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)

Panaeolus sphinctrinus, Panaeolus papilionaceus, and Coprinus friesii are described as producers of ligninolytic enzymes. P. papilionaceus and P. sphinctrinus both produced a laccase. In addition, P. sphinctrinus produced a manganese peroxidase. C. friesii secreted a laccase and two peroxidases similar to the peroxidase of Coprinus cinereus. The purified laccases and peroxidases were characterized by broad substrate specificities, significant enzyme activities at alkaline pH values, and remarkably high pH optima. The two peroxidases of C. friesii remained active at pH 7.0 and 60 degrees C for up to 60 min of incubation. The peroxidases were inhibited by sodium azide and ethylene glycol-bis (beta-aminoethyl ether)-N,N,N',N'-tetraacetic acid (EGTA), whereas the laccases were inhibited by sodium azide and N,N-diethyldithiocarbamic acid. As determined by native polyacrylamide gel electrophoresis and isoelectric focusing, all three fungi produced laccase isoenzymes.
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PMID:Characterization of laccases and peroxidases from wood-rotting fungi (family Coprinaceae). 957 23

A high molecular model compound of polycyclic aromatic hydrocarbon was synthesised by coupling pyrene to PEG(5000). The pyrene-PEG was used for the study of a laccase-mediator-system. To prevent direct contact between the substrate and the enzyme the two were kept in their own compartments separated by a membrane. The low molecular mediators, 1-hydroxybenzotriazole and 2, 2'-azino-bis-(3-ethylbenzothiazoline-6-sulphonic acid), which were oxidised by laccase to the corresponding radicals or cations permeated the membrane and reacted with the pyrene-PEG model compound. Oxidation of the model compound resulted in an alpha-oxidation of the alkyl-chain leading to two main oxidation products. The same oxidation products were obtained in the reaction system without a membrane.
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PMID:Radical mediated indirect oxidation of a PEG-coupled polycyclic aromatic hydrocarbon (PAH) model compound by fungal laccase. 1074 94

A laccase, the only ligninolytic enzyme produced by the basidiomycete Pleurotus ostreatus strain RK 36 was purified to homogeneity and characterized. The enzyme is a monomeric protein with a molecular weight of 67 000 Da and an isoelectric point of 3.6. Type I and type III Cu(2+) centers were identified by spectrophotometry. With syringaldazine as substrate laccase showed the highest oxidation rates at pH 5.8, 50 degrees C, and in 40 mM phosphate buffer. Among the tested stabilization parameters laccase retained most of its activity in high ionic buffer, pH 10, -20 degrees C, in the presence of 10 mM benzoic acid and with 35% ethylene glycol respectively. Crude laccase was covalently immobilized to Eupergit((R))C. Benzoate was found to stabilize the enzyme during the immobilization process. The activity loss of laccase during 10 days at 25 degrees C storage was 2% on average. Continuous elimination of 2,6-dimethoxyphenol by immobilized laccase was carried out in a packed bed reactor followed by filtration of the formed precipitate. The solubility of the polymerisates of oxidized syringaldazine, o-dianisidine, and 2,6-dimethoxyphenol with respect to temperature, pH-value and organic solvents were examined. The precipitates were found to be insoluble under non-extreme environmental conditions.
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PMID:Characterization and immobilization of the laccase from Pleurotus ostreatus and its use for the continuous elimination of phenolic pollutants. 1089 61

We are studying the enzymatic modification of polycyclic aromatic hydrocarbons (PAHs) by the laccase from Coriolopsis gallica UAMH 8260. The enzyme was produced during growth in a stirred tank reactor to 15 units ml(-1), among the highest levels described for a wild-type fungus; the enzyme was the major protein produced under these conditions. After purification, it exhibited characteristics typical of a white rot fungal laccase. Fifteen azo and phenolic compounds at 1 mM concentration were tested as mediators in the laccase oxidation of anthracene. Higher anthracene oxidation was obtained with the mediator combination of ABTS and HBT, showing a correlation between the oxidation rate and the mediator concentration. Reactions with substituted phenols and anilines, conventional laccase substrates, and PAHs were compared using the native laccase and enzyme preparations chemically modified with 5000 MW-poly(ethylene glycol). Chemically modified laccase oxidized a similar range of substituted phenols as the native enzyme but with a higher catalytic efficiency. The k(cat) increase by the chemical modification may be as great as 1300 times for syringaldazine oxidation. No effect was found of chemical modification on mediated PAH oxidation. Both unmodified and PEG-modified laccases increased PAH oxidation up to 1000 times in the presence of radical mediators. Thus, a change of the protein surface improves the mediator oxidation efficiency, but does not affect non-enzymatic PAH oxidation by oxidized mediators.
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PMID:Enhanced activity by poly(ethylene glycol) modification of Coriolopsis gallica laccase. 1240 53

An integration plasmid pMW1-pepB for the pepB gene disruption in Aspergillus was constructed. The plasmid contained the pepB gene upstream (P) 1.4kb and downstream (T) 1.3kb homologous fragments with insertion of the expression unit of the hygromycin resistance gene (hph) between them. P and T DNA fragments were synthesized by PCR from Aspergillus niger chromosomal DNA. The integration plasmid was digested with the Hpa I restriction enzyme, the resultant 4.2kb linear fragment was introduced into the Aspergillus niger strain GICC2773 which expressing the glucoamylase/laccase fusion protein by PEG-mediated transformation. 62 Hygromycin resistance transformants were screened, and from them one strain named pepB29 was identified to be the pepB disruptant by PCR analysis. Data of functional assay of the pepB29 strain indicated that the disruption of the pepB gene secreted reduced acid proteolytic activity, and improved the heterologous protein laccase production.
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PMID:[Construction and functional analysis of the pepB gene disruptant in Aspergillus niger]. 1611 Sep 57

The blue laccase from the white-rot basidiomycete fungus Panus tigrinus, an enzyme involved in lignin biodegradation, has been crystallized. P. tigrinus laccase crystals grew within one week at 296 K using the sitting-drop vapour-diffusion method in 22%(w/v) PEG 4000, 0.2 M CaCl2, 100 mM Tris-HCl pH 7.5. The crystals belong to the monoclinic space group P2(1), with unit-cell parameters a = 54.2, b = 111.6, c = 97.1, beta = 97.7 degrees , and contain 46% solvent. A complete native data set was collected to 1.4 A resolution at the copper edge. Molecular replacement using the Coprinus cinereus laccase structure (PDB code 1hfu) as a starting model was performed and initial electron-density maps revealed the presence of a full complement of copper ions. Model refinement is in progress. The P. tigrinus laccase structural model exhibits the highest resolution available to date and will assist in further elucidation of the catalytic mechanism and electron-transfer processes for this class of enzymes.
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PMID:Crystallization and preliminary structure analysis of the blue laccase from the ligninolytic fungus Panus tigrinus. 1651 Sep 95

Laccases could prevent fabrics and garments from re-deposition of dyes during washing and finishing processes by degrading the solubilized dye. However, laccase action must be restricted to solubilized dye molecules thereby avoiding decolorization of fabrics. Chemical modification of enzymes can provide a powerful tool to change the adsorption behaviour of enzymes on water insoluble polymers. Polyethylene glycol (PEG) was covalently attached onto a laccase from Trametes hirsuta. Different molecular weights of the synthetic polymer were tested in terms of adsorption behaviour and retained laccase activity. Covalent attachment of PEG onto the laccase resulted in enhanced enzyme stability while with increasing molecular weight of attached PEG the substrate affinity for the laccase conjugate decreased. The activity of the modified laccases on fibre bound dye was drastically reduced decreasing the adsorption of the enzyme on various fabrics. Compared to the 5 kDa PEG laccase conjugate (K/S value 47.60) the K/S value decreased much more (47.96-46.35) after the treatment of dyed cotton fabrics with native laccase.
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PMID:Specificities of a chemically modified laccase from Trametes hirsuta on soluble and cellulose-bound substrates. 1679 29

Laccases, EC 1.10.3.2 or p-diphenol:dioxygen oxidoreductases, are multi-copper containing glycoproteins. Despite many years of research, genetic evidence for the roles of laccases in plants is mostly lacking. In this study, a reverse genetics approach was taken to identify T-DNA insertional mutants (the SALK collection) available for genes in the Arabidopsis laccase family. Twenty true null mutants were confirmed for 12 laccase genes of the 17 total laccase genes (AtLAC1 to AtLAC17) in the family. By examining the mutants identified, it was found that four mutants, representing mutations in three laccase genes, showed altered phenotypes. Mutants for AtLAC2, lac2, showed compromised root elongation under PEG-induced dehydration conditions; lac8 flowered earlier than wild-type plants, and lac15 showed an altered seed colour. The diverse phenotypes suggest that laccases perform different functions in plants and are not as genetically redundant as previously thought. These mutants will prove to be valuable resources for understanding laccase functions in vivo.
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PMID:Mutant identification and characterization of the laccase gene family in Arabidopsis. 1680 53

A commercial preparation of laccase (EC 1.10.3.2), cloned from Myceliophthora thermophila and expressed in Aspergillus oryzae (MtL), was purified and modified by conjugation with poly(ethylene glycol) (M(r) = 5000) and is labeled PEG-MtL. Native enzyme was found to have a molecular mass of 80 kDa, as determined by gel filtration, and 110 kDa, by SDS-PAGE. The oxidative dimerization of 2,6-dimethoxyphenol (DMP) to produce the corresponding dibenzoquinone was catalyzed by MtL in a manner comparable to that for a diffusion-controlled reaction (k(cat)/K(M) approximately = 10(8) M(-)(1) s(-)(1) and E(a) approximately = 18 kJ M(-)(1)). PEG-MtL was found, by TNBS titration, to have blocked 54% of lysine groups; its hydrodynamic and charge properties were different from those of MtL. Catalytic efficiency (k(cat)/K(M)) of PEG-MtL was similar to that of MtL with DMP as substrate; however, k(cat)/K(M) was 2-fold reduced for the reaction in which 2',2-azinobis(3-ethylbenzothiazoline-6-sulfonic acid) (ABTS) is oxidized to form a radical cation. E(a) values were similar in both enzyme preparations when assayed in buffered solutions. Far-UV CD spectra were similar for MtL and PEG-MtL and consistent with a protein rich in beta-sheet structure with negligible content of alpha-helices. A blue shift of near-UV CD spectrum for PEG-MtL as compared to MtL was consistent with the decreased polarity of the tyrosyl side chains upon PEG conjugation. Also the blue band of the copper active site was shifted from lambda approximately 610 nm (MtL) to lambda approximately 575 nm (PEG-MtL). Scanning microcalorimetry showed small denaturation enthalpies (6.3 and 7.5 J g(-)(1) for MtL and PEG-MtL, respectively), indicating the high stability of the beta-sheet folding pattern of laccases. However, PEG-MtL proved to be more stable, its half-denaturation temperature being 2 degrees C higher than that of MtL. In 30% alcohol, pegylated laccase showed slower enzyme-activity decay rates than the unmodified enzyme; this behavior was caused by a decrease in the activation entropy of the denaturation reaction. Results can be explained by entropic stabilization by PEG conjugation because of the restricted motion of some surface amino acid side chains, which results in a more stable active site.
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PMID:Thermostability of native and pegylated Myceliophthora thermophila laccase in aqueous and mixed solvents. 1684 20

We describe the construction of enzymatic nanoreactors through noncovalent envelopment of a glycoprotein by amphiphilic linear-dendritic AB or ABA copolymers. The synthetic procedure is based on the regioselective adsorption of dendritic poly(benzyl ether)-block-linear poly(ethylene glycol)-block-dendritic poly(benzyl ether) or linear poly(ethylene oxide)-block-dendritic poly(benzyl ether) copolymers onto the oxidative enzyme laccase from Trametes versicolor in aqueous medium. The complexes formed have improved catalytic activity compared with the native enzyme (77-85 nkat/mL vs 60 nkat/mL, respectively) and are more stable at elevated temperatures up to 70 degrees C. Experiments with deglycosylated laccase confirm that the glycoside fragments in the native enzyme serve as the anchor sites for the linear-dendritic copolymers. The enzymatic nanoreactors are able to effectively oxidize series of substrates: phenolic compounds (syringaldazine) and hydrophobic polyaromatic hydrocarbons (anthracene and benzo[a]pyrene) under "green" chemistry conditions.
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PMID:Enzymatic nanoreactors for environmentally benign biotransformations. 1. Formation and catalytic activity of supramolecular complexes of laccase and linear-dendritic block copolymers. 1825 55

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