EC:1.10.3.2 - FACTA Search

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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)

Tree laccase, a multi-copper oxidase, has been studied as a copper donor in conjunction with the demetalated forms of three blue copper proteins. Copper transfer could be observed under reducing conditions in the absence of air. Only about 10% of the total copper in laccase could be transferred regardless of the amount of acceptor present in solution, hence, the laccase is heterogeneous as isolated. Potential sources of the heterogeneity are considered. After transfer, laccase could be partially resolved into copper-deficient and nearly holoprotein fractions that would not donate copper when recombined with acceptor protein. EPR results in conjunction with thiol titrations indicate that there is no net loss of type 1 copper from laccase but that there is loss of type 2 copper as well as a small amount of type 3 copper. Very little transfer is observed when type 2-depleted laccase is used as the donor. Finally, the implications that these results could have in the elucidation of possibly more physiologically relevant processes are briefly summarized.
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PMID:Copper transfer from Rhus vernicifera laccase. 164 40

Extracellular laccase (benzenediol: oxygen oxidoreductase EC 1.10.3.2) from the lignin-degrading fungus, Phlebia radiata, was shown to contain a novel combination of electron carriers as its prosthetic groups. In addition to two copper atoms per enzyme molecule, one molecule of PQQ was included as a cofactor. The EPR spectrum exhibits features of type 1 and type 2 copper atoms. In the enzymatic reaction 4 molecules of lignin model compound, coniferyl alcohol, are oxidized per molecule of oxygen reduced to water. During the reaction coniferyl alcohol is transformed to dilignols.
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PMID:A novel combination of prosthetic groups in a fungal laccase; PQQ and two copper atoms. 216

Temperature-dependent structural changes involving the type 2 site in laccase are probed by EPR studies of a derivative of laccase in which the type 1 Cu has been replaced by Hg(II) [Morie-Bebel, M. M., Morris, M. C., Menzie, J. L., & McMillin, D. R. (1984) J. Am. Chem. Soc. 106, 3677-3678]. At the temperature extremes (123 and 299 K), single well-defined species are present, but at intermediate temperatures (between 213 and 253 K), the presence of multiple structures is indicated. For the first time, the room temperature EPR spectrum of the type 2 copper has been resolved. Azide binding and fluoride binding have also been studied as a function of temperature. The results suggest that each anion preferentially interacts with the type 3 site in fluid solution and that these adducts can be trapped by rapidly cooling the sample to 123 K. Annealing the adducts at 253 K permits rearrangement and binding at an equatorial position of the type 2 Cu. This pathway to anation at the type 2 site contrasts sharply with previous studies which required a large excess of anions, and it reveals important insight into the flexibility of the type 2/type 3 cluster in laccase.
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PMID:Temperature and anation studies of the type 2 site in Rhus vernicifera laccase. 217 28

The detailed nature of N-3 binding at the multi-copper active site in native laccase is investigated through a combination of low-temperature magnetic circular dichroism (LTMCD) and absorption spectroscopies. This combination of techniques allows charge-transfer spectral features associated with N-3 binding to the paramagnetic type 2 Cu(II) to be differentiated from those associated with binding to the antiferromagnetically coupled, and therefore diamagnetic, binuclear type 3 Cu(II) site. Earlier absorption titration studies have indicated that N-3 binds with two different binding constants, yielding a high-affinity and a low-affinity form. The studies presented here are interpreted as strong evidence that low-affinity N-3 bridges the paramagnetic type 2 and diamagnetic type 3 binuclear Cu(II) sites in fully oxidized laccase. This assignment is further supported by features in the MCD spectrum whose intensity correlates with an EPR signal associated with uncoupled type 3 Cu(II) sites. In these sites, N-3 has displaced the endogenous bridge, thereby rendering the site paramagnetic and detectable by both LTMCD and EPR spectroscopy. High-affinity N-3 is found to bind to the paramagnetic type 2 Cu(II) site in a limited fraction of the protein molecules that contains reduced type 3 sites. Finally, the possible role of this trinuclear (type 2-type 3) Cu(II) active site in enabling the irreversible reduction of dioxygen to water is considered.
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PMID:Low-temperature magnetic circular dichroism studies of native laccase: spectroscopic evidence for exogenous ligand bridging at a trinuclear copper active site. 298 9

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 method of continuous saturation has been used to measure the electron spin relaxation parameter T1T2 at temperatures between 10 and 50 K for a variety of S = 1/2 species including: CuA and cytochrome a of cytochrome c oxidase, the type 1 copper in several blue copper proteins, the type 2 copper in laccase, inorganic Cu(II) complexes, sulfur radicals, and low spin heme proteins. The temperature dependence and the magnitude of T1T2 for all of the species examined are accounted for by assuming that the Van Vleck Raman process dominates the electron spin-lattice relaxation. Over the entire temperature range examined, the relaxation of the type 1 coppers in six to seven times faster than that of type 2 copper, inorganic copper, and sulfur radicals, in spite of the similar g-anisotropies of these species. This result may indicate that the coupling of the phonon bath to the spin center is more effective in type 1 coppers than in the other complexes studied. The relaxation of CuA of cytochrome oxidase exhibits an unusual temperature dependence relative to the other copper complexes studied, suggesting that the protein environment of this center is different from that of the other copper centers studied and/or that CuA is influenced by a magnetic dipolar interaction with another, faster-relaxing paramagnetic site in the enzyme. A comparison of the saturation characteristics of the CuA EPR signal in native and partially reduced CO complexes of the enzyme also suggests the existence of such an interaction. The implications of these results with respect to the disposition of the metal centers in cytochrome oxidase are discussed.
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PMID:Electron spin relaxation of CuA and cytochrome a in cytochrome c oxidase. Comparison to heme, copper, and sulfur radical complexes. 608 26

A new EPR signal from Cu2+ has been discovered in reductive experiments with type 2 copper-depleted laccase from Polyporus versicolor. A novel EPR signal has also been found in native laccase from Rhus vernicifera on oxidation of the reduced protein with H2O2. In reoxidation experiments with cytochrome c oxidase from beef heart, a new Cu2+ signal has been observed. With Rhus laccase, the new signal is shown to originate from one of the copper ions that are nondetectable in the resting enzyme, and evidence is presented for the signals in Polyporus laccase and cytochrome c oxidase also stemming from the metal pairs that are antiferromagnetically coupled in the oxidized enzymes. The new signals show strong rhombic character, and the EPR parameters place them in a category different from the signals of type 1 as well as of type 2 Cu2+ ions.
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PMID:A new copper(II) electron paramagnetic resonance signal in two laccases and in cytochrome c oxidase. 624 91

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

A new rhombic EPR signal was recently discovered in the partially reduced type 2 copper-depleted Rhus vernicifera laccase (Reinhammar, B. (1983) J. Inorg. Biochem., in press). The signal originates from one of the type 3 Cu(II) ions that becomes EPR-detectable as a result of the selective reduction of the other copper ion in the exchange-coupled Cu(II)-Cu(II) pair. The 14N and 1H and 63,65Cu electron nuclear double resonance (ENDOR) of this uncoupled Cu(II) now have been collected and represent the first ENDOR measurements of a type 3 copper site. The data indicate that the copper is coordinated by at least three nitrogenous ligands, at least one of which is an imidazole. H/D exchange suggests a nearby H2O or OH-, perhaps as a fourth ligand. A similar EPR signal is seen for CuB of reduced cytochrome c oxidase under turnover conditions. The 14N ENDOR, and, therefore, the structure, of this site corresponds extremely closely to that of the laccase type 3 (Cu(II).
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PMID:Coordination environment for the type 3 copper center of tree laccase and CuB of cytochrome c oxidase as determined by electron nuclear double resonance. 630 Jan 17

We have developed a method of denaturing a copper-containing protein and sequestering the copper in the form of the bis(acetylacetonato)copper(II) complex. Because of the excellent resolution of the hyperfine structure in the resulting EPR spectrum, the method is useful for determining the 65Cu/63Cu isotope ratio in proteins such as tree laccase. Here we analyzed a mixed isotope sample prepared by reconstituting 63Cu-enriched type 2-depleted laccase with 65Cu(I) and found that it contained only 25% 65Cu. This proves that reconstitution of the type 2 copper is possible under conditions that permit little or no exchange between resident copper and the external pool. However, exchange does occur under reducing conditions when we expose the holoprotein to a large excess of exogenous copper.
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PMID:An electron paramagnetic resonance method for quantification of copper isotopes in proteins: application to a mixed-isotope derivative of laccase. 766 93

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