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

The following three parameters were studied in Morris hepatomas of different growth rates: (a) the specific activity of guanosine dephosphate (GDP)-fucose:glycoprotein fucosyltransferase and cytidine monophosphate (CMP)-N-acetylneuraminic acid:glycoprotein sialyltransferase, (B) the content of GDP-fucosee and CMP-N-acetylneuraminic acid, and (c) the activity of alpha-L-fucosidase and neuraminidase. Fucosyltrasferase activities were significantly elevated in all hepatomas investigated. Especially high levels of enzyme were measured in the rapidly growing tumors 7777, 66, and 3924A. The increase varied between 2- and 3-fold when compared with the corresponding host liver. Conversely, the activity of the sialytransferase was greatly decreased in all hepatoma lines with a rapid or intermediate growth rate. In the fast-growing tumor 9618A2, the activity was reduced to 8%. GDP-fucose and CMP-N-acetylneuraminic acid were determined by the isotope dilution technique. In normal rat liver from Buffalo or ACl rats, the concentration of GDP-fucose was 6.5+/-0.9 and 9.5+/-1.1nmoles/g, wet weight, respectively. In the fast-growing hepatomas 3924A and 9121, levels up to 21.5 nmoles/g, wet weight, were found, However, the content of CMP-N-acetylneuraminic acid in hepatomas was indluenced to a lesser extent by the degree of differentiation of the tumor. In the most rapidly growing tumor, 9618A2, a level of alpha-L- fucosidase seven times higher than in host liver was determined. Moreover, there existed a correlation bewteen the age of the hepatoma and enzyme activity. Within the 2nd week after inoculation, fucosidase activity increased from 130 to 343 nmoles/hr/mg of protein. Neuraminidase was measured in a new linked assay system. The activity of this enzyme was lowered by 50% or was at least unchanged when compared to the activity in host liver. Our results indicate that specific alterations of fucose metabolism are a characteristic feature of Morris hepatomas.
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PMID:Glycosyltransferases and glycosidases in Morris hepatomas. 19 53

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

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

The substrate requirements, linkage specificity, and kinetic mechanism of a pure sialyltransferase from porcine submaxillary glands have been examined. The enzyme transfers sialic acid from the donor nucleotide, CMP-NeuAc, into the sequence NeuAcalpha2 leads to 3Galbeta1 leads to 3GalNAc, which is found in both glycoproteins and gangliosides. It forms only the alpha2 leads to 3 linkage with the disaccharide Gal/beta1 leads to 3GalNAc or antifreeze glycoprotein, which, along with asialoglycoproteins containing the sequence Gal/beta1 leads to 3GalNAcalpha1 leads to O-Thr/Ser, are the best acceptor substrates. Low molecular weight galactosides linked beta1 leads to 3 to glycose residues other than N-acetylgalactosamine are poor acceptors with relatively high Km values, while those in beta1 leads to 4 or beta1 leads to 6 linkages have both high Km and low Vmax. With glycoprotein and ganglioside acceptors this substrate specificity appears to be even more strict, with the sequence Gal/beta1 leads to 3GalNAc serving as the exclusive acceptor. Thus the present enzyme is not responsible either for the sequence, NeuAcalpha2 leads to 3Galbeta1 leads to 4GlcNAc, found in the asparagine-linked chains of certain glycoproteins, or for the synthesis of hematoside, NeuAcalpha2 leads to 3Galbeta1 leads to 4Glcbeta1 leads to 1Cer. Initial rate kinetic studies, with and without inhibitors, suggest that the transferase has an equilibrium random order mechanism.
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PMID:Enzymatic characterization of beta D-galactoside alpha2 leads to 3 sialyltransferase from porcine submaxillary gland. 43 98

An inhibitory effect due to broken cells is observed when sialyltransferase (CMP-N-acetylneuraminate:D-galactosyl-glycoprotein N-acetylneuraminyltransferase, EC 2.4.99.1) is measured with mixture of intact and homogenized lymphocytes. This intracellular inhibitory factor ib purified and characterized as CMP-N-acetylneuraminic acid (CMP-NeuNAc) by its behavior in various chromatographic and electrophoretic systems and by its susceptibility to CMP-NeuNAc hydrolase. This endogenous CMP-NeuNAc leads to an isotopic dilution of the exogenous labelled CMP-NeuNAc explaining the apparently lower activity of homogenate when compared to whole cells. Consequently, the radioactivity bound to acceptors may not be related to a known number of sialyl residues transferred, calling into question the validity of comparing the incorporation of [14C]NeuNAc by homogenate and whole cells in order to assign sialyltransferase activity to ectoenzyme. A new approach is developed to detect ectoglycosyltransferases with whole cells, taking into account that both intracellular enzymes and endogenous precursor may be introduced by the small percentage of broken cells.
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PMID:Detection of ectosiallyltransferase activity using whole cells. Correction of misleading results due to the release of intracellular CMP-N-acetylneuraminic acid. 48 88

Six purified glycosyltransferase (a beta-galactoside alpha 2 leads to 6 sialyltransferase, a beta-galactoside alpha 2 leads to 3 sialyltransferase, an alpha-N-acetylgalactosaminide alpha 2 leads to 6 sialyltransferase, a beta-galactoside alpha 1 leads to 2 fucosyltransferase, a beta-N-acetylglucosaminide alpha 1 leads to 3 fucosyltransferase, and a (fucosyl alpha 1 leads to 2) galactoside alpha 1 leads to 3 N-acetyl-galactosaminyltransferase) have been used to study the biosynthetic pathways for formation of the nonreducing terminal oligosaccharide sequences in mammalian glycoproteins. The two glycoproteins used as model acceptor substrates in this study were human asialotransferrin, which contains the nonreducing terminal oligosaccharide sequence Gal beta 1 leads to 4GlcNAc beta 1 leads to 2Man, and antifreeze glycoprotein, which contains oligosaccarides with the structure, Gal beta 1 leads to 3GalNAc alph 1 leads O-Thr. Sequential action of the six glycosyltransferases on these model substrates led to the formation of previously described oligosaccharide structures. The studies reported here indicate that the substrate specificities of the individual enzymes dictate the structures that can be synthesized and the pathways by which they may be formed. The actions of a number of the transferasesare mutually exclusive, thereby prohibiting the formation of theoretically possible oligosaccharide structures. Oligosaccharides with the terminal sequence NeuAc alpha 2 leads to 3(Fuc alpha 1 leads to 2)Gal beta 1 leads to 3GalNAc and NeuAc alpha 2 leads to 6Gal beta 1 leads to 4(Fuc alpha 1 leads to 3)GlcNAc cannot be formed because the prior incorporation of sialic acid by the sialyltransferases yields products that are not acceptor substrates for the fucosyltransferases, and vice versa. Synthesis of other products requires that the enzymes act sequentially in a specific order. The structures NeuAc alpha 2 leads to 6(Fuc alpha 1 leads to 2)Gal beta 1 leads to 4GlcNAc, Fuc alpha 1 leads to 2Gal beta 1 leads to 4(Fuc alpha 1 leads to 3)GlcNAc, GalNAc alpha 1 leads to 3(Fuc alpha 1 leads to 2)Gal beta 1 leads to 4GlcNAc, and GalNAc alpha 1 leads to 3(Fuc alpha 1 leads to 2)Gal beta 1 leads to 3GalNAc can only be synthesized if the fucosyl alpha 1 leads to 2 galactose linkage is formed first. Synthesis of the pentasaccharide sequences GalNAc alpha 1 leads to 3(Fuc alpha 1 leads to 2)Gal beta 1 leads to 3(NeuAc alpha 2 leads to 6)GalNAc and GalNAc alpha 1 leads to 3(Fuc alpha 1 leads to 2)Gal beta 1 leads to 4(Fuc alpha 1 leads to 3)GlcNAc requires that the N-acetylgalactosaminyltransferase act last on the former structure and that the alpha 1 leads to 3 fucosyltransferase act last on the latter. In those instances where a product can be formed by one of two possible pathways, the comparisons of reaction rates indicate that one pathway is usually preferred...
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PMID:Biosynthesis of mammalian glycoproteins. Glycosylation pathways in the synthesis of the nonreducing terminal sequences. 50 Jul 30

UDP-galactose: glycoprotein galactosyltransferase, CMP-sialic acid: glycoprotein sialyltransferase and UDP-galactose pyrophosphatase activities were measured in the endometrium of rat uteri during the oestrous cycle. The galactosyltransferase activity started to increase at dioestrus and reached a maximum on the afternoon of pro-estrus. The UDP-galactose pyrophosphatase activity changed in a direction opposite to that of galactosyltransferase. The sialyltransferase activity was low during metoestrus and dioestrus, but began to rise on the morning of pro-oestrus, reaching a peak on the morning of oestrus. Previously, we have shown that oestradiol administration stimulated galactosyl- and sialyltransferase and inhibited pyrophosphatase activities several-fold in the endometrium of ovariectomized rats. Progesterone prevented the oestradiol effect on the enzymes. The changes in glycosyltransferase and pyrophosphatase activities during the oestrous cycle possibly bear a direct relationship to the ovarian hormones in the rat during the normal oestrous cycle. This relationship will then be conducive to increased synthesis of glycopolymers during ovulation. Furthermore, the lag of 18 h for a maximal rise of sialyltransferase following that of galactosyltransferase is consistent with the normal sequence of glycosylation that occurs in glycoprotein secretion.
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PMID:Glycosyltransferase and UDP-galactose pyrophosphatase activities in the endometrium during oestrous cycle of the rat. 55 72

CDP-hexanolamine agarose was used as an affinity adsorbent to purify a CMP-N-acetylneuraminate: beta-D-galactosyl-glycoprotein N-acetylneuraminyltransferase (EC 2.4.99.1) from bovine colostrum. Upon binding of the enzyme to the adsorbent, elution is achieved either nonspecifically, with 0.5 to 1.0 M sodium chloride, or specifically, with CDP. A highly purified sialyltransferase is obtained with a specific activity 440,000 times that of whole colostrum. Fractionation of the purified enzyme by gel filtration gives two species with different molecular weights but equal specific activities toward asialo-alpha1-acid glycoprotein (26.0 to 28.0 micronmol/min/mg of enzyme). The molecular weights of these two forms are about 56,000 and 43,000 as judged by sodium doedcyl sulfate-gel electrophoresis, sedimentation equilibrium, and gel filtration. The catalytic properties of both forms have been examined (Paulson, J. C., Rearick, J. I., and Hill, R. L. (1977) J. Biol. Chem. 252, 2363-2371). It is concluded that the lower molecular weight form may be a partially degraded species of the enzyme of higher molecular weight.
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PMID:Purification of a sialyltransferase from bovine colostrum by affinity chromatography on CDP-agarose. 84 32


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