 30, 1985)     

Sucrose Synthetase in the Latex of Hevea brasiliensis Muell. Arg

Sucrose synthetase (EC 2.4.1.13 [EC] ) was found in the latex of therubber tree but the activity of sucrose phosphate synthetase(EC 2.4.1.14 [EC] ) was not detected. The enzyme was purified andsome properties have been investigated. Examination of the kineticsof sucrose synthesis revealed K_m of 0.56 mM for uridine diphosphoglucoseand 3.85 mM for fructose. Mg²⁺ and cyanide activated sucrosesynthesis but reduced the cleavage reaction. Increased pH hadthe same effect, the synthetic activity being higher than theactivity of sucrose breakdown within the physiological levelsof latex pH. In the latex of regularly tapped trees, the total enzyme activityin the direction of synthesis was about 10% or less of the totalinvertase activity at pH 7.0. Because of the strong limitationof invertase under natural conditions, the proportion of actualsynthetase activity is, however, much higher and evidence ispresented that in the latex of regularly tapped trees this activitysignificantly reduces carbohydrate breakdown. Some indications have been obtained that this involvement ofsucrose synthetase is weakened by application of Ethrel to thebark. A reduction of its synthetic activity, accompanied byan acceleration of sucrose utilization in latex cytoplasm andby an increase of latex yield, could be observed before thetreatment-induced rise of pH enhancing inver.     

Kinetic Properties of Four Enzymes Involved in Proline Metabolism in Cold-acclimated Wheat

Two varieties of wheat (Triticum aestivum L.) a winter (Kharkov)and a spring (Glenlea), were acclimated under controlled conditionsat 5 °C and 25 °C (12 h photoperiod). Kinetic properties(K_m1 V_max/Km ratio and Q₁₀ as a function of reduction of substrateconcentration) were investigated for enzymatic systems involvedin two pathways of proline metabolism: the glutamic acid andthe ornithine pathways. Four enzymes were studied, namely prolinedehydrogenase (PDH, EC 1.5.1.2 [EC] ), glutamate dehydrogenase (GDH,EC 1.4.1.2 [EC] -4), glutamine synthetase (GS, EC 6.3.1.2 [EC] ) and ornithinetransaminase (OT, EC 2.6.1.13 [EC] ). Kinetic properties of thesefour enzymes proved to be modulated by cold acclimation, especiallyin Kharkov, the winter cultivar, which accumulates proline.Firstly, the synthesis of precursors of proline may be augmentedand the degradation of proline lessened by either decreasingthe K_m values of OT or increasing the K_m values of PDH. Secondly,the catalytic efficiency (V_max ratio) of GDH, GS, and OT isincreased. Thirdly, the lower values of Q₁₀ indicate a highcapacity of reaction of GS and OT.     

Metabolism of p-Hydroxybenzoate via Hydroxyquinol by Trichosporon cutaneum WY2-2: Characterization of the Pathway using Superoxide Dismutase as a Stabilizer of Hydroxyquinol

Trichosporon cutaneum WY2-2 was shown to metabolize p-hydroxybenzoatevia protocatechuate and hydroxyquinol. Using superoxide dismutaseas a stabilizer of hydroxyquinol, the conversion of protocatechuateto hydroxyquinol and the ring fission process of hydroxyquinolwere confirmed. Hydroxyquinol was chemically identified as theproduct of protocatechuate hydroxylase reaction. Partially purifiedprotocatechuate hydroxylase was highly specific for protocatechuate;its K_m values for protocatechuate and NADH were 17.6 and 12.4µM, respectively. It catalyzed equimolar CO₂ formation,NADH oxidation and O₂ consumption from protocatechuate. Hydroxyquinoldioxygenase was highly specific for hydroxyquinol, with a K_mof 2.9 µM. ¹A preliminary account of this work was presented at the 81stMeeting of the Chubu-branch of Agricultural Chemical Societyof Japan, Gifu, October, 1980. ²Present address: Biological Institute, Faculty of Science,Nagoya University, Nagoya 464, Japan. ³Present address: Shin Nihon Chemical Co. Ltd... 19-10, Showa-cho,Anjoh, Aichi 446, Japan. (Received November 15, 1985; Accepted August 27, 1986)     

Enzymatic Properties of Phosphoenolpyruvate Carboxylase Isoforms in the CAM Plant Kalanchoe daigremontiana

Three isoforms (Types 1, 2 and 3) of phosphoenolpyruvate (PEP)carboxylase in young leaves of the Crassulacean acid metabolism(CAM) plant Kalanchoe daigremontiana were separated by DEAE-cellulosecolumn chromatography and preparative polyacrylamide-agarosegel electrophoresis, and their enzymatic properties were characterized. All three isoforms had similar molecular weights of about 234,000.At pH 8.0 Type 1 showed a high affinity to PEP, (K_m=0.08 mM),whereas Type 3 showed a low affinity (K_m=1.0mM). K_m values forMgCl₂ were 0.26 HIM in Types 1 and 3 and 0.5 nut in Type 2.All three types exhibited the same pH optimum at 8.0, but Type1 showed relatively low activity below pH 6.0, whereas Type3 showed high activity. Type 3 was more acid stable than theother forms. In the presence of glucose-6-phosphate, the K_mvalues of Types 1, 2 and 3 for PEP lowered to 0.027, 0.037 and0.044 mu at pH 8.0, respectively. Inhibition of activity byorganic acids such as malate and pyruvate was pronounced inType 3. Type 2 exhibited properties intermediate to Types 1and 3 with regard to pH curve, affinity to PEP and its effectof various metabolites. The physiological significance of PEPcarboxylase isoforms in CAM plants is discussed on the basisof these findings. ¹Present address: Agricultural Chemicals Research Lab., SankyoCo., Ltd., Yasu-cho, Yasugun, Shiga 520-23, Japan. (Received November 30, 1983; Accepted March 24, 1984)     

Studies on the phosphomannose isomerase of Amorphophallus konjac C. Koch I. Its isolation and some enzymic properties

A method is described for isolating phosphomannose isomerasefrom young konjak corms. The enzyme is believed to catalyzethe mannose forming reaction in growing corm tissues. The purifiedenzyme preparation was free from phosphoglucose isomerase activity,and was stable at pH 6–9. Maximum enzyme activity wasobserved at pH 6.5–7.0. The molecular weight of the enzymewas estimated as 45,000 using Sephadex gel filtration. The followingkinetic parameters were obtained: Km (mannose-6-P), 0.73 mM,K_eq (fructose-6-P/mannose-6-P), 1.06 at pH 6.5, and activationenergy, 11,600 cal/mole. The enzyme was inhibited by the metalbinding agents EDTA, o-phenanthroline, and a,a'-bipyridyl. Theinhibitory effect of these agents was markedly influenced bythe pH level of the incubation mixture, being more pronouncedat pH 6 than at pH 8. ¹ This paper constitutes part 3 of studies on konjak mannanbiosynthesis. (Received March 3, 1975; )     

Affinity of RuBP Carboxylases for Carbon Dioxide and Inhibition of the Enzymes by Oxygen

Ribulose bisphosphate carboxylase (E.C.4.1.1.39) was purifiedfrom leaves of Triticum aestivum, Hordeum vulgare, Spinaceaoleracea, Petroselinum crispum, salad mustard-most likely Brassicanapus, Helianthus annuus, Solanum tuberosum, Beta vulgaris,Lolium perenne, Equisetum arvense, Zea mays, Ginkgo biloba,Pteris aquilina, Salix babylonica, Chamaecyparis lawsonianaand Atrichum undulatum by density gradient centrifugation andgel filtration or by ammonium sulphate fractionation, densitygradient centrifugation, ion-exchange chromatography and gelfiltration. Purified enzymes were freeze-dried and then storedat 0 °C to 4 °C. Portions of each enzyme preparationwere reactivated at 25 °C for 5 h in the presence of 10mM HCO₂ and 20 mM MgCl₂-RuBP carboxylase activities were measuredat four different concentrations of CO₂ at 25 °C and pH8.2 in solutions equilibrated with pure nitrogen or air (21%O₂, 79% N₂). K_m(CO₂), V_max and K₁(O₂) values were computed fromthe results. Significant differences were found in the K_m(CO₂)values for enzymes isolated from different species. Sensitivityof the enzymes to oxygen was less variable.     

Enzymic mechanism of starch breakdown in germinating rice seeds V. Sucrose phosphate synthetase in the scutellum

Some enzymic Properties of a partially purified preparationof sucrose phosphate synthetase (E.C.2.4.1.14) from germinatingrice seed scutella were studied. Examination of the reactionkinetics revealed that the rate of synthesis of sucrose phosphatefollows the Michaelis-Menten equation at an optimum PH of 7.5,having K_m of 25 mM for UDP-glucose, and of 4.9 mM for fructose6-phosphate. UDP inhibited the enzyme reaction competitively;K₁ of 3.3 mM. Fe⁺⁺ and Fe⁺⁺⁺ activated the enzyme reaction about2-fold; K_a, 0.3 mM and 2.0 mM, respectively. Co⁺⁺, Co(NH₃)₆⁺⁺⁺,Mg⁺⁺ and Mn⁺⁺ also activated the enzyme reaction. At high concentrationK⁺ activated the enzyme reaction with the maximum activationof 24% at 400 mM. The molecular weight and S_20,w value of theenzyme were determined as 4.5 ? 10⁵ and 10.4S, respectively. ¹Part IV of this series is Ref. (5). ²California Foundation for Biochemical Research Fellow (1973). (Received December 20, 1973; )     

Purification and Properties of NAD-Dependent Sorbitol Dehydrogenase from Apple Fruit

This is the first report of the purification of NAD-dependentsorbitol dehydrogenase (NAD-SDH) from a plant source. The enzymewas extracted from apple (Malus domestica cv. Ourin) fruit andpurified until it appeared as a single polypeptide chain ona gel after SDS-PAGE. From the apparent molecular mass of 62kDa obtained by SDS-PAGE and that of 120 kDa by gel filtration,the enzyme appeared to be a homodimer. Maximum rates of oxidationof sorbitol and reduction of fructose were observed at pH 9.6and pH 6.0, respectively. The K_m for oxidation of sorbitol was40.3 mM and that for reduction of fructose was 215 mM. The maximumrate of oxidation of sorbitol was about 10 times higher thanthat of the reduction of fructose. The results of the kineticanalysis strongly suggest that in vivo the enzyme would favorthe conversion of sorbitol to fructose over the reverse reaction.None of the divalent cations tested had any effect on the oxidationof sorbitol by NAD-SDH. The reaction catalyzed by NAD-SDH wasnot specific to sorbitol and other substrates could also beoxidized. Among the tested substrates, ethyl alcohol had a particularlyhigh affinity for the enzyme. (Received February 2, 1994; Accepted May 31, 1994)     

Purification, Properties and Phosphorylation of Anaerobically Induced Enolase in Echinochloa phyllopogon and E. crus-pavonis

Enolase (2-phospho-D-glycerate hydrolyase, EC 4.2.1.11 [EC] ) activityis differentially induced by anoxia in the flood-tolerant speciesE. phyllopogon (Stev.) Koss and the flood-intolerant speciesE. crus-pavonis (H.B.K.) Schult. To examine the regulation ofenolase at the protein level, we purified the enzyme from bothspecies to near homogeneity and compared their physico-chemicaland catalytic properties. Enolase purified from E. phyllopogonexhibits optimal activity at pH 7.0, a K_m of 80 µM for2-PGA, a Q₁₀ of 1.97 and an E_a of 12.3 kcal mol^-1. Similarly,enolase from E. crus-pavonis exhibits optimal activity at pH7.0, a K_m of 50 µM for 2-PGA, a Q₁₀ of 2.04 and an E_aof 12.9 kcal mol^-1. The enzyme from both species is thermostable(100% active after 15 min, 50°C) and is a homodimer of 52.5kDa subunits as resolved by SDS-PAGE and immunoblotting. E.phyllopogon enolase was phosphorylated in vitro using either[     

Effects of Calmodulin Antagonists on the Mitochondrial and Microsomal Ca2$ Uptake in Apple Fruit

In apple fruit, active ATP-dependent microsomal Ca^2$ uptakeand respiration-dependent mitochondrial Ca^2$ uptake were observed. The mitochondrial Ca^2$ uptake was depressed by the calmodulinantagonists chlorpromazine hydrochloride (CPZ) and N-(6-aminohexyl)-5-chloro-1-naphthalene-sulfonamidehydrochloride (W-7). The Ca^2$-ATPase from apple mitochondriawas also inhibited by CPZ or W-7. The apparent K_m value forCa^2$ in mitochondrial Ca^2$ uptake (K_m=0.35 mM) was similar tothat of mitochondrial Ca^2$-ATPase (K_m=0.32 mM). The inhibitoryeffect of W-7 on the activity of the mitochondrial Ca^2$ uptakewas closely correlated with the inhibition by W-7 of mitochondrialCa^2$-ATPase (r=0.996). These findings indicate that the mitochondrialuptake of Ca^2$ in apple fruit depends on the calmodulin-mediatedactivation of Ca^2$-ATPase. The microsomal Ca^2$ uptake was depressed by CPZ, suggestingthat the microsomal Ca^2$ uptake may also be modulated by calmodulin. ¹ Contribution No. C-72, Fruit Tree Research Station. (Received June 7, 1982; Accepted October 19, 1982)