Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Using affinity chromatography with the monoclonal antibody 271A6, which binds selectively to telencephalic regions of the rabbit brain, we have purified a telencephalon-specific antigen to apparent homogeneity and characterized it as a membrane glycoprotein. The telencephalon-specific membrane protein (named "telencephalin") has a molecular weight of about 500,000 and is composed of four subunits each of mol. wt 130,000. Its digestion with N-glycanase reduced the subunit mol. wt by 23,000, indicating that each subunit has several N-asparagine-linked oligosaccharide chains. Immunohistochemical analysis using polyclonal antibody against the purified telencephalin shows that expression of the entire protein is restricted to the telencephalon. In addition, segment-specific expression of telencephalin was observed in all mammalian species examined (mouse, rat, guinea-pig, rabbit, cat and monkey). The telencephalon is the most rostral segment of the brain, and comprises the cerebral neocortex, paleocortex, hippocampus, septum, striatum and olfactory bulb. The present results indicate that all regions of the mammalian telencephalon express the segment-specific membrane glycoprotein, telencephalin, and suggest that telecephalin is involved in functions specific to the surface membrane of telencephalic neurons.
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PMID:Mammalian telencephalic neurons express a segment-specific membrane glycoprotein, telencephalin. 235 99

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

A detailed study of the oligosaccharide specificity of the almond enzyme, peptide-N4-(N-acetyl-beta-glucosaminyl)asparagine amidase A, was undertaken by comparing the rate of release of intact oligosaccharide chains from defined glycopeptides of all significant classes. The oligosaccharide of a trisialo-triantennary pentaglycopeptide from fetuin was released at the highest rate. A procedure was developed for the isolation of this glycopeptide in high yield from 5 g fetuin. Sequence analysis established the structure as Leu-Ala-Asn(CHO)-Cys-Ser. The Cys(Cm) and the Cys(Ae) derivatives of the glycopeptide were reacted with 4-(dimethylamino)-azobenzene-4'-sulfonyl (dabsyl) chloride to yield a monosubstituted and a disubstituted glycopeptide respectively. This chromophore confers high sensitivity at 436 nm on a pentapeptide backbone having minimal bonds for protease cleavage. A procedure was developed wherein these dabsyl derivatives were used in a high-performance liquid chromatography assay. The dabsyl-pentapeptide was retarded significantly from the dabsyl-glycopeptide and provided a sensitive method (1-2 nmol) of detection of peptide-N4-(N-acetylglucosaminyl)asparagine amidase activity. Enzyme was detected in crude extracts of all eight seed sources surveyed. The enzyme from Pisum sativum was partially purified and its properties were compared with the corresponding enzyme from almonds.
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PMID:Detection and quantification of peptide-N4-(N-acetyl-beta-glucosaminyl)asparagine amidases. 243 26

As tools to study structural relationships of cobra venom factor (CVF) and human complement component C3, murine monoclonal antibodies to CVF were produced. In this paper we describe two of these monoclonal anti-CVF antibodies designated GV1.8 and GV1.10, both of which bind to carbohydrate epitopes. On immunoblotting, antibody GV1.8 binds to both the alpha- and beta-chains of CVF, whereas antibody GV1.10 binds only to the alpha-chain of CVF. After enzymatic deglycosylation of CVF with N-glycanase (peptide-N4-(N-acetyl-beta-glucosaminyl) asparagine amidase), both antibodies lose their ability to bind to the deglycosylated protein. Additionally, the free oligosaccharide chains of CVF are able to inhibit the binding of antibodies GV1.8 and GV1.10 to CVF on enzyme-linked immunosorbent assay, further demonstrating their carbohydrate specificity. Both monoclonal antibodies to CVF cross-react with human C3. Antibody GV1.8 binds to both chains of human C3 indicating that the shared antigenic epitope present on the two glycosylated chains of CVF is also present on the two chains of human C3. Antibody GV1.10 cross-reacts only with the beta-chain of human C3 which is the homologous chain to the alpha-chain of CVF. After enzymatic deglycosylation of human C3 by N-glycanase, both antibodies lose their ability to bind to the deglycosylated protein consistent with the carbohydrate nature of the recognized epitopes. These results indicate that CVF and human C3 share carbohydrate epitopes on their homologous and nonhomologous chains.
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PMID:Cobra venom factor and human C3 share carbohydrate antigenic determinants. 244 Sep 48

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

The Maackia amurensis leukoagglutinin has been shown to react specifically with the Neu5Ac (alpha 2,3) Gal sequence of asparagine-linked complex type oligosaccharides. We report here the preparation of Maackia amurensis lectin-gold complexes and their application for light and electron microscopic detection of the Neu5 Ac (alpha 2,3) Gal sequence in various tissues. The use of the lectin directly gold labeled was superior to a two-step cytochemical affinity technique using a fetuin-gold complex. The Maackia amurensis lectin-gold staining was inhibited by pre-incubation of the lectin-gold complexes with 50 mM alpha 2,3 sialyllactose, whereas alpha 2,6 sialyllactose up to concentrations of 1 M had no effect, thus demonstrating the high specificity of the histochemical staining. In addition to N-glycanase-sensitive asparagine-linked oligosaccharides, beta-elimination-sensitive serine/threonine-linked oligosaccharides could be detected. Data are presented which show that cellular staining patterns obtained with Maackia amurensis lectin-gold complexes may differ from those with elderberry bark lectin-gold, which detects the Neu5 Ac (alpha 2,6) Gal/GalN Ac sequence. Electron microscopic double labeling for direct study of the differential distribution of the Neu5 Ac (alpha 2,3) Gal and Neu5 Ac (alpha 2,6) Gal sequences is reported. Therefore, the availability of two sialic acid binding lectins with different linkage specificity for histochemistry provides the first opportunity to study tissue and cell type expression of these terminal sequences of glycoproteins.
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PMID:Detection of the Neu5 Ac (alpha 2,3) Gal (beta 1,4) GlcNAc sequence with the leukoagglutinin from Maackia amurensis: light and electron microscopic demonstration of differential tissue expression of terminal sialic acid in alpha 2,3- and alpha 2,6-linkage. 247 13

1. N-glycanase, but not O-glycanase, released carbohydrates from butyrophilin of rat and cow milk lipid globule membranes. 2. 1-Deoxynojirimycin, and inhibitor of glucosidases I and II of the glycoprotein processing pathway, increased the amount or extent of glycosylation of butyrophilin in rat milk lipid globules. 3. Butyrophilin and xanthine oxidase of milk lipid globule membrane had a nearest neighbor relationship, as demonstrated through specific crosslinking of these proteins. 4. From these results it is suggested that butyrophilin has asparagine-linked oligosaccharides which bypass the processing apparatus of endoplasmic reticulum and Golgi apparatus. Butyrophilin may be responsible for anchoring xanthine oxidase to the inner (cytoplasmic) face of milk lipid globule membrane.
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PMID:Butyrophilin of milk lipid globule membrane contains N-linked carbohydrates and cross-links with xanthine oxidase. 252 60

Many of the extracellular lignin-degrading peroxidases from the wood-degrading fungus Phanerochaete chrysosporium are phosphorylated. Immunoprecipitation of the extracellular fluid of cultures grown with H2K32PO4 with a polyclonal antibody raised against one of the lignin peroxidase isozymes, H8 (pI 3.5), revealed the incorporation of H2K32PO4 into lignin peroxidases. Analyses of the purified isozymes from labeled cultures by isoelectric focusing showed that, in addition to isozyme H8, lignin peroxidase isozymes H2 (pI 4.4), H6 (pI 3.7), and H10 (pI 3.3) are also phosphorylated. These analyses also showed that lignin peroxidase isozyme H1 (pI 4.7) and manganese-dependent peroxidase isozymes H3 (pI 4.9) and H4 (pI 4.5) are not phosphorylated. Phosphate quantitation indicated the presence of one molecule of phosphate/molecule of enzyme for all of the phosphorylated isozymes. To locate the site of phosphorylation, one-dimensional phosphoamino acid analysis was performed with hydrolyzed 32P-protein. However, phosphotyrosine, phosphoserine, and phosphothreonine could not be identified. Coupled enzyme assays of acid hydrolysate indicated the presence of mannose 6-phosphate as the phosphorylated component on the lignin peroxidase isozymes. Digestion of the isozymes with N-glycanase released the phosphate component, indicating that the mannose 6-phosphate is contained on an asparagine-linked oligosaccharide.
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PMID:Phosphorylation of lignin peroxidases from Phanerochaete chrysosporium. Identification of mannose 6-phosphate. 258 20

Human corticotropin-releasing factor-binding protein (hCRF-BP), a 38,000 dalton protein, specifically binds hCRF in plasma. CRF-BP-CRF complex adsorbed to concanavalin-A-Sepharose and its Mr decreased after treatment with endoglycosidase H or glycopeptidase A. The binding of CRF-BP to CRF decreased after treatment with endoglycosidase H. These results indicate that the CRF-BP is a glycoprotein that contains asparagine N-linked-type oligosaccharides, and such oligosaccharide chains are important for CRF-BP binding.
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PMID:Corticotropin-releasing factor-binding protein is a glycoprotein. 259 57


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