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)

Maltase-glucoamylase (MGA) was immunoprecipitated from detergent extracts of brush border membranes of the human small intestinal mucosa. Electrophoretic analysis of the precipitates under denaturing conditions revealed a single polypeptide of Mr = 335,000 in the presence or absence of reducing agents. Cross-linking of brush border membranes with the homobifunctional reagent dithiobis(succinimidylpropionate) did not result in considerable changes in the electrophoretic pattern of MGA. In contrast, aminopeptidase N, used in these studies as a control glycoprotein of the brush border membrane revealed dimeric structures of its single subunit in the presence of dithiobis(succinimidylpropionate). These data suggest that MGA is expressed in the human small intestinal brush border as a monomeric polypeptide. The biosynthesis of MGA was studied by pulse-labeling of human intestinal biopsy specimens or mucosal explants in organ culture. Continuous labeling with [35S]methionine for 30 min revealed a single polypeptide high mannose precursor of Mr = 285,000 (MGAh) which matures after 4 h of labeling to the Mr = 335,000 as judged by the susceptibility of these two forms to endo-beta-N-acetylglucosaminidase H. Owing to the absence of pancreatic secretions in the culture medium and the isolation of an identical species from nonlabeled mucosa, this result indicates that the Mr = 335,000 does not undergo an in situ extracellular cleavage by intraluminal proteases. Further, biosynthetically labeled, intracellularly cleaved polypeptides corresponding to the high mannose precursor or mature forms of MGA were not detected. The mature form of MGA (MGAm) bears in addition to N-linked glycans also O-glycosidically linked oligosaccharides. In fact, endo-beta-N-acetylglucosaminidase F/glycopeptidase F treatment of MGAm followed by chemical deglycosylation with trifluoromethanesulfonic acid revealed approximately 35,000 daltons of O-linked sugars. Furthermore, MGAm as well as its N-linked sugars-depleted form bound to Helix pomatia lectin which has specificity toward Gal-GalNAc structures. In addition, the data were suggestive of a post-translational O-glycosylation of the molecule since (i) the high mannose precursor of MGA did not bind to H. pomatia lectin and (ii) its endo-beta-N-acetylglucosaminidase H or endo-beta-N-acetylglucosaminidase F/glycopeptidase F form displayed an apparent molecular weight similar to that obtained upon endo-beta-N-acetylglucosaminidase F/glycopeptidase F/trifluoromethanesulfonic acid deglycosylation. Finally, pulse-chase experiments revealed a relatively slow rate of post-translational processing of MGA in comparison to aminopeptidase N.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Structure, biosynthesis, and glycosylation of human small intestinal maltase-glucoamylase. 314 29

Interleukin 3 (IL-3) derived from mouse T cells was biosynthetically labeled with either [35S]methionine or [3H]mannose, affinity-purified using various anti-IL-3 antibodies, and analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Autoradiography revealed the same three major bands with Mr values of 21,500-22,500, 27,000-31,000, and 32,000-36,000, irrespective of whether the anti-IL-3 antibody had been directed to the N or C termini of the IL-3 polypeptide. Bioassay of eluates from the gels confirmed that all three bands exhibited IL-3 bioactivity. IL-3 produced from two nonphysiological sources, the myelomonocytic leukemia WEHI-3B or Cos 7 cells that had been transfected with an IL-3 cDNA clone, had in each case a different pattern of microheterogeneity. Treatment with either tunicamycin or N-glycanase resulted in IL-3 running as one band with Mr 16,000, corresponding to its 140-amino acid polypeptide chain. No evidence for proteolytic processing was detected. These results show that the Mr heterogeneity of IL-3 was highly dependent on the cellular source and is due to N-linked glycosylation.
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PMID:Multiple glycosylated forms of T cell-derived interleukin 3 (IL-3). Heterogeneity of IL-3 from physiological and nonphysiological sources. 326 13

A cholesteryl ester transfer protein (CETP) of apparent Mr 74,000 has recently been purified from human plasma. Cholesteryl ester transfer activity was found to accumulate in the medium of cultured Hep G2 cells. The transfer activity was removed by immunoprecipitation with specific antibodies to the plasma CETP. Sodium dodecyl sulfate gel electrophoresis of immunoprecipitates prepared from the medium of cells pulsed with [35S]methionine revealed a broad specific band of protein of Mr 72,000 to 76,000; by contrast, immunoprecipitates of cellular homogenates showed a sharp specific band of Mr 58,000. The Mr 72,000 to 76,000 band disappears, concomitant with the appearance of lower Mr products, upon neuraminidase or glycopeptidase F treatment of medium immunoprecipitates or of purified CETP. The results indicate that liver cells have the capacity to synthesize and secrete CETP. The CETP peptide acquires asparagine-linked carbohydrate and sialic acid during intracellular processing.
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PMID:Cholesteryl ester transfer protein is secreted by Hep G2 cells and contains asparagine-linked carbohydrate and sialic acid. 331 17

The biosynthesis and maturation of human sucrase-isomaltase (SI, EC 3.2.1.48-10), was studied in cultured small intestinal biopsy specimens and mucosa explants. Pulse-chase experiments with [35S]methionine revealed one high mannose intermediate of Mr = 210,000 (pro-SIh) which was processed at a slow rate to an endo H-resistant, mature form of Mr = 245,000 (pro-SIc). The fully core-glycosylated form (Mr = 212,000) was detected only when 1-deoxynojirimycin was added to the culture medium, thus indicating that the core sugars undergo rapid processing by rough endoplasmic reticulum membrane-bound glycosidases. The data presented showed that trypsin specifically and instantaneously (within 1 min) cleaves pro-SIc to two subunits Ic (Mr = 145,000) and Sc (Mr = 130,000). Elastase and chymotrypsin are not effective. Enzymic and chemical deglycosylations of SI with endo-beta-N-acetylglucosaminidase F/glycopeptidase F and trifluoromethanesulfonic acid (TFMS) as well as probing for the binding capacity of SI to Helix pomatia lectin demonstrated that pro-SIc, Ic, and Sc are N- and O-glycosylated. Furthermore, the results were indicative of a posttranslational O-glycosylation of pro-SI, since (i) the earliest detectable precursor form, pro-SIh, did not bind to H. pomatia lectin and (ii) its deglycosylation products with both endo-beta-N-acetylglucosamidase H and TFMS were identical. Both the Sc and Ic subunits contain eight N-linked glycan units, at least one of which is of the high mannose type and found on Sc. Finally, Sc, but not Ic, was shown to display at least four populations varying in their content of O-linked glycans. The heterogeneous O-glycosylation pattern of Sc could be correlated with the distal position of this subunit (and its O-glycosylation sites) within the pro-SI molecule, thus affecting the extent of O-linked oligosaccharide processing and their subsequent presentation on the mature molecule.
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PMID:Biosynthesis of the human sucrase-isomaltase complex. Differential O-glycosylation of the sucrase subunit correlates with its position within the enzyme complex. 336 77

Antiserum was raised in rabbits against a bile canalicular glycoprotein of Mr = 110,000 purified to homogeneity from of rat liver. The antisera specifically immunoprecipitated a Mr = 110,000 polypeptide from hepatocytes metabolically labeled with [35S]methionine. When hepatocytes in primary culture were incubated with tunicamycin before labeling with [35S]methionine in the presence of tunicamycin, the major polypeptide immunoprecipitated by the specific antiserum from Triton X-100 extracts of cells had a molecular weight of 59,000. Enzymatic removal of N-linked carbohydrates from the Mr = 110,000 glycoprotein by N-glycanase digestion also yielded a polypeptide with minimum Mr = 59,000. In pulse-chase experiments using [35S]methionine, the Mr = 110,000 protein detected by the specific antisera first appears as Mr = 85,000 and 75,000 intermediate species which are endoglycosidase H sensitive. The Mr = 85,000 intermediate form is lost first with time followed by the Mr = 75,000 form giving rise to the Mr = 110,000 form that is endoglycosidase H resistant. Neuraminidase digestion of the Mr = 110,000 form generated an Mr 85,000 form but with a different carbohydrate structure than the intermediate Mr 85,000 form detected in the pulse-chase experiments. The time required to accomplish the processing of the Mr = 85,000 and 75,000 forms is relatively slow. Finally, the terminal sugars are added and the mature Mr = 110,000 glycoprotein is rapidly transported to the cell surface. A minimum time of 90 min is required for the Mr = 110,000 bile canalicular glycoprotein to be synthesized, processed, and reach the cell surface which is long relative to the time required (10 min) for another domain-specific protein, the receptor for asialoglycoproteins, to reach the sinusoidal surface. The Mr = 110,000 bile canalicular glycoprotein turns over in the bile canalicular domain with a half-life of 43 h while the asialoglycoprotein receptor turns over in the sinusoidal domain with a half-life of 23 h.
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PMID:Biosynthesis and turnover of a Mr = 110,000 glycoprotein localized to the hepatocyte bile canaliculus. 366

The major protein in human pulmonary surfactant is a sialoglycoprotein of 32-36 kDa (PSP-A) that has been shown by translation of lung mRNA in vitro to be derived from precursor molecules of 29-31 kDa [Floros, Phelps & Jaeusch (1985). J. Biol. Chem. 260, 495-500]. We show here that two-dimensional gel patterns of PSP-A similar to that of the primary translation products are obtained by incorporation of [35S]methionine in the presence of tunicamycin or by N-glycanase digestion of the 32-36 kDa group. Additional gel patterns are also observed in which the isoelectric-point heterogeneity is similar to that of either tunicamycin-treated tissue or primary translation products, but with higher molecular masses. The gel patterns showing higher-molecular-mass components are obtained when terminal sialic acid addition is prevented by the incubation of lung tissue with monensin or when terminal sialic acids are digested from the fully processed protein with neuraminidase. The 32-36 kDa forms have been shown to contain [14C]mannose. Pulse-chase experiments indicate that the acidic isoforms in the protein group arise from basic isoforms that are detectable within 10 min.
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PMID:Post-translational modification of the major human surfactant-associated proteins. 380 Aug 94

The L-glutamate transporter GLAST-1 belongs to the newly discovered family of Na(+)-dependent, high-affinity glutamate transporters, which are involved in the regulation of synaptic excitatory neurotransmitter concentration in mammalian brain. The members of this family have a similar topological organisation with at least six transmembrane helices (TMHs) and two putative N-glycosylation sites located in the extracellular loop connecting TMH 3 and TMH 4. Besides these two conserved N-glycosylation motifs at Asn206 and Asn216, GLAST-1 possesses an additional one at Asn35. The putative N-glycosylation consensus motifs (Asn-Xaa-Ser/Thr) were deleted by replacement of Asn206 and/or Asn216 by Thr using site-directed mutagenesis (mutants N206T, N216T and N206,216T). The cDNAs encoding wild-type GLAST-1 and the three glycosylation-defective transport proteins were expressed in the Xenopus laevis oocyte system. Immunoprecipitation of the [35S]methionine-labeled and glycopeptidase-F-treated transporter molecules indicates that GLAST-1 is glycosylated at Asn206 and Asn216, whereas Asn35 remains unglycosylated. To assess a possible functional role of the two glycosylation sites wild-type and glycosylation-deficient GLAST-1 were expressed in Xenopus oocytes and characterized functionally by using the whole-cell voltage-clamp technique. The results prove that N-glycosylation has no impact on the transport activity of GLAST-1.
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PMID:Localization of N-glycosylation sites and functional role of the carbohydrate units of GLAST-1, a cloned rat brain L-glutamate/L-aspartate transporter. 775 63

Heparin cofactor II (HCII) is a glycoprotein in human plasma that inhibits thrombin rapidly in the presence of dermatan sulfate or heparin. Unexpectedly, we found that HCII activity in murine plasma is present in two proteins of 68 and 72 kDa. The two proteins have the same N-terminal amino acid sequence, and both react with an antibody raised against the C-terminal nine amino acid residues of murine HCII predicted from the cDNA sequence. Treatment of the two proteins with peptide-N4-(N-acetyl-beta-glucosaminyl)asparagine amidase yields a single 54-kDa band. Thus, murine plasma contains two forms of HCII that appear to have identical amino acid sequences but differ in the composition of their N-linked oligosaccharides. HCII cDNA clones isolated from a murine liver library include a 1434 bp open reading frame following the first Met codon, a TAA stop codon, and 580 bp of 3'-untranslated sequence terminating in a poly(A) tail. The amino acid sequence deduced from the cDNA contains the N-terminal sequence of purified murine plasma HCII preceded by a 23-residue hydrophobic sequence presumed to be the signal peptide. The amino acid sequence of murine HCII is 87% identical to that of human HCII, the greatest variability occurring in the N-terminal portion of the protein. Northern blot analysis reveals a 2.3-kb HCII mRNA in murine and human liver, but no HCII mRNA is detectable in heart, brain, spleen, lung, skeletal muscle, kidney, testis, placenta, pancreas, or intestine. Southern blot analysis of restriction fragment length polymorphisms in progeny on interspecific and intersubspecific crosses indicates that mice have a single HCII gene (designated Hcf2), which maps to chromosome 16 between Prm-1 and Igl. The murine HCII gene is approximately 7.1 kb in size and consists of at least four exons and three introns. The intron/exon organization is identical to that of the human HCII gene except at the 5' end, where the murine gene may lack a large intron in the 5'-untranslated region. Our results indicate that HCII is more highly conserved than the human and murine homologues of other serpins such as alpha 1-antitrypsin and alpha 1-antichymotrypsin.
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PMID:Murine heparin cofactor II: purification, cDNA sequence, expression, and gene structure. 790 24

Membrane preparations of cells expressing the cloned rat hypothalamus melanocortin receptor, MC3, have been photoaffinity labelled using a radiolabelled photoreactive analogue of alpha-MSH, [125I-Tyr2,Nle4,D-Phe7,ATB-Lys11]alpha-MSH. SDS-PAGE followed by autoradiography showed a single band at 53-56 kDa for the native receptor or 35 kDa after deglycosylated with PNGase F, consistent with the predicted cDNA sequence. Receptor binding studies with alpha-MSH, gamma-MSH and [Nle4,D-Phe7]alpha-MSH established that alpha-MSH and gamma-MSH had similar affinities while [Nle4,D-Phe7]alpha-MSH bound 100 times more strongly. These results suggest that the receptor recognises the conserved 'core sequence' (-Met-Glu/Gly-His-Phe-Arg-Trp-) of MSH/ACTH peptides. The binding affinities of alanine-substituted analogues of alpha-MSH were determined to investigate the role of individual residues in ligand-receptor interactions. While in the terminal regions only the replacement of Tyr2 reduced the affinity of the peptide, replacement of Met4, Phe7, Arg8 and Trp9 within the peptide core led to a significant loss of affinity. Glu5 appeared unimportant for receptor recognition.
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PMID:The melanocortin (MC3) receptor from rat hypothalamus: photoaffinity labelling and binding of alanine-substituted alpha-MSH analogues. 806 18

Agaricus bisporus secretes abundant laccase activity into the medium during mycelial growth. SDS-PAGE analysis of extracellular laccase protein, purified from compost extract, showed a predominant band of 65 kDa molecular mass, together with lesser amounts of smaller polypeptides. The main polypeptide was purified electrophoretically. Amino acid sequence analysis of the N-terminal region of the main polypeptide was used to specify the sequence of a 15-residue chemically synthesized peptide (N-terminal peptide). Rabbit antibodies were raised against pure laccase, electrophoretically purified main polypeptide and the synthetic N-terminal peptide. Electrophoretically purified main polypeptide antibody was further purified by affinity chromatography on laccase-CNBr-Sepharose. Western blot analysis showed that the antigenic behaviour of laccase in compost extract, culture filtrate from malt-extract culture, and the purified enzyme from both sources, differed. The patterns of bands revealed are most simply explained by generation of (proteolytically) partially cleaved enzyme molecules in the culture medium, possibly combined with differences in extent of glycosylation. [35S]Methionine incorporation and immunoprecipitation were used to follow laccase synthesis in cultures grown on malt extract. After short-term labelling, a single polypeptide of 68 kDa apparent molecular mass was immunoprecipitated from both mycelial extracts and the culture medium. When poly(A)-containing RNA from malt-extract-grown mycelium was translated in vitro in rabbit reticulocyte lysate, a single polypeptide of about 57 kDa molecular mass was immunoprecipitated, consistent with the previously measured carbohydrate content of 15% for the pure enzyme. After treatment with N-glycanase, the polypeptide showed an increase in mobility during SDS-PAGE consistent with a reduction in molecular mass of about 5 kDa, indicating about equal amounts of N- and O-linked carbohydrate. C-terminal labelling of pure laccase was attempted by transpeptidation with carboxypeptidase Y. Although some minor bands were labelled, the main polypeptide was not, indicating that the C-terminus of the enzyme may be blocked.
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PMID:The structure of laccase protein and its synthesis by the commercial mushroom Agaricus bisporus. 809 17


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