Marked increase in ascorbate oxidase protein in pumpkin callus by adding copper

Ascorbate oxidase from pumpkin (Cucurbita sp.) was purified from a commercially available preparation. A single polypeptide band with M_r 64,000 was detected after sodium dodecylsulfate-polyacrylamide gel electrophoresis of the purified enzyme. In double immunodiffusion tests, antiserum against the purified preparation formed a single precipitin line with the crude extract from pumpkin fruit tissue or the callus as well as with the purified preparation. Immunological blotting method showed that mol wt of ascorbate oxidase subunit in pumpkin callus was the same as that of the purified preparation. Analysis with the single radial immunodiffusion method showed that the increase in ascorbate oxidase activity during the growth of pumpkin callus correlated with an increase in the enzyme protein. Furthermore, enzyme protein in the callus grown in the presence of 10 micromolar CuSO₄ for 2 weeks was about eight times that grown in the presence of 0.1 micromolar CuSO₄. The synthesis of ascorbate oxidase in pumpkin callus may be induced by copper, a prosthetic metal of the enzyme, or copper may help stabilize the enzyme against proteolytic breakdown.     

Sequential reconstitution of copper sites in caeruloplasmin

Titration of apo-caeruloplasmin employing substoichiometric concentrations of [Cu(I)-(thiourea)₃]Cl was performed to elucidate possible sequential incorporation of copper into the different specific binding sites. The successful reconstitution was monitored by A₆₁₀ absorption, EPR spectroscopy and oxidase activity. Maximum activity and final absorption at 610 nm were reached after 20 min. When both A₆₁₀, indicative for type 1 copper, and oxidase activity were expressed per g-atom of copper, a sequential insertion was found. Owing to the specific data at the beginning, some type 3 copper appeared to be preferentially incorporated. After 3–4 g-atoms (including most of type 1 and type 2 copper), both absorption and oxidase activity surpassed transient maxima. Then type 3 and 4 copper were further bound to reach the known stoichiometry of six copper atoms per mole of protein.     

The specific activity value based on the prosthetic copper of ascorbate oxidase

The copper content and activity data of 137 purified samples of ascorbate oxidase (l-ascorbate:O₂ oxidoreductase, EC 1.10.3.3) prepared in this laboratory during the period 1951–1977 have been examined and correlated. These data support the developing concepts of “active site heterogeneity” in otherwise homogeneous protein preparations. The specific activities, based on the copper contents of these 137 enzyme specimens, have been determined to average at about 760 units per μg copper and to reach maximum values in the area of 1000 units per μg copper. The maximum specific activity value (units per mg protein) and the copper content value of these purified specimens have been found to be 3800 ± 400 and 0.46 ± 0.06%, respectively.     

INTRACELLULAR LOCALIZATION OF ENZYMES IN SPLEEN : I. REDUCED DIPHOSPHOPYRIDINE NUCLEOTIDE CYTOCHROMEc REDUCTASE, CYTOCHROMEc OXIDASE, AND SUCCINIC DEHYDROGENASE IN THE RAT AND GUINEA PIG

1. The intracellular distribution of nitrogen, DPNH cytochrome c reductase, succinic dehydrogenase, and cytochrome c oxidase has been studied in fractions derived by differential centrifugation from rat and guinea pig spleen homogenates. 2. In the spleens of each species, the nuclear fraction accounted for 40 to 50 per cent of the total nitrogen content of the homogenate, and the mitochondrial, microsome, and supernatant fractions contained about 8, 12, and 30 per cent of the total nitrogen, respectively. 3. Per mg. of nitrogen, DPNH cytochrome c reductase was concentrated in the mitochondria and microsomes of both rat and guinea pig spleens. Seventy per cent of the total DPNH cytochrome c reductase activity was recovered in these two fractions. The reductase activity associated with the nuclear fraction was lowered markedly by isolating nuclei from rat spleens with the sucrose-CaCl₂ layering technique. The lowered activity was accompanied by the recovery of about 90 per cent of the homogenate DNA in the isolated nuclei, indicating that little, if any, of the reductase is present in spleen cell nuclei. 4. Per mg. of nitrogen, succinic dehydrogenase was concentrated about 10-fold in the mitochondria of rat spleen, and 65 per cent of the total activity was recovered in this fraction. 5. Cytochrome c oxidase was concentrated, per mg. of nitrogen, in the mitochondria of both rat and guinea pig spleens. The activity associated with the nuclear fraction was greatly diminished when this fraction was isolated from rat spleens by the sucrose-CaCl₂ layering technique. Only 50 to 70 per cent of the total cytochrome c oxidase activity of the original homogenates was recovered among the four fractions from both rat and guinea pig spleens, while the specific activities of reconstructed homogenates were only 55 to 75 per cent of those of the original whole homogenates. This was in contrast to the results with DPNH cytochrome c reductase and succinic dehydrogenase where the recovery of total enzyme activity approached 100 per cent, and the specific activities of reconstructed homogenates equalled those of the original homogenates. The recovery of cytochrome c oxidase was greatly improved when only the nuclei were separated from rat spleen homogenates. 6. Data were presented comparing the concentrations (ratio of activity per mg. of nitrogen of the fraction to activity per mg. of nitrogen of the homogenate) of DPNH cytochrome c reductase in mitochondria and microsomes derived from different organs of different animals. 7. Data were presented comparing the activities per mg. of nitrogen of DPNH cytochrome c reductase in homogenates from several organs of various animals.     

Characterization of cytochrome oxidase purified from rat liver

The purpose of this study was to characterize the physical properties of cytochromec oxidase from rat liver. The enzyme was extracted from isolated mitochondria with nonionic detergents and further purified by ion-exchange chromatography on DEAE Bio-Gel A. The purified enzyme contained 9.64 nmol heme a/mg protein and one iron atom plus one copper atom for each heme a. The specific activity of the final preparation was 146 µmol of ferrocytochromec oxidized/min · mg protein, measured at pH 5.7. The spectral properties of the enzyme were characteristic of purified cytochrome oxidase and indicated that the preparation was free of cytochromesb, c, andc ₁. In analytical ultracentrifugation studies, the enzyme sedimented as a single component with anS ^20,w of5.35S. The Stokes radius of the enzyme was determined by gel filtration chromatography and was equal to 75 Å. The molecular weight of the oxidase calculated from its sedimentation coefficient and Stokes' radius was 180,000, indicating that the active enzyme contained two heme a groups. The purified cytochrome oxidase was also subjected to dodecyl sulfate-polyacrylamide gel electrophoresis in order to determine its components. The enzyme was resolved into five polypeptides with the molecular weights of I, 27,100; II, 15,000; III, 11,900; IV 9800; and V, 9000.     

Acyl-CoA oxidase from Candida tropicalis

The preparation of a highly purified acyl-CoA oxidase from the cell extract of an n-alkane-utilizing yeast, Candida tropicalis, is described. It can be crystallized from ammonium sulfate solutions without an increase in specific activity, and is homogeneous on ultracentrifuge and disc electrophoresis. The enzyme is an octamer with approximately a 600,000 molecular weight, and has an isoelectric point of 5.5. It exhibits a typical flavoprotein spectrum with absorption maxima at 277, 365 and 445 nm, and contains 8 mol of FAD per mol of enzyme. The enzyme catalyzes the stoichiometric conversion of palmitoyl-CoA and O₂ into 2-hexadecenoyl-CoA and H₂O₂. It oxidizes acyl-CoAs with carbon chain lengths of 4 to 20, and is most active toward lauroyl-CoA, but acetyl- and succinyl-CoAs are not oxidized. The enzyme is sulfhydryl dependent and is inactivated by silver and mercury compounds.     

Purification and properties of the membranal thiol oxidase from porcine kidney

A thiol oxidase was purified from porcine kidney cortex by chromatography of detergent-solubilized plasma membranes on cysteinylsuccinamidopropyl-glass beads, hydroxyapatite, and Sephacryl S-200. The oxidase was purified 2600-fold; 28% recovery of activity was obtained. With glutathione as substrate, the apparent Km was 0.73 mM and the V max was a 4.4 U/mg protein. The reaction catalyzed was 2 RSH + O2----RSSR + H2O2, and superoxide production was not detected during the reaction. Other low molecular weight thiols, including cysteine, dithiothreitol, N-acetylcysteine, and cysteamine, were substrates for the oxidase; 2-mercaptoethanol, reductively denatured ribonuclease A, and chymotrypsinogen A were not substrates. Analysis by sodium dodecyl sulfate-polyacrylamide gel electrophoresis showed one band corresponding to 70 kDa; gel filtration on a Sephacryl column produced a single elution of activity with a protein corresponding to 120 kDa, indicating that the functional form is a dimer. On a high-pressure gel permeation column the protein eluted at 70 kDa under dilute conditions but at greater than 200 kDa at high concentrations, indicating that the protein also aggregates into larger multimers. Activity was inhibited by copper chelators, L-(alpha S,5S)-alpha-amino-3-chloro-4,5-dihydro-5-isoxazoleacetic acid (acivicin), H2O2, and N-ethylmaleimide, suggesting the presence of copper and a sulfhydryl group at the active site. Following treatment with metal chelators, enzyme activity was reconstituted with CuSO4, but not with FeSO4. The purified enzyme contained 1 mol copper per subunit which was undetectable by electron paramagnetic resonance, suggesting that the copper is in a binuclear complex.     

CONVERSION OF TRYPSIN TO A COPPER ENZYME: TYROSINASE/CATECHOL OXIDASE BY CHEMICAL MODIFICATION

New active sites can be introduced into naturally occurring enzymes by the chemical modification of specific amino acid residues in concert with genetic techniques. Chemical strategies have had a significant impact in the field of enzyme design such as modifying the selectivity and catalytic activity which is very different from those of the corresponding native enzymes. Thus, chemical modification has been exploited for the incorporation of active site binding analogs onto protein templates and for atom replacement in order to generate new functionality such as the conversion of a hydrolase into a peroxidase. The introduction of a coordination complex into a substrate binding pocket of trypsin could probably also be extended to various enzymes of significant therapeutic and biotechnological importance.

The aim of this study is the conversion of trypsin into a copper enzyme: tyrosinase by chemical modification. Tyrosinase is a biocatalyst (EC.1.14.18.1) containing two atoms of copper per active site with monooxygenase activity. The active site of trypsin (EC 3.4.21.4), a serine protease was chemically modified by copper (Cu⁺²) introduced p-aminobenzamidine (pABA- Cu⁺²: guanidine containing schiff base metal chelate) which exhibits affinity for the carboxylate group in the active site as trypsin-like inhibitor. Trypsin and the resultant semisynthetic enzyme preparation was analysed by means of its trypsin and catechol oxidase/tyrosinase activity. After chemical modification, trypsin-pABA-Cu⁺² preparation lost 63% of its trypsin activity and gained tyrosinase/catechol oxidase activity. The kinetic properties (K_cat, K_m, K_cat/K_m), optimum pH and temperature of the trypsin-pABA-Cu⁺² complex was also investigated.     

Chitin Coated Cellulose as an Adsorbent of Lysozyme-like Enzymes: Some Applications

Galactose oxidase was purified from the culture supernatant of Gibberella fujikuroi by ammonium sulfate precipitation, chromatographies on DEAE-cellulose and hydroxylapatite, and gel filtration on Bio-Gel P-100. The purified enzyme had a molecular weight of 90,000 and an isoelectric point of pH 3.7, and contained about one atom of copper and about one atom of iron per mol of the enzyme protein. The enzyme was markedly inactivated by a copper-chelating agent, diethyldithiocarbamate, and reducing agents. The apoenzyme preparing on treatment of the enzyme with diethyldithiocarbamate could be reactivated only by the addition of either Cu⁺ or Cu^{2 +}. These results indicate that copper is involved in galactose oxidase activity of G. fujikuroi.     

CYTOCHEMICAL STUDIES OF MITOCHONDRIA : II. ENZYMES ASSOCIATED WITH A MITOCHONDRIAL MEMBRANE FRACTION

1. Mitochondria isolated from rat liver were disrupted with 0.3 per cent deoxycholate and a number of subfractions were isolated from this preparation by differential centrifugation. 2. The protein N, RNA and phospholipide content, as well as the succinoxidase, cytochrome c oxidase, adenylate kinase, and DPNH-cytochrome c reductase of these fractions were determined. 3. Two of these subfractions, found to consist of mitochondrial membranes (2), contained ~ 12 per cent of the protein N and ~ 35 per cent of the phospholipide of the whole mitochondria and accounted for ~ 70 per cent of the succinoxidase and cytochrome c oxidase activity of the original mitochondrial preparation. There was no discernible adenylate kinase, DPNH-cytochrome c reductase, or phosphorylating activities in these fractions, nor could they oxidize other substrates of the Krebs's cycle. 4. The most active fraction (60 minutes at 105,000 g pellet) had a higher phospholipide/protein value than the whole mitochondria and showed a seven-to elevenfold concentration of succinoxidase and cytochrome c oxidase activities. 5. Evidence has been given to indicate that the various components of the succinoxidase complex are present in this membrane fraction in the same relative proportions as in the whole mitochondria. 6. The implications of these findings are discussed.     

The molecular properties of the copper enzyme galactose oxidase

Galactose oxidase (EC 1.1.3.9) has been purified 140-fold by DEAE- and CM-cellulose chromatography from cultures of Polyporus circinatus. The enzyme has a molecular weight of 68,000 ± 3,000 as determined by sedimentation equilibrium, sodium dodecyl sulfate-acrylamide gel electrophoresis, Sephadex G-150 chromatography, and osmometry. Galactose oxidase is a single-chain protein which does not self-associate. Charge isozymes of the enzyme are detected by ion-exchange chromatography and gel electrophoresis. The amino acid composition determined herein is significantly different from that previously reported (Kelly-Falcoz, F., Greenberg, H., And Horecker, B. L. (1965) J. Biol. Chem.240, 2966–2970). The enzyme contains 1% by weight of neutral carbohydrate.Galactose oxidase contains 1 g-atom of copper per 70,000 g of protein. The metal does not contribute to the electrophoretic or isozymic properties of the protein. However, the sedimentation coefficients of the holo- and apoenzymes, 4.76S and 4.83S, respectively, do suggest that small differences in protein conformation accompany the removal of the copper from the holoenzyme.Attempted sulfhydryl group titration of galactose oxidase shows that the holoenzyme is resistant to denaturation. However, in β-mercaptoethanol-guanidine HCl 5 half-cystine residues are titrated in the apoenzyme. On a dry-weight basis, the E_1cm^1% value for galactose oxidase at 280 nm is 15.4. Galactose oxidase has an isoelectric point above pH 10 which is a probable source of some of its anomalous behavior in physical measurements and enzyme-activity determinations.     

Plasma ceruloplasmin Evidence for its presence in and uptake by heart and other organs of the rat

Evidence for the presence of the plasma protein, ceruloplasmin, in heart and other tissues of the rat was sought using various techniques. With p-phenylenediamine, ceruloplasmin-like oxidase activity was detected in heart postmitochondrial and 100 000 × g supernatants in amounts far exceeding those that could be accounted for by residual blood. Much lower levels were detected in kidney, brain and liver. Oxidase activity of heart purified on DEAE-cellulose in the same way as rat plasma ceruloplasmin and behaved identically also in disc gel electrophoresis. The presence of ceruloplasmin in heart extracts was confirmed immunologically by Ouchterlony diffusion, using rabbit antibody raised against pure rat ceruloplasmin. When pure [³H]leucin-labeled ceruloplasmin was infused intravenously into a copper-deficient rat, radioactivity was concentrated in the heart and brain within 2 h; radioactive counts per g attained 11 and 3 times those of plasma in the two organs, respectively. A lesser concentration occurred in the liver. The results suggest that circulating ceruloplasmin (made by the liver) finds its way into the cells of some organs, especially the heart, a phenomenon which may be related to the function of ceruloplasmin to provide copper to the cytochrome oxidase of various tissues.     

Ascorbate oxidase of Cucumis melo L. var. reticulatus: purification, characterization and antibody production

Ascorbate oxidase activity and ascorbic acid content were followedduring the development of muskmelon (Cucumis melo L. var. reticulatus)fruits. The enzyme was highly expressed in ovaries and veryyoung fruit tissues, followed by a decrease in 10- and 20-d-oldfruits and an increase in 30- and 35-d-old fruits which coincidedwith early events of fruit ripening. Ascorbic acid content wasnegatively correlated with ascorbate oxidase activity. The enzymewas purified to homogeneity following ion exchange, affinityand gel filtration chromatographic trials. The purified enzymewas a glycoprotein of molecular weight 137 000 composed of twosubunits of molecular weight 68000, and formed by six isoenzymeswith isoelectric points in the range of pH 7.7 to 8.3. Its electronparamagnetic resonance and optical spectra were in agreementwith other copper proteins and the enzyme contained eight copperatoms per dimeric molecule. The K_m of the enzyme for ascorbicacid was 50 µM. Ascorbate oxidase activity was inhibitedby azide and by EDTA, two inhibitors of copper proteins. Optimalconditions for enzyme activity was pH 5.5, and a temperatureof 37 C. Polyclonal antibodies were produced against the purifiedprotein and immunoprecipitated ascorbate oxidase activity. Key words: Cucumis melo, muskmelon, ascorbate oxidase, fruit ripening     

THE CYTONUCLEOPROTEINS OF AMEBAE : I. Some Chemical Properties and Intracellular Distribution

Autoradiographs of whole Amoeba proteus host cells fixed after the implantation of single nuclei from A. proteus donors labeled with any one of 8 different radioactive amino acids showed that the label had become highly concentrated in the host cell nucleus as well as in the donor nucleus and that the cytoplasmic activity was relatively low. When these amebae were sectioned, the radioactivity was found to be homogeneously distributed throughout the nuclei. The effect of unlabeled amino acid "chaser," the solubility of the labeled material, and the long-term behavior of the labeled material gave evidence that the radioactivity was in protein. At equilibrium, the host cell nucleus contained approximately 30 per cent of the radioactivity distributed between the two nuclei. This unequal nuclear distribution is attributed to the presence of two classes of nuclear proteins: a non-migratory one that does not leave the nucleus during interphase, and a migratory one, called cytonucleoprotein, that shuttles between nucleus and cytoplasm in a non-random manner. It is estimated that between 12 per cent and 44 per cent of the cytonucleoproteins are present in the cytoplasm of a binucleate cell at any one moment. Nuclei of Chaos chaos host cells also concentrated label acquired from implanted radioactive A. proteus nuclei.     

Amine Oxidases of Microorganisms

There was an increase in copper content proportional to the increase in specific activity of the enzyme during the purification of amine oxidase of Aspergillus niger. The recrystallized enzyme preparation contained 1 g atom of copper per 83,000 g of protein. This indicated that the enzyme contained 3 g atoms of copper per mole of enzyme. The copper in the enzyme was removed by dialysis against sodium diethyldithiocarbamate with concomitant loss of activity. The dialyzed enzyme was reactivated by the addition of cupric copper.

The copper in the enzyme was present in cupric state. No valency change of the copper was observed in the catalytic activity.

The enzyme was inhibited by various chelating agents, and potently inhibited by various carbonyl reagents.     

Solubilization of Leonardite by an Extracellular Fraction from Coriolus versicolor

Coriolus versicolor has previously been shown to degrade leonardite, an oxidized form of lignite. An extracellular fraction containing protein purified from a C. versicolor culture solubilized leonardite in vitro. Expression of the activity did not require the presence of leonardite and appeared during idiophase. During ion-exchange and gel filtration column chromatography, leonardite-biosolubilizing activity eluted with syringaldazine oxidase activity and with protein, as measured by A₂₈₀ and the biuret protein assay. Syringaldazine is a substrate of the polyphenol oxidase formed by C. versicolor. Comparison of leonardite-biosolubilizing activity with the effects of chelators and surface-active agents on leonardite showed that biosolubilization was not due to either surfactant or chelating ability. Heat treatment of the preparation at 60°C for 30 min significantly reduced both syringaldazine oxidase and leonardite-biosolubilizing activities. Cyanide, azide, and thioglycolate, which are known inhibitors of syringaldazine oxidase activity of C. versicolor, also inhibited leonardite biosolubilization. From these data, we conclude that the purified protein fraction from C. versicolor contains a syringaldazine oxidase activity that participates in leonardite biosolubilization by enzymatic action.     

Purification and metal requirements of 3-dehydroquinate synthase from Phaseolus mungo seedlings

Dehydroquinate synthase of Phaseolus mungo seedlings was purified 4400-fold from the (NH₄)₂SO₄ fraction of a crude extract, the specific activity being 810 nkat per mg protein. When the purified enzyme was subjected to electrophoresis with or without sodium dodecyl sulfate, a single band was observed. The MW of the enzyme was estimated to be 67 000 by Sephadex G-100 gel chromatography and the minimum MW of the enzyme 43 000 by gel electrophoresis with sodium dodecyl sulfate. Atomic absorption analysis revealed that the purified enzyme contained small amounts of copper. Cobalt was not detected, although it has been implicated as a cofactor requirement.     

Studies on Respiratory Enzymes in Rice Kernel

Glutathione reductase as an acidic flavoprotein, has been isolated from the acidic protein fraction of rice embryos and purified by procedures involving ammonium sulfate fractionation, gel filration on Sephadex G–75 and G–100, ion exchange chromatography on CM-and DEAE-Sephadex and finally hydroxylapatite column chromatography. The preparation was homogeneous when examined by ultracentrifugation and almost pure on polyacrylamide gel electrophoresis. The flavoprotein exhibited an absorption spectrum characteristic of glutathione reductase having absorption maxima at 275, 370, 379, and 463 mμ with a clear double peak between 370 and 380 mμ and shoulders at around 430 and 490 mμ. The absorption ratio of A₂₇₅/A₄₆₃ and A₄₆₃/A₃₇₉ were 8.15 and 1.06, respectively. The purified enzyme was highly specific for NADPH and oxidized glutathione. The preparation had the average catalytic activity of 150 μmoles of NADPH oxidized per min per mg of protein.     

Studies on the resolution of cytochrome oxidase

Cytochrome oxidase has been resolved in acetic acid and high salt/detergent media. In 0.5% acetic acid, the smaller subunits of the enzyme are selectively extracted with retention of an insoluble protein fraction containing subunits I–IV, VII. This fraction retains all the heme and copper of the original enzyme in a spectrally unaltered state, and possesses enzymic activity comparable to the unresolved enzyme. The further removal of subunit IV from this fraction results in migration of heme and copper and modification of their spectral characteristics. Resolution of the enzyme in a high salt/detergent medium extracts smaller subunits (V–VII) together with subunit IV and some heme and copper. The heme associated with this enzymically active extract has spectral characteristics that are partially suggestive of hemea ₃. It is suggested that the fraction of subunits I–IV, VII, resolved in dilute acetic acid, may represent the limit of resolution of the cytochrome oxidase complex that remains actively and spectrally indistinguishable from the original enzyme.     

Resolution of renal sulfhydryl oxidase from gamma-glutamyltransferase by covalent chromatography on cysteinylsuccinamidopropyl-glass

Sulfhydryl oxidase from bovine kidney cortex was purified 2500-fold by covalent chromatography using cysteinylsuccinamidopropyl-glass. GSH oxidation catalyzed by the resulting preparation was found to be totally enzymatic, as judged by the inability of the preparation to reduce nitro blue tetrazolium, and H₂O₂ was found to be a product, as had been previously observed with milk sulfhydryl oxidase. No GSH peroxidase activity could be detected, using either H₂O₂ or t-butylhydroperoxide. The chromatographically purified renal sulfhydryl oxidase was resolved from γ-glutamyltransferase as evidenced by a 12,000-fold increase in ratio of the two enzymatic activities over that exhibited by crude kidney homogenates, and antibodies raised against purified milk sulfhydryl oxidase cross-reacted with the kidney oxidase, but not the kidney transferase.