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)

A new glycoamidase, peptide-N4-(N-acetyl-beta-D-glucosaminyl)asparagine amidase (PNGase) At, was discovered in the eukaryote Aspergillus tubigensis. The enzyme was purified to homogeneity, and the DNA sequence was determined by cloning in Escherichia coli. Over 80% of the deduced amino acid sequence was verified independently by Edman analysis and/or electrospray ionization-mass spectrometry of protease fragments of native PNGase At. This glycoamidase contains 12 potential asparagine-linked glycosylation sites, of which at least 9 sites are occupied with typical high mannose oligosaccharides. PNGase At consists of two non-identical glycosylated subunits that are derived from a single polypeptide gene precursor. Evidence is presented suggesting that autocatalysis is involved in subunit formation. PNGase At is an important new tool for analysis of asparagine-linked glycans; it can hydrolyze a broad range of glycopeptides, including those with core-linked alpha1-->6 or alpha1-->3 fucose, under conditions not favorable with existing glycoamidases.
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PMID:Molecular cloning, primary structure, and properties of a new glycoamidase from the fungus Aspergillus tubigensis. 931 52

Peptide-N4-(N-acetyl-beta-glucosaminyl)asparagine amidase A (PNGase A) was purified from almonds (Prunus amygdalus var. dulcis). Contrary to previous results in the literature, the enzyme appeared to be a heterodimer with subunits of 55 and 27 kDa when analysed by SDS/PAGE and two-dimensional electrophoresis. Peaks corresponding to molecular masses of 54.2, 21.2 and 75.5 kDa were observed with matrix-assisted laser-desorption/ionization mass spectrometry. The N-terminal sequences of the larger and the smaller chain were determined to be LASGYHSWAD and EPTPLHDFPP, respectively. Both polypeptides reacted with concanavalin A, indicating their glycoprotein nature. Upon digestion of PNGase with pepsin, the N-linked oligosaccharides were released with active PNGase and analysed as their 2-aminopyridine derivatives by two-dimensional HPLC and by matrix-assisted laser-desorption mass spectrometry. The most abundant N-glycan of the four species found exhibited the well known vacuole type structure, i.e. the pentasaccharide core with xylose and alpha1,3-linked fucose. The other structures either had an additional mannose residue and/or lacked the fucose. PNGase A was largely but not absolutely resistant to self-deglycosylation. However, only at an extremely high enzyme/substrate ratio, N-glycans released from PNGase A itself caused a detectable contamination of a PNGase digest of a glycopeptide.
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PMID:Characterisation of peptide-N4-(N-acetyl-beta-glucosaminyl)asparagine amidase A and its N-glycans. 952 20

We report here the isolation and characterization of a peptide-N4-(acetyl-beta-glucosaminyl) asparagine amidase (peptide: N-glycanase) from soybean (Glycine max) seeds. The enzyme was purified to homogeneity with 6.5% yield from defatted soybean meal extract by ion-exchange chromatography, gel filtration, hydroxyapatite chromatography, and hydrophobic chromatography. The purified enzyme, designated PNGase-GM, had the apparent molecular mass of 93 kDa by SDS-PAGE and 90 kDa by gel filtration, indicating this PNGase is a monomeric protein. The enzyme showed maximal activity at pH 4.5-5.0. PNGase-GM was capable of hydrolyzing the beta-aspartylglycosylamine linkage (GlcNAc beta 1-->Asn) of various glycopeptide substrates bearing high-mannose type, hybrid type, and xylose/fucose-containing plant complex type N-glycan units, while this amidase was far less active on the glycopeptides bearing sialylated animal complex-type glycans.
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PMID:A new peptide-N4-(acetyl-beta-glucosaminyl)asparagine amidase from soybean (Glycine max) seeds: purification and substrate specificity. 953 7

Peptide-N4-(N-acetyl-beta-d-glucosaminyl asparagine amidase) from Aspergillus tubigensis (PNGase At) was expressed in baculovirus-infected insect cells. The recombinant PNGase At was secreted and purified to homogeneity with a yield of 9.5 mg per liter of infected cell medium. Recombinant PNGase At migrated upon SDS-PAGE as a single-chain protein with a molecular mass of 78 kDa. This contrasts with the native Aspergillus enzyme which is "nicked" and migrates as two subunits each with a molecular weight about 43 kDa. Quantitation of total sugar by phenol-sulfuric acid suggests that the enzyme expressed in baculovirus-infected insect cells was substituted with 8-10 chains of carbohydrate of which 75% was released by Endoglycosidase F1. ESI-MS analysis of the oligosaccharides released from the recombinant PNGase At revealed similarity in the number of glycosylated residues but a significant difference in their composition, when compared to the carbohydrates of the native PNGase At. Despite differences in the primary structure and in the composition of glycan residues, the recombinant enzyme had the same specific activity as the native enzyme.
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PMID:Overexpression of PNGase at from baculovirus-infected insect cells. 979 Aug 95

The occurrence of two enzymes performing de-N-glycosylation of glycoproteins, namely, endo-N-acetyl-beta-D-glucosaminidase (ENGase, EC 3.2.1.96) and peptide-N(4)-(N-acetyl-beta-D-glucosaminyl) asparagine amidase (PNGase, EC 3.5.1.52) was investigated in barley, cv. Plaisant (a winter six rowed variety). The dry grain showed both activities according to the HPLC detection of the hydrolysis of fluorescent resorufin-labelled substrates. However, PNGase activity was 16-fold higher than ENGase activity. During germination, both activities increased, PNGase by only 1.5-fold compared to nearly 4.8-fold for ENGase over the 4 d following imbibition. The localization of these activities within the grain showed that the major contribution of PNGase was due to the endosperm, typically representing over 90% of the whole grain activity. In contrast, ENGase activity was especially high in the embryo and, later, in the developing plantlet (10-fold higher than in the endosperm), particularly in the rootlets and scutellum. In developing spikes, PNGase activity was 5.6-fold higher than in the leaves, but similar ENGase activity was measured in both organs. During grain formation, PNGase activity followed dry matter increase together with endosperm development. In contrast, ENGase activity dropped by 66% at the beginning of grain filling before stabilizing until harvest. The occurrence of de-N-glycosylation-performing enzymes throughout the development of barley raises the question of the nature of their natural substrates. Moreover, the prevalence of one of these enzymes over the other depending on the organ and the developmental stage, could represent the first evidence of specific functions for each enzyme.
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PMID:Evidence of two enzymes performing the de-N-glycosylation of proteins in barley: expression during germination, localization within the grain and set-up during grain formation. 1094 9

Heterologous production of the heterodimeric penicillin G amidase (PAC) from Providencia rettgeri was optimized in Saccharomyces cerevisiae. Several factors, including the effect of different growth and induction conditions, were identified to be critical for the enzyme overproduction and secretion. The PAC yield was significantly increased by more than 500-fold compared to that obtained in the native bacterium, and the recombinant enzyme was almost entirely secreted. Electrophoretic characterization of the secreted rPAC(Pr), which was purified over 20-fold by a combination of hydrophobic interaction and ion-exchange chromatography, demonstrated a microheterogeneity of the recombinant enzyme. The recombinant PAC(Pr) was further characterized in terms of specific activity, pH, and temperature profiles and kinetic parameters. The data presented here suggest that by overexpressing rPAC(Pr) in S.cerevisiae and purifying secreted enzyme from culture medium one can readily obtain a large amount of an alternative source of penicillin amidase with properties comparable to that of todays main industrial source of enzyme.
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PMID:High-level secretory expression of penicillin amidase from Providencia rettgeri in Saccharomyces cerevisiae: purification and characterization. 1193 4

The activities of the de-N-glycosylation enzymes 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) were monitored during germination and postgerminative development in radish (Raphanus sativus L. cv Flamboyant). The ENGase activity was detected only during postgermination, whereas the PNGase activity was present at high levels in both stages. When germination was inhibited with abscisic acid or cycloheximide, PNGase activity was detected at a basic level and ENGase activity was not detected at all. PNGase is present as an active protein in dry seeds and is apparently synthesized during seed formation. Conversely, the absence of ENGase in dry seeds suggests that its activity is dependent on the protein synthesis that occurs during and after germination. Treatment with gibberellic acid confirmed the production of both de-N-glycosylation enzymes after germination, and demonstrated a temporal delay between the production of the two enzymes during this period. Our results suggest that the two de-N-glycosylation enzymes are differentially regulated during plant development.
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PMID:Regulation of De-N-Glycosylation Enzymes in Germinating Radish Seeds. 1222 89

Deinagkistrodon (formerly Agkistrodon) actus (Taiwan) snake venom was found to contain at least seven closely related coagulant proteases. One of them, named actibin, was purified to homogeneity by means of four chromatographic steps. Actibin acted on fibrinogen to form fibrin clots with extremely high specific activity of 1,630 NIH units/mg and preferentially released fibrinopeptide A. Actibin was an acidic glycoprotein (pI 3.4) with molecular weight of 41,000, which was reduced to 28,800 after deglycosylation with N-glycanase. The k(cat)/K(m) values of actibin for hydrolysis of tosyl-l-arginine methyl ester and benzoyl-l-arginine p-nitroanilide were one-third to a half those for thrombin, reflecting a high potency of actibin in fibrinogen clotting. The amidase activities of actibin and its family proteases were inhibited by 3,4-dichloroisocoumarin, a serine protease inhibitor, indicating that actibin and its family proteases are serine proteases. Four cDNAs, named DaP1 and DaP7-DaP9, encoding D. actus coagulant proteases were cloned. All cDNAs contain an open reading frame of 780 bp coding for 260 amino acid residues, including a signal peptide of 24 amino acid residues. Their amino acid sequences predicted are highly homologous to one another with one to five amino acid substitutions. When four D. actus protease cDNAs were compared with the cDNAs coding for Trimeresurus flavoviridis and T. gramineus venom serine proteases, accelerated evolution was clearly observed. Similarity of the nucleotide sequences of four D. actus protease cDNAs with no synonymous and one to five nonsynonymous substitutions seems not to be in direct conformity with accelerated evolution. This possibly suggests that they have evolved to a similar direction to enhance their clotting activity rather than to produce other physiological activities.
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PMID:Purification, primary structures and evolution of coagulant proteases from Deinagkistrodon actus venom. 1625 31


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