Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0272170 (SDS)
 50,377 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The single-stranded nucleocapsid protein that coats the RNA genome of human immunodeficiency virus within the virion core has been produced in Escherichia coli and purified to homogeneity. The mature 55-amino acid protein, normally generated from the gag polyprotein precursor by HIV protease-catalyzed processing of both its amino and carboxyl termini, was produced in E. coli with authentic termini directly, without the need for processing. The protein was purified 30-fold to apparent homogeneity, as determined by both amino acid analysis and SDS-polyacrylamide gel electrophoresis. Sequencing of each terminus of the purified protein indicated that no proteolytic degradation occurred. A molar extinction coefficient (epsilon 280 = 8350 cm-1 M-1) was determined. The purified nucleocapsid protein binds tightly to single-stranded RNA as judged by a nitrocellulose filter binding assay. A binding constant (Kw) of 1 x 10(8) M-1 was calculated. Using fluorescence quenching of nucleocapsid protein upon RNA binding as an assay, a binding site size of seven nucleotides was determined. These results contrast to a larger 15-nucleotide site measured by others for a larger form of nucleocapsid protein-containing sequences from its immature precursor. The possible relevance of these findings are discussed.
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PMID:HIV nucleocapsid protein. Expression in Escherichia coli, purification, and characterization. 834 33

The protease encoded by the human immunodeficiency virus type 1 (HIV-1) was engineered in Escherichia coli as a construct in which the natural 99-residue polypeptide was preceded by an NH2-terminal methionine initiator. Inclusion bodies harboring the recombinant HIV-1 protease were dissolved in 50% acetic acid and the solution was subjected to gel filtration on a column of Sephadex G-75. The protein, eluted in the second of two peaks, migrated in SDS-PAGE as a single sharp band of M(r) approximately 10,000. The purified HIV-1 protease was refolded into an active enzyme by diluting a solution of the protein in 50% acetic acid with 25 volumes of buffer at pH 5.5. This method of purification, which has also been applied to the purification of HIV-2 protease, provides a single-step procedure to produce 100 mg quantities of fully active enzyme.
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PMID:Large scale purification and refolding of HIV-1 protease from Escherichia coli inclusion bodies. 839 90

A principal neutralizing determinant of human immunodeficiency virus type 1 (HIV-1) lies within the V3 loop of gp120, the external major envelope glycoprotein. V3 loop peptides derived from two HIV-1 strains, HTLV-III BH-10 (V3-BH10) and LAVELI (V3-ELI), were synthesized and biotinylated. The binding of both biotinylated V3-BH10 and V3-ELI to the surfaces of MOLT-4 clone 8 cells was demonstrated by flow cytometric analyses. Both the peptides (more than 2 microM) bound to the cells (2 x 10(5) in a dose-dependent manner. The binding of biotinylated V3-BH10 was specifically inhibited by a neutralizing monoclonal antibody (0.5 beta). The binding of both of the biotinylated V3 loop peptides was enhanced by the addition of unlabeled V3-BH10. In addition, the peptides were employed as ligands on affinity columns. A major V3 loop binding protein (V3BP) was purified from the membrane soluble fraction of MOLT-4 cells by successive application to two different V3 loop columns. V3BP consisted of two major polypeptides (32 and 33 kDa). The SDS-PAGE profile of V3BP did not change under non-reducing conditions, but only a single band was observed after analysis on native PAGE. The major peak of the eluate as determined by size exclusion chromatography was broad and the estimated relative molecular mass was much larger than 33 kDa, suggesting that V3BP comprises several subunits. Taken together, we confirmed that the V3 loop peptides are useful in the characterization of V3BP(s) of which they are conformational ligands.
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PMID:Applications of biotinylated V3 loop peptides of human immunodeficiency virus type 1 to flow cytometric analyses and affinity chromatographic techniques. 848 4

Translational incorporation of the unusual amino acid selenocysteine in eukaryotes requires a coding region UGA codon (which otherwise serves as a termination signal), a selenocysteine insertion sequence (SECIS) in the 3'-untranslated region of the mRNA, and selenocysteyl-tRNA. The mechanisms involved in SECIS recognition by the eukaryotic translational machinery remain unknown. We report the detection of RNA-binding proteins that specifically recognize the SECIS from human cellular glutathione peroxidase (GPX1) transcripts. RNA gel shift assays showed three retarded bands after incubation with COS-1 whole cell lysate or S-100 cytosol fraction or with extracts from hepatoma cell lines HepG2 and Hep3B. The specificity of the binding was demonstrated by competition by cold unlabeled SECIS RNA and by lack of competition by other RNA species with similar stem-loop secondary structures, such as the human immunodeficiency virus (HIV) transactivation-response region of HIV mRNA element, and mutated SECIS constructs. UV cross-linking and SDS-polyacrylamide gel electrophoresis revealed at least two proteins, with estimated molecular masses of 55,000 and 65,000 Da, that bind to the SECIS. Examination of a series of insertion and deletion SECIS mutants indicated recognition of the SECIS primarily through the basal stem region, although the upper stem, loop, and two of three short conserved sequences also appear to contribute to the affinity of the binding.
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PMID:RNA-binding proteins that specifically recognize the selenocysteine insertion sequence of human cellular glutathione peroxidase mRNA. 853 Apr 73

Previous reports have shown that cyclophilin A (CyPA) is found to be specifically associated with human immunodeficiency virus type-1 (HIV-1) virions and is required for infectivity (Franke et al. Nature 372:359; Thali et al. Nature 372:363). We have examined CyPA associated with HIV-1MN virions. Virions from infected human lymphoid cells were analyzed by high-pressure liquid chromatography (HPLC), protein sequence, and immunoblot analysis. At least three forms of CyPA were found: an unmodified form, an N-terminally modified form, and an N-terminally modified form that migrates as a larger isoform on a reducing-SDS polyacrylamide gel. Using a protease digestion procedure, CyPA that is associated with virions was found to be located inside the viral membrane. Similar examination of SIVMne produced by HUT-78 human T cells did not detect specific incorporation of CyPA into SIV virions. Our results are consistent with the role of CyPA acting early in the infectious process of HIV-1.
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PMID:Analysis and localization of cyclophilin A found in the virions of human immunodeficiency virus type 1 MN strain. 855 96

Knowledge of CD4 conformation within the membranes of human lymphoid and monocytoid cells is essential for a clear understanding of its function as a ligand for major histocompatibility complex II (MHC) molecules in T cell activation and for gp120 in human immunodeficiency virus (HIV) infection. The charge and structure of native (nCD4) and soluble recombinant CD4 (rCD4) were examined by one- and two-dimensional (2-DE) electrophoresis antigen mapping and silver staining. Recombinant CD4 was partitioned by nonequilibrium pH gradient electrophoresis (NEPHGE) and revealed a number of differentially charged 44 kDa species (pI > 9.5). Biotinylation (4 h, room temperature) of rCD4 yielded a single labelled species on sodium dodedyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) with an increased apparent molecular mass to 50 kDa, consistent with a maximal incorporation of approximately 18 molecules of biotin per rCD4 molecule. The milder biotinylation (15 min, 4 degrees C) of cell-(CEM-T4, THP-1) expressed CD4 was not accompanied by any apparent alteration in molecular weight, nor abrogation of CD4 antigenicity. This was determined by isolation of nCD4 by immunoprecipitation and SDS-PAGE immunoblotting, using anti-CD4 mAbs (leu3a, OKT4A, Q4120, T4, OKT4, Q425) and by flow cytometry (leu4a, T4). The immunoprecipitation of full-length native CD4 from lymphoid MT2 and CEM-T4 cell extracts, however, revealed both monomeric and higher-order CD4 antigen complexes by immunoblotting. These studies describe the biotinylation, 1-DE and 2-DE of CD4 preparations, and indicate the capacity of CD4 of lymphocytes to form complexes which may influence CD4 conformation and epitope availability.
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PMID:Analysis of recombinant and native CD4 by one- and two-dimensional gel electrophoresis. 890 46

In the course of investigating effective biological active substances, we detected a substance in an extract of silkworm faeces that markedly suppresses viral production. The extract, prepared with hot phosphate-buffered saline and purified with ammonium sulfate precipitation, inhibited HVJ (Sendai virus), HSV (herpes simplex virus type-1), and HIV (human immunodeficiency virus type-1), but not poliovirus, suggesting that it is effective on enveloped virus production but not on non-enveloped ones. In the case of HVJ, indirect immunofluorescent staining using anti-HVJ antibody and Northern blotting analysis showed that, while viral adsorption and entry into the host cells were not affected, the synthesis of viral specific gene was inhibited by pretreatment of the virions with the extract. The extract affected more effectively aged virion, which losses membrane function as barrier and its envelope is leaky, than young virion that maintains barrier function. The active substance was partially purified by gel filtration after treatment of the extract with 1 N NaOH solution. From analysis with SDS-PAGE (SDS-polyacrylamide gel electrophoresis), protein bands were detected with molecular masses of about 25 kDa and near 14 kDa, while sugars were also detected with lectin blotting.
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PMID:Suppression of enveloped virus production with a substance from silkworm faeces. 907 8

The fusion domain of human immunodeficiency virus (HIV-1) envelope glycoprotein (gp120-gp41) is a conserved hydrophobic region located at the N terminus of the transmembrane glycoprotein (gp41). A V2E mutant has been shown to dominantly interfere with wild-type envelope-mediated syncytium formation and virus infectivity. To understand this phenomenon, a 33-residue peptide (wild type, WT) identical to the N-terminal segment of gp41 and its V2E mutant were synthesized, fluorescently labeled, and characterized. Both peptides inhibited HIV-1 envelope-mediated cell-cell fusion and had similar alpha-helical content in membrane mimetic environments. Studies with fluorescently labeled peptide analogues revealed that both peptides have high affinity for phospholipid membranes, are susceptible to digestion by proteinase-K in their membrane-bound state, and tend to self- and coassemble in the membranes. In SDS-polyacrylamide gel electrophoresis the WT peptide formed dimers as well as higher order oligomers, whereas the V2E mutant only formed dimers. The WT, but not the V2E mutant, induced liposome aggregation, destabilization, and fusion. Moreover, the V2E mutant inhibited vesicle fusion induced by the WT peptide, probably by forming inactive heteroaggregates. These data form the basis for an explanation of the mechanism by which the gp41 V2E mutant inhibits HIV-1 infectivity in cells when co-expressed with WT gp41.
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PMID:Fusion peptides derived from the HIV type 1 glycoprotein 41 associate within phospholipid membranes and inhibit cell-cell Fusion. Structure-function study. 915 94

A 637-bp fragment, corresponding to the p24 human immunodeficiency virus (HIV) core protein from the gag ORF, was PCR amplified from DNA isolated from peripheral blood mononuclear lymphocytes (PBML) of an asymptomatic HIV-1 seropositive human subject from Bombay and cloned into PCRScript SK(+). The nucleotide sequence revealed highest homology (98.6%) with the consensus sequence of the HIV-1 B subtype. The 637-bp KpnI-HindIII fragment was cloned downstream from a His6 tag in the pQE30 vector under the control of phage T5 promoter leading to production of a 6XHis-p24 fusion protein in Escherichia coli. It showed an approx. 24-kDa band by SDS-PAGE. The recombinant p24 reacted with serum samples from HIV-infected subjects when tested by Western blot and ELISA.
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PMID:Human immunodeficiency virus type-1 p24 sequence from an Indian strain: expression in Escherichia coli and implications in diagnostics. 918 45

A generally applicable, rapid, and sensitive method for profiling and sequencing of glycoprotein-associated N-linked oligosaccharides from protein gels was developed. The method employed sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) for protein separation and purification and in-gel deglycosylation using PNGase F for glycan release. Profiles of the neutral glycans from bovine ribonuclease B, chicken ovalbumin, and human immunoglobulin G (IgG), as well as sialic acid-containing sugars (following esterification of the acidic groups) of bovine fetuin and bovine alpha1-acid glycoprotein, were obtained by matrix-assisted laser desorption/ionization mass spectrometry (MALDI MS) and by normal-phase high-performance liquid chromatography following fluorescent labeling. Oligosaccharides were sequenced using specific exoglycosidases, and digestion products were analyzed by MALDI MS. Between 50 and 100 pmol (1.5 to 15 microg) of glycoprotein applied to the gel was sufficient to characterize its oligosaccharide contents. The identity of all glycoproteins investigated could be confirmed after deglycosylation by in-gel trypsin treatment followed by MALDI MS mass mapping and matching the measured molecular weights to a sequence database. The technique was used for the characterization of the glycan moieties of human immunodeficiency virus recombinant gp120 (Chinese hamster ovary cells) and to monitor changes in the glycosylation of this glycoprotein when produced in the presence of a glucosidase I inhibitor. Furthermore, since heavy and light chains of IgG became separated by SDS-PAGE, it could be established that most glycans were associated with the heavy chains.
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PMID:Sequencing of N-linked oligosaccharides directly from protein gels: in-gel deglycosylation followed by matrix-assisted laser desorption/ionization mass spectrometry and normal-phase high-performance liquid chromatography. 923 2


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