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: UNIPROT:Q07644 (polypeptide)
72,197 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. Enzymes, proteins, glycoproteins and lipids of rodent bile were compared with those of a plasma-membrane subfraction originating from the hepatocyte bile-canalicular membrane. 2. Three bile-canalicular glycoprotein enzyme activities were detected in bile. Comparison of the pH optimum and immunoinhibition properties of membrane and bile 5'-nucleotidase activity indicated that they were the same enzyme. Correspondence between membrane and bile alkaline phosphodiesterases also suggested that they were the same enzymes. Activities of Mg2+-stimulated adenosine triphosphatase, a lipid-dependent intrinsic membrane protein, and galactosyltransferase, a Golgi membrane marker, were not detected in bile. 3. Rodent bile contained 15 polypeptide bands that differed radically from those of bile-canalicular membranes. Bands that may correspond in molecular weight to liver plasma-membrane glycoproteins were present at low staining intensities in bile. A major protein of apparent molecular weight 49 500 was present, and albumin was detected by immunodiffusion. 4. The lipid composition of bile and bile-canalicular membrane also differed. Phosphatidylcholine accounted for 82% of rat bile phospholipids, and only trace amounts of phosphatidylinositol, phosphatidylserine and sphingomyelin were present. 5. The results indicate that in healthy animals, the bile-canalicular membrane is refractory to the action of bile acids during the secretory process. The presence of only small amounts of bile-canalicular membrane components, especially glycoprotein enzymes located at the outer face of the membrane, suggests that these are released from the membrane by bile acids after secretion of bile into the canalicular spaces.
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PMID:Role of membranes in bile formation. Comparison of the composition of bile and a liver bile-canalicular plasma-membrane subfraction. 18 22

The angiotensin I converting enzyme from rat lung was observed to be a glycoprotein containing 8.3% carbohydrate and consisting of a single polypeptide chain with an estimated molecular weight of 139 000 as determined by sodium dodecylsulfate-polyacrylamide gel electrophoresis and 150 000 by sucrose density gradient sedimentation analysis. A comparison of the mobility of angiotensin I converting enzyme from rat lung, rabbit lung, and two hog lung sources on sodium dodecyl sulfate-polyacrylamide gels indicates that all four enzymes have very similar molecular weights and subunit structures. Some previously reported molecular weight discrepancies appear to be due to anomalous behavior of the enzyme of gel filtration.
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PMID:The estimation and comparison of molecular weight of angiotensin I converting enzyme by sodium dodecyl sulfate-polyacrylamide gel eletrophoresis. 18 34

The mobility of the lipids in the bilayer of the envelope of vesicular stomatitis virus has been probed over its complete space by the biosynthetic incorporation of [N-13CH3]- choline as a probe for the polar head groups and [3-13C]- and [11-13C] oleic acid and [16-13C]- palmitic acid for the hydrophobic region of the bilayer. These precursors were effectively incorporated as established by the concomitant administration of the same precursors in radioactive form. Spin lattice relaxation time measurements (T1) of the 13C enriched segments in complete virus envelope allowed estimation of their mobility. The mobility of the polar head groups is restricted, probably due to ionic interactions with neighbouring acidic phospholipids (phosphatidylserine) and/or acidic side chains of the glycoprotein (G-protein). The rigidity of the hydrophobic part of the bilayer is due to the high cholesterol content and interaction with the immersing polypeptide chains of the G- and possibly M-protein. The rigidity is limited to a depth of about 15 A ranging from the inner and outer surface, whereas the inner core of the bilayer is fluid. Tryptic cleavage of the hydrophilic part of the G-protein allows the lipophilic immersing polypeptide fragment to enter further the bilayer which then reduces the fluidity of the hydrocarbon chains in the core region by lipid-protein interactions.
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PMID:13C-NMR studies of the membrane structure of enveloped virions (vesicular stomatitis virus). 18 76

Egg-grown Sendai virus was used for preparation of rabbit hyperimmune sera directed against purified whole virus and pronasetreated projectionless virus particles. These sera and convalescent sera after natural Sendai infection in guinea pigs were studied in haemolysis-inhibition (HLI), haemagglutination-inhibition (HI) and neuraminidase-inhibition (NI) tests both before and after absorption with Tween 80-ether (TE) treated virus preparations. In addition, neutralization tests using the different sera were carried out. HI and NI antibodies and the major population of neutralizing antibodies in convalescent sera were removed by absorption with TE treated virus material without changing the titre of non-HI HLI antibodies. Rabbit hyperimmune sera directed against projectionless virus particles exhibited HLI antibody titres in marked excess of HI and NI antibody titres, whereas this was not found in sera against purified whole virus. In contrast, absorption of sera against projectionless particles eliminated HI antibodies without changing the titre of non-HI HLI antibodies. The protein composition of antigenic preparations used in absorption experiments and for preparation of sera was investigated by SDS-polyacryladmie-gel electrophoresis. TH treatment had no significant effect on the polypeptide pattern of Sendai virus. Pronase-treatment predominantly affected the two glycosylated proteins of Sendai virus. The larger glycoprotein was not detectable in pronasetreated projectionless virus particles, whereas the smaller glycoprotein was present in reduced quantities.
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PMID:Identification of paramyxovirus-specific haemolysis-inhibiting antibodies separate from haemagglutinating-inhibiting and neuraminidase-inhibiting antibodies. 1. Sendai virus haemolysis-inhibiting antibodies. 18 12

Cells infected with pseudorabies virus excrete large amounts of a glycosylated sulphated protein, mol. wt. 89000, into the extracellular fluid. This paper reports the results of studies on the processing of this protein. Glycosylation occurs during, or very soon after, synthesis of the polypeptide chain. After a delay of several minutes the glycoprotein is sulphated; inhibition of glycosylation by high concentrations of glucosamine does not interfere with this process. The glycosylated sulphated polypeptide is then reduced in size from mol. wt. 99000 to 89000, possibly by proteolytic cleavage, and is excreted. Inhibition of glycosylation does not interfere with the excretion of this polypeptide, which is an energy-requiring process.
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PMID:Processing of a pseudorabies virus-induced protein which is glycosylated, sulphated and excreted. 18 77

We have labeled exposed surface glycoproteins of mouse lymphoid cells by the galactose oxidase-tritated sodium borohydride technique. The labeled glyco-proteins were separated by polyacrylamide slab gel electrophoresis and visualized by autoradiography (fluorography). The major thymocyte surface proteins have molecular weights of 170,000 and 125,000. Thymocytes from TL antigen-positive mouse strains showed an additional band with a molecular weight of 27,000. Highly purified T lymphocytes contain two major surface glycoproteins with molecular weights of 180,000 and 125,000. Purified B lymphocytes have one major surface glycoprotein with a molecular weight of 210,000. When T lymphocytes are stimulated in vitro by concanavalin A or phytohemag-glutinin, the major proteins characteristic of T cells are relatively weakly labeled, but new components of lower molecular weights appear on the cell surface. A similar change is seen in B lymphocytes stimulated by Escherichia coli lipopolysaccharide. T lymphoblasts isolated from mixed lymphocyte cultures show a slightly different surface glycoprotein pattern. A polypeptide with a molecular weight of 57,000, which was labeled without enzymatic treatment by tritiated sodium borohydride alone, is strongly labeled in proliferating cells.
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PMID:Characterization of surface glycoproteins of mouse lymphoid cells. 19 30

Crossed immunoelectrophoresis was used to characterize herpes simplex virus type 1 (HSV-1) antigens produced by infected HEp-2 cells. We report on a method for analyzing the polypeptide content in individual antigen-antibody precipitates eluted from the second-dimensional agarose gel. Four glycoprotein antigens of HSV-1, Ag-8, Ag-11, Ag-6, and Ag-3, were isolated and analyzed for polypeptide content. The molecular weights of the polypeptides are presented.
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PMID:Polyacrylamide gel electrophoretic analysis of herpes simplex virus type 1 immunoprecipitates obtained by quantitative immunoelectrophoresis in antibody-containing agarose gel. 19 9

Coupling of ribonucleoprotein particles from L cells infected with vesicular stomatitis virus to a pre-incubated ribosomal system obtained from uninfected HeLa cells allowed synthesis of two proteins. G1 (molecular weight 63,000) and G2 (molecular weight 67,000), and all other proteins of vesicular stomatitis virus except the spike protein G (molecular weight 69,000). Analyses of the tryptic peptides showed that G1, G2, and G had identical peptide sequences. The synthesis of G2 required the presence of membranes; only G1 was synthesized in the absence of any membranes. G2 but not G1 was shown to be a glycoprotein by affinity chromatography on a concanavalin A-Sepharose column. Removal of sialic acid residues from G by neuraminidase resulted in a product having an identical mobility to G2. Digestion of G2 or G with a mixture of neuraminidase (EC 3.2.1.18), beta-galactosidase (EC 3.2.1.23), and beta-N-acetylglucosaminidase (EC 3.2.1.30), however, produced a protein of molecular weight 65,000. These data suggest that G2 is the desialated G and is formed by glycosylation of G1, which is the unglycosylated polypeptide backbone of G.
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PMID:Synthesis and glycosylation in vitro of glycoprotein of vesicular stomatitis virus. 19 4

To delineate the proximity and spatial arrangement of the major structural proteins of intact vesicular stomatitis (VS) virions, protein complexes formed by oxidation or by bivalent cross-linkers were analyzed by two-dimensional electrophoresis on polyacrylamide slab gels. H2O2 oxidation of VS virions produced an N-polypeptide dimer (molecular weight, approximately equal to 110,000) on a first dimension gel that could be reduced to N monomers (molecular weight, approximately equal to 50,000). Proteins extracted from unreduced and unoxidized VS virions contained dimeric and trimeric forms of M-protein complexes as well as a heterodimer of M and N protein. Qualitatively similar VS viral protein complexes were generated by exposing VS virions to the reversible protein cross-linkers methyl-4-mercaptobutyrimidate (MMB), tartryl diazide (TDA), and dithiobis(succinimidyl proprionate) (DTBSP); cross-linked complexes on first-dimension gels were cleaved by reduction with 2-mercaptoethanol (MMB or DTBSP cross-linked) or by periodate oxidation (TDA cross-linked). In addition to covalently linked homodiamers of M and N proteins and a protein M-N heterodimer, the protein cross-linkers also generated homo-oligomers of G protein and a G-M heterodimer. These data suggest that the glycoprotein spike of VS virus is composed of more than one G protein. The existence of N-M and G-M heterodimers is consistent with the hypothesis that the matrix (M) protein may serve as a bridge between the G and N proteins in assembly of the VS virion.
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PMID:Spatial relationships of the proteins of vesicular stomatitis virus: induction of reversible oligomers by cleavable protein cross-linkers and oxidation. 19 63

Previous studies showed that the glycoprotein (G) of vesicular stomatitis virus is synthesized in association with the endoplasmic reticulum (ER) membrane and that all G mRNA co-fractionates with ER membrane. Here, we show that treatment of infected cells with puromycin results in dissociation of G mRNA, and presumably the associated ribosomes, from the ER membrane. Even it extracts from treated cells are kept at low ionic strength (0.01 M KCl), over 80% of G mRNA is found unattached to membranes. There is no evidence for direct interaction of GmRNA with membranes; rather, the linkage apparently is mediated by the nascent G polypeptide.
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PMID:Binding of viral glycoprotein mRNA to endoplasmic reticulum membranes is disrupted by puromycin. 19 64


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