EC:3.5.1.52 - FACTA Search

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)

The binding in pre-colonoscopic effluent of Adnab-9, a monoclonal antibody raised against colonic adenomas, was evaluated for specificity in the diagnosis of colorectal cancer. A heterogeneous group of 58 patients was evaluated by ELISA. Effluent samples and tissue extracts were subjected to Western blotting or ELISA to confirm specificity. Immunohistochemistry was performed on the cancer tissue sections. The proportion of positive effluent binding was higher in the cancer when compared to the normal group (P = 0.036). A dominant 87 M(r) band was found in adenoma extracts and some effluent samples. Adnab-9 binding in effluent samples predominated in membrane-bound fractions. Immunohistochemistry showed no specific staining in the cancer cells. The antigen recognised is a glycoprotein shown by effects of N-glycanase digestion and not cross-reactive with carcinoembryonic antigen. Non-gastro-intestinal tissue extracts did not bind Adnab-9. The major 87 M(r) adenoma-derived antigen may be found in effluent material, particularly in the membrane-bound fraction.
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PMID:Adenoma-derived antibody, Adnab-9 recognizes a membrane-bound glycoprotein in colonic tissue and effluent material from patients with colorectal neoplasia. 142 46

We previously described a developmentally regulated, Mr 115,000 (reduced) and 110,000/128,000 (nonreduced) mouse T cell-activating molecule (THAM) also expressed on a variety of epithelial cell surfaces, and associated with neutral exoaminopeptidase activity. In the present study, we show that THAM is the mouse counterpart of the human T cell-activating ectoenzyme CD26 (dipeptidyl peptidase IV, DPP IV) and that highly purified THAM lacks neutral exoaminopeptidase activity. This conclusion is based on the following: 1) the N-terminal segments of the THAM Mr 110,000 and 128,000 components shared the same amino acid sequence with the rat DPP IV. These N-termini comprised a short intracytoplasmic tail of six residues followed by a downstream hydrophobic transmembrane segment. 2) THAM-specific mAb H194-112-Affi-Gel immunoadsorbent was capable of removing DPP IV enzymatic activity from mouse thymoma cell detergent extracts. 3) H194-112 reactivity pattern on developing thymocytes was found to parallel that previously reported for membrane-bound DPP IV enzymatic activity. The extent of THAM N-glycosylation, as measured by N-glycanase treatment of H194-112 immunoprecipitates, was found to be similar to that of human and rat DPP IV (i.e., approximately 20 kDa). Cross-linking experiments indicated that THAM was expressed at the cell surface as a dimer of approximately 220 kDa. Its two subunits were found to be structurally related but not identical as shown by their different Mr under nonreducing conditions and by their slightly distinct peptide profiles after proteolytic cleavage. We conclude from these data that DPP IV, in addition to its extracellular matrix receptor and ectoenzymatic functions, is a T cell-activating structure in both human and mouse species.
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PMID:Evidence that thymocyte-activating molecule is mouse CD26 (dipeptidyl peptidase IV). 171 7

We have investigated the action of three endo N-acetylglucosaminidases on rhodopsin. The oligosaccharide chains of native and denatured opsin and rhodopsin, both solubilized and membrane-bound, were shown to be cleaved by endohexosaminidase H, endohexosaminidase F, and peptide-N-glycosidase F (PNGase F) as revealed by SDS-PAGE. These enzymes were shown to be free of protease activity. Under correct conditions, the endoglycosidases could release one or both carbohydrate chains. Rhodopsin and opsin at concentrations between 2 and 65 nmol ml-1 were cleaved, with more complete deglycosylation occurring at the higher concentrations.
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PMID:Enzymatic deglycosylation of bovine rhodopsin. 183 17

Rat and human neutrophil N-formyl-peptide chemotactic receptors were subjected to glycosidase and proteinase treatments to determine the extent and species differences of glycosylation and the carbohydrate requirement in the high-affinity ligand binding. N-Formyl-Nle-Leu-Phe-Nle-125I-Tyr-Lys was attached to rat and human neutrophils either before or after glycosidase and proteinase treatments, and the labelled receptors were solubilized after glutaraldehyde cross-linking and analysed by SDS/PAGE and autoradiography. Both the rat and human N-formyl-peptide chemotactic receptors contain only N-linked oligosaccharides, as demonstrated by their sensitivity to peptide N-glycosidase F (PNGase F) and resistance to O-glycanase treatment. The N-linked oligosaccharides seem to be of the complex type rather than the high-mannose or hybrid type and lack terminal sialic acid, as demonstrated by their resistance to endoglycosidases D and H and neuraminidase treatments. This sensitivity pattern was similar in both species, and the shift in the molecular size of the receptors to 35-38 kDa after PNGase F treatment occurred through one intermediate product, suggesting that both receptors contain a similar 35-38 kDa polypeptide core with two N-linked complex-type oligosaccharides, the heterogeneity of which is responsible for the species difference in receptor size. Papain treatment alone or followed by PNGase F produced in both species a 33-36 kDa membrane-bound fragment that was still able to bind the ligand, suggesting that the oligosaccharides are located on the approx. 2 kDa papain-cleavable polypeptide fragment of the receptors. The cleavage sites for both papain and PNGase F were hidden in occupied receptors, suggesting a conformational or topographical change in these upon ligand binding. Scatchard analyses and cross-linking experiments demonstrated that carbohydrates are not required for high-affinity ligand binding and that the 33-36 kDa membrane-bound papain fragment of both receptors contains the ligand-binding site.
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PMID:Rat and human neutrophil N-formyl-peptide chemotactic receptors. Species difference in the glycosylation of similar 35-38 kDa polypeptide cores. 185 49

Thyroid peroxidase is a heme-containing, membrane-bound, glycoprotein enzyme that catalyzes iodination and coupling in the thyroid gland. It is also the antigen for microsomal autoantibodies that are commonly found in the serum of patients with autoimmune thyroid disease. We examined the effect of deglycosylation on the catalytic functions and the immunoreactivity of this enzyme. A highly purified, solubilized, large tryptic fragment of porcine thyroid peroxidase, retaining all of the N-linked glycosylation sites of the native enzyme and displaying full catalytic activity was used. It was deglycosylated by treatment with N-glycanase under nondenaturing conditions. The loss in relative molecular mass after treatment, determined by gel electrophoresis, was about 75% of the estimated molecular weight of the glycan portion of porcine thyroid peroxidase. Lectin blots performed with horseradish peroxidase-conjugated concanavalin A showed a similar loss in relative molecular mass but some residual carbohydrate. The intensity of the carbohydrate stain was consistent with the loss of about 75% of the glycans. Despite this loss, three different assays for catalytic activity of porcine thyroid peroxidase were not significantly decreased. Immunoreactivity measured by immunoblotting and by enzyme-linked immunosorbent assay was also unimpaired. These findings suggest that N-glycanase-sensitive glycans in porcine thyroid peroxidase do not act as antigenic determinants and play a minor role, if any, in catalytic activity and, presumably therefore, in the maintenance of protein conformation.
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PMID:Enzymatic deglycosylation of porcine thyroid peroxidase: effects on catalytic activity and immunoreactivity. 200 Jun 95

Several lines of evidence have recently suggested the occurrence of a specific lactotransferrin receptor in the small intestinal brush-border membrane in several animal species, which is thought to be involved in lactotransferrin-mediated intestinal iron absorption. We report here for the first time the isolation and partial characterization of this receptor from mouse intestinal brush border. The receptor has been purified to homogeneity by affinity chromatography on an immobilized human lactotransferrin column. The purified receptor was found to be active in that it binds iron-free and iron-saturated lactotransferrin with a Kd of 0.1 microM. Anti-receptor antibodies were prepared, and the receptor was further isolated by immunoaffinity chromatography in higher yield but in a denatured form. The purified receptor was revealed by sodium dodecyl sulfate-polyacrylamide electrophoresis to be a protein of about Mr = 130,000, consisting of a single polypeptide chain. The isoelectric point was determined to be 5.8. The receptor was further shown to bear concanavalin A and phytohemagglutinin L binding glycans. Digestion by N-glycanase and endo-N-acetyl-beta-D-glucosaminidase B led to a decrease of Mr = 25,000, while the endo-N-acetyl-beta-D-glucosaminidase H was uneffective, suggesting that the lactotransferrin receptor is mainly glycosylated by bi- and triantennary glycans. To gain further insight into the interaction of the receptor with lactotransferrin, namely, the number of ligand molecules bound per molecule of receptor, mouse lactotransferrin was cross-linked to its membrane-bound enterocyte receptor by use of radiolabeled sulfosuccinimidyl 3-[[2-(p-azidosalicylamido)ethyl]dithio]propionate (SASD).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Isolation and partial characterization of a lactotransferrin receptor from mouse intestinal brush border. 215 49

Isolation of two membrane-bound alkaline phosphatase (AP) species from avian growth plate cartilage matrix vesicle (MV) fractions is described. AP was first released from the membranes by phosphatidylinositol-specific phospholipase C (PIase C), followed by chromatography on DEAE-Bio-Gel A and Reactive-Red agarose. Two AP species having apparent Mr of 81.5 and 77 kDa by SDS-PAGE were purified in high yield and specific activity by this simple method. Treatment with neuraminidase to remove sialic acid residues reduced their size slightly, but did not diminish the difference in Mr between the two species. Digestion with N-glycanase, however, decreased both AP species to a common size of 59 kDa. This reveals that both enzymes are highly glycosylated and suggests that the two forms may result from differences in degree of glycation. The amino acid compositions of the two avian enzyme forms are very similar, but are markedly enriched in serine, glycine and glutamate when compared to those reported for mammalian liver-kidney-bone AP. Possible differences in amino acid sequence between the two avian forms have not been excluded. The cross-reactivity of polyclonal antibodies to these enzymes with bovine kidney, but not intestinal AP, indicate that the avian cartilage APs are of the liver-kidney-bone isozyme type.
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PMID:Isolation of two glycosylated forms of membrane-bound alkaline phosphatase from avian growth plate cartilage matrix vesicle-enriched microsomes. 280 49

In order to determine whether the human insulin receptor ectodomain can be expressed as a functional protein, the coding regions for the transmembrane and cytoplasmic domain of a full-length human insulin receptor cDNA were deleted by site-directed mutagenesis, and the resultant construct was inserted into a bovine papilloma virus vector under the control of the mouse metallothionein promoter. After transfection of mouse NIH3T3 cells, a cell line secreting an insulin binding protein was isolated. The insulin binding alpha subunit had an Mr of 138,000 and a beta subunit of Mr 48,000 (compared to 147,000 and 105,000 for the full-length human insulin receptor expressed in NIH3T3 cells). This difference in size of the alpha subunit was due to a difference in glycosylation as N-glycanase digestion reduced the apparent size of the alpha subunits of secreted and normal membrane-bound receptors to identical values. The secreted receptor formed disulfide-linked heterotetrameric structures with an Mr of 280,000. It was synthesized as an Mr 160,000 precursor which was cleaved into mature subunits with a t1/2 of 3 h. Increasing expression of the cDNA by induction with sodium butyrate lead to the appearance of an Mr 180,000 protein in the medium as well as the mature alpha and beta subunits. A Scatchard plot of insulin binding to the secreted receptor was curvilinear with a Kd of 7 X 10(-10) M for the high affinity sites and 10(-7) M for the low affinity site (compared to Kd values of 1.1 X 10(-9) M and 10(-7) M, respectively, for human insulin receptors expressed in these cells.
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PMID:Secretion of soluble functional insulin receptors by transfected NIH3T3 cells. 283 Feb 71

The biosynthesis and maturation of human sucrase-isomaltase (SI, EC 3.2.1.48-10), was studied in cultured small intestinal biopsy specimens and mucosa explants. Pulse-chase experiments with [35S]methionine revealed one high mannose intermediate of Mr = 210,000 (pro-SIh) which was processed at a slow rate to an endo H-resistant, mature form of Mr = 245,000 (pro-SIc). The fully core-glycosylated form (Mr = 212,000) was detected only when 1-deoxynojirimycin was added to the culture medium, thus indicating that the core sugars undergo rapid processing by rough endoplasmic reticulum membrane-bound glycosidases. The data presented showed that trypsin specifically and instantaneously (within 1 min) cleaves pro-SIc to two subunits Ic (Mr = 145,000) and Sc (Mr = 130,000). Elastase and chymotrypsin are not effective. Enzymic and chemical deglycosylations of SI with endo-beta-N-acetylglucosaminidase F/glycopeptidase F and trifluoromethanesulfonic acid (TFMS) as well as probing for the binding capacity of SI to Helix pomatia lectin demonstrated that pro-SIc, Ic, and Sc are N- and O-glycosylated. Furthermore, the results were indicative of a posttranslational O-glycosylation of pro-SI, since (i) the earliest detectable precursor form, pro-SIh, did not bind to H. pomatia lectin and (ii) its deglycosylation products with both endo-beta-N-acetylglucosamidase H and TFMS were identical. Both the Sc and Ic subunits contain eight N-linked glycan units, at least one of which is of the high mannose type and found on Sc. Finally, Sc, but not Ic, was shown to display at least four populations varying in their content of O-linked glycans. The heterogeneous O-glycosylation pattern of Sc could be correlated with the distal position of this subunit (and its O-glycosylation sites) within the pro-SI molecule, thus affecting the extent of O-linked oligosaccharide processing and their subsequent presentation on the mature molecule.
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PMID:Biosynthesis of the human sucrase-isomaltase complex. Differential O-glycosylation of the sucrase subunit correlates with its position within the enzyme complex. 336 77

Carbonic anhydrase (CA) was purified from the gills of the shore crab Carcinus maenas using affinity chromatography and HPLC. The predominantly membrane-bound CA was found to share several features with mammalian CA IV. Its apparent molecular weight of 36 kDa was reduced to 33 kDa by treatment with PNGase F, suggesting that crab CA is a glycoprotein with one N-linked oligosaccharide chain. More than half of the membrane-bound crab CA was released from membranes by treatment with a phosphatidylinositol-specific phospholipase C, indicating that the branchial CA is anchored to membrane surfaces by a phosphatidylinositol-glycan linkage. The enzyme also resembles mammalian CA IV in its relative sensitivity to inhibition by sulfonamides and the resistance to inhibition by halide ions. Amino acid composition of the HPLC-purified crab CA was examined and CNBr cleavage was carried out followed by N-terminal amino acid sequencing. Amino-terminal sequence of the native enzyme differed considerably from those of mammalian isozymes (human CA I and CA II, bovine CA III, human and rat CA IV). However, antisera raised against rat CA IV, CA II, and CA I all cross-reacted weakly with crab CA. Unlike mammalian CA IVs, crab gill CA was sensitive to 0.2% sodium dodecyl sulfate, suggesting that although crab gill CA is like mammalian CA IVs in many ways, it is less stabilized by intramolecular disulfide bonds.
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PMID:Membrane-associated carbonic anhydrase from the crab gill: purification, characterization, and comparison with mammalian CAs. 803 56

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