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)

1. Chloroplasts isolated from leaves of spinach-beet (Beta vulgaris L. ssp. vulgaris) do not catalyse the hydroxylation of p-coumaric acid in the dark unless a reductant (such as ascorbate, NADH or NADPH) is added. Superoxide dismutase has no effect on this reaction. 2. Illuminated chloroplasts catalyse the hydroxylation in the absence of added reductant. This reaction is completely inhibited by superoxide dismutase, but catalase has little effect. 3. Both hydroxylation in the light and hydroxylation in the dark in the presence of reductants are inhibited by diethyldithiocarbamate, EDTA, cyanide and 2-mercaptoethanol. 4. It is proposed that O-2- generated by illuminated chloroplasts is involved in the provision of a reductant to the enzyme phenolase.
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PMID:Hydroxylation of p-Coumaric acid by illuminated chloroplasts. The role of superoxide. 0 Feb 35

A highly purified preparation of tyrosinase from Neurospora crassa was isolated with a view to elucidating its mechanism of action. Both the resting and functioning molecular weights of the enzyme were determined as 33000 plus or minus 2000 and kinetic data in conjunction with binding studies indicated the presence of only one site within the enzyme for binding phenolic substrates. Kinetic constants for several 0-diphenols and for the inhibitors cyanide and benzoic acid were determined and the kinetics are consistent with a mechanism in which either the substrates are bound in a random order or the diphenol binds first. The enzyme forms an oxygenated complex and a complex with hydrogen peroxide and both are detectable spectroscopically
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PMID:The catecholase activity of Neurospora tyrosinase. 80 76

Few nonphagocytic cells are known to generate reactive oxygen intermediates. Based on horseradish peroxidase-dependent, catalase-inhibitable oxidation of fluorescent scopoletin, seven human tumor cell lines constitutively elaborated H2O2 at rates (up to 0.5 nmol/10(4) cells/h) large enough that cumulative amounts at 4 h were comparable to the amount of H2O2 produced by phorbol ester-triggered neutrophils. Superoxide dismutase-inhibitable ferricytochrome c reduction was detectable at much lower rates. H2O2 production was inhibited by diphenyleneiodonium, a flavoprotein binder (concentration producing 50% inhibition, 0.3 microM), and diethyldithiocarbamate, a divalent cation chelator (concentration producing 50% inhibition, 3 microM), but not by cyanide or azide, inhibitors of electron transport, or by agents that inhibit xanthine oxidase, polyamine oxidase, or cytochrome P450. Cytochrome b559, present in human phagocytes and lymphocytes, was undetectable in these tumor cells by a sensitive spectrophotometric method. Mouse fibroblasts transfected with human tyrosinase complementary DNA made melanin, but not H2O2. Constitutive generation of large amounts of reactive oxygen intermediates, if it occurs in vivo, might contribute to the ability of some tumors to mutate, inhibit antiproteases, injure local tissues, and therefore promote tumor heterogeneity, invasion, and metastasis.
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PMID:Production of large amounts of hydrogen peroxide by human tumor cells. 184 17

The equilibrium and the kinetics of the reaction between Neurospora crassa tyrosinase and cyanide have been studied. Cyanide reacts with the binuclear copper active site of the protein competitively with respect to dioxygen and displaces the metal ions. This process occurs stepwise and involves transient intermediates containing mononuclear Cu(I) sites. The reaction mechanism proved to be the same as described earlier for molluscan and arthropodan hemocyanins, which share with tyrosinase the same copper active site organization, but perform different physiological functions. A comparison of the kinetic parameters between the different proteins shows that the tyrosinase copper active site has a greater accessibility than that of hemocyanin. The relevance of these data in terms of structure-function relationship and evolution of the binuclear copper proteins is discussed.
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PMID:The reaction of CN- with the binuclear copper site of Neurospora tyrosinase: its relevance for a comparison between tyrosinase and hemocyanin active sites. 214 78

Tyrosinase usually catalyzes the conversion of monophenols to o-diphenols and oxidation of diphenols to the corresponding quinones. However, when 3,4-dihydroxymandelic acid was provided as the substrate, it catalyzed an unusual oxidative decarboxylation reaction generating 3,4-dihydroxybenzaldehyde as the sole product. The identity of the product was confirmed by high-performance liquid chromatography (HPLC) as well as ultraviolet and infrared spectral studies. None of the following enzymes tested catalyzed the new reaction: galactose oxidase, ceruloplasmin, superoxide dismutase, ascorbate oxidase, dopamine beta-hydroxylase, and peroxidase. Phenol oxidase inhibitors such as phenylthiourea, potassium cyanide, and sodium azide inhibited the reaction drastically, suggesting the participation of the active site copper of the enzyme in the catalysis. Mimosine, a well-known competitive inhibitor of tyrosinase, competitively inhibited the new reaction also. 4-Hydroxymandelic acid and 3-methoxy-4-hydroxymandelic acid neither served as substrates nor inhibited the reaction. Putative intermediates such as 3,4-dihydroxybenzyl alcohol and (3,4-dihydroxybenzoyl)formic acid did not accumulate during the reaction. Oxidation to a quinone methide derivative rather than conventional quinone accounts for this unusual oxidative decarboxylation reaction. Earlier from this laboratory, we reported the conversion of 4-alkylcatechols to quinone methides catalyzed by a cuticular phenol oxidase [Sugumaran, M., & Lipke, H. (1983) FEBS Lett. 155, 65-68]. Present studies demonstrate that mushroom tyrosinase will also catalyze quinone methide production with the same active site copper if a suitable substrate such as 3,4-dihydroxymandelic acid is provided.
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PMID:Tyrosinase catalyzes an unusual oxidative decarboxylation of 3,4-dihydroxymandelate. 309 74

Tyrosinase, which usually catalyzes the conversion of o-diphenols to o-benzoquinones, catalyzed an unusual oxidative dimerization of 1,2-dehydro-N-acetyl-dopamine to a benzodioxan derivative. The identity of the product was confirmed by UV, IR spectra, and NMR studies. During the oxidation, generation of a transient reactive intermediate could be witnessed by its characteristic visible absorption spectrum. Typical phenoloxidase inhibitors such as phenylthiourea, potassium cyanide, sodium azide, and sodium fluoride drastically inhibited the above reaction. Mimosine, a known competitive inhibitor of o-diphenoloxidase activity, also inhibited the new reaction competitively, suggesting that both the observed oxidative dimerization and the conventional quinone production are catalyzed by the same active site copper of tyrosinase. Based on our earlier findings (Sugumaran, M., and Lipke, H. (1983) FEBS Lett. 155, 65-68; Sugumaran, M. (1986) Biochemistry 25, 4489-4492) that phenoloxidases can produce quinone methides from certain 4-alkylcatechols, possible mechanisms for this new reaction are presented.
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PMID:Tyrosinase-catalyzed unusual oxidative dimerization of 1,2-dehydro-N-acetyldopamine. 311 46

Reducing agents had no effect on the oxidation of 3,4-dihydroxyphenylalanine (DOPA) to quinone by Mycobacterium leprae; no quinone formation by o-diphenoloxidase of mammalian or plant origin was detected under similar experimental conditions. Ascorbic acid and reduced glutathione prevented further oxidation and polymerization of the quinone to melanin by M. leprae; cysteine was less effective. In the presence of reducing agents, the quinone (indole-5,6-quinone) formed from DOPA by M. leprae was not reduced back to diphenol. On the other hand, the quinone (dopachrome) produced from DOPA by mammalian or plant phenolase was rapidly decolorized by reducing agents. Oxidized glutathione and cystine had little effect on o-diphenoloxidase from all of the three sources. Cyanide, which completely inhibited mammalian and plant phenolases, had only a partial effect on the enzyme in the bacilli. Various lines of evidence suggest that the properties of o-diphenoloxidase in M. leprae are different from those of similar enzymes obtained from other sources.
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PMID:Unusual effects of reducing agents on 0-diphenoloxidase of Mycobacterium leprae. 499 15

Incubation of native human 125I-IgG with polymorphonuclear neutrophil (PMN) peroxidase-containing granules or with purified myeloperoxidase (MPO) in the presence of H2O2 and a suitable hydrogen donor such as catechol generated large amounts of heavy IgG aggregates. Short-term incubation (15 to 60 min) of native 125I-IgG (400 microgram) with MPO-containing granules or with purified MPO (1.5 microgram) in the presence of H2O2 (0.036 to 0.36 mumol) and catechol (0.2 mumol) resulted in the generation of 8 to 100 microgram of heavy IgG aggregates (3 X 10(5) to 4 X 10(6) daltons). Aggregate formation was completely abolished by the omission of H2O2 or catechol, and by the addition of catalase, sodium azide, or cyanide. IgG aggregates were also generated with tyrosinase, tyrosine, and atmospheric oxygen. These results indicate that aggregation was due to MPO-H2O2-mediated oxidation of catechol to orthoquinone, which was deemed to be directly responsible for cross-linking by non-enzymic biochemical reactions. The IgG aggregates generated were shown to behave as typical immune complexes in that they consumed C, were detected by the solid-phase C1q and Raji cell assays, and were precipitable by monoclonal rheumatoid factor. This nonspecific oxidative protein-aggregation reaction may play an important role in the pathogenesis of tissue injury in acute and chronic inflammatory processes and in drug reactions. It could also provide an explanation for the frequent detection of circulating immune complex-like material in a large variety of acute and chronic inflammatory states.
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PMID:Generation of IgG aggregates by the myeloperoxidase-hydrogen peroxide system. 630 Feb 34

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

Lactate production and oxygen consumption were studied in single cell suspension prepared from solid tumours of the black-melanotic (Ma), brown-melanotic (MI) and amelanotic (Ab) melanomas of hamster. Aerobic lactase production was about 5 times higher in the fast growing Ab melanoma than in the slow growing Ma and MI melanomas. Aerobic lactate production in both melanotic hamster melanomas was stimulated by 3-(3,4-dihydroxyphenyl)-L-alanine. This compound was without effect on the cells isolated from amelanotic hamster melanoma. L-Phenylalanine, a known competitive tyrosinase inhibitor reduced the stimulatory effect of L-DOPA on the the lactate production. Oxygen consumption was similar in all three melanomas. The oxygen consumption was inhibited completely by 1 mM potassium cyanide in the Ab melanoma but only in about 1/3 in the Ma and MI melanomas. The Pasteur effect was higher in relative terms and lower in absolute terms in the melanotic melanomas than in the Ab melanoma only . The Crabtree effect was present in the Ab melanoma only. Thus glycolysis measured by aerobic and anaerobic lactic acid formation, and cell respiration, measured by oxygen consumption sensitive to KCN, were both higher in the more malignant, less differentiated Ab melanoma than in the Ma and MI melanomas. The suggestion is presented that the process of melanogenesis influences both aerobic glycolysis and the KCN insensitive consumption in the melanotic hamster melanomas.
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PMID:Biochemical characterization of three hamster melanoma variants--II. Glycolysis and oxygen consumption. 669 97

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