EC:2.4.99.6 - FACTA Search

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Query: EC:2.4.99.6 (sialyltransferase)
1,546 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Two mouse L cell variant lines (CL 3 and CL 6) selected for resistance to the toxic plant lectin ricin were restricted in their ability to replicate the two alphaviruses Sindbis virus and Semliki Forest virus. CL 3 cells have been shown to exhibit increased CMP-sialic acid:glycoprotein sialyltransferase and GM3 synthetase activities, whereas CL 6 cells have been shown to contain decreased UDPgalactose:glycoprotein galactosyltransferase and UDP-N-acetylglucosamine:glycoprotein N-acetylglucosaminyltransferase activities. The adsorption of Sindbis virus to CL 6 cells was considerably reduced, suggesting that the loss or inaccessibility of the receptors for Sindbis virus accounted for a major defect in virus production in these cells. In contrast, CL 3 synthesized Sindbis viral RNA and proteins but were unable to convert the precursor glycoprotein PE2 to the structural protein E2. The cleavage of PE2 to E2 was also blocked in both CL 3 and CL 6 cells infected with Semliki Forest virus.
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PMID:Restricted replication of two alphaviruses in ricin-resistant mouse L cells with altered glycosyltransferase activities. 21 29

A Golgi-rich fraction is prepared from cat hepatocytes by the means of a four-step sucrose density gradient. The material applied to this gradient is composed either of smooth microsomes prepared from healthy animals, or of total microsomes prepared from cat treated by 50 per cent ethanol (0.6 g/100 g body weight, administered by stomach tube). A light fraction (d : 1.10) is obtained by the two procedures. It does not show any glucose-6-phosphatase activity, but is enriched in sialyltransferase, known as a marker enzyme for Golgi apparatus. It also contains the three enzymes implicated in the biosynthetic pathway for UDP-glucose (glucokinase, phosphoglucomutase and UTP : glucose-1-phosphate uridylyltransferase). UDP-glucose being the ultimate substrate in membranous glucosylation reactions, these results could support the hypothesis that sugar-nucleotides necessary for the glycoprotein biosynthesis are produced in the Golgi vesicles directly.
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PMID:[Presence of enzymes catalyzing UDP-glucose biosynthesis in a low density Golgi fractions of cat hepatocytes]. 22 65

Sialyltransferase (EC 2.4.99.1) is released in large amounts by two hepatoma cell lines (SK-H-MA and CLH) established from patients with hepatocellular carcinoma (hepatoma). This release requires protein synthesis and glycoprotein synthesis, but not cell division. In contrast, sialyltransferase is released in minimal amounts by a cell line derived from normal human liver (Chang). The hepatoma cells also contain more surface and cellular sialyltransferase activity than Change cells. Hepatoma sialyltransferase has properties similar to other sialyltransferases. Using a calibrated Sephadex G-200 column, it is resolved into two forms with molecular weights of 65 000 and 80 000.
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PMID:The specific release of sialytransferase activity by human hepatoma cell lines. 22 27

Four different glycolipid:glycosyltransferase activities involved in the biosynthesis in vitro of gangliosides and blood group-related glycosphingolipids have been tested in a simian virus 40-transformed glial cell culture derived from the cerebrum of a fetus with Tay-Sachs disease (TSD). The TSD cultured brain cells contained little activity of either UDP-Gal:GM2(beta 1-3)galactosyltransferase (GalT-3; EC 2.4.1.62), which catalyzes the formation of GM1a from GM2 (tay-Sachs) ganglioside, or GDP-Fuc:nLcOse4Cer (alpha 1-2)fucosyltransferase (FucT-2; EC 2.4.1.89), which catalyzes the formation of H1 glycolipid from nLcOse4Cer. These cells contained a potent inhibitor of the second reaction (catalyzed by a Golgi-rich membrane fraction from bovine spleen), whereas no inhibition of the first reaction (catalyzed by a membrane fraction from 14-day-old embryonic chicken brain) was observed. The activity of UDP-Gal:LcOse3Cer(beta 1-4)galactosyltransferase (GalT-4; EC 2.4.1.86) was 30- to 80-fold higher than the activity of GalT-3. The presence of CMP-AcNeu:nLcOse4Cer sialyltransferase activity and the absence of either GalT-3 or FucT-2 suggested a probable pathway for the synthesis of sialylneolactotetraosylceramide [GM1b(GlcNAc)] in addition to a specific blockage of GM1a ganglioside synthesis from GM2 in these TSD transformed cells.
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PMID:Differential activities of glycolipid glycosyltransferases in Tay-Sachs disease: studies in cultured cells from cerebrum. 29 63

It was demonstrated that microsomal membranes from frog liver contain at least two different sialyltransferases involved in the synthesis of alpha 2 leads to 3 and alpha 2 leads to 6 oligosaccharide isomers. Studies on acceptor specificity of the sialyltransferase system with respect to low molecular acceptors revealed its similarity to the mammalian sialyltransferase system. However, sharp distinctions were observed in sialylation of mammalian glycoproteins. It was assumed that that the disaccharide unit of the acceptor oligosaccharide chain is a structural element, which in necessary but not sufficient for glycoprotein recognition by sialyltransferases.
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PMID:[Properties of membrane-bound sialyltransferase from rana temporaria liver]. 31 99

1. Trout (Salmo gairdneri) serum is rich in glycoproteins which are synthetized in liver. 2. An attempt to localize glycosyltransferases in hepatocytes is described, using cellular fractionation and marker enzyme determination. 3. Galactosyltransferase, mannosyltransferase, N-acetyl-glucosaminyl transferase, glucosyltransferase, sialyltransferase (on exogenous acceptor) are found in a microsomal fraction obtained by centrifugation at 117 X 10(5) g min of the post-mitochondrial supernatant. 4. Mannose is transferred to endogenous lipids and proteins.
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PMID:Evidence for glycosyltransferases in trout liver microsomes (Salmo gairdneri). 31 19

The recent reports of the use of serum and tissue enzyme assays in primary diagnosis and then in following the course of the disease have been reviewed. These include use of bone marrow acid phosphatase, isoenzymes of both acid and alkaline phosphatase, LDH5/LDH1 ratios, sialyltransferase and the combination of carcinoembryonic antigen with serum enzyme assays to help in prediction of the occurrence of hepatic metastases.
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PMID:Enzyme patterns in cancer. 32 72

Membrane-associated sialyltransferase complexes of Escherichia coli K-235 catalyze the synthesis of sialyl polymers which remain associated with the cell envelope. Sialyl monophosphorylundecaprenol is an intermediate in the formation of these unique surface structures, and fluidity of the lipid phase is required for the proper function of the enzyme complex (Troy, F.A., Vijay, I.K., and Tesche, N. (1975) J. Biol. Chem. 250, 156-163, 164-170). In membranes containing an increased unsaturated fatty acid content of the phospholipids, obtained by growing cells at 15 degrees C, synthesis of polysialic acid was uncoupled from synthesis of the sialyl lipid-linked intermediate. Using reconstruction experiments, the importance of the role of an endogenous acceptor in polymer formation was suggested by the unexpected finding that polysialic acid synthesis could be reactivated in inactive membranes by the addition of an exogenous acceptor which contained sialic acid. Concomitant with polymer synthesis was a rapid loss of labeled sialic acid from the lipid phase. The activated sialic acid was shown to be transferred directly to the exogenous acceptor. These results establish: 1) that the temperature-induced alteration in polymer synthesis resulted from the inability of cells grown at 15 degrees C to either synthesize or assemble a functional endogenous acceptor and not from a defect in the synthesis of the sialyltransferase; 2) the intermediate precursor role of lipid-soluble sialic acid in sialyl polymer synthesis; and 3) that the exogenous acceptor served directly as an "acceptor" and not as a catalytic "effector" which stimulated an inactive membrane-enzyme complex. These results are in accord with the possibility that the low temperature-induced derangement in polymer formation is a consequence of the altered lipid structure resulting from the greater unsaturated fatty acid content in the membrane phospholipids. U-14C-labeled exogenous acceptor was isolated from the culture filtrate of cells grown at 37 degrees C and purified to homogeneity by preparative polyacrylamide gel electrophoresis. The pure acceptor was characterized structurally as a homopolymer of sialic acid with a degree of polymerization of approximately 12. Potassium borohydride reduction of the acceptor prior to complete hydrolysis with neuraminidase established that the polymer possessed a free reducing terminus of sialic acid. Subsequent structural studies showed that these oligomers of sialic acid appeared in the culture filtrate as a result of acid-catalyzed hydrolysis from membrane-associated polysialic acids of about 150 to 200 sialyl residues. Marked diminution of several membrane proteins was observed for cells grown at 15 degrees C. The possible relationship of these alterations to the upward shift in unsaturated lipids and to the loss of a functional endogenous acceptor is currently under study.
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PMID:Role of a membranous sialyltransferase complex in the synthesis of surface polymers containing polysialic acid in Escherichia coli. Temperature-induced alteration in the assembly process. 37 3

Partial hepatectomy of rats was followed by a rise in liver sialyltransferase activity. The maximum (2.5-fold increase) was reached on the third day after the operation, after which the level started to decline, returning to normal by day 6. Determination of serum sialyltransferase in these animals showed a parallel pattern. Daily injection of 5 mg hydrocortisone to adrenalectomized rats led to a maximal 3-fold elevation in liver sialyltransferase within 3 days, but failed to elicit any change in the corresponding enzyme in the serum. Results from these two experiments suggest that the elevations of sialyltransferase in the tissue and in the circulation are independently regulated.
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PMID:Effect of partial hepatectomy and hydrocortisone administration on liver and serum sialyltransferase activities. 42 Aug 69

Two different sialyltransferases (EC 2.4.99.1) have been resolved from Triton X-100 extracts of porcine submaxillary glands by affinity chromatography on CDP-hexanolamine agarose. The predominant sialyltransferase of this tissue, a CMP-N-acetylneuraminate: alpha-D-N-acetylgalactosaminide alpha2 leads to 6 sialyltransferase, has been obtained in a partially purified and stable form. A less abundant but highly active enzyme, a CMP-N-acetylneuraminate: beta-D-galactoside alpha2 leads to 3 sialyltransferase, was purified over 90,000-fold to homogeneity. Chromatography of the latter enzyme on Sephadex G-200 separated two noninterconverting forms, designated A and B, with Stokes radii of 51 A and 31 A, respectively. Both forms have equal specific activity toward lactose and contain a single polypeptide with a molecular weight of about 50,000 as estimated by gel electrophoresis. Form A appears to bind 1.18 g of Triton X-100 per g of protein, or nearly an entire detergent micelle per polypeptide, while Form B binds little or no detergent. The enzymatic properties of both forms are similar (Rearick, J.I., Sadler, J.E., Paulson, J.C., and Hill, R.L. (1979) J. Biol. Chem. 254, 4444-4451) supporting the conclusion that Form A may represent the native sialyltransferase with an intact membrane-binding site, and Form B may be a large proteolytic fragment of Form A.
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PMID:Purification to homogeneity of a beta-galactoside alpha2 leads to 3 sialyltransferase and partial purification of an alpha-N-acetylgalactosaminide alpha2 leads to 6 sialyltransferase from porcine submaxillary glands. 43 96

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