DrugBank:EXPT00572 - FACTA Search

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Query: DrugBank:EXPT00572 (Asn)
11,732 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The purity of horseradish peroxidase isoenzyme C was demonstrated using isoelectric focusing, polyacrylamide gel electrophoresis at two pH values and cellulose acetate electrophoresis at two pH values. The glycopeptides obtained upon trypsin digestion were isolated using the plant lectin, concanavalin A, and were resolved using paper electrophoresis. The carbohydrate content of the native peroxidase was 86% accounted for by the carbohydrate content of the glycopeptides thus suggesting little loss of carbohydrate during glycopeptide isolation and purification. In each of the seven glycopeptides isolated glucosamine was associated with asparagine, thus suggesting the carbohydrate chains are covalently bound to the peptide chain through N-glycosidic linkages. The purity of each glycopeptide was demonstrated by the sequential release of single amino acid residues by Edman degradation. As six glycopeptides had unique amino acid sequences, it was concluded that the carbohydrate prosthetic group was distributed in at least six units along the protein backbone. Five glycopeptides possessed the amino acid sequence about the point of carbohydrate attachment of Asn-X-(Ser, Thr) where X is any amino acid. The size of the carbohydrate units ranged from 1600 to 3000 daltons. The predominant carbohydrate residues in each glycopeptide were mannose and glucosamine with lesser and varying amounts of fucose, xylose, and arabinose. There was no apparent correlation of the carbohydrate composition with the amino acid sequence.
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PMID:The isolation and characterization of the glycopeptides from horseradish peroxidase isoenzyme C. 126 13

The major peroxidase of barley seed BP 1 was characterized. Previous studies showed a low carbohydrate content, low specific activity and tissue-specific expression, and suggested that this basic peroxidase could be particularly useful in the elucidation of the structure-function relationship and in the study of the biological roles of plant peroxidases (S.K. Rasmussen, K.G. Welinder and J. Hejgaard (1991) Plant Mol Biol 16: 317-327). A cDNA library was prepared from mRNA isolated from seeds 15 days after flowering. Full-length clones were obtained and showed 3' end length variants, a G+C content of 69% in the translated region, a 90% G or C preference in the wobble position of the codons and a typical signal peptide sequence. N-terminal amino acid sequencing and sequence analysis of tryptic peptides verified 98% of the sequence of the mature BP 1 which contains 309 amino acid residues. BP 1 is the first characterized plant peroxidase which is not blocked by pyroglutamate. BP 1 polymorphism was observed. BP 1 is less than 50% identical to other plant peroxidases which, taken together with its developmentally dependent expression in the endosperm 15-20 days after flowering, suggests a unique biological role of this enzyme. The barley peroxidase is processed at the C-terminus and might be targeted to the vacuole. The single site of glycosylation is located near the C-terminus in the N-glycosylation sequon -Asn-Cys-Ser- in which Cys forms part of a disulphide bridge. The major glycan is a typical plant modified-type structure, Man alpha 1-6(Xyl beta 1-2)Man beta 1-4GlcNAc beta 1-4(Fuc alpha 1-3)GlcNAc. The BP 1 gene was RFLP-mapped on barley chromosome 3, and we propose Prx5 as the name for this new peroxidase locus.
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PMID:cDNA, amino acid and carbohydrate sequence of barley seed-specific peroxidase BP 1. 135 Sep 32

A new rapid and sensitive method for characterizing lectin specificity using streptavidin-biotinylglycans as a tool is presented. This assay is analogous to enzyme immunoassay and takes advantage of the strong, irreversible adsorption of streptavidin to the wells of the chambers of titer plates. A series of streptavidin-biotinylglycans was first coated on a microtiter plate, and then one of six lectins, concanavalin A, wheat germ agglutinin, Phaseolus vulgaris (red kidney bean) erythro-agglutinin, Lens culinaris (lentil) agglutinin, Datura stramoniun agglutinin, or Sambucus nigra (elderberry bark) agglutinin coupled to horseradish peroxidase, was added. After incubation and thorough washing, only the lectin bound to a complementary glycan remained and could be detected and quantified by the peroxidase reaction. It was established that the lectins retained their oligosaccharide-binding specificities after coupling to the peroxidase, that the binding was inhibited by addition of the corresponding sugar inhibitors, and that the color intensity produced by the enzyme reaction is proportional to the amount of lectin-peroxidase bound to biotinylglycan complexed with streptavidin immobilized on the plate. As an example, it was found that the peroxidase-D. stramoniun agglutinin conjugate strongly bound biotinylglycans, GlcNAc3-Man5-R, GalGlcNAc3Man5-R, and GlcNAc3-4Man3-R (R = GlcNAc2-[6-(biotinamido)hexanoyl]-Asn). As little as 10 pmol/ml of lectin was detected. With the growing availability of biotinylglycans, the method should represent a reliable and simple procedure for screening lectin-oligosaccharide recognition qualitatively and quantitatively.
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PMID:The use of streptavidin-biotinylglycans as a tool for characterization of oligosaccharide-binding specificity of lectin. 144 61

Human von Willebrand factor (vWF) immobilized on a polyvinylidene difluoride membrane was subjected to binding assay with a series of horseradish peroxidase-conjugated lectins. The protein was reactive with concanavalin A, Ricinus communis agglutinin 120, wheat germ agglutinin and Ulex europaeus agglutinin I (UEA-I) but not with peanut agglutinin before sialidase treatment. These reactivities were consistent with the major oligosaccharide structure reported except for UEA-I. The reactivity with UEA-I was greatly decreased after digestion of the protein with either alpha-L-fucosidase or peptide-N-glycosidase F, but no significant decrease was observed after mild alkaline treatment or delipidation. vWF and UEA-I have been independently used as a good marker for human endothelial cells. Our results indicate that vWF itself contains UEA-I reactive sugar chains in its Asn-linked oligosaccharides.
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PMID:Carbohydrate analysis of human von Willebrand factor with horseradish peroxidase-conjugated lectins. 187 45

A cDNA clone encoding a horseradish (Armoracia rusticana) peroxidase has been isolated and characterized. The cDNA contains 1378 nucleotides excluding the poly(A) tail and the deduced protein contains 327 amino acids which includes a 28 amino acid leader sequence. The predicted amino acid sequence is nine amino acids shorter than the major isoenzyme belonging to the horseradish peroxidase C group (HRP-C) and the sequence shows 53.7% identity with this isoenzyme. The described clone encodes nine cysteines of which eight correspond well with the cysteines found in HRP-C. Five potential N-glycosylation sites with the general sequence Asn-X-Thr/Ser are present in the deduced sequence. Compared to the earlier described HRP-C this is three glycosylation sites less. The shorter sequence and fewer N-glycosylation sites give the native isoenzyme a molecular weight of several thousands less than the horseradish peroxidase C isoenzymes. Comparison with the net charge value of HRP-C indicates that the described cDNA clone encodes a peroxidase which has either the same or a slightly less basic pI value, depending on whether the encoded protein is N-terminally blocked or not. This excludes the possibility that HRP-n could belong to either the HRP-A, -D or -E groups. The low sequence identity (53.7%) with HRP-C indicates that the described clone does not belong to the HRP-C isoenzyme group and comparison of the total amino acid composition with the HRP-B group does not place the described clone within this isoenzyme group. Our conclusion is that the described cDNA clone encodes a neutral horseradish peroxidase which belongs to a new, not earlier described, horseradish peroxidase group.
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PMID:The cDNA sequence of a neutral horseradish peroxidase. 200 99

Proton NMR spectra of cytochrome c peroxidase (CcP) isolated from yeast (wild type) and two Escherichia coli expressed proteins, the parent expressed protein [CcP(MI)] and the site-directed mutant CcP(MI,D235N) (Asp-235----Asn-235), have been examined. At neutral pH and in the presence of only potassium phosphate buffer and potassium nitrate, wild-type Ccp and CcP(MI) demonstrate nearly identical spectra corresponding to normal (i.e., "unaged") high-spin ferric peroxidase. In contrast, the mutant protein displays a spectrum characteristic of a low-spin form, probably a result of hydroxide ligation. Asp-235 is hydrogen-bonded to the proximal heme ligand, His-175. Changing Asp-235 to Asn results in alteration of the pK for formation of the basic form of CcP. Thus, changes in proximal side structure mediate the chemistry of the distal ligand binding site. All three proteins bind F-, N3-, and CN- ions, although the affinity of the mutant protein (D235N) for fluoride ion appears to be much higher than that of the other two proteins. Analysis of proton NMR spectra of the cyanide ligated forms leads to the conclusion that the mutant protein (D235N) possesses a more neutral proximal histidine imidazole ring than does either wild-type CcP or CcP(MI). It confirms that an important feature of the cytochrome c peroxidase structure is at least partial, and probably full, imidazolate character for the proximal histidine (His-175).
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PMID:Comparative proton NMR analysis of wild-type cytochrome c peroxidase from yeast, the recombinant enzyme from Escherichia coli, and an Asp-235----Asn-235 mutant. 217 36

Limited tryptic digestion of fluorescein isothiocyanate (FITC)-labeled (H+-K+)-ATPase from rat resting light gastric membranes produced a soluble 27-kDa polypeptide which retained the fluorescence of the parent enzyme. Its production was markedly enhanced in the presence of an amphiphilic detergent, Zwittergent 3-14, which potently inhibits the ATPase activity. This increase is probably due to protection of certain tryptic cleavage sites through conformational changes of the membrane enzyme by the detergent. The NH2-terminal sequence of the 27-kDa polypeptide corresponded exactly to that beginning at Asn-369 of the cDNA-deduced primary structure of the rat ATPase. The presence of the phosphorylation site, Asp-385, and FITC-labeled Lys-517, which is known to be a part of the ATP-binding site, indicates that the 27-kDa polypeptide contains a major cytoplasmic portion of (H+-K+)-ATPase. Interestingly, the polypeptide was stained with periodate-Schiff's base, indicating its glycoprotein nature. The carbohydrate group attached to the polypeptide seems to include at least an N-linked high-mannose moiety, since the polypeptide showed Con A binding activity as detected with a Con A-biotin/avidin-peroxidase assay on nitrocellulose transblots. Also, its Con A binding activity was inhibited by excess methyl alpha-D-mannopyranoside and disappeared upon treatment of the polypeptide with endoglycosidase H and N-glycanase. Further tryptic action converted the 27-kDa polypeptide to 2 smaller FITC-labeled polypeptides of 25 and 15 kDa, which lost 18 and 96 amino acid residues, respectively, from the NH2 terminus of the parent polypeptide.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Evidence for the presence of a carbohydrate moiety in fluorescein isothiocyanate labeled fragments of rat gastric (H+-K+)-ATPase. 254 51

The heavy and the light subunits of human myeloperoxidase (donor: H2O2 oxidoreductase [EC 1.11.1.7]) I, II, and III were isolated from the reduced and S-carboxymethylated enzymes. These three enzymes have the same terminal amino acid sequences and similar chemical compositions in both subunits. The NH2-terminal sequences of the heavy and light subunits were determined to be Val-Asn-Cys-Glu-Thr- and Thr-Cys-Pro-Glu-Gln-, respectively; a heterogeneity was observed in the NH2-termini of the latter subunits for the three enzymes. As for COOH-termini, the sequences -(Asn, 2 Leu, Ala, Ser, Trp)-Arg-Glu-Ala and -Ala-Arg were obtained for the heavy and the light subunits, respectively. The heavy subunits contained 8-10 mol/mol of glucosamine. On the basis of these results and the amino acid sequence deduced from cDNA clones, the heavy subunits probably correspond to amino acids 279-744 and the light subunits to amino acids (164-167)-272. For the heavy subunits, Ser-745, which was predicted as the COOH-terminal amino acid from the nucleotide sequence, was removed. The light subunits were also processed at their COOH-termini by 6 residues. Four or five high mannose type carbohydrate chains were attached to the heavy subunits.
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PMID:Subunit structures of three human myeloperoxidases. 284 42

Two human cell lysosomal membrane glycoproteins of approximately 120 kDa, hLAMP-1 and hLAMP-2, were identified by use of monoclonal antibodies prepared against U937 myelomonocytic leukemia cells or blood mononuclear cells. The two glycoproteins were purified by antibody affinity chromatography and each was found to be a major constituent of human spleen cells, representing approximately 0.05% of the total detergent-extractable protein. Both molecules were highly glycosylated, being synthesized as polypeptides of 40 to 45 kDa and cotranslationally modified by the addition of Asn-linked oligosaccharides. NH2-terminal sequence analysis indicated that each was approximately 50% identical to the corresponding mLAMP-1 or mLAMP-2 of mouse cells. Electron microscopic studies of human blood monocytes, HL-60, and U937 cells demonstrated that the principal location of these glycoproteins was intracellular, in vacuoles and lysosomal structures but not in the peroxidase-positive granules of monocytes. Transport of the proteins between organelles was evidenced by their marked accumulation in the membranes of phagolysosomes. A fraction of each glycoprotein was also detected on the plasma membrane of U937 and HL-60 cells but not on a variety of other tissue culture cells. This cell-surface expression may be differentiation related, since the proteins were not detected in the plasma membrane of normal blood monocytes and their expression on U937 and HL-60 cells was reduced when the cells were treated with differentiating agents. Cell-surface expression of both glycoproteins was markedly increased in blood monocytes but not in U937 cells after exposure to the lysosomotropic reagent methylamine HCl, indicating differences in LAMP-associated membrane flow in these cell types.
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PMID:Purification and characterization of human lysosomal membrane glycoproteins. 291 82

A cDNA clone of a manganese peroxidase (MnP) from Phanerochaete chrysosporium was isolated and characterized. The cDNA contains 1314 nucleotides excluding the poly(A) tail and the coding region has 68% G + C content. The deduced mature MnP protein contains 357 amino acids and is preceded by a 21-amino acid leader sequence. The experimentally determined N-terminal sequence of the purified MnP-1 protein, pI = 4.9, corresponds to the deduced N-terminal sequence of the gene. The Mr of the mature MnP-1 deduced from the cDNA is 37,439, which is approximately 81.4% of the experimentally determined molecular weight. The difference is due to glycosylation and a single potential N-glycosylation site with the general sequence Asn-X-Thr/Ser is present in the deduced MnP-1 sequence. Consistent with the peroxidase mechanism of MnP, the proximal histidine, the distal histidine, and the distal arginine are all conserved and regions flanking these residues display homology with other peroxidases. Northern blot analysis indicates that MnP expression is controlled by nutrient nitrogen at the level of transcription. Southern blot hybridization analysis suggests that MnP-1 is a member of a family of MnP genes.
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PMID:Characterization of a cDNA encoding a manganese peroxidase, from the lignin-degrading basidiomycete Phanerochaete chrysosporium. 292 81

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