EC:1.10.3.2 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.10.3.2 (laccase)
4,656 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. Neurospora crassa laccase has been prepared from the growth medium and studied by optical absorption, circular dichroism and electron paramagnetic resonance (EPR) spectroscopy. The molecular weight, the copper content and the amino acid composition have also been determined. 2. The molecular weight as determined by gel filtration in 6 M guanidine hydrochloride and by sodium dodecyl sulfate gel electrophoresis is found to be 64 000. The enzyme contains 3.8 copper ions per 64 000. 3. The visible and the near ultraviolet difference absorption spectrum shows two maxima, at 330 and 595 nm, and a shoulder at about 720 nm. The circular dichroism spectrum between 300 and 760 nm contains five bands in the oxidized enzyme. After reduction of the enzyme with ascorbate there remains only a band at 305 nm. 4. EPR measurements show that 52% of the total copper in the protein is paramagnetic. Two EPR signals of equal intensity with different hyperfine splitting constants, of 9 and 18.5 mT, are present, which are assigned to Type 1 Cu2+ and Type 2 Cu2+, respectively, as found in other blue copper-containing oxidases.
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PMID:The state of copper in Neurospora laccase. 20 49

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

Anaerobic reactions of Rhus vernicifera laccase and its type-2 copper-depleted derivatives with hexacyanoferrate(II) were investigated by absorption and e.s.r. spectroscopy. When native laccase was treated with excess hexacyanoferrate(II), the type-1 and type-2 coppers were immediately reduced and the e.s.r. signal due to type-3 copper was transiently observed. After incubation, a novel e.s.r. signal (g parallel = 2.31, g perpendicular = 2.08) developed together with the type-1 copper signal. Only the novel e.s.r. signal was left after the sample had been treated with ascorbate. In the corresponding absorption spectrum, a new band was observed at around 490 nm. A similar new e.s.r. signal did not appear for the type-2-copper-depleted (T2D) laccase, in which the type-3 copper had been reduced during the procedure to deplete the type-2 copper. On the other hand, the novel e.s.r. signal emerged when the type-3 copper in T2D laccase had been previously reoxidized with H2O2. The novel e.s.r. signal was not significantly saturated even by 200 mV microwave power at 4 K. Quantitative estimations and a small molecule study for CuII-FeII(CN)6 and CuII-FeIII(CN)6 systems suggested that the novel e.s.r. signal corresponds to some sort of adduct involving the type-3 copper and hexacyanoferrate(II).
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PMID:Anaerobic reactions of Rhus vernicifera laccase and its type-2 copper-depleted derivatives with hexacyanoferrate(II). 132 Mar 74

We have isolated and characterized a gene coding for the laccase of the lignin-degrading fungus Phlebia radiata. The gene has nine introns and recognizable fungal promoter elements. Sequences homologous to the consensus eukaryotic heat-shock regulatory element can be found in the promoter. RNA hybridization results indicate that this gene is regulated at the transcriptional level. The derived laccase amino acid sequence shows homology to plant ascorbate oxidases, suggesting that the basic structure of the laccase is similar to the three-fold repeated beta-barrel of the ascorbate oxidases. Potential copper ligands and a residue carrying the prosthetic group pyrroloquinoline quinone (PQQ) in the laccase protein can be identified by homology. The intron/exon structure of the laccase gene suggests that this protein could have evolved by exon shuffling.
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PMID:Isolation and structural analysis of the laccase gene from the lignin-degrading fungus Phlebia radiata. 195 50

Reoxidation process of reduced cucumber ascorbate oxidase (1.10.3.3) with dioxygen was investigated in detail through absorption, circular dichroic (CD) and electron paramagnetic resonance (EPR) spectra. One of the three type I coppers and the type II copper were reoxidized more rapidly than other type I coppers. The principal active site of ascorbate oxidase was considered to be comprised of one type I, one type II and a pair of type III coppers similarly to the active sites in laccase and ceruloplasmin. Remaining two type I and a pair of type III coppers were also disclosed to contribute to the oxidation of L-ascorbate.
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PMID:Oxidation of reduced cucumber ascorbate oxidase. 299 19

The reactions of nitric oxide (NO) with the oxidized and reduced forms of fungal and tree laccase, as well as with tree laccase depleted in type 2 copper, are reported. The products of the reactions were determined by NMR and mass spectroscopy, whereas the oxidation states of the enzymes were monitored by EPR and optical spectroscopy. All three copper sites in fungal laccase are reduced by NO. In addition, NO forms a specific complex with the reduced type 2 copper. NO similarly reduces all of the copper sites in tree laccase, but it also oxidizes the reduced sites produced by ascorbate or NO reduction. A catalytic cycle is set up in which N2O, NO2-, and various forms of the enzyme are produced. On freezing of fully reduced tree laccase in the presence of NO, the type 1 copper becomes reoxidized. This reaction does not occur with the enzyme depleted in type 2 copper, suggesting that it involves intramolecular electron transfer from the type 1 copper to NO bound to the type 2 copper. When the half-oxidized tree laccase is formed in the presence of NO, a population of molecules exists which exhibits a type 3 EPR signal. A triplet EPR signal is also seen in the same preparation and is attributed to a population of the enzyme molecules in which NO is bound to the reduced copper of a half-oxidized type 3 copper site.
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PMID:Reactions of nitric oxide with tree and fungal laccase. 627 Nov 78

The interaction of the radicals OH, t-BuO, Eaq, CO2 and O2 with the copper oxidase, laccase, from Polyporus, has been studied by the pulse-radiolysis technique. Each of these radicals formed transient adducts with a broad absorption maximum around 310 nm. Analysis of the optical properties and of the very fast rates of formation of these compounds shows that each radical interacts with a limited number of sites on the polypeptide part of the protein amongst R-S-S-R, histidine and aromatic residues. Interaction with the carbonyl group of some of the peptides bonds is also possible. The few target sites are probably hit simultaneously and electron transfer between these sites may also occur. In all cases, ina subsequent step, intramolecular electron transfer from the polypeptide radical adducts leads to a partial reduction of the blue type-1 Cu2+ with rates varying between 10(3) adn 10(4) s-1. Further reduction of the type-1 CU2+ occurs through a slow intermolecular reaction between two laccase radical transient adducts. In the case of CO2 and O2, this slow reduction could alternatively be due to an intermolecular reaction between laccase and CO2 or O2. The oxidation radicals OH, Br2 and (SCN)2, which formed radical adducts with fully ascorbate-reduced laccase, did not induce any type-1 copper reoxidation.
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PMID:Radical scavenging and electron-transfer reactions in Polyporus versicolor laccase a pulse radiolysis study. 628 3

We report results of experiments designed to characterize the Type 1 and Type 3 copper sites in Rhus laccase depleted of Type 2 copper (T2D). Use of the Lowry method for determining protein concentration yielded the value 5620 +/- 570 M-1 cm-1 for the extinction of the 615-nm absorption band of this protein. Anaerobic reductive titrations with Ru(NH)3)6(2)+ and Cr(II)aq ions established the presence of three electron-accepting centers, which are reduced in a complex manner. Treatment of T2D laccase with a 70-fold excess of H2O2 induced a new shoulder at 330 nm (delta epsilon = 660 M-1 cm-1), as well as intensity perturbations at 280 and 615 nm. Comparison of difference spectra show that this 330-nm band derives from a Type 3 copper-bound peroxide and not from a reoxidized Type 3 site. Dioxygen reoxidation of ascorbate-reduced T2D laccase produced new difference bands at 330 nm (delta epsilon = 770 M-1 cm-1) and 270 nm (delta epsilon = 13,000 M-1 cm-1), the former assigned to a bound peroxide which is a dioxygen reduction intermediate. In the corresponding epr spectrum of this material new Cu(II) g parallel features (A parallel approximately 130 G) indicative of an isolated copper ion and a triplet signal near 3,400 G were observed, originating from the Type 3 sites of separate T2D laccase molecules. Reoxidation by ferricyanide or by dioxygen as mediated by iron hexacyanide did not produce these changes. Thus the magnetism of the reoxidized Type 3 site in T2D laccase can be perturbed as a consequence of aerobic turnover. The suggestion is advanced that there are presently three forms of T2D laccase, possibly metastable conformational isotypes, accounting for the apparently contradictory reports on the properties of this protein.
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PMID:The Type 3 copper site is intact but labile in Type 2-depleted laccase. 630 31

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

Using laser flash photolysis of lumiflavin/EDTA solutions containing ascorbate oxidase, we find that the rate constant for intramolecular electron transfer varies from one enzyme preparation to another and is generally a more sensitive measure of the state of the active site than are steady-state assays. Thus, type I copper is initially reduced in a second-order reaction followed by first-order reoxidation by the type II-III trinuclear copper center. The observed rate constant for this intramolecular process in presumably native enzyme is 160 s-1 at pH 7, whereas an enzyme preparation which had less than 20% activity had a rate constant of 2.6 s-1. Other samples of relatively active enzyme showed biphasic intramolecular kinetics intermediate between the above values. The inactive enzyme sample could be reactivated by dialysis against ascorbate or by treatment with ferricyanide, resulting in a corresponding increase in the intramolecular rate constant for type I copper reoxidation to a value comparable to that of native enzyme. Using this same methodology, we have determined that the type I copper in Japanese lacquer tree laccase is reoxidized by the type II-III trinuclear copper center in a first-order (intramolecular) process with rate constants of 1 s-1 at pH 7.0 and 4.9 s-1 at pH 6.0, values which are approximately two orders of magnitude smaller than for ascorbate oxidase. The intramolecular rate constant and enzyme activity for laccase also increased, but only by a factor of 2-6, when the enzyme was treated with ascorbate or ferricyanide, respectively. We further found that intramolecular electron transfer in laccase was completely inhibited by fluoride ion, in contrast to ascorbate oxidase which is unaffected by this ion. These differences in behavior for these two very similar enzymes are rather remarkable, when it is considered that the distance between copper atoms is constrained by the location of the protein-derived copper ligands in the three-dimensional structure, and that the redox potentials of the enzymes are similar. Our results may be interpreted in terms of an interconversion between active and inactive enzyme in which there is a rearrangement of the type II-III trinuclear copper center, resulting in a lowering of the redox potential and a block in electron transfer. Turnover restores the active enzyme conformation.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Oxidative turnover increases the rate constant and extent of intramolecular electron transfer in the multicopper enzymes, ascorbate oxidase and laccase. 826 95

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