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)

The major N-linked carbohydrate structures were determined for recombinant human plasma lecithin:cholesterol acyltransferase (LCAT). The analysis of the structure of oligosaccharides by fast atom bombardment mass spectrometry (FAB-MS) and linkage analysis was preceded by reduction and carboxymethylation of the intact glycoproteins and digestion with trypsin and proline specific endopeptidase. The N-glycans were subsequently released from the glycopeptides by PNGase F digestion and the oligosaccharides were separated using a C18 Sep-pak cartridge. The data from the combination of FAB spectrometry and linkage analysis show that the N-linked glycans present on recombinant LCAT (rLCAT) were composed primarily of triantennary and tetraantennary structures with and without core fucosylation. A minor population of glycans (less than 5%) contained up to three repeats of N-acetyllactosamine in one or more antennae. The LCAT activities of both recombinant and circulating forms of plasma LCAT were determined using low molecular weight and lipoprotein substrates. The catalytic behavior of these two enzyme forms were found to be very similar if not identical. These findings validate the concept that the recombinant enzyme can serve as an appropriate model for structure/function studies of LCAT and provide the foundation for subsequent structural studies.
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PMID:Characterization of recombinant human plasma lecithin: cholesterol acyltransferase (LCAT): N-linked carbohydrate structures and catalytic properties. 955 45

The extent of N-glycosylation of yeast external invertase at each of the 14 potential sites was determined by the combination of proteolytic digestions and matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI/TOF-MS). The average molecular mass of the intact external invertase was determined as 97 kDa by MALDI/TOF-MS. The intact protein was digested with trypsin, Lys-C and Asp-N, followed by high-performance liquid chromatographic separation. The proteolytic digests were analyzed by MALDI/MS screening for the glycopeptides. The glycopeptides were then treated with peptide:N-glycosidase F (PNGase F) and/or endo-beta-N-acetylglucosaminidase (Endo H) and the molecular mass of the deglycosylated peptide was determined by MALDI/MS and matched with the peptide predicted by a computer program. The sequences of some peptides or deglycosylated peptides were identified by the MALDI post-source decay technique. The size of the oligosaccharide, the degree of glycosylation and the distribution of the oligosaccharides at each individual potential glycosylation site were characterized. This information goes for beyond previously published data and sometimes differs from them. During this study, the amino acid sequence originally derived from the DNA sequence of the gene coding for invertase was also verified and it was found that this protein when expressed from SUC2 gene might be created as more than one sequence which differ by a few amino acid substitutions (Asn58<-->Thr, Asn65-->His and Val412<-->Ala).
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PMID:Determination of N-linked glycosylation of yeast external invertase by matrix-assisted laser desorption/ionization time-of-flight mass spectrometry. 1022 60

This review covers the unique catalytic and molecular properties of three proteolytic enzymes and a glycosidase from Aspergillus. An aspartic proteinase from A. saitoi, aspergillopepsin I (EC 3.4.23.18), favors hydrophobic amino acids at P1 and P'1 like gastric pepsin. However, aspergillopepsin I accommodates a Lys residue at P1, which leads to activation of trypsinogens like duodenum enteropeptidase. Substitution of Asp76 to Ser or Thr and deletion of Ser78, corresponding to the mammalian aspartic proteinases, cathepsin D and pepsin, caused drastic decreases in the activities towards substrates containing a basic amino acid residue at 1. In addition, the double mutant T77D/G78(S)G79 of porcine pepsin was able to activate bovine trypsinogen to trypsin by the selective cleavage of the K6-I7 bond of trypsinogen. Deuterolysin (EC 3.4.24.39) from A. oryzae, which contains 1g atom of zinc/mol of enzyme, is a single chain of 177 amino acid residues, includes three disulfide bonds, and has a molecular mass of 19,018 Da. It was concluded that His128, His132, and Asp164 provide the Zn2+ ligands of the enzyme according to a 65Zn binding assay. Deuterolysin is a member of a family of metalloendopeptidases with a new zinc-binding motif, aspzincin, defined by the "HEXXH + D" motif and an aspartic acid as the third zinc ligand. Acid carboxypeptidase (EC 3.4.16.1) from A. saitoi is a glycoprotein that contains both N- and O-linked sugar chains. Site-directed mutagenesis of the cpdS, cDNA encoding A. saitoi carboxypeptidase, was cloned and expressed. A. saitoi carboxypeptidase indicated that Ser153, Asp357, and His436 residues were essential for the enzymic catalysis. The N-glycanase released high-mannose type oligosaccharides that were separated on HPLC. Two, which had unique structures of Man10 GlcNAc2 and Man11GlcNAc2, were characterized. An acidic 1,2-alpha-mannosidase (EC 3.2.1.113) was isolated from the culture of A. saitoi. A highly efficient overexpression system of 1,2-alpha-mannosidase fusion gene (f-msdS) in A. oryzae was made. A yeast mutant capable of producing Man5GlcNAc2 human-compatible sugar chains on glycoproteins was constructed. An expression vector for 1,2-alpha-mannosidase with the "HDEL" endoplasmic reticulum retention/retrieval tag was designed and expressed in Saccharomyces cerevisiae. The first report of production of human-compatible high mannose-type (Man5GlcNAc2) sugar chains in S. cerevisiae was described.
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PMID:Unique catalytic and molecular properties of hydrolases from Aspergillus used in Japanese bioindustries. 1083 Apr 77

Protocols have been developed for the characterization of carbohydrate covalently attached (N-linked) to an asparagine residue in glycoproteins, after separation by two-dimensional polyacrylamide gel electrophoresis (2-D PAGE). Mixtures of proteins (each at a level from 0.5 to 50 microg) were resolved in the first dimension according to their isoelectric points (pI), followed by separation in the orthogonal axis on the basis of their molecular weights. Glycans were released directly from excised gel spots after digestion with PNGase F, with or without prior treatment with trypsin. In a third method, glycoproteins were electroblotted onto poly(vinylidene difluoride) before glycans were released by PNGase F. For all these procedures profiles of the neutral and sialic acid-containing oligosaccharide mixtures were obtained after derivatization with 3-acetamido-6-aminoacridine, and analysis by matrix-assisted laser desorption/ionization time-of-flight mass spectrometry and/or high-performance liquid chromatography. Potential applications to proteomics are discussed.
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PMID:Analysis of N-linked oligosaccharides released from glycoproteins separated by two-dimensional gel electrophoresis. 1093 55

This study identified prostaglandin D2 synthase (PGDS) in murine epididymal fluid using a proteomic approach combining two-dimensional (2D) gel electrophoresis and mass spectrometry (MS). The caudal epididymal fluid was collected by retroperfusion, and proteins were separated by 2D gel electrophoresis followed by matrix-assisted laser desorption ionization MS analyses after trypsin digestion. The identification was based on the protein-specific peptide map as well as on sequence information generated by nano-electrospray ionization MS/MS. By in situ hybridization, the mRNA was detected in caput, corpus, and cauda, but it was not detected in the initial segment. The PGDS protein was mostly detected in the corpus and cauda by Western blot analysis and immunohistochemistry using a specific polyclonal antibody. In caudal fluid, PGDS was distributed among several isoforms (pI range, 6.5-8.8), suggesting that this protein undergoes posttranslational modification of its primary sequence. After N-glycanase digestion, the molecular mass decreased from 20-25 to 18.5 kDa, its theoretical mass. The PGDS was also detected in the epididymis of rat, hamster, and cynomolgus monkey from the caput to the cauda. In conclusion, MS is a powerful and accurate technique that allows unambiguous identification of the murine epididymal PGDS. The protein is 1) present throughout the epididymis, except in the initial segment, with an increasing luminal concentration from distal caput to cauda; 2) a major protein in caudal fluid; 3) an N-glycosylated, highly polymorphic protein; and 4) conserved during evolution.
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PMID:Epididymal lipocalin-type prostaglandin D2 synthase: identification using mass spectrometry, messenger RNA localization, and immunodetection in mouse, rat, hamster, and monkey. 1180 71

Characterization of the major human milk fat globular membrane proteins was carried out using proteomic techniques comprising two-dimensional polyacrylamide gel electrophoresis, followed by in situ PNGase F and trypsin digestion. Matrix-assisted laser desorption/ionization quadrupole time-of-flight and electrospray ionization mass spectrometry identified seven major protein components: alpha-lactalbumin, lysozyme precursor, beta-casein, clusterin, lactotransferrin, polymeric immunoglobulin receptor precursor, and human milk fat globule EGF-factor 8 protein. Sequence information on the protein-associated glycans was determined by matrix-assisted laser desorption-ionization quadrupole time-of-flight hybrid mass spectrometry. This glycan analysis revealed interesting fucosylation branching patterns which may be influential in maternal protection of the newborn against bacterial and viral pathogenic attack.
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PMID:Use of proteomic methodology for the characterization of human milk fat globular membrane proteins. 1181 2

The neural cell adhesion molecule (NCAM) plays important roles during development, plasticity, and regeneration in the adult nervous system. Its function is strongly influenced by attachment of the unusual alpha 2-8-linked polysialic acid (PSA). Here we analyzed the N-glycosylation pattern of polysialylated NCAM from brains of newborn calves. Purified PSA-NCAM glycoprotein was digested with trypsin, and PSA-glycopeptides were separated by immunoaffinity chromatography. For determining the N-glycosylation sites, PNGase F-treated glycopeptides were analyzed by Edman degradation and matrix-assisted laser desorption/ionization mass spectrometry (MALDI-MS). They were found to be exclusively linked to the fifth (Asn 439) and sixth (Asn 468) N-glycosylation sites in the fifth immunoglobulin-like domain of NCAM. The chain length of PSA consisted of at least 30 sialic acid residues, as shown by anion exchange chromatography. For analysis of the core structures, endoneuraminidase N-treated PSA-NCAM was separated by SDS-PAGE and digested with PNGase F. The core structures of polysialylated glycans were characterized by MALDI-MS combined with exoglycosidase digestions and chromatographic fractionation. They include hybrid, di-, tri-, and small amounts of tetraantennary carbohydrates, which were all fucosylated at the innermost N-acetylglucosamine. For the triantennary glycans, the "2,6" arm was preferred in polysialylated structures. High levels of sulfated groups were found on polysialylated structures and to a lower extent also on nonpolysialylated glycans. In addition, high-mannose-type glycans could be detected on PSA-NCAM glycoforms ranging from (GlcNAc)(2)(Man)(5) up to (GlcNAc)(2)(Man)(9). In conclusion, we observed a structural variability and high regional selectivity for the PSA-glycans attached to the NCAM molecule that are most likely influencing its biological functions.
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PMID:Localization and characterization of polysialic acid-containing N-linked glycans from bovine NCAM. 1182 86

We describe a chemical printer that uses piezoelectric pulsing for rapid, accurate, and non-contact microdispensing of fluid for proteomic analysis of immobilized protein macroarrays. We demonstrate protein digestion and peptide mass fingerprinting analysis of human plasma and platelet proteins direct from a membrane surface subsequent to defined microdispensing of trypsin and matrix solutions, hence bypassing multiple liquid-handling steps. Detection of low abundance, alkaline proteins from whole human platelet extracts has been highlighted. Membrane immobilization of protein permits archiving of samples pre-/post-analysis and provides a means for subanalysis using multiple chemistries. This study highlights the ability to increase sequence coverage for protein identification using multiple enzymes and to characterize N-glycosylation modifications using a combination of PNGase F and trypsin. We also demonstrate microdispensing of multiple serum samples in a quantitative microenzyme-linked immunosorbent assay format to rapidly screen protein macroarrays for pathogen-derived antigens. We anticipate the chemical printer will be a major component of proteomic platforms for high throughput protein identification and characterization with widespread applications in biomedical and diagnostic discovery.
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PMID:High throughput peptide mass fingerprinting and protein macroarray analysis using chemical printing strategies. 1223 77

The purpose of the work described in this paper was to develop a new approach to the identification of glycoprotein with particular types of glycosylation. The paper demonstrates N-glycosylation sites in a glycoproteins can be identified by (1) proteolysis with trypsin, (2) lectin affinity selection, (3) enzymatic deglycosylation with peptide-N-glycosidase F (PNGase F) in buffer containing 95% H(2)(18)O, which generates deglycosylated peptide pairs separated by 2 or 4 amu, (4) reversed-phase separation of the peptide mixture and MALDI mass analysis, (5) MS-MS sequencing of the ion pairs, and (6) identification of the parent protein through a database search. This process has been tested on the selection of glycopeptides from lactoferrin and mammaglobin, and the identification of the ion pairs of fetuin glycopeptides. Glycosylation sites were identified through PNGase hydrolysis in H(2)(18)O. During the process of hydrolyzing the conjugate, Asn is converted to an aspartate residue with the incorporation of (18)O. However, PNGase F was observed to incorporate two (18)O into the beta-carboxyl groups of the Asp residue. This suggests that the hydrolysis is at least partially reversible.
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PMID:Use of a lectin affinity selector in the search for unusual glycosylation in proteomics. 1245 22

There has long been conjecture over the degree to which there may be structural and functional heterogeneity in the tetrameric serine protease tryptase (EC 3.4.21.59), a major mediator of allergic inflammation. We have applied 2D gel electrophoresis to analyze the extent, nature, and variability of this heterogeneity in lysates of mast cells isolated from lung and skin, and in preparations of purified tryptase. Gels were silver stained, or the proteins transferred to nitrocellulose blots and probed with either tryptase-specific monoclonal antibodies or various lectins. Tryptase was the major protein constituent in mast cell lysates, and presented as an array of 9-12 diffuse immunoreactive spots with molecular masses ranging from 29 to 40 kDa, and pI values from 5.1 to 6.3. Although the patterns obtained for lung and skin tryptase were broadly similar, differences were observed between tissues and between individual donors. Lectin binding studies indicated the presence of mono-antennary or bi-antennary complex-type oligosaccharide with varying degrees of sialylation. Deglycosylation with protein-N-glycosidase F (PNGase F) reduced the size of both lung and skin tryptase, while incubation with PNGase F or neuraminidase narrowed the pI range, indicating variable degrees of glycosylation as a major contributor to the size and charge heterogeneity. Comparison of different purified preparations of lung and skin tryptase revealed no significant difference in pH profiles, but differences were seen in reactivity towards a range of chromogenic substrates, with substantial differences in Km, kcat and degree of cooperativity. Mathematical modeling indicated that the variety in kinetics parameters could not result solely from the sum of varying amounts of isoforms obeying Michaelis-Menten kinetics but with different values of Km and kcat. The heterogeneity demonstrated for tryptase in these studies suggests that there are important differences in tryptase function in different tissues.
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PMID:The heterogeneity of mast cell tryptase from human lung and skin. 1260 78

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