Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:2.4.99.10 (sialyltransferase)
1,547 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Polyclonal rabbit antisera against soluble human milk galactosyltransferase and bovine colostrum sialyltransferase were used to localize by indirect immunofluorescence the respective intracellular enzymes in primary cultures from bovine fetal kidneys and established cell lines of human and bovine fibroblasts. Staining for galactosyltransferase was juxtanuclear and crescent shaped in epitheloid cells; a similar staining, occasionally perinuclear and sparsely distributed in the cytoplasm, was found in fibroblasts. In contrast, staining for sialyltransferase in epitheloid kidney cells derived from the same primary culture was observed predominantly in cytoplasmic vesicles that were spread over the whole cytoplasm. Sialyltransferase-positive vesicles had a similar distribution in fibroblasts and often appeared concentrated around an unstained Golgi area. Thus, in both cell types galactosyl- and sialyltransferase were localized in different subcellular compartments. Since both galactosyl- and sialyltransferase participate in formation of the terminal glycan NeuAc(alpha 2----6)Gal(beta 1----4)GlcNAc(Neu, neuraminic acid) present in many N-glycosidic complex types of glycans, different subcellular compartments for these enzymes support a model of functional compartmentalization of the Golgi apparatus that is compatible with an assembly-line model for glycan chain elongation and termination.
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PMID:Localization of galactosyl- and sialyltransferase by immunofluorescence: evidence for different sites. 392 89

A UDP-Gal:Gal beta 1----4GlcNAc-R alpha 1----3- and a UDP-Gal:GlcNAc-R beta 1----4-galactosyltransferase have been purified 44,000- and 101,000-fold, respectively, from a Triton X-100 extract of calf thymus by affinity chromatography on UDP-hexanolamine-Sepharose and alpha-lactalbumin-Sepharose in a yield of 25-40%. Sodium dodecyl sulfate gel electrophoresis under reducing conditions revealed a major polypeptide species with a molecular weight of 40,000 and a minor form at Mr 42,000 for the alpha 1----3-galactosyltransferase and a major polypeptide with Mr 51,000 for the beta 1----4-galactosyltransferase. Analytical gel filtration on Sephadex G-100 yielded a monomeric form for each of the galactosyltransferases with Mr 43,000 and 59,000 respectively, in addition to peaks of activity at higher molecular weights. Isoelectric focussing of the alpha 1----3-galactosyltransferase revealed a significant charge heterogeneity with forms varying in pI values between 5.0 and 6.5. Acceptor specificity studies indicated that the purified alpha 1----3-galactosyltransferase was free from contaminating galactosyltransferase activities such as those involved in the synthesis of Gal beta 1----4GlcNAc-R and Gal beta 1----3GalNAc-R sequences, the blood group B determinant, the Pk antigen, trihexosylceramide, and ganglioside GM1. The alpha 1----3-galactosyltransferase appeared to be highly active with glycoproteins, oligosaccharides, and glycolipids having a terminal Gal beta 1----4GlcNAc beta 1----unit such as asialo-alpha 1-acid glycoprotein (Km = 1.25 mM), Gal beta 1----4GlcNAc beta 1----2Man alpha 1----3Man beta 1----4GlcNAc (Km = 0.57 mM), and paragloboside. The action of the alpha 1----3-galactosyltransferase was found to be mutually exclusive with that of the NeuAc:Gal beta 1----4GlcNAc-R alpha 2----6-sialyltransferase from bovine colostrum. In addition alpha 1----3-fucosylation of the N-acetylglucosamine residue in the preferred disaccharide acceptor structure completely blocked galactosylation of the alpha 1----3-galactosyltransferase.
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PMID:Biosynthesis of terminal Gal alpha 1----3Gal beta 1----4GlcNAc-R oligosaccharide sequences on glycoconjugates. Purification and acceptor specificity of a UDP-Gal:N-acetyllactosaminide alpha 1----3-galactosyltransferase from calf thymus. 393 35

A CMP-NeuAc:Gal beta 1----3GalNAc-R alpha 2----3-sialyltransferase has been purified over 20,000-fold from a Triton X-100 extract of human placenta by affinity chromatography on concanavalin A-Sepharose and CDP-hexanolamine-Sepharose in a yield of 10%. Sodium dodecyl sulfate-gel electrophoresis under reducing conditions revealed that the enzyme consists of a major polypeptide species with a molecular weight of 41,000 and some minor forms with molecular weights of 40,000, 43,000, and 65,000, respectively, which can be resolved partially by gel filtration on Sephadex G-100. Isoelectric focusing revealed that the enzyme occurs in a major and a minor charged form with pI values of 5.0-5.5 and 6.0, respectively. Acceptor specificity studies indicated that the enzyme catalyzes the incorporation of sialic acid from CMP-NeuAc into glycoproteins, glycolipids, and oligosaccharides which possess a terminal Gal beta----3GalNAc unit. Analysis of the structure of the product chain by high-pressure liquid chromatography and thin layer chromatography as well as methylation analysis revealed that a NeuAc alpha 2----3Gal beta 1----3GalNAc sequence is elaborated. The best glycoprotein acceptors are antifreeze glycoprotein and porcine submaxillary asialo/afucomucin. The disaccharide Gal beta 1----3GalNAc-Thr shows values for Km and V which are close to those of the latter glycoprotein. Lactose as well as oligosaccharides in which galactose is linked beta 1----3 or beta 1----4 to N-acetylglucosamine are less efficient acceptors. Of the glycolipids tested only gangliosides GM1 and GD1b served as an acceptor. The enzyme does not show an absolute aglycon specificity, and attaches sialic acid regardless the anomeric configuration of the N-acetylgalactosaminyl residue in the accepting Gal beta 1----3GalNAc unit. By use of specific acceptor substrates it could be demonstrated that the purified enzyme is free from other known sialyltransferase activities. Studies with rabbit antibodies raised against a partially purified sialyltransferase preparation indicated that the enzyme is immunologically unrelated to a Gal beta 1----4GlcNAc-R alpha 2----3-sialyltransferase, which previously had been identified in human placenta (Van den Eijnden, D.H., and Schiphorst, W. E. C. M. (1981) J. Biol. Chem. 256, 3159-3162). Initial-rate kinetic studies suggest that the sialyltransferase operates through a mechanism involving a ternary complex of enzyme, sugar donor, and acceptor. This is the first report on the extensive purification and characterization of a sialyltransferase from a human tissue.
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PMID:Purification and enzymatic characterization of CMP-sialic acid: beta-galactosyl1----3-N-acetylgalactosaminide alpha 2----3-sialyltransferase from human placenta. 398 39

Four common sialic acids (Sia), NeuAc, N-glycolyl-neuraminic acid (NeuGc), 4-O-acetyl-N-acetylneuraminic acid (4-O-Ac-NeuAc), and 9-O-Ac-NeuAc were examined for activation to their corresponding CMP-sialic acid conjugates and subsequently for their transfer to glycoprotein oligosaccharides by purified mammalian sialyltransferases. CMP-sialic acid synthetases from calf brain and from bovine and equine submaxillary glands were found to convert NeuAc, NeuGc, and 9-O-Ac-NeuAc to their corresponding CMP-sailic acids. In contrast, no conversion of 4-O-Ac-NeuAc to CMP-4-O-Ac-NeuAc was observed for any of the three synthetases examined. A new procedure for the preparation of CMP-9-O-Ac-NeuAc, CMP-NeuGc, and CMP-NeuAc in high yield and purity was developed, using the calf brain CMP-sialic acid synthetase. Each of these derivatives was tested as donor substrates for six mammalian sialyltransferases purified from porcine, rat, and bovine tissues, including a bovine GalNAc alpha 2,6 sialyltransferase whose purification is described in this report. The sialyltransferases examined represent those which form the Sia alpha 2,6Gal beta 1,4-GlcNAc-, Sia alpha 2,3Gal beta 1,3(4)GlcNAc-, Sia alpha 2,3Gal beta 1,3-GalNAc- and Sia alpha 2,6GalNAc- sequences found on N-linked and O-linked oligosaccharides of glycoproteins. CMP-NeuAc and CMP-NeuGc were equally good donor substrates for all six sialyltransferases. However, transfer of 9-O-Ac-NeuAc from CMP-9-O-Ac-NeuAc varied from only 10% to nearly 70% that of the transfer of NeuAc from CMP-NeuAc. Results are viewed to define the relative roles of direct transfer of these sialic acids and modification of glycosidically bound NeuAc in glycoproteins.
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PMID:Sialylation of glycoprotein oligosaccharides with N-acetyl-, N-glycolyl-, and N-O-diacetylneuraminic acids. 401 57

A cancer-associated glycolipid antigen defined by monoclonal antibody 19-9 has the structure NeuAc alpha 2-3Gal Gal beta 1-3GlcNAc beta 1-3Gal beta 1-4Glc beta 1-Cer. We have (formula; see text) studied its biosynthesis by testing the capacity of a crude microsomal fraction of SW 1116 cells to catalyze the addition of fucosyl or sialyl residues from GDP-fucose or CMP-sialic acid to glycolipid or oligosaccharide precursors. When the tetrasaccharide NeuAc alpha 2-3Gal beta 1-3GlcNAc beta 1-3Gal beta 1-4Glc (LSTa) is incubated with GDP-[14C]fucose and SW 1116 microsomes, a 14C-labeled oligosaccharide is formed that can be separated from the incubation mixture on an affinity column containing antibody 19-9 bound to protein A-Sepharose. The product migrates slower than LSTa when analyzed by paper or thin-layer chromatography. After treatment with neuraminidase, it co-migrates with the pentasaccharide Gal beta 1-3GlcNAc beta 1-3Gal beta 1-4Glc (formula; see text) (LNF II) in both chromatographic systems. Similar experiments demonstrate that SW 1116 microsomes catalyze the addition of a sialyl residue to the tetrasaccharide Gal beta 1-3GlcNAc beta 1-3Gal beta 1-4Glc to form LSTa. However, when LNF II is incubated with CMP-[14C]sialic acid and SW 1116 microsomes, no 19-9-active product is detected by affinity chromatography or by paper or thin-layer chromatography. Results using glycolipid precursors are consistent with these findings and also demonstrate the presence of the Lewis fucosyltransferase in SW 1116 cells. Thus, the biosynthesis of the sialyl-Lea antigen proceeds by addition of sialic acid to a type 1 precursor chain by a sialyltransferase, followed by addition of fucose by the Lewis fucosyltransferase.
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PMID:Biosynthesis of the cancer-associated sialyl-Lea antigen. 401 78

Fetal calf liver microsomes were found to be capable of sialylating 14C-galactosylated ovine submaxillary asialomucin. The main oligosaccharide product chain could be obtained by beta-elimination under reductive conditions and was identified as NeuAc alpha 2 leads to 3Gal beta 1 leads to 3GalNAcol (where GalNAcol represents N-acetylgalactosaminitol) by means of high performance liquid chromatography (HPLC) analysis and methylation. The branched trisaccharide Gal beta 1 leads to 3(NeuAc alpha 2 leads to 6)-GalNAcol and the disaccharide NeuAc alpha 2 leads to 6GalNAcol were not formed. Very similar results were obtained when asialofetuin and antifreeze glycoprotein were used as an acceptor. When 3H-sialylated antifreeze glycoprotein ([3H]NeuAc alpha 2 leads to 3Gal beta 1 leads to 3GalNAc-protein) was incubated with fetal calf liver microsomes and CMP-[14C]NeuAc, a reduced tetrasaccharide could be isolated. The structure of this product chain appeared to be [3H]NeuAc alpha 2 leads to 3Gal beta 1 leads to 3([14C]NeuAc alpha 2 leads to 6)GalNAcol, as established by means of HPLC analysis, specific enzymatic degradation with Newcastle disease virus neuraminidase, and periodate oxidation. These data indicate that fetal calf liver contains two sialyltransferases involved in the biosynthesis of the O-linked bisialotetrasaccharide chain. The first enzyme is a beta-galactoside alpha 2 leads to 3 sialyltransferase which converts Gal beta 1 leads to 3 GalNAc chains to the substrate for the second enzyme, a (NeuAc alpha 2 leads to 3Gal beta 1 leads to 3)GalNAc-protein alpha 2 leads to 6 sialyltransferase. The latter enzyme does not sialylate GalNAc or Gal beta 1 leads to 3GalNAc units but is capable of transferring sialic acid to C-6 of GalNAc in NeuAc alpha 2 leads to 3Gal beta 1 leads to 3GalNAc trisaccharide side chains, thereby dictating a strictly ordered sequence of sialylation of the Gal beta 1 leads to 3 GalNAc units in fetal calf liver.
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PMID:Biosynthesis of the O-glycosidically linked oligosaccharide chains of fetuin. Indications for an alpha-N-acetylgalactosaminide alpha 2 leads to 6 sialyltransferase with a narrow acceptor specificity in fetal calf liver. 619 Aug 2

Lines of KB cells resistant to Sendai virus-induced cytolysis have been isolated and characterized (Toyama, S., Toyama, Su., and Uetake, H. (1977) Virology 76, 503-515). This study is concerned with the nature of this mutation. Plasma membrane fractions from Sil cells were found to have decreased amount of sialic acid and the same amount of galactose as compared to the membranes from parental KB cells. Sil cells exhibited an increase in sensitivity to toxic effects of ricin and a decrease in sensitivity to wheat germ agglutinin. Binding of wheat germ agglutinin to Sil cells was markedly decreased. Several membrane glycoproteins of Sil cells migrated slightly faster than the corresponding bands of wild type membrane when examined by gel electrophoresis in sodium dodecyl sulfate. Sil cells had decreased sialyltransferase activity that catalyzed the transfer of sialic acid residues from CMP-N-acetylneuraminic acid to glycoprotein acceptors containing Gal beta 1 leads to 3GalNAc alpha 1 leads to O-Ser(Thr) chain. The decreased enzyme activity could not be accounted for by the presence of inhibitors, altered pH optimum, or increased sialidase or CMP-sialic acid hydrolase activities. These results indicate that a molecular basis for the Sil cell phenotype might be the deficiency of sialyltransferase.
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PMID:Deficient cytidine monophospho-N-acetylneuraminic acid: glycoprotein sialyltransferase activity in a clone of KB cells with altered cell fusion ability. 640 1

Turpentine induced inflammation has been shown to elevate liver sialyl- and galactosyltransferase activities (Turchen, B., Jamieson, J.C., Huebner, E., and van Caeseele, L. (1977) Can. J. Zool. 55, 1567-1571; Lombart, C., Sturgess, J., and Schachter, H. (1980) Biochem. Biophys. Acta 629, 1-12). We now report that serum sialyl-, but not galactosyltransferase activities are significantly elevated in turpentine inflammation. A liver slice system is used to demonstrate that liver releases large amounts of sialyltransferase activity into medium after inflammation, whereas only a low level of galactosyltransferase activity is released. Studies with rat and human asialo-alpha 1-acid glycoprotein as acceptors, coupled with the use of lactose to confirm the nature of the linkages formed, showed that Gal beta 1 leads to 4GlcNAc alpha 2 leads to 6 sialyltransferase is released from liver in turpentine inflammation and is mainly responsible for the elevated sialyltransferase activity found in serum. The alpha 2 leads to 6 sialyltransferase is exhibiting the properties of a typical acute phase reactant.
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PMID:Studies on the effect of inflammation on rat liver and serum sialyltransferase. Evidence that inflammation causes release of Gal beta 1 leads to 4GlcNAc alpha 2 leads to 6 sialyltransferase from liver. 641 2

On the basis of our previous and present studies with embryonic chicken brain system, we have proposed stepwise biosynthesis of GD1a (Gg-series) and LD1 (Lc-series) gangliosides, starting from ceramide (Fig. 4). At least three different galactosyltransferases GalT-2 (UDP-Gal:Glc-Cer), GalT-3(UDP-Gal:GM2) and GalT-4(UDP-Gal:LcOse3-Cer) and three different sialyltransferases SAT-1(CMP-NeuAc:Lac-Cer), SAT-2(CMP-NeuAc:GM3) and SAT-3(CMP-NeuAc:nLcOse4 Cer) are involved in the biosynthesis in vitro of these gangliosides. All six of these glycosyltransferases have been solubilized using nonionic detergents. Two forms of glycolipid:galactosyltransferases (GalT-3 and GalT-4) have been separated by DEAE sepharose CL-6B chromatography from solubilized supernatant of 11- to 13-day-old embryonic chicken brain. Using microisoelectric focusing (pH gradient 3 to 8) the galactosyltransferases (GalT-3 and GalT-4) have been separated from SAT-3. Two beta-N-acetylglucosaminyltransferases (GlcNAcT-2(UDP-GlcNAc:nLcOse4Cer(beta 1-3] and GlcNAcT-3(UDP-GlcNAc:nLcOse4Cer(beta 1-6] have also been solubilized from mouse T-lymphoma, P-1798, using Triton CF-54. These enzymes are involved in the synthesis of Ii-core gangliosides and 3H-products have been characterized by methylation studies. Further separation of these two GlcNAcT's are in progress.
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PMID:Biosynthesis in vitro of gangliosides containing Gg- and Lc-cores. 643 46

Rat liver Golgi apparatus are shown to have a CMP-N-acetylneuraminate: N-acetylglucosaminide (alpha 2----6)-sialyltransferase which catalyzes the conversion of the human milk oligosaccharide LS-tetrasaccharide-a (NeuAc alpha 2----3Gal beta 1---- 3GlcNAc beta 1----3Gal beta 1----4Glc) to disialyllacto -N- tetraose containing the terminal sequence: (formula: see text) found in N-linked oligosaccharides of glycoproteins. The N-acetylglucosaminide (alpha 2----6)-sialyltransferase has a marked preference for the sequence NeuAc alpha 2----3-Gal beta 1---- 3GlcNAc as an acceptor substrate. Thus, the order of addition of the two sialic acids in the disialylated structure shown above is proposed to be first the terminal sialic acid in the NeuAc alpha 2----3Gal linkage followed by the internal sialic acid in the NeuAc alpha 2---- 6GlcNAc linkage. Sialylation in vitro of the type 1 branches (Gal beta 1---- 3GlcNAc -) of the N-linked oligosaccharides of asialo prothrombin to produce the same disialylated sequence is also demonstrated.
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PMID:Biosynthesis of a disialylated sequence in N-linked oligosaccharides: identification of an N-acetylglucosaminide (alpha 2----6)-sialyltransferase in Golgi apparatus from rat liver. 654 92


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