EC:1.10.3.3 - FACTA Search

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Query: EC:1.10.3.3 (ascorbate oxidase)
778 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

(1) 45% of the total copper of green zucchini ascorbate oxidase is EPR-detectable. At least two species of copper are present, one with a small A parallel (Type 1) and one with a large A parallel (Type 2). Computer simulated spectra indicated 50% contribution by each type of copper. (2) Azide inhibited ascorbate oxidase activity by an uncompetitive mechanism. EPR and optical spectra performed on titration of ascorbate oxidase with azide indicated the formation of a copper-azide complex. The Type 2 copper appears to be the binding site of azide. The involvement of the EPR non-detectable copper as an anion binding site with high affinity toward azide can not be excluded.
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PMID:The effect of azide on the spectral and catalytic properties of ascorbate oxidase. 16 78

1. The reaction of nitric oxide with oxidized and reduced ascorbate oxidase (L-ascorbate: oxygen oxidoreductase, EC 1.10.3.3) has been investigated by optical absorption measurements and electron paramagnetic resonance, and the results are compared with those of ceruloplasmin. 2. Upon anaerobic incubation of oxidized ascorbate oxidase with nitric oxide a decrease of the absorbance at 610 nm is found, which is due to an electron transfer from nitric oxide to Type-1 copper. 3. In the presence of nitric oxide the EPR absorbance of ascorbate oxidase decreases and shows predominatly a signal with characteristics of Type-2 copper (g parallel = 2.248; A parallel = 188 G), whereas the type-1 copper signal has vanished. 4. Comparison of the intensities of the EPR signals before and after NO-treatment points to the presence of one Type-2 and three Type-1 copper atoms per molecule of ascorbate oxidase. 5. It is shown that the changes in the optical and the EPR spectrum of ascorbate oxidase induced by nitric oxide are reversible. No difference in enzymic activity is found between the native enzyme and the NO-treated enzyme after removal of nitric oxide.
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PMID:The interaction of nitric oxide with ascorbate oxidase. 17 Sep 67

Binuclear cupric ion clusters have been established in: human ceruloplasmin, hemocyanin, and mushroom tyrosinase. Substantial evidence makes it very probable that fungal laccase and zucchini ascorbate oxidase contain this cluster. Some evidence makes it possible that copper clusters function in the catalytic cycles of cytochrome oxidase (mammalian) and dopamine-beta-hydroxylase. These studies throw light on the criteria which must be employed to establish the existence of functional binuclear copper clusters in enzymes: (1) Stoichiometric Criteria: binding of O2 and CO with Cu/ligand = 2; redox titrations with n = 2; (2) Physical and Chemical Criteria: magnetic evidence of diminished paramagnetism of cupric centers, EPR evidence of broadened or absent absorptions, EPR evidence of magnetic dipolar interactions among cupric ions; absorption bands characteristic of Cu(II)-Cu(II) complexes; laser resonance raman scattering characteristic of peroxidic dioxygen in the oxyforms.
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PMID:Binuclear copper clusters as active sites for oxidases. 18 78

From the peelings of cucumber Cucumis sativus and marrow squash Cucurbita pepo var. giramontia highly purified ascorbate oxidase preparations were obtained. Molecular weights, optical and EPR spectra, total copper contents and different type copper contents of the both proteins were similar. The effects of NaN3, KCN, I- and F- on the optical and EPR spectra of the proteins were studied. The incubation of ascorbate oxidase with these anions lead to the partial reduction of the copper. The data obtained indicate that F- is bound to the copper atoms of the type 2, and that N5- modifies surroundings of these copper atoms. The copper atoms of types 1 and 2 in both ascorbate oxidases, unlike fungal laccase, are completely reduced under effect of CN-. The bleaching of ascorbate oxidase, observed in alkaline media involves also increasing of the intensity of the band at 330 nm. The results show that three types of copper in ascorbate oxidase have various sensitivities to the inorganic anions. These data are compared with results observed for another blue copper-containing enzymes, such as laccases and ceruloplasmin.
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PMID:[Interaction of ascorbate oxidase with inorganic anions]. 58 36

The type-2 depleted form of ascorbate oxidase from zucchini has been prepared in crystals and characterised by X-ray crystallography and EPR spectroscopy. The X-ray structure analysis by difference-Fourier techniques and refinement shows that, on average, about 1.3 Cu atoms/ascorbate oxidase monomer are removed. The copper is lost from the trinuclear site whereby the EPR-active type-2 copper is depleted most; type-1 copper is not affected. This observation indicates preferential formation of a 1 Cu-depleted form with the hole equally distributed over all three copper sites. Each of these 1 Cu-depleted species may represent an anti-ferromagnetically coupled copper pair which is EPR-silent and could explain the disappearance of the type-2 EPR signal.
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PMID:X-ray crystallographic characterisation of type-2-depleted ascorbate oxidase from zucchini. 133 May 52

The reactivity with nitric oxide was investigated for a number of type-1, type-2 and type-3 copper proteins azurin from Pseudomonas aeruginosa (type-1 copper); bovine superoxide dismutase, diamine oxidase from pig kidney and galactose oxidase from Dactylium dendroides (type-2 copper); haemocyanin from Helix pomatia (type-3 copper); the blue oxidases ceruloplasmin from pig serum, and ascorbate oxidase from Cucurbita pepo medullosa. Type-1 copper formed complexes with NO in the oxidised state, which complexes were only fully formed at low temperatures and could be photodissociated at 77K. Complex formation led to the disappearance of the EPR signal of type-1 copper and of the optical absorbance band in the 600 nm region. In azurin, photodissociation caused the reappearance of the original 625 nm absorbance band, but in the blue oxidases, a new band with lower intensity was found at 595 nm instead of the original absorbance band at 610 nm. In all cases, the EPR signal of type-1 copper did not return. These results are best explained by the formation of a photolabile type-1 Cu1+-NO+ complex. They also indicate that in the complex formed, the type-1 copper structure is probably not disrupted, and that after illumination, the nitric oxide molecule is still in the near vicinity of the copper atom. Type-2 copper did not react at all with nitric oxide, and type-3 copper formed complexes with nitric oxide in both the oxidised and the reduced state, but photodissociation of these complexes could not be demonstrated.
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PMID:The reaction of nitric oxide with copper proteins and the photodissociation of copper-NO complexes. 282 26

A very pure ascorbate oxidase solution was obtained by dissolving a crystalline sample of the enzyme. The ratio between 280 and 610 nm absorbancies was 22.5. It contained 8.0 +/- 0.2 Cu ions, 50% EPR detectable, per dimeric molecule (140,000 M.W.) with a molar extinction coefficient of 10,000 cm-1 at 610 nm. Two Cu ions were removed by treatment with N,N-diethyldithiocarbamate. The optical blue absorption band was unaffected, while two EPR detectable Cu ions were lost, with disappearance of the type 2 Cu signal. It is concluded that native ascorbate oxidase contains two type 1, two type 2, and four type 3 Cu ions.
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PMID:Reassessment of copper stoichiometry in ascorbate oxidase. 283 39

The spectroscopic features of cucumber ascorbate oxidase (AOase) and its type-2 copper-depleted (T2D) derivative, and the electron pathway among the copper sites in the enzyme have been investigated. The electronic and CD spectra of native and T2D AOase in the visible region bear a striking resemblance to those of plastocyanin or azurin, which contain type-1 copper alone. The electronic absorption shoulder of the native enzyme at around 330 nm for the native enzyme which has been assigned to type-3 copper disappears with the depletion of the type-2 copper. The reduction of AOase with a large excess of hexacyanoferrate(II) results in a selective reduction of the type-2 Cu, giving rise to an additional EPR-detectable species which is considered to be originated from partly reduced type-3 copper. The type-1 copper is, however, not reduced even in the presence of excess hexacyanoferrate(II). The redox potential of type-1 Cu was determined to be +350 mV, which is distinctly lower than that of hexacyanoferrate(II-III). Type-2 copper was supposed to be a mediator of the electron transfer between type-1 and type-3 coppers in consideration of the extremely low activity of the T2D enzyme under the same condition. A comparison of the electron pathway in AOase with that in laccase is also argued.
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PMID:Characterization of cucumber ascorbate oxidase and its reaction with hexacyanoferrate (II). 299 89

The dietary antagonism between copper and molybdate salts prompted a study of the inhibition of copper enzymes by thiomolybdate (TM). TM strongly inhibited the oxidase activity of five copper oxidase with I50% values in the 1-5 microM range. The mechanism of the TM effect on the copper oxidase, ceruloplasmin (Cp) (E.C. 1.16.3.1), was studied in detail. In Vmax vs. E plots, TM gave parallel data suggesting irreversibility but a large number of TM molecules per Cp were required. The inhibition of Cp by TM could not be reversed by dialysis. Isolation of TM-inhibited Cp on Sephadex G-10 did not yield any active Cp molecules. Cu(II) did not restore any inhibited oxidase activity. Gel electrophoresis supported the covalent binding of Cp by TM without any extensive change in protein structure. EPR results confirmed that Cu(II) is reduced to Cu(I) after reaction with TM. However, the Mo(VI) in MoS4(2-) did not change in oxidation number. Analysis of the TM-Cp compound accounted for all six Cu atoms as found in native Cp. The data suggest the covalent binding of sulfide to Cp copper. TM also inhibited the activity of ascorbate oxidase, cytochrome oxidase, superoxide dismutase, and tyrosinase. However, no inhibition of carbonic anhydrase, a zinc enzyme, was observed at 1 mM TM.
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PMID:Inhibition of ceruloplasmin and other copper oxidases by thiomolybdate. 609 47

In order to reveal the detailed structure of the trinuclear site composed of type 2 copper and a pair of type 3 copper centers in multicopper oxidases, the action of inhibitors such as azide, thiocyanate, and fluoride on laccase and ascorbate oxidase has been investigated by absorption, CD, and EPR spectroscopies. Anaerobic reactions of inhibitor-treated laccase and ascorbate oxidase with pyrocatechol and L-ascorbate, respectively, gave EPR signals originating from the inhibitor-bound type 3 copper, except for the case of F(-)-laccase. The hyperfine splittings of these EPR signals (Az = 10.10(-3)-18.10(-3) cm-1) were smaller than those of type 2 copper centers (ca. 20.10(-3) cm-1), indicating that type 3 copper has a tetragonal geometry with tetrahedral distortion. The facile detection of a series of the inhibitor-bound type 3 copper centers indicates that the action of the exogenous anionic inhibitors is not only to interfere the access of dioxygen to the trinuclear site, but also to restrain the reduction of type 3 copper by lowering its reduction potential.
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PMID:EPR spectra of type 3 copper centers in Rhus vernicifera laccase and Cucumis sativus ascorbate oxidase. 774 96

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