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)

Highly purified rat brain myelin isolated by two different procedures showed appreciable activity for CDP-ethanolamine: 1,2-diacyl-sn-glycerol ethanolaminephosphotransferase (EC 2.7.8.1). Specific activity was close to that of total homogenate and approximately 12-16% that of brain microsomes. Three other lipid-synthesizing enzymes, cerebroside sulfotransferase, lactosylceramide sialyltransferase, and serine phospholipid exchange enzyme, were found to have less than 0.5% the specific activity in myelin compared with microsomes. Washing the myelin with buffered salt or taurocholate did not remove the phosphotransferase, but activity was lost from both myelin and microsomes by treatment with Triton X-100. It resembled the microsomal enzyme in having a pH optimum of 8.5 and a requirement for Mn2+ and detergent, but differed in showing no enhancement with EGTA. The diolein Km was similar for the two membranes (2.5-4 x 10(-4) M), but the CDP-ethanolamine Km was lower for myelin (3-4 x 10(-5) M) than for microsomes (11 - 13 x 10(-5 M). Evidence is reviewed that this enzyme is able to utilize substrate from the axon in situ.
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PMID:Evidence for the presence of CDP-ethanolamine: 1,2-diacyl-sn-glycerol ethanolaminephosphotransferase in rat central nervous system myelin. 625 94

Multiple forms of microsomal and plasma membrane sialyl and fucosyltransferases from chicken liver and transplantable hepatoma Mc-29 have been separated by means of isoelectric focusing. A net different pattern was distinguished between liver and hepatoma microsomal and plasma-membrane associated transferases. Microsomal sialyltransferase from hepatoma Mc-29 has typical forms with pI = 5.69, 7.43, 8.05 and 8.56, while in plasma membrane, enzymes with pI = 5.00 and 8.70 occur. The presence of 9 forms of fucosyltransferase within the pH range 3.46-9.57 for hepatoma microsomes and within pH 4.52-9.60 for plasma membranes was detected. Forms with pI 5.10, 5.75 and 7.87 could be considered specific for the hepatoma microsomal enzyme, and forms with pI 4.52, 4.85 and 5.20 for the plasma-membrane associated enzyme.
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PMID:Multiple forms of chicken liver and hepatoma Mc-29 microsomal and plasma-membrane sialyl and fucosyltransferases. 653 16

The temperature dependence of sialyltransferase (CMP-N-acetylneuraminate: D-galactosyl-glycoprotein N-acetyl-neuraminyltrasferase, EC 2.4.99.1) inhibition is described when 1-palmitoyl-sn-glycero-3-phosphorylcholine, or a saturated fatty acid (lauric, myristic or palmitic acid) or an equimolar mixture of the two components are added. Lysophospholipid and fatty acids have no appreciable effect on the optimal temperature for sialyltransferase activity. In the presence of lysophospholipid, the membranous sialyltransferase activity is decreased for all the temperature range tested. In contrast, the solubilized sialyltransferase activity is decreased for temperatures exceeding 29 degrees C. In the presence of saturated fatty acids, the membranous activity is decreased above a chain-length dependent temperature: 22 degrees, 25 degrees and 30 degrees C for lauric, myristic and palmitic acids, respectively. In contrast, the solubilized activity remains unchanged. In the presence of equimolar mixtures of lysophospholipid and fatty acid, the membranous activity is decreased above the same critical temperature as that described for fatty acids added alone. In contrast, the solubilized activity is decreased above 29 degrees C. From these observations, it is suggested that lysophospholipid inhibits the solubilized enzyme when the temperature exceeds the critical micellar temperature of this lipid. The fatty acids inhibit the microsomal enzyme probably by incorporating into the membrane. It is also suggested that equimolar mixtures of lysophospholipid and fatty acid give rise to molecular analogs of 1,2-dipalmitoyl-sn-glycero-3-phosphorylcholine.
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PMID:Temperature dependence of membranous and solubilized sialyltransferase activities in the presence of 1-palmitoyl-sn-glycero-3-phosphorylcholine and fatty acids. 674 98

High-pressure liquid chromatography was used to identify the sialo-oligosaccharide products obtained after sialylation of [14C]Gal-GalNAc-protein in vitro by an ovine submaxillary-gland microsomal fraction. Among other products, two isomeric trisaccharides could be identified. NeuAc alpha 2 leads to 3Gal beta 1 leads to 3GalNAcol and Gal beta 1 leads to 3-(NeuAc alpha 2 leads to 6)GalNAcol respectively, indicating that ovine submaxillary gland contains two sialyltransferases acting on mucin-type acceptors, a beta-galactoside alpha 2 leads to 3 sialyltransferase and a N-acetylgalactosaminide alpha 2 leads to 6 sialyltransferase. This conclusion was fully supported by methylation analysis of the two trisaccharide products.
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PMID:Specificity of ovine submaxillary-gland sialyltransferases. Application of high-pressure liquid chromatography in the identification of sialo-oligosaccharide products. 708 99

A sialyltransferase enzyme, present in the microsomal fraction of mouse brain, catalyzes the synthesis in vitro of a lipid, characterized as 1,2-diacyl-3-beta-D-galactosyl (3 comes from 2 N-acetylneuraminosyl)-sn-glycerol, (sialosylgalactosyldiacylglycerol) from 1,2-diacyl-3-beta-D-galactosyl-sn-glycerol (galactosyldiacylglycerol) and cytidine-5'-monophospho-N-acetylneuraminic acid (CMP-NeuNAc). The enzymatic activity increases proportionally, over a given range, with increasing concentrations of both substrates and of enzyme. The apparent Km of the enzyme for galactosyldiacylglycerol is 130 microM, and for CMP-NeuNAc, 780 microM. The reaction proceeds optimally at pH 6.2. The product of the enzymatic reaction was characterized as a lipid which contained galactosyldiacylglycerol and N-acetylneuraminic acid. 14C-labeled lipid, synthesized from [14C]N-acetylneuraminic acid, and 3H-labeled lipid, synthesized from [3H]galactosyldiacylglycerol, ran with identical RF values when chromatographed on thin layers of silica gel. The water-soluble products, obtained by mild alkaline deacylation of these two labeled lipids, migrated the same when electrophoresed on paper. The ratio 14C/3H was calculated as 0.83 for doubly labeled lipid, [14C]sialosyl-[3H]galactosyldiacylglycerol. Degradation of this doubly labeled lipid by mild alkaline deacylation, followed by mild acid hydrolysis, yielded products that cochromatographed with standards galactosylglycerol and N-acetylneuraminic acid. Analysis of the products resulting from periodate oxidation of the 3H-labeled lipid demonstrated that the N-acetylneuraminic acid is linked to carbon 3 of the galactose.
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PMID:Biosynthesis in vitro of sialosylgalactosyldiacylglycerol by mouse brain microsomes. 729 58

It has previously been shown that when the molecular species specificity of rat liver Golgi CMP-N-acetylneuraminate:lactosylceramide alpha 2,3-sialyltransferase was determined, using as the substrate lactosylceramide (LacCer) incorporated into liposomes prepared with rat liver Golgi lipids, the enzyme showed a pronounced variation in activity towards the various molecular species of LacCer (J. Lipid Res. 1989. 30: 1789-1797). In this paper, -the LacCer molecular species specificity of sialyltransferase from neuroblastoma NB2a cells was examined using five naturally occurring and three synthetic molecular species of LacCer. The enzyme activity was determined by following the formation of [14C]GM3 from CMP-[14C]neuraminic acid and individual molecular species of LacCer incorporated into liposomes. Nonspecific lipid transfer protein was included in the enzyme assay to facilitate the transfer of LacCer and other lipids between the liposomes and the membrane where sialyltransferase is located. In these enzyme assays the liposomes contained approximately 10 times more lipid phosphorus than either the microsomal fraction of NB2a cells or the Golgi fraction of rat liver. Thus, in the presence of nonspecific lipid transfer protein, the lipid composition of the membrane where sialyltransferase is located was modified to resemble the lipid composition of the liposomes. When the molecular species specificity of NB2a cell sialyltransferase was determined with LacCer incorporated into liposomes prepared with NB2a cell lipids, the enzyme showed no specificity towards the various molecular species of LacCer. However, when the molecular species specificity of NB2a cell sialyltransferase was determined with LacCer incorporated into liposomes prepared with rat liver Golgi lipids, the enzyme showed a variation in activity towards the various LacCer molecular species similar to that observed with the liver Golgi enzyme using liposomes prepared with liver Golgi lipids. Likewise, when the molecular species specificity of rat liver Golgi sialyltransferase was determined with LacCer incorporated into liposomes prepared with NB2a cell lipids, the liver enzyme then showed no specificity towards the various molecular species of LacCer. These results indicate that the lipid environment of the membrane can alter the molecular species specificity of sialyltransferase towards its lipid substrate, LacCer.
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PMID:Effect of membrane lipids on the lactosylceramide molecular species specificity of CMP-N-acetylneuraminate:lactosylceramide sialyltransferase. 835 56

The effects of nucleotides, nucleotide sugars and nucleotide dialdehydes on the activity and kinetics of cytidine 5'-monophospho-N-acetylneuraminic acid:lactosylceramide (alpha 2-->3) sialyltransferase (SAT-1) in microsomes derived from embryonic chick brain were investigated. Although under physiological conditions this enzyme utilizes a CMP-sugar as substrate, it was found that UDP-dialdehyde was an effective inhibitor of SAT-1 activity. CMP-dialdehyde was only slightly more efficient at inhibiting SAT-1 activity. Similar findings were found for the inhibitory effects of UDP versus CMP. In addition, two UDP-sugars (UDP-Gal and UDP-GalNAc) were also slightly inhibitory. Kinetic analyses demonstrate that both UDP- and CMP-dialdehydes are competitive inhibitors of SAT-1 activity. The data suggests that the substrate specificity of microsomal SAT-1 resides more in the sugar moiety, rather than in the nucleotide portion of the substrate.
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PMID:Inhibition of CMP-N-acetylneuraminic acid:lactosylceramide sialyltransferase by nucleotides, nucleotide sugars and nucleotide dialdehydes. 851 59

Malignant transformation of epithelial cells is associated with abnormal glycosylation of mucins. The aim of this work was to evaluate the changes in the O-glycosylation processes during differentiation of tumor cells by performing in vitro reactions using crude microsomal preparations obtained from a subpopulation of HT-29 cells capable of differentiating into mucin-secreting cells (HT-29 MTX cells). The reactions of O-glycosylation were carried out at different times of culture: before confluence (Day 5), when cells are still undifferentiated, and after confluence (Day 21), when cells display a mucin-secreting phenotype. As acceptor for the UDP-N-acetylgalactosamine:polypeptide Nacetylgalactosaminyltransferase (GalNAc transferase), the peptide motif TTSAPTTS (tandem repeat deduced from MUC5AC human gastric gene, expressed in HT-29 MTX cells) was used. A higher rate of enzyme activity was observed in preconfluent cells, and analysis by capillary electrophoresis and electrospray mass spectrometry showed a different pattern of galactosaminylation in pre- and postconfluent cells. Core 1 UDP-galactose:N-acetyl-alpha-galactosaminyl-R 3-beta-galactosyltransferase (3-beta-galactosyltransferase) activityalso decreased with the differentiation, whereas CMP-neuraminic acid:galactose-beta-1, 3-N-acetyl-alpha-galac- tosaminyl-R 3-alpha-sialyltransferase activity increased. In comparison, the evolving process of mucin biosynthesis was tested by the analysis of purified mucins of HT-29 MTX cells, in amino acid and carbohydrate composition, and immunoreactivity assays using several antibodies and lectins. The results suggested that (i) no mucins were detected at Day 5, while the GalNAc transferase and 3-beta-galactosyltransferase activities were already at high rates; (ii) the mucins purified from postconfluent cells showed a high content of sialic acid in an alpha-2,3-linkage to galactose residues; and (iii) cellular differentiation seemed to be accompanied by more regulated processes of glycosylation. This study of the O-glycosylation in HT-29 MTX cells is thus an interesting approach to analyzing the regulation of mucin biosynthesis during cellular differentiation.
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PMID:O-Glycosylation and cellular differentiation in a subpopulation of mucin-secreting HT-29 cell line. 928 57

1. Rat liver microsomal preparations incubated in 1% Triton X-100 at 37 degrees C for 1h released about 60% of the membrane-bound UDP-galactose-glycoprotein galactosyltransferase (EC 2.4.1.22) into a high-speed supernatant. The supernatant galactosyltransferase which was solubilized but not purified by this treatment had a higher molecular weight than the serum enzyme as shown by Sephadex G-100 column chromatography. 2. The galactosyltransferase present in the high-speed supernatant was purified 680-fold by an affinity-column-chromatographic technique by using a column of activated Sepharose 4B coupled with alpha-lactalbumin. The galactosyltransferase ran as a single band on polyacrylamide gels and contained no sialyltransferase, N-acetylglucosaminyltransferase or UDP-galactose pyrophosphatase activities. 3. The purified membrane enzyme had properties similar to serum galactosyltransferase. It had an absolute requirement for Mn(2+) that could not be replaced by Ca(2+), Mg(2+), Zn(2+) or Co(2+), and was active over a wide pH range (6-8) with a pH optimum of 6.5. The apparent K(m) for UDP-galactose was 10.8mum. The protein alpha-lactalbumin modified the enzyme to a lactose synthetase by increasing substrate specificity for glucose in preference to N-acetylglucosamine and fetuin depleted of sialic acid and galactose. 4. The molecular weight of the membrane enzyme was 65000-70000, similar to that of the purified serum enzyme. Amino acid analyses of the two proteins were similar but not identical. 5. Sephadex G-100 column chromatography of the purified membrane enzyme showed a small peak (2-5%) of higher molecular weight than the purified serum enzyme. Inclusion of 1mm-epsilon-aminohexanoic acid in the isolation procedures increased this peak to as much as 30% of the total enzyme recovered. Increasing the epsilon-aminohexanoic acid concentration to 100mm resulted in no further increase in this high-molecular-weight fraction.
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PMID:Purification of membrane-bound galactosyltransferase from rat liver microsomal fractions. 1674 49


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