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:Q9NRP7 (fused)
58,367 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Effect of influenza virus on erythrocyte membranes was investigated by electron microscopy and fluorescence photobleaching recovery measurements. The virus induced mobilization of integral proteins in erythrocyte membrane at acidic pH, where it fused with the cell membrane to cause hemolysis and also cell fusions but not at neutral pH. At lower temperatures (e.g., 4 degrees C), the proteins aggregated in the membrane and, consequently, large protein-free lipid bilayer area was produced. At higher temperatures (e.g., 37 degrees C) the protein distribution became randomized. Spectrin meshwork underneath the erythrocyte membrane was also markedly modified by the virus at acidic pH. Diffuse fibril structure was converted into dense spots and the membrane area lacking the fibril structure was produced. Isolated hemagglutinin rosettes also caused mobilization and aggregation of the integral proteins at acidic pH but to smaller extent than that induced by virus. The membrane perturbation detected as the protein mobilization by the action of hemagglutinin was assigned to be the cause for envelope fusion.
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PMID:Mobilization and aggregation of integral membrane proteins in erythrocytes induced by interaction with influenza virus at acidic pH. 299 92

The influenza virus nucleoprotein gene has been cloned by a procedure that involves direct cDNA synthesis onto the primer-vector pBSV9, a pBR322-SV40 recombinant plasmid. dT-tailed pBSV9 was used to prime the synthesis of cDNA on a template of in vitro synthesized viral mRNA. The synthesis of ds-cDNA was initiated by a specific oligodeoxynucleotide and the resulting recombinant was circularized by intramolecular ligation. Recombinant pSVa963 contained the viral nucleoprotein gene directly fused to the SV40 early promoter region included in pBSV9 and followed by a dA:dT tail and the SV40 polyadenylation signal. When pSVa963 was used to transfect COS-1 cells, the presence of three NP-specific mRNAs of 1600, 1900 and 2500 nucleotides in length could be detected. Pulse labelling experiments of COS-1 transfected cells and immunobinding to a nucleoprotein monoclonal antibody indicated the synthesis of nucleoprotein. This nucleoprotein accumulated in the nucleus of transfected cells at a level similar to that found in infected cells. The vector and method described may be useful for the specific cloning and expression of any mRNA for which a 5'-terminal sequence is known.
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PMID:Oriented synthesis and cloning of influenza virus nucleoprotein cDNA that leads to its expression in mammalian cells. 300 71

Plasmids encoding the amino terminal portion of an influenza virus hemagglutinin (HA) fused to polyoma virus middle T (mT) or large T (lT) sequences have been constructed. Stable expression of the chimeric proteins was obtained in established rat embryo fibroblasts following plasmid co-transfection and selection for G418 resistance. The synthesis and localization of the proteins was followed by metabolic labeling with [35S]methionine and [3H]mannose, cell fractionation, and immunoprecipitation with anti-polyoma T antibody. The HA leader and amino terminal peptide direct the synthesis of the lT and mT proteins into the endoplasmic reticulum where they undergo glycosylation, but this occurs with a very low efficiency. Most of the HA-mT and HA-lT fusion protein molecules do not enter completely into the endoplasmic reticulum, but rather achieve their normal locations in the cell as slightly higher molecular weight proteins, presumably due to the extra sequences derived from HA at their amino termini. HA-mT fusion protein is found to have associated tyrosine-specific protein kinase activity precipitable with anti-src as well as anti-T antibody, and cells expressing this fusion protein have a transformed phenotype.
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PMID:Expression of influenza hemagglutinin-polyoma T-antigen fusion proteins in a rat embryo fibroblast cell line. 303 93

Advanced approaches to the synthesis and reconstruction of genetic material developed in the Institutes of Molecular Biology and Genetics during the past years are summarized. The evolution of methods for oligonucleotide synthesis and scopes for their use in gene production are discussed. The principles of localised mutagenesis methods developed in the Institute are described, such as: a) mutagenesis directed to the regulatory gene regions; b) segment-localized mutagenesis; c) mutagenesis directed by phosphotriester analogues of oligonucleotides. Examples of employing these methods for induction of regulatory mutants of phage lambda, production of fused genes, mutant interferon genes, construction of new DNA vectors, construction of hybrid H1-H3 subtype haemagglutinine gene of influenza virus etc. are presented. The approach to in vivo site-directed mutagenesis is experimentally substantiated.
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PMID:[Current approaches to the synthesis and reconstruction of genetic material]. 330 67

We have studied the interactions of synthetic peptides corresponding to the sequence of the amino terminus of the HA2 subunit of influenza virus haemagglutinin with artificial lipid membranes. The peptides could fuse cholesterol-free liposomes at neutral as well as acid pH; however, liposomes containing cholesterol could only be fused below pH 6. The fusion process caused leakage of aqueous liposomal contents. Peptides with amino acid substitutions had fusion properties similar to whole haemagglutinin molecules with the corresponding sequence changes. Non-fusogenic peptides still interacted with the membrane but did not cause leakage of liposomal contents. A correlation between the alpha-helical content of peptide and its fusogenicity was noted, but this was not absolute. The results reported here support suggestions for a role of the amino terminus of HA2 in virus-endosome fusion.
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PMID:Membrane fusion by peptide analogues of influenza virus haemagglutinin. 340 16

The role of osmotic forces and cell swelling in the influenza virus-induced fusion of unsealed or resealed ghosts of human erythrocytes was investigated under isotonic and hypotonic conditions using a recently developed fluorescence assay (Hoekstra, D., De Boer, T., Klappe, K., Wilschut, J. (1984) Biochemistry 23, 5675-5681). The method is based on the relief of fluorescence selfquenching of the fluorescent amphiphile octadecyl rhodamine B chloride (R18) incorporated into the ghost membrane as occurs when labeled membranes fuse with unlabeled membranes. No effect neither of the external osmotic pressure nor of cell swelling on virally mediated ghost fusion was established. Influenza virus fused unsealed ghosts as effectively as resealed ghosts. It is concluded that neither osmotic forces nor osmotic swelling of cells is necessary for virus-induced cell fusion. This is supported by microscopic observations of virus-induced fusion of intact erythrocytes in hypotonic and hypertonic media. A disruption of the spectrin-actin network did not cause an enhanced cell fusion at acidic pH of about 5 or any fusion at pH 7.4.
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PMID:The influenza virus-induced fusion of erythrocyte ghosts does not depend on osmotic forces. 341 84

A series of Escherichia coli cloned influenza viral gene products were assayed for their ability to augment human natural cytotoxicity in overnight cultures (18 h) at 37 degrees C. Nylon wool nonadherent peripheral blood mononuclear cells (PBMC) proved responsive to stimulation by a number of cloned viral proteins, the most effective being the nonstructural (NS1) protein (but not NS2 protein) and haemagglutinin and matrix antigen components fused to the N-terminal 81 amino acid sequence of NS1. Furthermore, interferon (IFN) was generated in cultures in which enhanced cytotoxicity was detected and was identified as mostly IFN alpha (greater than 90%) with less than 10% IFN gamma contamination. The cell type responding to antigen stimulation was present in Percoll fractions enriched for large granular lymphocytes (LGLs); furthermore PBMC activated by NS1 protein fractionated in the low density Percoll fractions (LGL enriched). Using specific anti-IFN antisera, it was shown that IFN alpha but not IFN gamma was responsible for the enhancement of cytotoxicity. Interferon induction and activation of cytotoxicity could not be ascribed to the presence of contaminating bacterial products. These results suggest that a particular NS1 protein configuration is capable of activating human natural killer cells via the induction of IFN alpha.
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PMID:Augmentation of human natural killer cell activity by influenza virus antigens produced in Escherichia coli. 354 81

A monoclonal antibody raised against X-31 influenza virus reacted with the majority of natural H3N2 viruses isolated between 1968 and 1982. A number of variants of X-31 and of a receptor-binding mutant of X-31 were selected by the antibody during virus replication in eggs and MDCK cells. Antibody-binding assays indicated that the viruses selected were not antigenic variants and analyses using derivatized erythrocytes showed that their receptor-binding properties differed from those of the parent viruses. The amino acid substitutions in the variants were all located in the vicinity of the receptor-binding site and the structural consequences are discussed in relation to the three-dimensional structure of X-31 HA. In addition all of the variants fused membranes at higher pH than wild-type virus indicating that structural modifications in the distal globular region of HA influence the low pH-induced conformational change required for membrane fusion.
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PMID:The receptor-binding and membrane-fusion properties of influenza virus variants selected using anti-haemagglutinin monoclonal antibodies. 360 84

The possibility that influenza virus could induce changes in membrane permeability to nutrients ordinarily concentrated within the cell was examined. Madin-Darby canine kidney cells were infected with egg-grown influenza B virus at 37 degrees C and pH 7.4 (a condition in which influenza virus enters cells by endocytosis). Control cells were mock-infected with allantoic fluid from chick embryos. Transport of phosphate, 2-deoxyglucose, and alpha-aminoisobutyric acid was measured at various intervals, 0 to 10 hours after infection. Uptake of alpha-aminoisobutyric acid and phosphate by infected cells was inhibited at 2 hours as compared with controls, whereas at 6 to 10 hours, the uptake of all nutrients was higher in infected cells. Infected cells preloaded with phosphate or 2-deoxyglucose did not demonstrate increased release of these nutrients. Thus, the virally induced inhibition of uptake early in infection is not a consequence of loss of membrane integrity. Transport studies were also performed in cells with prebound virus exposed to pH 5.0 for 60 seconds at 37 degrees C and then incubated at pH 7.4, at 37 degrees C. Under these conditions, influenza A viruses are known to enter the cell membrane by fusing directly with it and to initiate cell to cell fusion as well. We demonstrated that influenza B virus also caused cell fusion under these conditions. In contradistinction to studies described above at pH 7.4, fused, infected cells demonstrated both marked release and diminished uptake of nutrients as compared with controls. We conclude that influenza B virus does have an effect on host cell membrane permeability; the type of effect seen is markedly influenced by factors known to determine mode of virus entry into the cell.
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PMID:Effect of influenza B virus on nutrient transport in cultured epithelial cells. 369 11

Tight junctions in epithelial cells have been postulated to act as barriers inhibiting lateral diffusion of lipids and proteins between the apical and basolateral plasma membrane domains. To study the fence function of the tight junction in more detail, we have fused liposomes containing the fluorescent phospholipid N-Rh-PE into the apical plasma membrane of MDCK cells. Liposome fusion was induced by low pH and mediated by the influenza virus hemagglutinin, which was expressed on the apical cell surface after viral infection. Redistribution of N-Rh-PE to the basolateral surface, monitored at 0 degree C by fluorescence microscopy, appeared to be dependent on the transbilayer orientation of the fluorescent lipids in the plasma membrane. Asymmetric liposomes containing over 85% of the N-Rh-PE in the external bilayer leaflet, as shown by a phospholipase A2 assay, were generated by octyl beta-D-glucoside dialysis. When these asymmetric liposomes were fused with the apical plasma membrane, fluorescent lipid did not move to the basolateral side. Symmetric liposomes which contained the marker in both leaflets were obtained by freeze-thawing asymmetric liposomes or by reverse-phase evaporation. Upon fusion of these with the apical membrane, redistribution to the basolateral membrane occurred immediately. Redistribution could be observed with asymmetric liposomes only when the tight junctions were opened by incubation in a Ca2+-free medium. During the normal experimental manipulations the tight junctions remained intact since a high trans-epithelial electrical resistance was maintained over the cell monolayer. We conclude that the tight junction acts as a diffusion barrier for the fluorescent phospholipid N-Rh-PE in the exoplasmic leaflet of the plasma membrane but not in the cytoplasmic leaflet.
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PMID:The function of tight junctions in maintaining differences in lipid composition between the apical and the basolateral cell surface domains of MDCK cells. 374 48


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