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)

A sialoglycoprotein, an integral component of the head plasma membrane of human spermatozoa, is recognized by the a-HS 1A.1 monoclonal antibody. The antigenicity is associated with the sugar moiety since: a) trypsin digestion did not affect the antigenic determinant; b) pretreatment of the cells with beta-glucosidase, alpha-mannosidase and neuraminidase completely abolished antibody binding. Endoglycosidase D and glycopeptidase F were inactive. The a-HS 1A.1 did not recognize a variety of blood-group related synthetic oligosaccharides. The species specificity was studied by indirect immunofluorescence assay. The antibody also recognized an antigen on Macaca fascicularis sperm, but failed to bind to spermatozoa of boar, bull, goat, ram, stallion, dog, rabbit, rooster, carp and eel.
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PMID:Primate specific sialoglycoprotein of sperm head plasma membrane defined by an anti-carbohydrate monoclonal antibody. 331 19

The microheterogeneity of androgen-binding protein (ABP) from rat serum and epididymis was examined by subjecting purified native or deglycosylated preparations to analysis by one- or two-dimensional polyacrylamide gel electrophoresis (PAGE) followed by electrophoretic transfer to nitrocellulose and immunochemical localization. Analysis of native ABP by one-dimensional sodium dodecyl sulfate-PAGE confirmed earlier observations that it is composed of subunits and that the subunits of serum ABP had higher apparent molecular weights than those of epididymal ABP. Treatment with neuraminidase, N-glycanase, or O-glycanase, alone or in combination, resulted in decreases in the apparent molecular weight of the subunits. These analyses indicated that terminal sialic acid residues and Asn-linked oligosaccharides were present on both subunits of ABP from the two sources. The fact that the greatest reduction in the Mr of the heavy subunit occurred following treatment with all three enzymes provides evidence that O-linked sugars are present on it. While enzyme treatment did not result in the appearance of a single subunit, chemical deglycosylation did (Mr 39,600). The carbohydrate composition of the heavy and light subunits of intact serum and epididymal ABP was 22 and 9% and 19 and 8%, respectively. Analysis by two-dimensional PAGE indicated that both subunits of the ABPs were composed of isoelectric variants. Although ABP from the two sources had several variants in common, differences were also observed. Treatment of the ABPs with the enzymes resulted in a shift of the pI values to a more basic pH range, indicating that carbohydrate removal also removed charged moieties. The most dramatic shift in the pI values of the isoforms occurred when O-glycanase was present in the enzyme mixture, providing further evidence for the presence of O-linked oligosaccharides on ABP. Isoelectric variants were present even after chemical deglycosylation of ABP.
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PMID:The microheterogeneity of androgen-binding protein in rat serum and epididymis is due to differences in glycosylation of their subunits. 333 17

Epimastigotes (EPI) of Trypanosoma cruzi are highly sensitive to lysis in fresh normal human serum by the alternative complement pathway (ACP). In contrast, metacyclic trypomastigotes (CMT) derived from EPI in stationary culture fail to activate the ACP and are thus resistant to serum-mediated lysis. To investigate the nature of the parasitic surface molecules which enable infective metacyclic trypomastigotes to evade the ACP, CMT were treated with a variety of different proteolytic and glycosidic enzymes, and their sensitivity to ACP-dependent lysis was tested. Pretreatment with pronase was found to cause a near complete reversal in the resistance of CMT to serum lysis, whereas trypsin or chymotrypsin induced smaller increases in complement sensitivity. Similarly, pretreatment with N-glycanase or neuraminidase also partially abrogated the resistance of CMT to ACP-dependent lysis. The effect of these enzymes on susceptibility to complement-mediated lysis was paralleled in increased C3 and C9 deposition on the organism. In addition, electrophoretic analysis of parasite-bound C3 indicated that the hemolytically inactive fragment, iC3b, was the major form of the molecule on CMT, while the hemolytically active fragment, C3b, predominated on pronase-treated CMT. Furthermore, when C3 was deposited on the parasite surface by means of purified ACP components, 80% of C3b on pronase-pretreated CMT but only 14% of the C3b on CMT bound the amplification protein factor B with high affinity, a prerequisite for efficient ACP activation. When cultured at 37 degrees C after pronase treatment, CMT gradually regained their resistance to ACP-mediated lysis. This process was blocked if puromycin, cycloheximide, or tunicamycin were included in the culture medium. The above findings suggest that evasion of the ACP by CMT is dependent on the developmentally regulated synthesis of protein as well as N-linked carbohydrate chains. A stage-specific 90,000 to 115,000 m.w. glycoprotein doublet present on the surface of CMT was shown to be uniquely sensitive to pronase digestion. Thus, this complex, which is also recognized by a CMT-specific monoclonal antibody, may be the glycoprotein component responsible for control of ACP activation
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PMID:Evasion of the alternative complement pathway by metacyclic trypomastigotes of Trypanosoma cruzi: dependence on the developmentally regulated synthesis of surface protein and N-linked carbohydrate. 353 42

Dopamine beta-hydroxylase (D beta H) (EC 1.14.17.1) from adrenal medulla is a glycoprotein with approximately 5% carbohydrate by weight. The oligosaccharide chains of this enzyme were enzymatically removed with various glycosidic enzymes (endoglycosidases D, F, and H; glycopeptidase F; alpha-mannosidase; neuraminidase; and beta-galactosidase). The time course of deglycosylation was monitored by polyacrylamide gel electrophoresis, and evidence for sugar removal was shown by a modification of the Western blot technique utilizing 125I-labeled concanavalin A and by amino acid analysis. Protein was detected in the gel by using specific antibodies and 125I-labeled protein A. Steady-state kinetic data of deglycosylated D beta H show minor differences between the native and the deglycosylated protein. The Km values for tyramine were 2.17 and 1.66 mM whereas the Km values for oxygen were 0.18 and 0.14 mM for the native and the deglycosylated protein, respectively. The Vmax values (pH 5.0) for the two forms of the enzyme were comparable, with the deglycosylated D beta H being 15% lower. These data indicate that the oligosaccharide moieties present on D beta H do not play a role in catalysis.
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PMID:Characterization and kinetic studies of deglycosylated dopamine beta-hydroxylase. 360 11

The major protein in human pulmonary surfactant is a sialoglycoprotein of 32-36 kDa (PSP-A) that has been shown by translation of lung mRNA in vitro to be derived from precursor molecules of 29-31 kDa [Floros, Phelps & Jaeusch (1985). J. Biol. Chem. 260, 495-500]. We show here that two-dimensional gel patterns of PSP-A similar to that of the primary translation products are obtained by incorporation of [35S]methionine in the presence of tunicamycin or by N-glycanase digestion of the 32-36 kDa group. Additional gel patterns are also observed in which the isoelectric-point heterogeneity is similar to that of either tunicamycin-treated tissue or primary translation products, but with higher molecular masses. The gel patterns showing higher-molecular-mass components are obtained when terminal sialic acid addition is prevented by the incubation of lung tissue with monensin or when terminal sialic acids are digested from the fully processed protein with neuraminidase. The 32-36 kDa forms have been shown to contain [14C]mannose. Pulse-chase experiments indicate that the acidic isoforms in the protein group arise from basic isoforms that are detectable within 10 min.
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PMID:Post-translational modification of the major human surfactant-associated proteins. 380 Aug 94

A glycoprotein that circulates in human blood, binds to the surface of platelets and white cells and also binds serotonin with high affinity and specificity has previously been purified and partially characterized. This glycoprotein has been called serotonectin. Antibodies raised against serotonectin inhibited the uptake of [3H]serotonin by platelets. We now report on the amino acid and carbohydrate composition of this protein as well as on some of the properties of the protein from which the carbohydrate moiety was removed. Serotonectin (apparent molecular weight 200 000; as judged by SDS-polyacrylamide gel electrophoresis) is an acidic protein that contains about 13% carbohydrate (w/w) consisting of mannose, galactose, glucosamine and sialic acid in a molar ratio of 2:1:4:0.8. Initial characterization suggests that serotonectin is a sialoglycoprotein of complex-type oligosaccharide N-linked to asparagine through N-acetylglucosamine. Treatment of serotonectin with neuraminidase resulted in a quantitative release of sialic acid without loss of antigenicity or binding capacity for [3H]serotonin. Treatment of desialylated serotonectin under non-denaturing conditions with almond glycopeptidase A resulted in 60-80% release of sugar. The protein moiety of the glycopeptidase-digested material showed no change in the capacity to bind [3H]serotonin and exhibited the same antigenic properties as untreated serotonectin. These data show the non-involvement of the carbohydrate moiety of human serotonectin in the mechanism of binding serotonin but the possible contribution of this moiety to a tighter interaction with the serotonectin receptor.
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PMID:Human serotonectin: a blood glycoprotein that binds serotonin. Chemical and physiological characterization. 394 85

To examine the possible occurrence of receptors in the ectodermal cell surface which apparently mediates the neural-inducing stimulus, a further experiment by using Con A was done in combination with the enzyme treatments. The presumptive ectoderm explants of Cynops gastrula were first treated with neuraminidase to remove sialic acid. Prior to the Con A treatment, the explants were treated with almond glycopeptidase, which cleaves the asparagine linkage between protein and oligosaccharide in glycoprotein and releases the oligosaccharide moiety intact containing mannose residue from the substrate. No neural induction occurred. When the explants were not treated with almond glycopeptidase, the neural induction frequency was found to be the same as that of the explants treated with only Con A. Biochemical analyses showed that when the fixed ectoderm explants were treated with almond glycopeptidase, several oligosaccharides were released and then fractionated by means of Bio-Gel P-4 filtration. Based on the strict specificity of almond glycopeptidase, these oligosaccharides are unmistakably asparagine-linked oligosaccharides with mannose residues. We discuss the hypothesis of involvement of glycoproteins in the first step of molecular events in the neural induction mechanism.
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PMID:Glycoproteins responsive to the neural-inducing effect of concanavalin A in Cynops presumptive ectoderm. 672 87

A polyclonal antibody (Ab597) was produced in rabbit against a fusion protein of glutathione-S-transferase and the last 87 amino acids of the Na+/H+ exchanger isoform, NHE2. By Western blotting, Ab597 recognized proteins of 75 and 85 kDa in PS120/NHE2 membranes (PS120 cells stably transfected with NHE2), and this antibody did not cross-react with NHE1 and NHE3. When Ab597 was used to immunocytochemically stain PS120/NHE2 cells, permeabilization of the cells was required for staining, confirming the putative membrane topology of NHE2 that the C-terminus is cytoplasmic. NHE1 is N-glycosylated. NHE2 was predicted to be N-glycosylated as it contains one potential N-linked glycosylation site (N350VS), which is conserved among NHE1, NHE3, and NHE4. However, NHE2 was resistant to peptide:N-glycosidase F (PNGase F) and endoglycosidase H (Endo H) digestion, suggesting that NHE2 is not N-glycosylated. In contrast, neuraminidase shifted the mobility of the 85 kDa NHE2 protein in PS120/NHE2 membranes into an 81 kDa band, and O-glycanase further shifted the mobility of the neuraminidase-treated 81 kDa protein to 75 kDa. Incubation of PS120/NHE2 cells with benzyl N-acetyl-alpha-D-galactosaminide (Bz alpha GalNAc), an O-glycosylation inhibitor, decreased the size of the 85 kDa protein to 81 kDa. This treatment had no effect on the initial rate of Na+/H+ exchange of PS120/NHE2 cells. The 75 kDa protein was not affected by the glycosidase treatment of PS120/NHE2 membranes or the Bz alpha GalNAc treatment of PS120/NHE2 cells.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Na+/H+ exchanger-2 is an O-linked but not an N-linked sialoglycoprotein. 752 59

Vascular endothelium plays a pivotal role in controlling leukocyte extravasation from the blood into the tissues. Vascular adhesion protein-1 (VAP-1) is a novel endothelial cell molecule which mediates lymphocyte binding to the vascular lining (Salmi, M., and Jalkanen, S., Science 1992. 257:1407). In this study, we analyzed endothelial cell type-specific differences of VAP-1. In vivo, VAP-1 is a 90/170-kDa molecule which is mainly expressed on the lumenal surface and in cytoplasmic granules of peripheral lymph node-type postcapillary venules (high endothelial venules, HEV). In tonsil HEV, VAP-1 is modified with abundant sialic acids. VAP-1 is also detectable in the cytoplasm of human umbilical vein endothelial cells (HUVEC) and in an endothelial cell hybrid EaHy-926, although both cell types lack detectable surface VAP-1. Cultured endothelial cells do not express MECA-79-defined peripheral lymph node addressins either. VAP-1 was not translocated onto the endothelial cell surface after stimulation with multiple cytokines, mitogens or secretagogues which induced expression of other known endothelial adhesion molecules. Biochemical analyses revealed that VAP-1 is a approximately 180-kDa protein in these endothelial cell types. Digestions with neuraminidase, O-glycanase and N-glycanase, as well as treatment of cells with tunicamycin and benzyl-N-acetylgalactosaminide, did not alter the molecular mass of VAP-1 in EaHy-926. Pulse-chase experiments showed that VAP-1 is directly synthesized as a 180-kDa molecule without any detectable precursors. Thus, in cultured endothelial cells, VAP-1 is a 180-kDa protein which is devoid of post-translational modifications, and in particular, lacks the sialic acids crucial for the function of VAP-1 in tonsil vessels. Notably, the endothelial cell types commonly used as a model in studying lymphocyte-endothelial cell interactions lack surface expression of VAP-1 and peripheral node addressins, and hence are inherently of limited use in analyses of the initial adhesion of lymphocytes.
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PMID:Different forms of human vascular adhesion protein-1 (VAP-1) in blood vessels in vivo and in cultured endothelial cells: implications for lymphocyte-endothelial cell adhesion models. 758 75

Subgroup B adenoviruses (Ad3, -7, -11, -35) contain two open reading frames (ORFs) in the early E3 transcription unit that are not present in subgroup C adenoviruses (Ad2, Ad5). The product of one of these ORFs, a 20,500-kDa (20.5K) protein, was shown previously to be expressed as two diffuse 22K and 36K bands on SDS-PAGE; the 22K appeared to be the precursor to the 36K species. As judged by its predicted sequence, 20.5K is a type I membrane glycoprotein with two potential sites for N-glycosylation and a transmembrane domain near its COOH-terminus. Here we show that when Ad3- or Ad7-infected cells were radiolabeled in the presence of tunicamycin, which prevents the addition of N-linked oligosaccharides, both the 22K and the 36K forms of 20.5K showed increased mobility in SDS-PAGE, indicating that both forms contain N-linked sugars. Both the 22K and the 36K forms were sensitive to digestion by endoglycosidase F and N-glycanase, again indicating that they both contain N-linked sugars. Only the 22K species was sensitive to endoglycosidase H, indicating that it contains high-mannose-type oligosaccharides and that the 36K species contains complex-type carbohydrates. The 36K form was sensitive to neuraminidase, indicating that its sugars contain terminal sialic acid. When digested with N-glycanase and neuraminidase, the 36K form was sensitive to O-glycanase, indicating that the 36K form has O-linked oligosaccharides. The 22K form was labeled with [3H]mannose and the 36K form was labeled with [3H]glucosamine and to a much lesser extent by [3H]mannose. Altogether these results indicate that the 20.5K protein is cotranslationally modified with N-linked high-mannose oligosaccharides, then the protein moves into the Golgi and trans-Golgi network where it acquires O-linked and complex N-linked oligosaccharides.
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PMID:The E3-20.5K membrane protein of subgroup B human adenoviruses contains O-linked and complex N-linked oligosaccharides. 761 71


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