EC:3.5.1.52 - FACTA Search

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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)

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

Transfer of truncated oligosaccharides to protein in vivo and the structure of Man2GlcNAc2 synthesized by intact yeast (Saccharomyces cerevisiae) were investigated in the alg2 mutant. At the nonpermissive temperature the alg2 mutant accumulates lipid-linked oligosaccharides that migrate on Bio-Gel P4 in the range expected for Man2GlcNAc2 and Man1GlcNAc2 (T.C. Huffaker and P.W. Robbins (1983) Proc. Natl. Acad. Sci. USA 80, 7466-7470). We characterized the oligosaccharides, derived from protein and lipid, by comigration with standards on HPLC and by Smith degradation followed by HPLC. Man2GlcNAc2 and Man1GlcNAc2 are found on protein in alg2, since their release from a protein-containing precipitate of alg2 cells is N-glycanase (peptide-N4[N-acetyl-beta-glucosaminyl]asparagine amidase) dependent. Transfer also occurred in alg2/pAC3 cells, which carry ALG2 on a multicopy plasmid that confers partial correction of the oligosaccharide phenotype. The alg2/pAC3 cells are viable at 36 degrees C. Two isomers of Man2GlcNAc2, Man1----3ManGlcNAc2 and Man1----6ManGlcNAc2, were present on lipid and protein. The transfer of Man2GlcNAc2 and Man1GlcNAc2 to protein by intact cells supports topological models that postulate access by early intermediates to the lumen of the endoplasmic reticulum.
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PMID:Synthesis of lipid-linked oligosaccharides in Saccharomyces cerevisiae: Man2GlcNAc2 and Man1GlcNAc2 are transferred from dolichol to protein in vivo. 266 Jul 43

To examine the function of the carbohydrate chains of cobra venom factor (CVF), the molecule was enzymatically deglycosylated under non-denaturing conditions with N-glycanase (peptide-N4-(N-acetyl-beta-glucosaminyl) asparagine amidase). The deglycosylation of CVF chains seems to proceed independently of each other, leading to partially deglycosylated intermediates. Complete deglycosylation of CVF was found to abolish the activity of CVF. The deglycosylated molecule is unable to activate the alternative pathway of complement. Deglycosylated CVF no longer consumes the serum complement activity, it does not induce C3 activation in serum, nor does it induce complement-mediated hemolysis. These results indicate that the carbohydrate moieties of CVF are essential for its role in complement activation.
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PMID:The oligosaccharide chains of cobra venom factor are required for complement activation. 277 Jul 49

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

The removal of N-linked oligosaccharides by peptide-N4-[N-acetyl-beta-glucoseaminyl]asparagine amidase (previously known as aspartoglycosylamine amidohydrolase and abbreviated N-glycanase) from the surface of blood or insect-transmissible forms of Trypanosoma cruzi markedly increased the capacity of these organisms to associate with (i.e., bind and penetrate) either mouse peritoneal macrophages or rat heart myoblasts. This effect was evidenced by a significant elevation in both the percentage of infected host cells and the average number of parasites per 100 cells. Conversely, N-glycanase treatment of either host cell markedly reduced both parameters to levels significantly below those obtained with cells mock treated with medium alone. The N-glycanase effect on the parasites was inhibited by heat inactivation of the enzyme or by the presence of fetuin, an N-glycanase substrate. The enhanced capacity of N-glycanase-treated T. cruzi to engage the host cells started to subside 2 h after the treatment, indicating the reversibility of the effect. The decreased reactivity of N-glycanase-treated macrophages or myoblasts with T. cruzi suggests that N-linked oligosaccharides on these host cells are involved in the initial phase of the cell infection process. Instead, because T. cruzi interacted more effectively with host cells after treatment with N-glycanase, parasite surface N-linked oligosaccharides would seem to interfere with the association.
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PMID:Role of membrane N-linked oligosaccharides in host cell interaction with invasive forms of Trypanosoma cruzi. 355 30

An enzymatic procedure for releasing asparagine-linked oligosaccharides from glycoproteins by treatment with N-glycanase (peptide-N4-(N-acetyl-beta-glucosaminyl) asparagine amidase) has been investigated. Ribonuclease B, transferrin, fetuin, and alpha 1-acid glycoprotein were treated with N-glycanase and the released oligosaccharides were radiolabeled with NaB3H4. Lectin staining of the N-glycanase-treated proteins indicated that the deglycosylation reactions had proceeded to completion. The labeled carbohydrate chains were analyzed by HPLC on Micro-Pak AX-5 and AX-10 columns. The proportion of high-mannose and bi-, tri-, and tetraantennary complex chains obtained from each glycoprotein was in agreement with literature values. These results demonstrate that N-glycanase provides a simple method to release all common classes of asparagine-linked oligosaccharides from a glycoprotein in a form that can be radiolabeled directly for structural analysis.
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PMID:Use of N-glycanase to release asparagine-linked oligosaccharides for structural analysis. 360 11

Crystallographic analysis and site-directed mutagenesis have been used to identify the catalytic and oligosaccharide recognition residues of peptide-N4-(N-acetyl-beta-D-glucosaminyl)asparagine amidase F (PNGase F), an amidohydrolase that removes intact asparagine-linked oligosaccharide chains from glycoproteins and glycopeptides. Mutagenesis has shown that three acidic residues, Asp-60, Glu-206, and Glu-118, that are located in a cleft at the interface between the two domains of the protein are essential for activity. The D60N mutant has no detectable activity, while E206Q and E118Q have less than 0.01 and 0.1% of the wild-type activity, respectively. Crystallographic analysis, at 2.0-A resolution, of the complex of the wild-type enzyme with the product, N,N'-diacetylchitobiose, shows that Asp-60 is in direct contact with the substrate at the cleavage site, while Glu-206 makes contact through a bridging water molecule. This indicates that Asp-60 is the primary catalytic residue, while Glu-206 probably is important for stabilization of reaction intermediates. Glu-118 forms a hydrogen bond with O6 of the second N-acetylglucosamine residue of the substrate and the low activity of the E118Q mutant results from its reduced ability to bind the oligosaccharide. This analysis also suggests that the mechanism of action of PNGase F differs from those of L-asparaginase and glycosylasparaginase, which involve a threonine residue as the nucleophile.
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PMID:Active site and oligosaccharide recognition residues of peptide-N4-(N-acetyl-beta-D-glucosaminyl)asparagine amidase F. 749 89

The glycoprotein bovine fetuin was treated with trypsin and the Asn-81 tryptic glycopeptide was purified (90% pure by Edman sequencing) by reversed-phase chromatography (RP-HPLC). The Asn-81 glycopeptide, which eluted as a single peak by RP-HPLC, was separable into five peaks on the NucleoPac PA100 column, a pellicular anion-exchange column. Each of the five Asn-81 glycopeptide peaks was shown to contain N-linked oligosaccharides by treatment of each peak with peptide N4-(N-acetyl-beta-D-glucosaminyl) asparagine amidase F (PNGase F) and subsequent oligosaccharide analysis by high-pH anion-exchange chromatography with pulsed amperometric detection. High-pH anion-exchange chromatography-pulsed amperometric detection oligosaccharide analysis revealed that each peak contained a different population of sialylated N-linked oligosaccharides. Hence each peak contained a different group of glycopeptide glycoforms. It was observed that the longer the retention time of the Asn-81 glycopeptide peak on the anion-exchange column, the greater the oligosaccharide sialylation. Two glycopeptide peaks which differed in their distribution of disialylated oligosaccharides demonstrated that the glycopeptide separation was a result of something more than gross differences in sialic acid content. The two other N-linked tryptic glycopeptides of fetuin were also separated into multiple peaks on the NucleoPac PA100 column and these separations were shown to be due to differences in oligosaccharide sialylation. The separations of the three fetuin N-linked glycopeptides demonstrate that pellicular anion-exchange chromatography offers improved separation speed and resolution for the separation of sialylated glycopeptides.
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PMID:Improved fractionation of sialylated glycopeptides by pellicular anion-exchange chromatography. 751 57

Endo-N-acetyl-beta-D-glucosaminidase (ENGase, EC 3.2.1.96) and peptide-N4-(N-acetyl-beta-D-glucosaminyl) asparagine amidase (PNGase, EC 3.5.1.52) activities were monitored during germination and postgerminative development in Raphanus sativus. The PNGase activity was found in dry seeds and its level was constant during germination and postgermination. The ENGase activity was first detected about 18 hr after the start of imbibition (HAI) and displayed a maximum level at 36 HAI. After 36 HAI the production of both enzymes was constant until days 4-5. Both enzymes displayed substrate specificities corresponding to the potential glycoprotein substrates found in plants. They are in agreement (i) with the hypothesis that ENGase and PNGase are at the origin of the production of 'unconjugated N-glycans' and (ii) with the possibility that protein activity could be regulated by the removal of N-glycans.
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PMID:Endo-N-acetyl-beta-D-glucosaminidase and peptide-N4-(N-acetyl-glucosaminyl) asparagine amidase activities during germination of Raphanus sativus. 757 49

A facile method for introducing reactive sulphydryl groups into oligosaccharides was developed. 1-Amino-oligosaccharides generated from asparagine-linked glycans by peptide-N4(N-acetyl-beta-D-glucosaminyl) asparagine amidase (PNGase F) digestion were monitored by high-performance anion-exchange chromatography with pulsed amperometric detection and derivatized under optimal conditions with 2-iminothiolane-HCl. The resulting mercapto-butyramido oligosaccharides, which were obtained in high yield, were alkylated with a fluorescent reagent and used to selectively assay for endoglycosidases that hydrolyse di-N-acetylchitobiose linkages.
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PMID:2-Iminothiolane: a reagent for the introduction of sulphydryl groups into oligosaccharides derived from asparagine-linked glycans. 768 68

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