EC:1.10.3.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.10.3.1 (tyrosinase)
9,065 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A number of transition metal ions with a wide distribution in biological systems, e.g., Cu2+, Co2+ and Zn2+, are shown to affect markedly the chemical properties of melanins formed by the tyrosinase-catalysed oxidation of dopa. Acid decarboxylation and permanganate degradation provide evidence that melanins prepared in the presence of metal ions contain a high content of carboxyl groups arising from the incorporation of 5,6-dihydroxyindole-2-carboxylic acid (DICA) into the pigment polymer. Naturally occurring melanins from cephalopod ink and B16 mouse melanoma were found to be much more similar to melanins prepared in the presence of metal ions than to standard melanins prepared in the absence of metal ions. These results suggest that the presence of carboxylated indole units in natural melanins is probably due to the intervention in the biochemical pathway of metal ions which, as recently shown, catalyse the formation of DICA versus 5,6-dihydroxyindole in the rearrangement of dopachrome.
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PMID:Structural modifications in biosynthetic melanins induced by metal ions. 312 88

The conversion of tyrosine into dopa [3-(3,4-dihydroxyphenyl)alanine] is the rate limiting step in the biosynthesis of melanins catalysed by tyrosinase. This hydroxylation reaction is characterized by a lag period, the extent of which depends on various parameters, notably the presence of a suitable hydrogen donor such as dopa or tetrahydropterin. We have now found that catalytic amounts of Fe2+ ions have the same effect as dopa in stimulating the tyrosine hydroxylase activity of the enzyme. Kinetic experiments showed that the shortening of the induction time depends on the concentration of the added metal and the nature of the buffer system used and is not suppressed by superoxide dismutase, catalase, formate or mannitol. Notably, Fe3+ ions showed only a small delaying effect on tyrosinase activity. Among the other metals which were tested, Zn2+, Co2+, Cd2+ and Ni2+ had no detectable influence, whereas Cu2+ and Mn2+ exhibited a marked inhibitory effect on the kinetics of tyrosine oxidation. These findings are discussed in the light of the commonly accepted mechanism of action of tyrosinase.
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PMID:Effect of metal ions on the kinetics of tyrosine oxidation catalysed by tyrosinase. 392 96

The thermostability of tyrosinase from three wild type strains of Neurospora crassa has been investigated. For this purpose a sequence comparison of two thermostable and one thermolabile tyrosinase isoenzyme was carried out. It revealed that at position 201 the thermostable enzyme forms share an aspartate residue in contrast to an asparagine residue in the thermolabile form. In addition, one of the thermostable isoenzymes displays five other substitutions. Since the relative stability of the thermostable forms as compared to the thermolabile one decreases with increasing ionic strength, the common aspartate residue is thought to bring about the additional stability of the thermostable isoenzymes by forming a salt bridge between aspartate 201 and a positively charged group of the protein. The strong pH-dependency of the thermostability with an apparent pKA of 6.6 indicates a histidinium side chain as the most likely ionic group to be involved in the salt bridge. This conjecture is also supported by measurements of the stability towards the chaotropic agent guanidinium chloride. The difference of the free energy change of denaturation delta GDH2O between the apoenzymes of a thermostable and a thermolabile isoenzyme was calculated as 2.5 kcal mol-1. Furthermore, it was shown that the copper ions of the native and the cobalt ions of Co(II)-substituted tyrosinase strongly enhance the stability of the protein as compared to its apoform.
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PMID:Comparison of amino acid sequence and thermostability of tyrosinase from three wild type strains of Neurospora crassa. 621 Jun 97

Some structural properties of Neurospora tyrosinase have been studied by fluorescence spectroscopy. The emission spectra observed for oxy-, deoxy-, met- and apo-tyrosinase and the Co2+-substituted form are indicative of a protein containing buried tryptophan residues. By using acrylamide and iodide, part of the emission is quenched, indicating heterogeneity in the tryptophan environment. Upon binding of Cu2+ or Co2+ to apo-tyrosinase, a marked decrease of the tryptophan quantum yield is observed. A further decrease in emission intensity results from the binding of molecular O2 to the deoxy form. The fluorescent probe 8-anilinonaphthalene-1-sulphonate binds to tyrosinase only when the metal ions are removed. Reconstitution of apo-tyrosinase with Cu2+ completely displaces the probe, suggesting that 8-anilinonaphthalene-1-sulphonate binds to apo-tyrosinase at the active site. The fluorescence properties of Neurospora tyrosinase are compared with those of haemocyanin.
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PMID:Fluorescence properties of Neurospora tyrosinase. 621 31

The antiferromagnetically spin-coupled copper(II) pair in Neurospora tyrosinase was substituted by cobalt, yielding a stoichiometry of 2 mol of Co/mol of protein. The low magnitude of the high-spin Co(II) EPR signal indicates spin coupling of the two Co(II) ions similar to that observed in the native enzyme. The absorption spectrum with four transitions in the visible region of intermediate intensity (epsilon 607(670), epsilon 564(630), epsilon 526(465)), a shoulder at 635 nm, and the near-infrared bands at 1180 (epsilon 30) and 960 nm (epsilon 15) indicate tetrahedral coordination around the Co(II) center. The cobalt(II) tyrosinase is enzymatically inactive, and there is no evidence that it binds molecular oxygen. Upon addition of cyanide or the competitive tyrosinase inhibitors L-mimosine, benzoic acid, or benzhydroxamic acid te absorption spectrum changes in a characteristic manner. This optical perturbation shows that binding of these inhibitors (and presumably of the substrates) occurs at or near the metal site. One Co(II) ion can be removed preferentially by incubation with KCN at high pH, indicating the two ions not to be in an identical environment.
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PMID:Cobalt tyrosinase: replacement of the binuclear copper of Neurospora tyrosinase by cobalt. 645 96

The involvement of histidyl residues as potential ligands to the binuclear active-site copper of Neurospora tyrosinase was explored by dye-sensitized photooxidation. The enzymatic activity of the holoenzyme was shown to be unaffected by exposure to light in the presence of methylene blue; however, irradiation of the apoenzyme under the same conditions led to a progressive loss of its ability to be reactivated with Cu2+. This photoinactivation was paralleled by a decrease in the histidine content whereas the number of histidyl residues in the holoenzyme remained constant. Copper measurements of photooxidized, reconstituted apoenzyme demonstrated the loss of binding of one copper atom per mole of enzyme as a consequence of photosensitized oxidation of three out of nine histidine residues. Their sequence positions were determined by a comparison of the relative yields of the histidine containing peptides of photooxidized holo- and apotyrosinases. The data obtained show the preferential modification of histidyl residues 188, 193, and 289 and suggest that they constitute metal ligands to one of the two active-site copper atoms. Substitution of copper by cobalt was found to afford complete protection of the histidyl residues from being modified by dye-sensitized photooxidation.
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PMID:Histidine at the active site of Neurospora tyrosinase. 645 22

In addition to tyrosinase and its related proteins melanosomes contain a variety of further enzyme activities. Using spectrophotometric methods alpha-mannosidase and gamma-glutamyl-transferase (GGT) were studied in B 16 melanoma, in isolated melanosomes and in tumour host (mice C57BL6J) sera. When compared to the original melanoma tissue (12.8-26.7 nkat/g TP) isolated melanosomes exhibited much higher alpha-mannosidase activity [227-420 nkat/g of total proteins (TP)]. Strong activation by Zn2+ and no influence of Co2+ ions suggested that the dominant form of alpha-mannosidase of the enzyme present in melanosomes was of the acid (lysosomal) type. The GGT activity of isolated melanosomes (168-244 nkat/g TP) was comparable with that of the whole melanoma tissue (203-375 nkat/g TP) . Treatment of melanosomes with detergents (0.1% Triton X-100, 0.5% deoxycholate) revealed striking extractibility differences between the two enzymes investigated in relation to their localization: alpha-mannosidase remained immobilized in the melanized matrix of melanosomes whereas the membrane bound GGT was easily released. Unlike the alpha-mannosidase the GGT serum levels were increasing in relation to the melanoma growth. The demonstration of acid form of alpha-mannosidase in melanosomes is consistent with their lysosomal ranking; the presence of GGT is in keeping with its expected roles both in protection against oxidative stress and in melanogenesis.
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PMID:Disparate behaviour of two melanosomal enzymes (alpha-mannosidase and gamma-glutamyltransferase). 1064 9

Organosolv lignins obtained from Eucalyptus grandis, sugarcane bagasse and Picea abies by Acetosolv, Formacell and Organocell processes were characterized, fractionated and converted to hydroxymethylated and oxidized products. The reactivity of lignins with formaldehyde did not improve significantly with the fractionation. Both eucalyptus Acetosolv (EAc) and eucalyptus Formacell (EFo) lignins retained high heterogeneity in relation to the molecular weight distribution but not in relation to structural units. The temperatures of the exothermic peaks and the apparent activation energies for the cross-linking are different for hydroxymethylated lignins and phenol, with similar cure temperatures of the resols. Chemical oxidation using cobalt(II) and manganese(II) salts furnished oxidized lignins with improved chelating properties. These chelating agents can remove up to 14% of Mn present in pulps, decreasing the peroxide consumption in the bleaching process. The products obtained can be also used as oxidized phenols and controlled-release matrices. Oxidation of Acetosolv bagasse lignin with polyphenol oxidase furnishes lignins with chelating capacity 110% higher than that of original lignin.
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PMID:Hydroxymethylation and oxidation of Organosolv lignins and utilization of the products. 1148 Sep 18

Dioximato-cobalt(II), -iron(II) and -manganese(II) complexes (1)-(6), acting as functional catecholase and phenoxazinone synthase models, exhibit a deuterium kinetic isotope effect predicted by theory (k4H/k4D < or = 3) in the catalytic oxidative dehydrogenation of 3,5-di-tert-butylcatechol and 2-aminophenol by O2. KIEs in the range of (k4H/k4D approximately 1.79-3.51) are observed with (1) and (2) as catalysts, pointing to hydrogen atom transfer in the rate-determining step from the substrate hydroxy group to the metal-bound superoxo ligand. Less significant KIEs (1.06-1.20) are exhibited by catalysts systems (3)-(6), indicating that proton-coupled electron transfer is the preferred route in those cases.
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PMID:Hydrogen atom vs electron transfer in catecholase-mimetic oxidations by superoxometal complexes. Deuterium kinetic isotope effects. 1561 28

A tyrosinase (Tyr) screen-printed biosensor based on the electroreduction of enzymatically generated quinoid products was electrochemically characterized and optimized for determination of carbamates and organophosphorus pesticides. A composite electrode prepared by screen-printing a cobalt (II) phthalocyanine (CoPc) modified cellulose-graphite composite on a polycarbonate support was employed as electrochemical transducer. The Tyr biosensor was prepared by immobilization of enzyme on the composite electrode surface by cross-linking with glutaraldehyde and bovine serum albumin. Parameters affecting the biosensor response such as response time, enzyme loading, concentration and pH of the buffer solution were optimized utilizing catechol as substrate. The maximum response for o-quinone enzymatically generated was obtained after 2 min of reaction. A good reproducibility and high operational stability were found for Tyr biosensor (60 units) at 50 mM phosphate buffer, pH 6.50. Under these conditions, the useful lifetime of biosensor was 10 days. After 15 days, the biosensor could be used with 20% of the initial value. Inhibition studies on the o-quinone steady-state current (at -0.20 V versus Ag/AgCl) were performed to investigate the inhibition kinetics of the pesticides in the enzymatic activity of mushroom tyrosinase. The results shown that the methyl parathion and carbofuran can lead to competitive inhibition process of the enzyme, while diazinon and carbaryl act as mixed inhibitors. Linear relationships were found for methyl parathion (6-100 ppb), diazinon (19-50 ppb), carbofuran (5-90 ppb) and carbaryl (10-50 ppb). Analysis of natural river water samples spiked with 30 ppb of each pesticide showed recoveries between 92.50% and 98.50% and relative standard deviations of 2%.
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PMID:Amperometric biosensing of carbamate and organophosphate pesticides utilizing screen-printed tyrosinase-modified electrodes. 1763 Oct 99

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