Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.5.1.4 (deaminase)
 5,113 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To evaluate the functional role of the N-linked oligosaccharides of major histocompatibility complex (MHC) class II molecules, affinity-purified murine IAs class II molecules were deglycosylated in the presence of asparagine amidase enzyme. The deglycosylated IAs molecules were characterized by 12% SDS-polyacrylamide gel analysis under reduced and native conditions and the complete enzymatic removal of all three N-linked sugar components from the alpha/beta heterodimer was confirmed by lectin-link Western blot analysis. Like the native IAs molecules, the deglycosylated IAs molecules were fully capable of binding an antigenic peptide from myelin basic protein MBP(89-101). The kinetics of dissociation of preformed complexes of IAs.MBP(89-101) and deglycosylated IAs.MBP(89-101) were compared at 4 and at 37 degrees C. Both complexes were equally stable at 4 degrees C; however, at 37 degrees C the deglycosylated IAs.MBP(89-101) complexes showed an increased rate of dissociation as compared with the native IAs.MBP(89-101) complexes. When tested for their ability to recognize the T cell receptor on T cells, both complexes bound to cloned HS-1 T cells that recognize and respond to IAs.MBP(89-101). Finally, the complexes of deglycosylated IAs.MBP(89-101) were tested for the induction of in vitro nonresponsiveness and compared with native IAs.MBP(89-101) complexes. Both complexes were capable of inducing 95-100% nonresponsiveness in a proliferation assay. These results suggest that the N-linked oligosaccharide of MHC class II molecules may not be essential for either antigenic peptide binding or T cell recognition. In addition results obtained here provide evidence that the carbohydrate moities of MHC class II molecules may not be involved in induction of T cell clonal anergy.
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PMID:N-linked oligosaccharides of murine major histocompatibility complex class II molecule. Role in antigenic peptide binding, T cell recognition, and clonal nonresponsiveness. 138 2

The binding subunit of the alpha 1-adrenergic receptor has been identified as an Mr = 80,000 peptide in several tissues. Adsorption of the alpha 1-adrenergic receptor to a wheat germ agglutinin lectin-agarose resin suggests that the receptor protein is glycosylated. In this study, we investigated the nature of the carbohydrate chains linked to the alpha 1-adrenergic receptor peptide. The alpha 1-adrenergic receptor from DDT2 MF-2 smooth muscle cell and rat brain membranes was photolabeled with 125I-azido-prazosin [( 125I]CP65,526) and then treated with exoglycohydrolases prior to SDS-PAGE and autoradiography. Removal of terminal sialic acid residues by neuraminidase decreased the receptor Mr by 6,000; however, alpha-mannosidase was without effect, indicating complex type glycosylation of the receptor-protein. Similar results were observed for the rat hepatic membrane alpha 1-adrenergic receptor. Removal of N-linked carbohydrates at asparagine residues by peptide-N4[N-acetyl-beta-glucosaminyl]asparagine amidase (from Flavobacterium meningosepticum) resulted in a specifically labeled peptide at Mr = 50,000-55,000 in DDT1 MF-2 membrane and solubilized receptor preparations. Treatment of DDT1 MF-2 cells with swainsonine or (+)-1-deoxymannojirimycin, inhibitors of complex type carbohydrate chain biosynthesis, caused a reduction in the apparent molecular weight of the receptor (Mr = 60,000) but did not alter the number of alpha 1-adrenergic receptors per cell or their affinity for the radioligand [3H]prazosin. These findings indicate that the alpha 1-adrenergic receptor is heavily glycosylated, the major oligosaccharide moiety being of the complex type, N-linked to asparagine residues. The peptide backbone of the receptor has an Mr less than or equal to 55,000, consistent with the predicted molecular mass of other membrane neurotransmitter receptors based on sequence analysis of isolated cDNA clones.
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PMID:Glycosylation of the mammalian alpha 1-adrenergic receptor by complex type N-linked oligosaccharides. 282 78

The ligand-binding subunit of the porcine striatal dopamine D2 receptor was identified by photoaffinity labeling with [125I]N-azidophenethylspiperone ([125I]NAPS). Upon photolysis, [125I]NAPS covalently incorporated into a broad band of apparent Mr congruent 140,000 with an appropriate pharmacological profile for D2 receptors as assessed by autoradiography after sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Smaller subunits of apparent Mr congruent 94,000 and 34,000 were specifically labeled by [125I]NAPS with an appropriate D2 receptor profile and were similar to the major ligand-binding subunits of photoaffinity-labeled canine striatal D2 receptors. Photoaffinity labeling in the absence or presence of multiple protease inhibitors did not alter the migration pattern of the Mr congruent to 140,000/94,000 subunits upon denaturing electrophoresis in either the absence or presence of thiol-reducing/alkylating reagents. In order to investigate the possible basis for the existence of these high molecular weight forms of the D2 receptor, we assessed the carbohydrate nature of photolabeled D2 ligand-binding subunits by the use of lectin affinity chromatography and specific exo- and endoglycosidase treatments. Both photoaffinity-labeled D2 receptor proteins from porcine striatum (Mr congruent to 140,000 and 94,000) were glycoproteins as indexed by their absorption and specific elution from wheat germ agglutinin lectin resins. The exoglycosidase neuraminidase altered the electrophoretic mobility of both the Mr congruent to 140,000 and 94,000 labeled subunits to a single band of apparent Mr congruent to 51,000. Prior removal of sialic acid residues did not alter the reversible binding characteristics of [3H]spiperone to D2 receptors. Complete removal of receptor-associated N-linked carbohydrate by the endoglycosidase glycopeptidase F (peptide-N4[N-acetyl-beta-glucosaminyl]asparagine amidase) produced a further increase in the mobility of the Mr congruent to 51,000 subunit to apparent Mr congruent to 44,000. The porcine Mr congruent to 34,000 photolabeled peptide is an N-linked glycoprotein as assessed by lectin affinity chromatography and susceptibility to digestion by glycopeptidase F to a peptide of apparent Mr congruent to 23,000.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Dopamine D2 receptor binding subunits of Mr congruent to 140,000 and 94,000 in brain: deglycosylation yields a common unit of Mr congruent to 44,000. 297 May 86

Folate deaminase released from cells of Dictyostelium discoideum is heterogeneous with respect to molecular weight and stability at 60 degrees C. The most heat-stable component isoelectrofocuses in a broad band at approx. pH 6. The Km value of this component for folate is approx. 7 x 10(-7)M and Mr approx. 40 000. The major portion if not all of the deaminase binds to immobilized concanavalin A and lentil lectin. Extracellular folate deaminase has a pH-optimum of approx. pH 6.0. This is higher than that of lysosomal enzymes, which are also glycoproteins released into the extracellular medium.
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PMID:Extracellular folate deaminase of Dictyostelium discoideum. 627 Dec 53

A specific increase in T cell extracellular acidification rate has been demonstrated recently when complexes of purified MHC class II molecules and antigenic peptides interact with T cell receptors (TCRs) on cloned T cells. The present study shows that such measurements of an increase in extracellular acidification rate can be used to evaluate the functional role of various N-linked oligosaccharides of MHC class II antigens. Affinity-purified murine IAk and IAs were deglycosylated in the presence of aspargine-amidase enzyme and were characterized by SDS-polyacrylamide gel electrophoresis. The complete removal of all three N-linked oligosaccharides from the alpha/beta heterodimer was confirmed by four different lectin-linked Western blot analyses. Similar to the native heterodimer, both deglycosylated IAk and deglycosylated IAs were fully capable of binding synthetic antigenic peptides derived from myelin basic protein (MBP). When equivalent amount of glycosylated and deglycosylated class II-peptide complexes were exposed to restricted cloned T cells, identical increases in T cell extracellular acidification rates were observed. The specificity of such increases in extracellular acidification rate was demonstrated by exposing cloned T cells to irrelevant complexes of glycosylated and deglycosylated class II and antigenic peptides. These results show how measurement of extracellular acidification rate can be used to study structure-function correlations of ligand-receptor interactions, and support an earlier observation that N-linked oligosaccharides of murine MHC class II molecules are not involved in either antigenic peptide binding or T cell recognition.
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PMID:The role of N-linked oligosaccharides of MHC class II antigens in T cell stimulation. 751 35

Major histocompatibility (MHC) class II antigens are heterodimeric cell surface glycoproteins consisting of an alpha and a beta chain. Although one-dimensional SDS-polyacrylamide gel electrophoresis analysis of purified MHC class II antigens shows a single diffuse band for each chain, multiple spots of identical molecular size were observed for each chain when analyzed by two-dimensional electrophoresis. The basis of this heterogeneity has not been clearly defined and has been predicted partially to be due to glycosylation and/or phosphorylation of the mature protein. To investigate the role of the three N-linked oligosaccharides of the alpha and beta chains in determining the isoelectric point of each chain, affinity-purified MHC class II antigens from human and rat sources were deglycosylated using asparagine amidase. The complete enzymatic removal of all three N-linked oligosaccharides was confirmed by SDS-polyacrylamide gel electrophoresis as well as by four different lectin-linked Western blot analyses. Two-dimensional gel analysis of the deglycosylated molecules shows no significant difference from the fully glycosylated chains. We have expressed truncated forms of the HLA DR2 chains which lack the transmembrane and cytoplasmically exposed regions in Escherichia coli. Two-dimensional electrophoresis of these single chains also reveal multiple banding patterns. The two-dimensional banding patterns described are unaffected by exposure to acidic or basic conditions, increased gel running time in the first dimension, treatment of the proteins with alkaline phosphatase to remove any potential phosphorylation, or preincubation in the presence of iodoacetamide. Multiple forms of recombinant alpha and beta chains were also observed in Tris-glycine-urea gels which merged into a single band in the presence of SDS. In addition, partially fractionated bands from preparative isoelectric focusing gels, when refocused, showed an identical number of multiple spots spanning the same range of isoelectric points. These results together suggest that each polypeptide chain of MHC class II antigens may exist in multiconformational forms, and the observed charge heterogeneity is independent of glycosylation and phosphorylation of the proteins.
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PMID:Intramolecular charge heterogeneity in purified major histocompatibility class II alpha and beta polypeptide chains. 814 5

We previously showed that under defined conditions beta-[3H]funaltrexamine (beta-[3H]FNA) covalently labeled mu-opioid receptors with high specificity in bovine striatal membranes. beta-[3H]FNA-labeled mu-opioid receptors migrated as a broad band with a molecular mass range of 68-97 kDa. It is controversial whether beta-FNA binds irreversibly to mu-opioid receptors in other species. In this study, we demonstrated that beta-[3H]FNA also labeled mu-opioid receptors with high specificity in brain membranes of the guinea pig, rat, and mouse. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis and fluorography revealed that in each species beta-[3H]FNA specifically bound to a protein in which labeling was greatly reduced by naloxone. These labeled receptors had broad molecular mass ranges, and the molecular masses were different among these species, in the order of cow > guinea pig > rat > mouse. Membranes were subjected to solubilization with 2% Triton X-100 and wheat germ lectin (WGL) affinity chromatography. N-Acetylglucosamine eluted a peak of radioactivity. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis and fluorography showed that in all four species the mu receptor was the only protein labeled with beta-[3H]FNA in the WGL eluate. The molecular masses of labeled mu-opioid receptors were 70-88 kDa (median, 77 kDa) for the cow, 66-80 kDa (median, 72 kDa) for the guinea pig, 60-75 kDa (median, 67 kDa) for the rat, and 60-72 kDa (median, 66 kDa) for the mouse. In addition, we investigated the nature of the carbohydrate moieties linked to the receptor protein and whether the species variation in the molecular mass was due to variable degrees of glycosylation. The bovine WGL eluate was treated with various glycosidases. Neuraminidase treatment decreased the receptor molecular mass by 6-7 kDa, whereas alpha-mannosidase had no effect. Removal of N-linked carbohydrates at asparagine residues by peptide-N4-[N-acetyl-beta-glucosaminyl]asparagine amidase (N-Glycanase) resulted in a much sharper specifically labelled protein band of 43 kDa. These results indicate that mu-opioid receptors are heavily glycosylated and the major carbohydrate moieties are of the complex type, N-linked to asparagine. After the WGL eluates for the four species were treated with N-Glycanase, the labeled receptors became much sharper bands with very similar molecular masses, i.e., 43 kDa for the cow and guinea pig, 39 kDa for the rat, and and 40 kDa for the mouse.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Beta-[3H]funaltrexamine-labeled mu-opioid receptors: species variations in molecular mass and glycosylation by complex-type, N-linked oligosaccharides. 823 25

The vasoactive intestinal peptide (VIP) receptor from the human melanoma cell line IGR39 has been shown to be a 60-kDa glycoprotein. Using serial lectin affinity chromatography, as well as specific glycosidases, we demonstrate that VIP receptor-linked carbohydrates are predominantly tri- or tetraantennary sialylated N-linked oligosaccharides, 27% of which are fucosylated, and some may have terminal galactose residues. Treatment of 125I-VIP receptor complexes with peptide-N4-(N-acetyl-beta-D-glucosaminyl)asparagine amidase revealed the presence of at least three N-linked carbohydrate chains/receptor polypeptide. To investigate the functional role of the carbohydrate moiety, 125I-VIP binding to IGR39 cell membranes was tested in the presence of soluble lectins. Among the lectins tested, only wheat germ agglutinin (WGA) was found to markedly inhibit VIP binding in a dose-dependent manner. Binding data indicated that the presence of the lectin led to a 3-fold increase in Kd value, from 0.15 to 0.44 nM, without any change in the number of available binding sites. The potent inhibitor of WGA binding, N,N',N"-triacetylchitotriose, completely reversed the effect of the lectin. On the other hand, VIP binding inhibition persisted even after neuraminidase treatment, suggesting that sialic acids were not directly involved. Furthermore, WGA inhibition was not abolished although most, if not all, VIP receptor oligosaccharides were converted to high mannose type structures by treating IGR39 cells with deoxymannojirimycin. Finally, whereas the pharmacological profile of VIP receptor was virtually identical, the presence of WGA greatly reduced the VIP-stimulated cAMP in IGR39 cells, indicating that the lectin alters the ability of the receptor to interact with the adenylate cyclase system.
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PMID:Structural and functional analysis of the human vasoactive intestinal peptide receptor glycosylation. Alteration of receptor function by wheat germ agglutinin. 838 3

Antigenic profiles of mono-, bi- and poly-specific monoclonal antibodies against 90 kDa polymorphic outer-membrane proteins (POMPs) and a 105 kDa POMP-related protein of Chlamydophila abortus ATCC VR 656(T), after one- and two-dimensional electrophoretic analysis, helped identify each one of the triplets POMP 90, 91A and 91B, and a POMP-related protein at 85 kDa. The lectin concanavalin A bound to the four POMPs and the POMP-related protein in a specific manner and the binding was sensitive to treatment with the amidase N-endoglycosidase F, suggesting the presence of small asparagine-linked oligosaccharide chains. The exposure of the five proteins on the chlamydial surface and the orientation of the attached oligosaccharide chains was examined by protease and endoglycosidase treatments of intact bacteria. The results were consistent with the concept that some of the oligosaccharides in the POMPs face outwards, possibly protecting the polypeptides from proteolytic enzymes, whereas the oligosaccharides in the 105 kDa POMP-related protein are oriented inwards, thereby rendering the polypeptide chain accessible to proteases. A possible role for the N-linked oligosaccharides in the POMPs might be the promotion of the proper folding and processing of these proteins.
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PMID:Polymorphic outer-membrane proteins of Chlamydophila abortus are glycosylated. 1173 62

Two natural glycoproteins/glycoenzymes, invertase and glucoamylase, and two neoglycoconjugates, synthetized from Saccharomyces cerevisiae mannan, bovine serum albumin and penicillin G acylase were tested for interaction with lectin Concanavalin A (Con A). The interaction of natural and synthetic glycoproteins with Con A was studied using three different experimental methods: (i). quantitative precipitation in solution (ii). sorption to Con A immobilized on bead cellulose; and (iii). kinetic measurement of the interaction by surface plasmon resonance. Prepared neoglycoproteins were further characterized: saccharide content, molecular weight, polydispersion, kinetic and equilibrium association constants with Con A were determined. It can be concluded that the used conjugation method proved to be able to produce neoglycoproteins with similar properties like natural glycoproteins, i.e. enzymatic activity (protein part) and lectin binding activity (mannan part) were preserved and the neoglycoconjugates interact with Con A similarly as natural mannan-type glycoproteins.
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PMID:Influence of mannan epitopes in glycoproteins--Concanavalin A interaction. Comparison of natural and synthetic glycosylated proteins. 1229 32


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