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)

Sequence information obtained by NH2-terminal sequence analysis of two molecular weight forms (45 and 48 kDa) of the porcine Gal beta 1,3GalNAc alpha 2,3-sialyltransferase was used to clone a full-length cDNA of the enzyme. The cDNA sequence revealed an open reading frame coding for 343 amino acids and a putative domain structure consisting of a short NH2-terminal cytoplasmic domain, a signal-anchor sequence, and a large COOH-terminal catalytic domain. This domain structure was confirmed by construction of a recombinant sialyltransferase in which the cytoplasmic domain and signal-anchor sequence of the enzyme was replaced with the cDNA of insulin signal sequence. Expression of the resulting construct in COS-1 cells produced an active sialyltransferase which was secreted into the medium in soluble form. Comparison of the cDNA sequence of the sialyltransferase with GenBank produced no significant homologies except with the previously described Gal beta 1,4GlcNAc alpha 2,6-sialyltransferase. Although the cDNA sequences of these two enzymes were largely nonhomologous, there was a 45-amino acid sequence which exhibited 65% identity. This observation suggests that the two sialyltransferases were derived, in part, from a common gene.
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PMID:Cloning and expression of the Gal beta 1, 3GalNAc alpha 2,3-sialyltransferase. 138 14

The Gal beta 1,3(4)GlcNAc alpha 2,3-sialyltransferase forms the NeuAc alpha 2,3Gal beta 1,3(4)GlcNAc sequences found in terminal carbohydrate groups of glycoproteins and glycolipids. High energy collision-induced dissociation analysis of tryptic peptides from only 300 pmol of the purified Gal beta 1,3(4)GlcNAc alpha 2,3-sialyltransferase provided 25% of the total amino acid sequence and led to the successful cloning of this enzyme. The peptide sequence information was used to design short degenerate primers for use in the polymerase chain reaction. A long specific cDNA fragment was amplified which was used to isolate a clone from a rat liver cDNA library. The cloned cDNA encodes a 374-amino acid protein containing an amino-terminal signal-anchor sequence characteristic of all cloned glycosyltransferases and produced sialyltransferase activity when transiently expressed in COS-1 cells. When compared with two other cloned sialyltransferases, the primary structure of Gal beta 1,3(4)GlcNAc alpha 2,3-sialyltransferase revealed a homologous region in all three enzymes consisting of a stretch of 55 amino acids located in their catalytic domains. This feature together with lack of homology in the remaining 85% of the sequence of the three sialyltransferases defines a pattern of sequence homology not found in cloned cDNAs of other glycosyltransferase families.
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PMID:Primary structure of Gal beta 1,3(4)GlcNAc alpha 2,3-sialyltransferase determined by mass spectrometry sequence analysis and molecular cloning. Evidence for a protein motif in the sialyltransferase gene family. 140 Apr 16

The role of the human beta-galactoside alpha-2,6-sialyltransferase (hu alpha-2,6-ST) in the generation of B cell surface antigens was investigated by selecting subclones of COS cells (monkey kidney epithelial cells) constitutively expressing a transfected cDNA which encodes the hu alpha-2,6-ST (COS alpha-2,6-ST cells). Expression of hu alpha-2,6-ST in COS cells was sufficient to generate sialylated cell surface epitopes on different glycosylated antigens recognized by monoclonal antibodies to CDw75, CD76, and the unclustered monoclonal antibodies HB-4 and EBU-65. These epitopes were sensitive to sialidase treatment and are likely to contain terminal alpha-2,6-linked sialic acid residues. A novel antiserum raised against bacterially expressed hu alpha-2,6-ST fusion protein was used to localize the sialyltransferase in two cell lines with high expression of either endogenous (B cell line JOK-1) or recombinant (COS alpha-2,6-ST cells) hu alpha-2,6-ST. In both cell lines, the enzyme was detected only intracellularly in the juxtanuclear region and not on the cell surface. In contrast, CDw75, formerly proposed to be identical with an alpha-2,6-ectosialyltransferase, was strongly expressed on the cell surface. The different expression patterns show that neither the CDw75 antigen nor any of the other sialylated antigens analyzed is identical with the hu alpha-2,6-ST. Furthermore, the presence of a surface-expressed alpha-2,6-ST appears unlikely in these cell lines. We propose that CDw75, CD76, HB-4, and EBU-65 represent a unique group of B cell differentiation antigens the production of which requires the enzymatic activity of alpha-2,6-ST.
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PMID:Human Golgi beta-galactoside alpha-2,6-sialyltransferase generates a group of sialylated B lymphocyte differentiation antigens. 142 5

Within the hematopoietic system, CDw75 is primarily expressed on cells of the B cell lineage. Cloning and sequencing of the gene has shown CDw75 to be a beta-galactoside alpha-2,6-sialyltransferase. This enzyme plays an important role in the intracellular terminal glycosylation pathways in various cell types. In this article, we demonstrate that COS cells transfected with the CDw75 cDNA clone displayed sialyltransferase activity, in contrast to mock-transfected cells. We also found that activated B cells displayed an increased enzyme activity compared to resting cells, in accordance with the staining data. Moreover, CDw75 expression was found to be up-regulated approximately 7-9-fold from early G1 to the G2/M phases of the cell cycle in peripheral blood leukocyte B cells. This was shown by staining of in vitro activated B cells with the anti-CDw75 monoclonal antibody HH2, using cell fractions corresponding to different stages of the cell cycle. Using a combination of Hoechst 33258 and propidium iodide after bromodeoxyuridine incorporation, it is possible to distinguish between different phases of the first and second cell cycle. By combining this with HH2 immunofluorescence staining, using a multistation multiparameter flow cytometry program, we confirmed the cell cycle-dependent expression of CDw75. Immunocytochemical stainings of cytospin specimens of elutriated B cells showed that the antigen was up-regulated in late G1 before the appearance of the nuclear activation antigen Ki67. Finally, we showed that activated B cells secreted soluble CDw75 into the medium, as demonstrated by a specific blocking of HH2 staining of B cells using suboptimal concentrations of HH2. In accordance with this, we observed small, but detectable levels of soluble sialyltransferase activity in supernatants of activated B cells.
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PMID:Cell cycle-dependent regulation of CDw75 (beta-galactoside alpha-2,6-sialyltransferase) on human B lymphocytes. 157 59

Polysialic acid, or PSA, is a term used to refer to linear homopolymers of alpha(2,8)-sialic acid residues displayed at the surface of some mammalian cells. PSA is typically linked to the neural cell adhesion molecule N-CAM, where it can modulate the homotypic adhesive properties of this polypeptide. PSA expression is developmentally regulated, presumably through mechanisms involving regulated expression of sialyltransferases involved in PSA biosynthesis. Several different sialytransferase sequences have been implicated in PSA expression, although the precise roles of these enzymes in this context remain unclear. One such sequence, termed STX, maintains approximately 59% amino acid sequence identity with another sialyltransferase (PST-1, from hamster; PST, human) that is known to participate in PSA expression. While a murine STX fusion protein can catalyze the synthesis of a single alpha(2,8)-sialic acid linkage in vitro, the ability of STX to participate in PSA expression in vivo has not been demonstrated. We show here that STX transcripts are present in a PSA-positive, N-CAM-positive human small cell carcinoma line (NCI-H69/F3), but are absent in a variant of this line (NCI-H69/E2) selected to be PSA-negative and N-CAM-positive. To functionally confirm this correlation, we have cloned a human cDNA encoding the human STX sequence, and show, by transfection studies, that human STX can restore PSA expression when expressed in the PSA-negative, N-CAM-positive small cell carcinoma variant. We furthermore show that STX can confer PSA expression when expressed in a PSA-negative, N-CAM-positive murine cell line (NIH-3T3 cells), or when expressed in PSA-negative, N-CAM-negative COS-7 cells. These observations imply that STX, like PST-1/PST, can determine PSA expression in vivo. When considered together with the correlation between STX expression and PSA expression in vivo in the brain, these results suggest a regulatory role for STX in PSA expression in the developing central nervous system and small cell lung carcinoma.
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PMID:A human STX cDNA confers polysialic acid expression in mammalian cells. 755 89

A cDNA clone encoding chick Gal beta 1,3GalNAc alpha 2,3-sialyltransferase (ST3Gal I) was isolated from a chick embryo brain cDNA library. The cDNA sequence included an open reading frame coding for 342 amino acids, and the deduced amino acid sequence showed 64% identity with that of the mouse enzyme. Northern blot analysis of chick embryos revealed that the ST3Gal I gene was expressed in early embryonic stages. The identity of the enzyme was confirmed by construction of a recombinant sialyltransferase in which the N-terminal part including the cytoplasmic tail and signal anchor domain was replaced with an immunoglobulin signal peptide sequence. This enzyme expressed in COS-7 cells exhibited transferase activity similar to that of mouse ST3Gal I.
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PMID:Molecular cloning and expression of chick Gal beta 1,3GalNAc alpha 2,3-sialyltransferase. 776 61

All members of the sialyltransferase gene family cloned to date contain a conserved region, the "sialylmotif," consisting of 48-49 amino acids in the center of the coding sequence. To investigate the function of this motif, mutant constructs of the Gal beta 1,4GlcNAc alpha 2,6-sialyltransferase were designed by site-directed mutagenesis, replacing 11 individual conserved amino acids with alanine. Each of the mutants was expressed in COS-1 cells, and eight of these retained sialyltransferase activity, allowing comparison of their enzymatic properties with that of the wild type enzyme. Kinetic analysis showed that six of eight mutants had a 3-12-fold higher Km for the donor substrate CMP-NeuAc relative to the wild type enzyme, while the Km values for the acceptor substrate were within 0.5-1.2-fold of the wild type for all eight mutants evaluated. The Ki of the donor substrate analog CDP was also evaluated for the recombinant sialyltransferase with the Val to Ala mutation at residue 220, which produced a 6-fold increase in Km of CMP-NeuAc. A corresponding increase in Ki of 3.4-fold was observed for CDP, indicating a decreased affinity for the cytidine nucleotide. Taken together, these results suggest that the conserved sialylmotif in the sialyltransferase gene family participates in the binding of the common donor substrate, CMP-NeuAc.
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PMID:The sialyltransferase "sialylmotif" participates in binding the donor substrate CMP-NeuAc. 782 76

A cDNA clone encoding a new type of GalNAc alpha 2,6-sialyltransferase (ST6GalNAc II) with a structure similar to that of a previously cloned GalNAc alpha 2,6-sialyltransferase (ST6GalNAc I; Kurosawa, N., Hamamoto, T., Lee, Y.-C., Nakaoka, T., Kojima, N., and Tsuji, S. (1994) J. Biol. Chem. 269, 1402-1409) was obtained from chicken testes. The predicted amino acid sequence of ST6GalNAc II encodes a protein with type II transmembrane topology, as found for other glycosyltransferases, and showed 32% identity with that of ST6GalNAc I. Transfection of the full length ST6GalNAc II gene into COS cells led to GalNAc alpha 2,6-sialyltransferase activity with a different substrate specificity from that of ST6GalNAc I. Moreover, asialofetuin after treatment with beta-galactosidase did not serve as an acceptor for this enzyme. 14C-Sialylated oligosaccharides obtained from resialylated asialobovine submaxillary mucin with this enzyme were identical to Gal beta 1,3([14C]NeuAc alpha 2,6)GalNAc-ol but not [14C]NeuAc alpha 2,6GalNAc-ol. These results clearly show that the expressed enzyme is a novel type of sialyltransferase that requires beta-galactoside residues linked to GalNAc residues, whereas sialic acid residues linked to galactose residues are not essential for the activity.
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PMID:Cloning and expression of Gal beta 1,3GalNAc-specific GalNAc alpha 2,6-sialyltransferase. 803 63

Sialyltransferases are a family of 10-12 enzymes that catalyze the transfer of sialic acid to carbohydrate groups of glycoproteins and glycolipids. Three sialyltransferase cDNAs have been cloned, revealing a highly conserved sialylmotif in the catalytic domain of these enzymes. Using a polymerase chain reaction-based approach, we cloned a 150-base pair fragment of a new sialymotif from human placenta mRNA, which was then used as a probe to clone the complete coding sequence of the corresponding gene from a cDNA library. Like the other members of the sialyltransferase gene family cloned to date, the new cDNA coded for a protein predicted to have an NH2-terminal signal-anchor sequence and had the sialylmotif located in the center of the molecule. Comparison with the three other cloned sialyltransferases revealed extensive sequence homology that was not recognized earlier. Expression of a soluble recombinant form of the protein in COS-1 cells produced an active sialyltransferase, which used oligosaccharide, glycoprotein, and glycolipid acceptor substrates with terminal galactose in the Gal beta 1,3GalNAc and Gal beta 1, 4GlcNAc sequences but not the Gal beta 1,3GlcNAc sequence. The sialylated products were sensitive to digestion with the Newcastle disease virus sialidase, which is specific for sialic acid-galactose linkages in the alpha 2,3 linkage. The results suggest that this new member of the sialyltransferase gene family is the enzyme previously described as a glycolipid sialyltransferase activity (SAT-3), which forms the terminal sequences NeuAc alpha-2,3Gal beta 1,3GalNAc-R and NeuAc alpha 2,3Gal beta 1, 4GlcNAc-R.
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PMID:Cloning of a novel alpha 2,3-sialyltransferase that sialylates glycoprotein and glycolipid carbohydrate groups. 828 6

cDNA clones encoding GalNAc alpha 2,6-sialyltransferase (EC 2.4.99.3) have been isolated from chick embryo cDNA libraries using sequence information obtained from the conserved amino acid sequence of the previously cloned enzymes. The cDNA sequence included an open reading frame coding for 566 amino acids, and the deduced amino acid sequence showed 12% identity with that of Gal beta 1,4GlcNAc alpha 2,6-sialyltransferase from chick embryo. The primary structure of this enzyme suggested a putative domain structure, like that in other glycosyltransferases, consisting of a short NH2-terminal cytoplasmic domain, a signal-membrane anchor domain, a proteolytically sensitive stem region, and a large COOH-terminal active domain. The identity of this enzyme was confirmed by the construction of a recombinant sialyltransferase in which the NH2-terminal part (232 amino acid residues) was replaced with the immunoglobulin signal sequence. The expression of this recombinant in COS-7 cells resulted in secretion of a catalytically active and soluble form of the enzyme into the medium. The expressed enzyme exhibited activity toward only asialomucin and (asialo)fetuin, no significant activity being detected toward the other glycoprotein and glycolipid substrates tested. 14C-Sialylated glycols obtained from asialomucin re-sialylated with this enzyme were identical to NeuAc alpha 2,6-GalNAc-ol and GlcNAc beta 1,3(NeuAc alpha 2,6) GalNAc-ol. Synthetic GalNAc-SerNAc also served as an acceptor for alpha 2,6-sialylation. These results clearly showed that the expressed enzyme is GalNAc alpha 2,6-sialyltransferase.
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PMID:Molecular cloning and expression of GalNAc alpha 2,6-sialyltransferase. 828 7

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