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)

Scatter factor (SF), a glycoprotein produced by cultured fibroblasts, acts in vitro on epithelial cells causing separation and increased local motility. In this study, the polypeptide was purified to apparent homogeneity in high yields with conserved biological activity from medium conditioned by ras-transformed NIH 3T3 cells, by a three-step procedure involving ammonium sulphate fractionation, cation-exchange and hydroxyapatite chromatography. After purification, SF specific activity increased from approximately 0.3 units/microgram in unprocessed conditioned medium to approximately 5 units/ng, and cumulative recovery of biological activity was approximately 38%. Treatment of pure SF with N-glycanase resulted in a decreased Mr, but no concomitant effect was observed on biological activity. Proteolytic activity was absent from samples of both partially purified and pure SF. Our biochemical studies showed that SF, which is highly aggregated in low-ionic-strength media, is not aggregated in 0.4 M-salt. Under non-reducing conditions, pure SF migrated as a single stained band at Mr 67,000 on SDS/PAGE, and biological activity was eluted from unstained gels with an identical Mr. SF was electrofocused sharply at pI 8.5 with no degradation of activity. From ultracentrifugation studies (under non-aggregating conditions), the sedimentation coefficient of active SF was 3.7 S and f.p.l.c. molecular sieve chromatography indicated a Stokes' radius of 2.95 nm. The calculated Mr from these data was 61,400. The appearance of three stained polypeptides of Mr 82,000, 57,000 and 32,000 derived from the Mr-67,000 constituent after reduction with mercaptoethanol suggests that SF may be a heterodimer of Mr-57,000 and -32,000 subunits. Data from protein sequence analysis of the hydroxyapatite-purified protein confirms that SF has sequence identity with both rat hepatocyte growth factor and human fibroblast tumour cytotoxic factor.
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PMID:Purification and characterization of biologically active scatter factor from ras-transformed NIH 3T3 conditioned medium. 183 75

Processing of the envelope glycoproteins (E1 and E2) of hepatitis C virus (HCV) was investigated by using cDNA clones covering the structural and part of the nonstructural (NS) protein regions. The cDNA clones expressed in mammalian and insect cells were immunoprecipitated by serum of a hepatitis C patient and by monoclonal and polyclonal antibodies raised against the recombinant proteins expressed in insect cells or Escherichia coli. The E2 protein expressed in both insect and mammalian cells was a glycoprotein of 60 kDa (gp60) and removal of the sugar residues by N-glycanase yielded 38- and 40-kDa proteins. Pulse-chase experiments revealed that efficient expression and processing of the envelope proteins required coexpression with the flanking core and NS2 proteins. Not only E1 and E2 proteins but also NS2 and NS3 proteins were coprecipitated by anti-E1 or anti-E2 monoclonal antibody in the cells infected with the recombinant baculovirus expressing structural and NS proteins (NS2 and NS3), while only the NS3 protein was precipitated by anti-NS3 antibody. The association of E1 and E2 proteins was not influenced by the presence of a reducing agent and was still observed in the cells coinfected with the deletion mutants lacking both internal and C-terminal hydrophobic regions of each protein. Furthermore, the truncated forms of the E1 and E2 proteins were secreted into the culture supernatant and some of them were still associated with each other.
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PMID:Processing of E1 and E2 glycoproteins of hepatitis C virus expressed in mammalian and insect cells. 797 9

The non-structural protein NS3 was investigated in Ibaraki virus (IBAV), an epizootic hemorrhagic disease virus, serotype 2. Degree of NS3 glycosylation, cytopathic effect, and virus release efficiency were compared between mammalian and insect cells. The molecular weight of synthesized NS3 was compared in Western blot analysis following the removal of the glycochain by PNGase F treatment and revealed that glycosylation of NS3 occurred only in mammalian cells. Also, it was revealed that the amount of infectious IBAV in the extracellular fraction continued to increase for insect cells even after 60h post infection without disrupting cells. These results suggested that glycosylation of NS3 controls pathogenicity of IBAV in host cells to protect vector insects by altering the release pathway of assembled progeny viruses.
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PMID:The host specific NS3 glycosylation pattern reflects the virulence of Ibaraki virus in different hosts. 2438 93