- Volume 73, Issue 3, 1992
Volume 73, Issue 3, 1992
- Animal
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An acidic region of the 89K murine cytomegalovirus immediate early protein interacts with DNA
More LessThe product of the ie 1 gene, the regulatory immediate early protein pp89 of murine cytomegalovirus (MCMV), interacts with core histones, which can mediate the association of pp89 with DNA. We report the capacity of pp89 to interact directly with DNA in the absence of cellular proteins. After separation of proteins by SDS–PAGe, pp89 bound ds- and ssDNA, with a preference for ssDNA. Binding to specific DNA sequences in the MCMV genome was not detected. The DNA-binding region of pp89 was located to amino acids 438 to 534 by analysis of deletion mutants expressed as β-galactosidase or TrpE fusion proteins. This region is identical to the highly acidic C-terminal region spanning amino acids 424 to 532. The human cytomegalovirus IE1 protein, which contains a similar extended C-terminal acidic region, does not react with DNA under the same experimental conditions.
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β 2 Microglobulin on the envelope of urinary cytomegalovirus is not associated with host class I human leukocyte antigen α chain
More LessPrevious studies have shown that β 2 microglobulin (β 2m) is associated with glycoproteins present on the envelope of urinary human cytomegalovirus (CMV). β 2m is non-covalently associated with the α chain of human leukocyte antigen (HLA) class I antigens and therefore it was of interest to determine whether the class I α chain is also associated with the β 2m–CMV complex. Using a panel of monoclonal antibodies recognizing different conformational determinants on the HLA class I heterodimer or free β 2m, we have shown that β 2m but not the α chain of HLA class I could be immunoprecipitated from 125I-surface-labelled virions purified directly from urine. We therefore conclude that host class I HLA α chains are not associated with β 2m on the envelope of urinary CMV.
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Identification and control of the cis-acting elements of the immediate early gene of equid herpesvirus type 1
More LessConsensus cis-acting DNA sequences upstream of the immediate early (IE) gene of equid herpesvirus type 1 (EHV-1, strain Ab4) were identified. One copy of the conserved motif TAATGARATTC, which is the binding site for the host cellular factor Oct-1 and herpes simplex virus type 1 (HSV-1) virion protein, VmW65, complex, was identified at positions -630 to -620. Using transient transfections and chloramphenicol acetyltransferase assays the IE promoter of EHV-1 was shown to be trans-activated by VmW65 within the region -685 to +73. Ultraviolet light-inactivated EHV-1 was able to stimulate the expression of the IE gene of EHV-1 as well as HSV-1, indicating that EHV-1 possesses a protein equivalent to VmW65. The ubiquitous equid herpesvirus type 2 (EHV-2), which is not known to be a primary pathogen, was also able to trans-activate the EHV-1 and HSV-1 IE genes. Further work is being performed in order to identify the nature of the EHV-1 and EHV-2 trans-activating proteins.
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Characterization of the varicella-zoster virus gene 61 protein
More LessThe protein predicted to be encoded by varicella-zoster virus (VZV) gene 61 exhibits limited amino acid sequence similarity to the herpes simplex virus type 1 nuclear phosphoprotein Vmw110, which functions as a transcriptional activator. The gene 61 protein was expressed in its entirety, or as an amino- or carboxy-terminal fragment in Escherichia coli and vaccinia virus recombinants, and monospecific rabbit antisera were raised against an E. coli fusion between β-galactosidase and the majority of the gene 61 protein. Use of the antisera showed that the gene 61 protein is present in VZV-infected cell nuclei as a heterogeneous phosphoprotein of M r 62K to 65K. Phosphorylation occurs in the amino- and, to a lesser extent, carboxy-terminal portions of the protein. The carboxy-terminal region directs transport of the protein to the nucleus, whereas the amino-terminal region, which contains a potential zinc-binding domain, is responsible for a punctate distribution. Preliminary mapping data indicated that gene 61 is transcribed as a 1.8 kb mRNA which initiates about 65 bp upstream from the translation initiation codon, at a position located appropriately with respect to potential regulatory elements.
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On the cellular localization of the components of the herpes simplex virus type 1 helicase-primase complex and the viral origin-binding protein
More LessWe constructed recombinant viruses based on the herpes simplex virus type 1 mutant tsK which individually were able to express the products of four viral DNA replication genes (UL5, UL8, UL9 and UL52) in the absence of any of the other proteins required for viral DNA synthesis. These viruses were used in immunofluorescence experiments to investigate the cellular localization of the four replication proteins expressed. The results demonstrated that all three components of the viral helicase-primase complex (UL5, UL8 and UL52 proteins) must be co-expressed to allow their efficient localization to the nucleus. Since the UL5 and UL52 proteins together form a complex which is enzymatically indistinguishable from a complex formed from all three proteins, a possible role of the UL8 protein may be in facilitating nuclear uptake. The UL9 protein (origin-binding protein) efficiently entered the cell nucleus when expressed alone. Both UL9 protein and the tripartite helicase-primase complex exhibited patterns of fluorescence which resembled the ‘pre-replicative sites’ described previously.
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The myristylated virion proteins of herpes simplex virus type 1: investigation of their role in the virus life cycle
More LessHerpes simplex virus type 1 (HSV-1) gene UL11 encodes a myristylated virion protein. In this paper we have characterized the UL11 product further and investigated its role in the virus life cycle. Wild-type HSV-1 strain 17syn+ expresses three electrophoretically distinguishable UL11 polypeptide species. Analysis of single plaque isolates demonstrated that two virus populations exist within the 17syn+ stock: a major population encoding only the two higher M r species, and a minor population encoding the lowest M r species alone. DNA sequence analysis suggests that the latter polypeptide differs from the former ones at a single amino acid residue only. The UL11 polypeptides are synthesized as delayed early gene products and are phosphorylated in vitro. Following subcellular fractionation of infected cells, they are found predominantly associated with membranes. Within the virus particle, they appear to reside within the tegument. An insertion mutant containing the lacZ gene from Escherichia coli within the UL11 open reading frame is viable in tissue culture, although it gives smaller plaques and is impaired for growth compared to the wild-type parent or revertant viruses; it does not have a temperature-sensitive or host-range phenotype. Thus, although required for efficient replication, the myristylated HSV-1 virion protein, in contrast to those of many other viruses, is not essential for virus growth in tissue culture.
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A vaccinia serine protease inhibitor which prevents virus-induced cell fusion
More LessA deletion mutant lacking the non-essential vaccinia virus gene K2L, a member of the serine protease inhibitor superfamily, was constructed. This virus replicates in vitro in all cell types tested and its virulence and immunogenicity in vivo are comparable to those of the parent virus in intranasally inoculated mice. However, in a variety of cell lines the cytopathic effect of the deletion mutant (vKL4) is markedly different from that caused by the parent virus: the absence of K2L in infected cells results in extensive polykaryocytosis. Reinsertion of the K2L gene into vKL4 abolishes this fusion activity, thus confirming that the polykaryocytosis is the result of the deletion of K2L rather than of spontaneous mutations elsewhere in the genome, and that in cells infected with the WR strain of vaccinia virus the K2L gene product prevents fusion. The cell type-specific polykaryocytosis induced by vKL4 is apparent at late times post-infection, occurs from within and requires the synthesis of at least one late virus protein. Other vaccinia virus proteins known to be involved in fusion of infected cells are a 14K membrane protein which is required for fusion, and the haemagglutinin which prevents fusion. The haemadsorption properties of cells infected with the parent virus and the deletion mutant were indistinguishable: both haemadsorbed chicken erythrocytes. A monoclonal antibody against the 14K protein inhibited fusion of vKL4-infected cells, thus demonstrating that in addition to the absence of the K2L gene product, the 14K protein is required for fusion to occur.
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The predicted amino acid sequence of the spheroidin protein from Amsacta moorei entomopoxvirus: lack of homology between major occlusion body proteins of different poxviruses
More LessEntomopoxviruses replicate in the cytoplasm of insect cells and characteristically produce occlusion bodies which serve to protect the virion from the environment; the major component of these bodies is a protein called spheroidin. We have previously identified and sequenced the gene encoding the major occlusion body protein of eastern spruce budworm (Choristoneura biennis) entomopoxvirus (CbEPV) and found it to encode a 47K polypeptide which aggregates due to the formation of intermolecular disulphide bonds. In this publication we demonstrate that the insect poxvirus of Amsacta moorei produces spheroidin with a unit M r of 114.8K. The gene for this protein was cloned and sequenced, and the predicted polypeptide was demonstrated to contain 38 cysteine residues, a leucine zipper for possible protein-protein interactions and 14 potential Asn-linked glycosylation sites. Other than possessing a large number of sulphydryl groups, this protein showed no homology to its analogue found in cells infected with CbEPV. Antibodies directed against occlusion body proteins of the two viruses also failed to cross-react significantly on Western blots. In addition, nucleic acid probes prepared from the two different genes did not cross-hybridize on Southern blots of genomic DNA prepared from the viruses. Finally, the occlusion body proteins from the two insect viruses were compared with the A-type inclusion body protein of cowpox virus. Again, little homology between these proteins was evident, with the exception of a generally high cysteine content and a similarity between their late gene promoters. We conclude that the major occlusion body proteins of different poxviruses possess diverse primary structures, but all are capable of yielding large aggregates through the formation of disulphide bonds.
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Comparison of hantavirus isolates using a genus-reactive primer pair polymerase chain reaction
RNA of more than 40 hantavirus isolates, originating from rodents and humans of widely separated geographical areas, was copied to cDNA using reverse transcriptase and amplified by polymerase chain reaction (PCR). A genus-reactive oligonucleotide primer pair, flanking a 365 bp region of the G2 glycoprotein gene, was chosen for genus-reactive PCR. DNA products were digested with 20 restriction endonucleases and cleavage patterns were analysed. For strains of known sequence, the restriction patterns observed were consistent with those predicted from sequence data, demonstrating that the amplified products originated from target virus RNA. Further analyses suggested that all amplified viruses could be easily typed into one of five restriction patterns using only five enzymes. The categories identified by restriction analysis of PCR-amplified cDNA corresponded with serogroups established by plaque-reduction neutralization tests. This method may greatly simplify the identification of new hantavirus isolates.
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Degradation of cellular mRNA during influenza virus infection: its possible role in protein synthesis shutoff
More LessThe kinetics of cellular mRNA decay in influenza virus-infected cells have been studied by means of blot hybridization using as probes cloned cDNAs of α- and β-actin, α- and β-tubulin and vimentin. Both cellular mRNAs isolated from the cytoplasmic fractions as well as total cell mRNAs showed a rapid decay, with up to 50% concentration reductions at infection times at which influenza virus M1 mRNA was still not detectable. In contrast, these cellular mRNAs were stable in uninfected cells. To ascertain the possible role of mRNA degradation in the cellular protein synthesis shutoff, the kinetics of protein synthesis in infected cells were examined by two-dimensional gel electrophoresis of extracts pulse-labelled at several times after viral infection. The synthesis of the cellular proteins was reduced, showing kinetics paralleling those of mRNA decay. It is proposed that influenza virus infection induces the destabilization of mRNAs and that this mRNA degradation is, at least in part, responsible for cellular protein synthesis shutoff.
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Distribution and substrate specificity of intracellular proteolytic processing enzyme(s) for paramyxovirus fusion glycoproteins
Intracellular proteolytic processing of fusion glycoprotein precursors (F0) of paramyxoviruses, i.e. a virulent strain of Newcastle disease virus (NDV), parainfluenza virus type 3 (PIV3) and simian virus 5 (SV5), was examined in NALM6 and BSC40 cells and compared with that in LLCMK2 cells to investigate the distribution of the virus-activating protease(s) among the cells and its substrate specificity. BSC40 cells lack a processing endoprotease of the neuropeptide precursor, pro-opiomelanocortin (POMC), which possesses multiple cleavage sites at pairs of basic residues, Lys-Arg and Arg-Arg, a motif similar to that found in the cleavage site of the F0 proteins. In NALM6 cells, only small amounts of the F0 protein of virulent NDV was cleaved whereas those of PIV3 and SV5 were efficiently cleaved. In BSC40 cells the F0 proteins of these three viruses were cleaved normally as well as in LLCMK2 cells. The processing inhibitors monensin, chloroquine and A23187 suppressed the F0 cleavage in the three cell types. These results indicate that both NALM6 and BSC40 cells possess virus-activating proteases similar to that of LLCMK2 cells, but suggest that the enzyme of NALM6 may be slightly different in its substrate specificity from those of BSC40 and LLCMK2. The results also suggest that the virus-activating proteases are different in their distribution and substrate specificity from the processing enzyme of POMC.
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Location of antigenic sites defined by neutralizing monoclonal antibodies on the S1 avian infectious bronchitis virus glycopolypeptide
More LessNeutralizing monoclonal antibodies directed against five antigenic sites on the spike (S) S1 glycopolypeptide of avian infectious bronchitis virus (IBV) were used to select neutralization-resistant variants of the virus. By comparing the nucleotide sequence of such variants with the sequence of the IBV parent strain, we located five antigenic sites on the amino acid sequence of the S1 glycopolypeptide. The variants had mutations within three regions corresponding to amino acid residues 24 to 61, 132 to 149 and 291 to 398 of the S1 glycopolypeptide. The location of three overlapping antigenic sites on the IBV spike protein was similar to the location of antigenic sites on the spike protein of other coronaviruses.
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Internalization of intact poliovirus by HeLa cells as shown by subcellular fractionation in isoosmotic Nycodenz gradients
More LessHeLa cells were infected with radiolabelled poliovirus at different temperatures, and the intracellular distribution of input radioactivity was studied. To this end, homogenates were fractionated by rate zonal centrifugation in linear isoosmotic (2 to 30%) Nycodenz gradients. Further purification of subcellular fractions was achieved by recentrifugation to equilibrium in 10 to 30% Nycodenz. Temperatures were kept below 30°C to prevent virus capsid modification. Under these conditions, the cell-associated virions remained fully infectious. Below 18°C, most of the viral label was recovered from a bottom region (BR) of the rate zonal gradients. Marker enzyme analysis and antibody accessibility showed that the BR consisted of virions bound to the plasma membrane. Between 18°C and 26°C, viral label also accumulated in a top region (TR) of the rate zonal gradients. According to the criterion of antibody accessibility, the virions associated with the TR were present within intracellular structures, probably lipid membranes. Electron microscopy confirmed the presence of vesicles and tubules in this region of the gradient. No correlation was found between the TR and endosomal, lysosomal or plasma membrane markers. The TR equilibrated at low density (1.10 g/ml) in Nycodenz (free virus, 1.31 g/ml). The results confirm that intact poliovirions can enter the cell and do so via lipid-bound vesicles.
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Poliovirus antigenic hybrids simultaneously expressing antigenic determinants from all three serotypes
More LessWe have constructed six hybrid polioviruses (PVs) modified to express PV type 2 and type 3 antigenic determinants on a PV type 1 (Mahoney) capsid. The hybrids were modified in neutralizing antigenic site (NAg) I and/or NAgII. They were viable, but impaired for growth in comparison to PV1 (Mahoney). Some hybrids modified to express type 2 and type 3 NAgI determinants simultaneously displayed some type 2 but no type 3 antigenicity (in addition to type 1 antigenicity associated with other antigenic sites). Hybrids modified to express a type 2 NAgI determinant and a type 3 NAgII determinant, or vice versa, displayed antigenic characteristics of all three serotypes, although expression of the modified NAgII determinant was weak. We conclude that it is possible to construct a viable hybrid PV simultaneously modified in NAgI and NAgII which expresses antigenic determinants of all three serotypes.
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Identification and characterization of foot-and-mouth disease virus O1 Burgwedel/1987 as an intertypic recombinant
More LessThe foot-and-mouth disease virus field isolate Burg-wedel/1987 subtype O1 was found to differ genetically from the antigenically related strain O1 Kaufbeuren within the region encoding the non-structural proteins. This genetic difference was indicated by the RNase mismatch cleavage method and confirmed by nucleotide sequencing. An alignment of sequences encoding proteinase 3C of the Burgwedel isolate and several other virus strains identified this isolate as an intertypic recombinant; the parent strains were O1 Kaufbeuren and a subtype C1 strain. Recombination occurred between nucleotide positions 5493 and 5521, within the region encoding peptide 3B1. Thus, the 5′ three-quarters of the O1 genome were fused to the 3′-terminal quarter of the C1 genome. Other contemporary isolates from the same district are not recombinants. Sequence alignment distinguished four patterns of proteinase 3C-coding sequences among the virus strains analysed: subtypes A12, C1 and O1 exhibit one pattern each, and another pattern is common to subtypes A5, A10 and O2.
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The nucleotide sequences of wild-type coxsackievirus A9 strains imply that an RGD motif in VP1 is functionally significant
More LessWe have shown previously that, compared to other enteroviruses, the coxsackievirus A9 (CAV-9) prototype strain, Griggs, contains a C-terminal extension to the capsid protein VP1 and that within this extension there is an RGD (arginine-glycine-aspartic acid) motif. To determine whether these features are found in other CAV-9 strains and therefore analyse whether they are likely to be functionally important, we have determined the nucleotide sequence of the appropriate region from five strains, isolated over a 25 year period. The results indicate that there is considerable diversity between the strains and there is little correlation between nucleotide sequence identity and date of isolation. All isolates exhibit the VP1 extension and although its amino acid sequence is otherwise variable, the RGD motif is common to all. This conservation of sequence, within a region which can otherwise vary, implies that the RGD sequence must be functionally significant. The VP1 extension shows similarity to sequences found in foot-and-mouth-disease virus strains and to part of the precursor of the cellular protein, human transforming growth factor β, and the possible significance of these observations is discussed.
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Shedding of a rhinovirus minor group binding protein: evidence for a Ca2+-dependent process
Soluble rhinovirus minor group binding activity was found to be shed into the medium upon incubation of HeLa cells at 37°C. Although substantial amounts of this protein were released, no decrease of virus binding to the cell surface was seen. When the membrane-associated receptor was stripped from the cells with trypsin, virus binding was rapidly restored from an intracellular pool even in the absence of de novo protein synthesis. The release of this 85K virus-binding activity was inhibited by metal chelators such as EDTA, EGTA or 1,10-phenanthroline. The potential involvement of a Ca2+-dependent protease and/or a phospholipase in this process is discussed.
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Nucleotide sequences of normal and rearranged RNA segments 10 of human rotaviruses
More LessNormal and rearranged RNA segments 10 of group A rotaviruses isolated from a chronically infected immunodeficient child were amplified by the polymerase chain reaction as full-length cDNA copies, and were subsequently cloned and sequenced. Compared with the nucleotide sequence of the normal RNA segment 10, the rearranged form contains a partial non-coding duplication at its 3′ end and several point mutations. The normal RNA segment 10 was similar to that of bovine rotavirus.
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Autoprocessing of the human immunodeficiency virus type 1 protease precursor expressed in Escherichia coli from a synthetic gene
More LessA gene encoding an N-terminally extended precursor of 107 residues of the human immunodeficiency virus type 1 protease (PR107) was chemically synthesized and cloned into a bacterial expression vector, under the control of the araB promoter. PR107 was expressed alone or fused in phase to the amino or carboxy terminus of the bacterial β-galactosidase (β-gal). The yield of protease and β-gal was found to be significantly higher when the gene for PR107 was cloned upstream of the Escherichia coli lacZ gene (PR107–β-gal). Comparisons of the level of cloned protein expression between protease precursor and mature form suggested that this enhanced expression was due to the additional 5′ sequence of the PR107 gene, and occurred at the post-transcriptional level. Autoprocessing of protease precursor and its release from the β-gal fusion protein were analysed using wild-type and mutated cleavage sites. Mutations were introduced at amino acids downstream of the F–P scissile bond, at positions P4′ and P5′ in the C-terminal site (TLNF*PISP), and at position P3′ in a consensus N-terminal site (TLNF*PQITL) placed at the protease–β-gal junction. The data obtained suggested that (i) autoprocessing at the carboxy-terminal F–P bond was not significantly influenced by the presence of the N-terminal precursor sequence, (ii) P4′ and P5′ substitutions in the C-terminal site had no effect on cleavage, and (iii) P3′ in the N-terminal site tolerated a wide variety of substitutions.
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Construction of solid matrix-antibody-antigen complexes containing simian immunodeficiency virus p27 using tag-specific monoclonal antibody and tag-linked antigen
More LessWe have previously shown that immunization with solid matrix-antigen-antibody (SMAA) complexes induces both vigorous humoral and cell-mediated immune responses and have suggested that this method of vaccination may be developed for use in humans, and potentially as a vaccine against AIDS. Here we demonstrate that a small oligopeptide can act as a tag for the construction of SMAA complexes using a tag-specific monoclonal antibody and tag-linked antigens. We show that a 14-amino acid oligopeptide, present in the phospho (P) and V proteins of simian virus 5 (SV5), retains its antigenicity when attached to the C terminus of three ‘foreign’ proteins [p27 and gp110 of simian immunodeficiency virus (SIV) and glutathione S-transferase] such that these proteins can be incorporated into SMAA complexes using a monoclonal antibody (MAb) that was originally raised against the native SV5 P and V proteins. Mice were immunized with SMAA complexes containing recombinant p27-TAG and MAbs have been isolated that recognized native SIV p27. The significance of these results in terms of the development of SMAA complexes as human vaccines is discussed.
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