Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.5.1.52 (PNGase F)
 1,527 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Monensin, an inhibitor of Golgi function, was used to investigate the role of this cell compartment in the glycosylation of Leishmania donovani promastigote secretory acid phosphatase (EC 3.1.3.2). Monensin-treated cells demonstrated morphological changes in the Golgi complex and secreted enzyme with an altered electrophoretic mobility: two discrete bands of approximately 95 and 110 kDa were found, as compared to the heterodisperse nature of the enzyme from untreated controls. Chemical deglycosylation by mild acid hydrolysis resulted in a similar effect on the electrophoretic mobility of purified extracellular enzyme. Acid phosphatase was also treated with N-glycosidase F (EC 3.5.1.52) to remove N-linked oligosaccharides. The altered lectin-binding properties of the enzyme after these two treatments demonstrated that an unusual type of galactose-containing acid-labile carbohydrate was present in secretory acid phosphatase in addition to the N-linked oligosaccharides. Further, experiments with 32P-labelled enzyme indicated that phosphodiester bonds were the structural component responsible for the sensitivity of this carbohydrate to mild acid hydrolysis. Cumulatively, these results demonstrated that a novel form of Golgi-mediated posttranslational modification had occurred to the secretory acid phosphatase presumably by the addition of an acid-labile phosphoglycan.
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PMID:Golgi-mediated post-translational processing of secretory acid phosphatase by Leishmania donovani promastigotes. 232 58

The technique of high-pH anion-exchange chromatography with pulsed amperometric detection has recently been shown to be a powerful method for resolving closely related oligosaccharides [M. R. Hardy and R. R. Townsend, Proc. Natl. Acad. Sci. U.S.A., 85 (1988) 3289-3293]. This report describes separations involving a total of nineteen different high-mannose, hybrid and complex-type oligosaccharides isolated after peptide: N-glycosidase F (PNGase F) or endo-beta-N-acetylglucosaminidase H digestion of glycoproteins. Separations were carried out at a constant base concentration (0.1 M NaOH) using linear gradients from 0 to 0.2 M sodium acetate. The applicability of this chromatography for profiling the N-linked oligosaccharides of glycoproteins was demonstrated by generating "oligosaccharide maps" of PNGase F-liberated oligosaccharides from recombinant human tissue plasminogen activator, ribonuclease b, human transferrin, and bovine fetuin. Methods for recovering salt-free oligosaccharides after this chromatography were also investigated. On-line ion suppression with an anionic micromembrane suppressor cartridge was found to be capable of effective desalting up to a total sodium ion concentration of 0.15-0.2 M at a flow-rate of 1 ml/min. After high-pH anion-exchange chromatography with ion suppression, collected oligosaccharides were analyzed by fast-atom bombardment mass spectrometry after conversion to permethyl derivatives or after reductive amination with rho-aminobenzoic acid ethyl ester.
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PMID:Analysis of glycoprotein-derived oligosaccharides by high-pH anion-exchange chromatography. 232 8

Membrane polypeptides (relative mass (Mr) 48,000--55,000) associated with the equilibrative transport of nucleosides were identified in cultured murine leukemia (L1210/C2) cells by site-specific photolabeling with [3H]nitrobenzylthioinosine ([3H]NBMPR). Growth of cells in the presence of tunicamycin resulted in the gradual conversion of 3H-labeled polypeptides to a form that migrated more rapidly (Mr 42,000--47,000) during sodium dodecyl sulfate (SDS)--polyacrylamide gel electrophoresis. When plasma membrane fractions were photolabeled and incubated with O-glycanase or endoglycosidase F, the [3H]NBMPR-labeled polypeptides migrated in SDS-polyacrylamide gels with the same mobility as native NBMPR-binding polypeptides, whereas incubation with either N-glycanase or trifluoromethane sulfonic acid converted [3H]NBMPR-labeled polypeptides to the more rapidly migrating form (Mr 41,000--48,000). These observations are consistent with the presence of N-linked oligosaccharides of the complex type on the NBMPR-binding polypeptides of L1210/C2 cells. Tunicamycin exposures that reduced incorporation of [3H]mannose into plasma membrane fractions by greater than 95% had little, if any, effect on either the affinity (Kd values, 0.1-0.2 nM) or abundance (Bmax values, 200,000--220,000 sites/cell) of NBMPR-binding sites, whereas uridine transport kinetics at 37 degrees C were altered in a complex way. Thus, although N-linked glycosylation is not required for insertion of the NBMPR-binding protein into the plasma membrane or for interaction of NBMPR with the high-affinity binding sites, it is important for function of at least one of the three nucleoside transporters expressed by L1210/C2 cells.
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PMID:Effects of inhibition of N-linked glycosylation by tunicamycin on nucleoside transport polypeptides of L1210 leukemia cells. 235 Apr 87

A comparison has been made between the Asn289-linked oligosaccharide structures of human plasma plasminogen and a recombinant human plasminogen, expressed in lepidopteran insect (Spodoptera frugiperda) cells, after infection of these cells with a recombinant baculovirus containing the entire human plasminogen cDNA. Using anion-exchange liquid chromatography mapping of the oligosaccharide units cleaved from the proteins by glycopeptidase F, compared with elution positions of standard oligosaccharide structures, coupled with monosaccharide compositional analysis, we find that the human plasma protein contained only bisialo-biantennary complex-type carbohydrate and asialo-biantennary complex carbohydrate, confirming earlier work published by this laboratory. The glycosylation pattern of the insect cell expressed recombinant human plasminogen showed considerable microheterogeneity, with identifiable high-mannose carbohydrate (Man9GlcNAc2) and truncated high-mannose oligosaccharide (Man5GlcNAc2, Man4GlcNAc2, and Man3GlcNAc2). Of major importance, approximately 40% of the oligosaccharide population consisted of complex carbohydrate (bisialo-biantennary), identical in structure with that of the human plasma protein. This is the first direct identification of complex carbohydrate in proteins produced in insect cells and demonstrates that trimming and processing of high-mannose carbohydrate into complex-type oligosaccharide can occur. Our data indicate that both normal and alternate pathways exist in these cells for incorporation and trimming of high-mannose oligosaccharides and that mannosidases, as well as galactosyl-, hexosaminidasyl-, and sialyltransferases are present, and/or can be induced, in these cells. From these observations, we conclude that amino acid sequences and/or protein conformational properties can control oligosaccharide processing events.
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PMID:Oligosaccharide processing in the expression of human plasminogen cDNA by lepidopteran insect (Spodoptera frugiperda) cells. 238 87

Porcine 32,000 Mr inhibin is a glycoprotein with one asparagine-linked glycosylation site on the alpha-subunit. The presence of carbohydrate on the alpha-subunit was visualized by periodate-Schiff (PAS) staining. This stain for carbohydrate also verified that the beta-subunit of 32,000 Mr porcine inhibin does not contain carbohydrate. When analyzed by one-dimensional sodium dodecyl sulfate-polyacrylamide gel electrophoresis (1D-PAGE) under reducing conditions, the inhibin alpha-subunit consistently existed as a doublet, and by the PAS stain, both bands of the doublet were glycosylated. Analysis by two-dimensional (2D) PAGE further revealed the presence of charge isoforms of the alpha-subunit. The alpha-subunit of inhibin could be deglycosylated by N-glycanase, but not by endoglycosidase F, endoglycosidase D, or endoglycosidase H. When the N-glycanase-treated inhibin was analyzed by either 1D-PAGE or 2D-PAGE, the molecular size of the alpha-subunit was reduced by 3500 Mr. Each doublet band observed with reducing conditions in 1D-PAGE or 2D-PAGE for the alpha-subunit became a single band (spot) in the deglycosylated alpha-subunit. However, the charge heterogeneity detected by 2D-PAGE was retained, indicating that only a portion of this heterogeneity is attributable to the carbohydrate moiety. The in vitro biological activity of the deglycosylated inhibin was not different from the control sample. The composition of the carbohydrate in inhibin was investigated with the Dionex carbohydrate analyzer. Inhibin contains fucose, glucosamine, galactose, mannose, and glucose. Colorimetric analysis revealed the presence of sialic acid. Taken together, this implies some aspect of the peptide portion of the molecule is involved in charge heterogeneity. Inhibin may have an unusual carbohydrate component, as evidenced by the detection of glucose in inhibin samples. The absence of glucose in the carbohydrate moiety of another glycoprotein fraction that accompanied the inhibin through all the same fractionation procedures argues against the artifactual introduction of glucose in the fractionation medium per se.
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PMID:The heterogeneity of porcine 32,000 Mr inhibin alpha-subunit: a gel electrophoresis and immunoblot study. 238 62

Although antigen-reactive T lymphocytes play a central role in the host response to Histoplasma capsulatum, little is known of the nature of Histoplasma antigens recognized by these cells in vitro. Employing a murine T-cell line and two clones that are reactive with histoplasmin, we examined whether activation of T cells by histoplasmin required the presence of carbohydrate or protein moieties. The approach taken was to modify carbohydrate or protein molecules in histoplasmin by chemical or enzymatic digestion or by lectin adsorption. In parallel, antigen was subjected to sodium dodecyl sulfate-polyacrylamide gel electrophoresis to correlate alterations in functional activity with changes in the electrophoretic appearance of histoplasmin. Treatment of histoplasmin with periodate (0.1 M, 0.05 M, and 0.01 M) or with the endoglycosidases N-glycanase and endoglycosidase H sharply diminished the capacity of histoplasmin to trigger responses by T cells. Reactivity of T cells to histoplasmin that had been adsorbed with lectins binding mannose, glucose, or galactose was reduced by greater than 70%; conversely, the responses by T cells to antigen that had been adsorbed with lectins specific for fucose, N-acetylgalactosamine, or N-acetylglucosamine ranged from 82 to 91% of that to control antigen. Proliferative responses by T cells to histoplasmin that had been digested with chymotrypsin, protease, or trypsin were 2 to 43% of control values. The electrophoretic appearance of histoplasmin was modified by some but not all of the treatments. Partially purified H and M antigens triggered proliferation of T cells. Thus, both carbohydrates and proteins must be present to induce optimal responses by T cells. A portion of the carbohydrates is N linked to proteins, and alpha-D-mannose (or alpha-D-glucose) and beta-D-galactose are the sugar ligands of carbohydrate-containing antigens.
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PMID:Characterization of antigenic determinants in histoplasmin that stimulate Histoplasma capsulatum-reactive T cells in vitro. 245 54

We have studied the differential susceptibility to N-glycanase (peptide-N4-[N-acetyl-beta-glucosaminyl]asparagine amidase) of oligosaccharides at the individual glycosylation sites of mouse TSH and free alpha-subunits. Mouse thyrotropic tumor tissue or hypothyroid pituitary tissue were incubated with D-[2-3H]mannose for 6 h. [3H]Mannose-labeled TSH or free alpha-subunits were obtained from homogenates using specific antisera and were digested with N-glycanase in their native state or after heat denaturation and reduction in the absence or presence of detergents. Tryptic fragments of the digestion products were then analyzed by reverse phase HPLC so that the effects of N-glycanase at the individual glycosylation sites could be determined. N-Glycanase treatment of native molecules did not cleave oligosaccharides efficiently at Asn56 of alpha-subunits and Asn23 of TSH beta, whereas oligosaccharides at Asn82 of alpha-subunits were more susceptible regardless of whether the alpha-subunits were combined with TSH beta. Heat denaturation, reduction, and the presence of detergents did not substantially increase the cleavage by N-glycanase of the protected oligosaccharides, suggesting that the primary structures of the TSH subunits influenced efficiency at specific sites. Pretreatment of free alpha-subunits with trypsin failed to enable N-glycanase to work fully, as oligosaccharides at Asn56 were cleaved less effectively than those at Asn82. Thus, the susceptibility to N-glycanase differs at the individual glycosylation sites of mouse TSH and free alpha-subunits, and these differences may result from effects of the primary structures of the TSH subunits.
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PMID:Differential susceptibility to N-glycanase at the individual glycosylation sites of mouse thyrotropin and free alpha-subunits. 245 9

The structures of the entire population of sialylated asparagine-linked oligosaccharides present on bovine fetuin were elucidated. Asparagine-linked oligosaccharides were released from fetuin with N-glycanase, radiolabeled by reduction with NaB[3H]4, and fractionated by anion-exchange high performance liquid chromatography (HPLC), ion-suppression amine adsorption HPLC, and concanavalin A affinity chromatography. The 3H-labeled oligosaccharide fractions obtained were analyzed by 500-MHz 1H nuclear magnetic resonance spectroscopy, revealing the presence of 23 distinct oligosaccharide structures. These oligosaccharides differed in extent of sialylation (3% mono-, 35% di-, 54% tri-, and 8% tetrasialylated), number of peripheral branches (17% di- and 83% tribranched), linkage (alpha 2,3 versus alpha 2,6) and location of sialic acid moieties, and linkage (beta 1,4 versus beta 1,3) of galactose residues. This represents the first time that the asparagine-linked oligosaccharides of fetuin have been successfully fractionated and characterized as sialylated species. The sialylated oligosaccharides derived from fetuin were also used to further define the specificities of the lectins leukoagglutinating phytohemagglutinin and Ricinus communis agglutinin I. The behavior of these oligosaccharides during lectin affinity HPLC further establishes the structural features which predominate in the interaction of oligosaccharides with leukoagglutinating phytohemagglutinin and R. communis agglutinin I.
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PMID:The asparagine-linked oligosaccharides on bovine fetuin. Structural analysis of N-glycanase-released oligosaccharides by 500-megahertz 1H NMR spectroscopy. 246 66

Aldosterone induces the synthesis of a group of glycoproteins (GP65,70) in toad urinary bladders which are potential effectors of the natriferic action of this hormone. The GP65,70 complex is composed of two molecular weight classes of proteins (Mr 65 and 70 kDa), each class being composed of several discrete proteins of varying isoelectric points (5.8-6.2). These proteins can be partially enriched (approximately 20-fold) using wheat germ agglutinin-sepharose affinity chromatography, are neuraminidase-resistant, and can be N-deglycosylated by endoglycosidase-H and N-glycanase. Treatment with N-glycanase leads to the appearance of a microheterogeneous group of proteins, all having the same Mr (approximately 40 kDa). From these studies it can be concluded that these particular aldosterone-induced proteins: (1) are heavily glycosylated, (2) contain multiple high mannose and hybrid oligosaccharides side chains, and (3) contain similar (if not identical) peptide backbones. Post-translational N-glycosylation accounts, at least in part, for their electrophoretic polymorphism (variation in Mr) but not for their electrophoretic microheterogeneity (variation in pI). The latter may reflect other types of post-translational modification (e.g. O-glycosylation, phosphorylation) or may be due to subtle differences in amino acid composition. The partial purification and biochemical characterization of GP65,70 should ultimately lead to a better understanding of the function of these putative "effectors" of aldosterone-stimulated Na+ transport.
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PMID:Aldosterone-induced glycoproteins: further characterization. 250 87

Five UDP-glucuronosyltransferases (UDPGTs) have been isolated to apparent homogeneity from rat and rabbit liver and have been characterized for their glycoprotein nature by reacting these proteins with commercially available endo- and exoglycosidases. The enzymes studied were rat hepatic p-nitrophenol, 17 beta-hydroxysteroid, and 3 alpha-hydroxysteroid UDPGTs and rabbit hepatic p-nitrophenol and estrone UDPGTs. Hydrolysis of oligosaccharide moieties was evidenced by an increase in the mobility (decreased apparent molecular weight) of the protein subunits after sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Purified rabbit hepatic estrone and p-nitrophenol UDPGTs were hydrolyzed by almond glycopeptidase A and endo-beta-N-acetylglucosaminidase H from Streptomyces plicatus (endo H), but not by endo-beta-N-acetylglucosaminidase D from Diplococus pneumoniae (endo D) suggesting that these transferases are glycoproteins of the high mannose type and not of the complex type. Likewise, purified rat hepatic 3 alpha-hydroxysteroid and p-nitrophenol UDPGTs were substrates for glycopeptidase A and endo H but not for endo D. One enzyme, 17 beta-hydroxysteroid UDPGT, was not glycosylated since it was not hydrolyzed by any of the three endoglycosidases. All four glycosylated UDPGTs could serve as substrates for jack bean alpha-mannosidase, confirming the high mannose nature of the oligosaccharide. Deglycosylation of the purified UDPGTs by endo H did not have an effect on the catalytic activities of these proteins.
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PMID:N-glycosylation of purified rat and rabbit hepatic UDP-glucuronosyltransferases. 250 48


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