EC:1.10.3.1 - FACTA Search

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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)

Purified tyrosinase T1 was incubated with neuraminidase. The catalytic activity of tyrosinase was essentially retained, after this treatment. The tyrosinase band (Dopa stained) was transformed into a new less anodic form, similar to tyrosinase T2, on disc electrophoresis. The band of protein was also converted to the same position as the Dopa stained. The other hand, the only one PAS stained band of native tyrosinase T1 was splitted into the three slower-moving bands. One was consistent with Dopa and protein stained bands. The other two were much more slower than the former band and completely free of peptide and enzymic activity. The PAS-densitometric value of native tyrosinase T1 was almost equal to those of three separated bands in total. These results suggest that mammalian tyrosinase is a kind of glycoprotein.
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PMID:Tyrosinase as glycoprotein. 80 74

1. Human tyrosinase is a glycoprotein containing N-acetylneuraminic acid. 2. The terminal neuraminic acid groups are linked to D-galactose. 3. In addition, human tyrosinase reacts strongly with concanavalin A. This finding indicates that the carbohydrate chain of human tyrosinase contains D-mannose. 4. The data presented here suggest that the carbohydrate moiety of human tyrosinase is linked to the protein core in an alkali-stable form. 5. Alkali-labile carbohydrate chains which occur predominantly in membrane bound glycoproteins could not be demonstrated serologically.
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PMID:Serological studies on the carbohydrate moiety of human tyrosinase. 81 83

Electrophoretic studies on malignant melanoma extracts before and after treatment with neuraminidase revealed that tyrosinase is a glycoprotein containing N-acetyl-neuraminic acid. Double diffusion tests using Concanavalin A and the lectin from Ricinus communis show that the carbohydrated chain of tyrosinase contains D-mannose as a sugar unit located within the carbohydrate chain. The terminal neuraminic acid groups are linked to D-galactose. The enzymatic activity of tyrosinase is not inhibited by Concanavalin A.
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PMID:Demonstration of carbohydrate structures in malignant melanoma tyrosinase. 81 68

Melanogenesis, i.e., synthesis of melanin and melanosomes, is a "cascade" of event which is channelled by internal and external regulatory factors. The recognition and selection of this information and subsequent differentiation of melanogenesis (melanin type and melanosomal development) would be regulated significantly by melanosomal membrane. The melanogenesis type could be switched relatively easily by UV light, hormone, and availability of tyrosinase substrate. The role of sulphydryl compounds as a regulatory factor in melanogenesis type (in particular for pheomelanogenesis) may not be tied to its absolute presence or absence, but rather, to the effective concentration within the melanocyte at a given time. It is, therefore, probable that the morphogenesis of melanosomes may not follow immediately in response to melanogenesis-type changes, hence the melanocyte revealing more often mosaic forms of melanosomes in nature after exposure to non-genetic factors. The switch of melanogenesis would be significantly controlled by structural and functional availability of vesiculoglobular bodies which are encoded or associated with HMSA-5 (69 kDa) glycoprotein. This HMSA-5 protein shares a significant homology with gp75 "b-locus" protein. However, because of our hypothesis that vesiculoglobular bodies carry post- (and pre-) tyrosinase regulatory factors involving in both pheo- and eumelanogenesis, the term "b-protein" which focuses only on eumelanogenesis may not be applied to HMSA-5.
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PMID:Regulatory factors of pheo- and eumelanogenesis in melanogenic compartments. 140 37

The TYRP (brown) locus determines pigmentation and coat color in the mouse. The human homolog of the TYRP locus has been recently identified and shown to encode a 75-kDa transmembrane melanosomal glycoprotein called gp75. The gp75 glycoprotein is homologous to tyrosinase, an enzyme involved in the synthesis of melanin, forming a family of tyrosinase-related proteins. A genomic clone of human gp75 was used to map the human TYRP locus to chromosome 9, region 9p23, by nonradioactive fluorescent in situ hybridization. Specificity of hybridization was tested with a genomic fragment of human tyrosinase that mapped to a distinct site on 11q21. The 9p region has been reported to be nonrandomly altered in human melanoma, suggesting a role for the region near the TYRP locus in melanocyte transformation.
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PMID:Assignment of the human TYRP (brown) locus to chromosome region 9p23 by nonradioactive in situ hybridization. 157 87

It is shown that dopachrome (2-carboxy-2,3-dihydroindole-5,6-quinone) tautomerase (DCT) is a glycoprotein containing N-linked oligosaccharides. The enzymic activity can be stimulated by partial deglycosylation with a number of glycosylases such as neuraminidase, beta-mannosidase and beta-galactosidase. However, the stability of the enzyme after the hydrolytic treatment becomes lower. Thus total deglycosylation with peptide N-glycosidase F directly provokes an inactivation of DCT. The native enzyme also shows a strong affinity for concanavalin A-Sepharose. This affinity decreases after treatment with neuraminidase and/or beta-mannosidase. The DCT associated with coated vesicles seems to be mostly glycosylated, since the action of glycosylases on the enzyme obtained from these vesicles produced a similar stimulation to that with the melanosomal enzyme. Treatment of cultured melanocytes with tunicamycin elicited a decrease in the amount of active DCT inside the cells. All data suggest that the structure of the carbohydrate moiety of DCT should be very similar to, if not identical with, the structure proposed for tyrosinase by Ohkura, Yamashita, Mishima & Kobata (1984) Arch. Biochem. Biophys. 235, 63-77.
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PMID:The action of glycosylases on dopachrome (2-carboxy-2,3-dihydroindole-5,6-quinone) tautomerase. 159 91

Dopachrome tautomerase (DT) (EC 5.3.2.3) is a melanocyte-specific, membrane-associated, heat-labile, non-dialyzable, protease-sensitive factor which catalyzes the isomeric rearrangement of dopachrome to 5,6-dihydroxyindole-2-carboxylic acid (DHICA), apparently through a tautomerization reaction. Metal ions such as Cu, Ni, Co, Zn, Mn, Ca, Al, and Fe can also catalyze the dopachrome/DHICA isomerization. How is the reaction regulated in vivo? An attractive possibility would be that DT is a metalloenzyme. Here we present evidence that this may indeed be the case. Purified preparations of DT and tyrosinase, obtained from Cloudman S91 mouse melanoma cells, were assayed in the presence of a variety of metal chelators including EDTA (predominantly Ca and Mg), EGTA (predominantly Ca), phenylthiourea (PTU) (predominantly Cu), 2,2'-dipyridyl (predominantly Fe); 1,10-phenanthroline (predominantly Fe), and 2,3-dihydroxybenzoic acid (predominantly Fe). In addition, DT activity was assayed in the presence of two non-chelating structural analogs of 1,10-phenanthroline. Results were as follows: (i) iron chelators inhibited DT activity with no effects on tyrosinase activity; (ii) inhibition by the chelators was reversible with the addition of ferrous iron; (iii) 1,10-phenanthroline pre-complexed to ferrous iron was not inhibitory to DT; (iv) non-chelating analogs of phenanthroline were not inhibitory to DT; (v) PTU was inhibitory to tyrosinase but not DT; (vi) Ca2+ and Mg2+ chelators had little effect on either enzyme activity. Finally, studies with glycosylation inhibitors, glycosylase enzymes, and immobilized lectins, indicated that DT is a glycoprotein. The results suggest that DT is a metal-containing glycosylated enzyme, possibly with ferrous iron at its catalytic center.
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PMID:Evidence that dopachrome tautomerase is a ferrous iron-binding glycoprotein. 163 43

Melanogenesis is regulated in large part by tyrosinase (monophenol monooxygenase; monophenol, L-dopa:oxygen oxidoreductase, EC 1.14.18.1), and defective tyrosinase leads to albinism. The mechanisms for other pigmentation determinants (e.g., those operative in tyrosinase-positive albinism and in murine coat-color mutants) are not yet known. One murine pigmentation gene, the brown (b) locus, when mutated leads to a brown (b/b) or hypopigmented (Blt/Blt) coat versus the wild-type black (B/B). We show that the b locus codes for a glycoprotein with the activity of a catalase (hydrogen-peroxide:hydrogen-peroxide oxidoreductase, EC 1.11.1.6) (catalase B). Only the c locus protein is a tyrosinase. Because peroxides may be by-products of melanogenic activity and hydrogen peroxide in particular is known to destroy melanin precursors and melanin, we conclude that pigmentation is controlled not only by tyrosinase but also by a hydroperoxidase. Our studies indicate that catalase B is identical with gp75, a known human melanosomal glycoprotein; that the b mutation is in a heme-associated domain; and that the Blt mutation renders the protein susceptible to rapid proteolytic degradation.
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PMID:Murine and human b locus pigmentation genes encode a glycoprotein (gp75) with catalase activity. 169 79

Employing as immunogen a short-term passaged, highly pigmented human melanoma cell line, we have produced the murine MoAb 2G10 of the IgG1 isotype. The antibody immunoprecipitated from 35S-methionine and 3H-glucosamine metabolically labeled human melanoma cells with a single-chain glycoprotein of 75 kD molecular weight. No such molecule could be precipitated from murine melanomas. To further investigate the fine specificity of the MoAb, immunochemical and immunohistochemical studies were performed. These studies demonstrated that MoAb 2G10 binds a significant fraction of tyrosinase activity from cell lysates, completely immunodepletes soluble cell extract of T4-tyrosinase molecules, and produces immunostaining patterns superimposable on those obtained with anti-T4-tyrosinase antibodies. Thus, MoAb 2G10 appears to recognize a human-specific determinant carried by either T4-tyrosinase or a closely related molecule. The functional relevance of this epitope remains to be evaluated.
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PMID:Production and characterization of the murine monoclonal antibody 2G10 to a human T4-tyrosinase epitope. 170 43

Two groups of cDNA clones were isolated by screening a lambda gt11 cDNA library of normal human melanocytes with antityrosinase antibodies: one group of 13 was related to the human tyrosinase gene. The properties of the other group of three cDNA clones was investigated by the use of a representative clone, Pmel 17-1. The cDNA hybridized to an mRNA species of approximately 2600 bases from human and murine melanocytes. The transcript of Pmel 17-1 (17-1 mRNA) was expressed preferentially in melanocytes and its abundance paralleled the melanin content. The expression of Pmel 17-1 mRNA increased after stimulation of human and murine melanoma cells with agents that increase the levels of melanization. Immunocompetition assays with monoclonal antibodies to gp75, a known pigmentation-associated antigen of melanocytes, suggested that Pmel 17-1 encodes a 75,000 Mr glycoprotein that is highly abundant in melanotic cells and shares some immunological homology with tyrosinase. The gene for Pmel 17-1 did not map at or near the c-albino locus in mice. The cDNA of Pmel 17-1 detected a single hybridizing restriction fragment in both human and murine DNA, indicating that the gene has been conserved between these two species and exists as a single gene in each.
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PMID:A melanocyte-specific complementary DNA clone whose expression is inducible by melanotropin and isobutylmethyl xanthine. 244 95

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