- Volume 76, Issue 2, 1995
Volume 76, Issue 2, 1995
- Review Article
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- Animal
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Microplitis demolitor polydnavirus induces apoptosis of a specific haemocyte morphotype in Pseudoplusia includens
More LessMicroplitis demolitor polydnavirus (MdPDV) is associated with Microplitis demolitor, a parasitic wasp that attacks the larval stage of the lepidopteran Pseudoplusia includens. Previously, we observed that MdPDV induced several alterations in the granular cells and plasmatocytes of P. includens, the primary haemocytes involved in regulating the cellular immune response toward M. demolitor and other parasites. In examining the mechanisms underlying immunosuppression of this host, we found that MdPDV induced apoptosis of granular cells. Granular cells underwent apoptosis both when virus was injected into the haemocoel of P. includens larvae and after infection with MdPDV in vitro. Characteristics of MdPDV-induced apoptosis included condensation of chromatin, cell surface blebbing and fragmentation of DNA into a 200 bp ladder. Although MdPDV induced changes in the ability of plasmatocytes to adhere to foreign surfaces, apoptosis of this morphotype was not observed. Examples from the literature suggest that some viruses promote their own survival by suppressing apoptosis of host cells. However, since polydnaviruses are likely to be transmitted vertically, we suggest that MdPDV promotes its own survival by inducing apoptosis of host immune cells which would otherwise kill the developing M. demolitor egg.
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Serological and molecular evidence of rhesus papillomavirus type 1 infections in tissues from geographically distinct institutions
We have previously demonstrated the presence of rhesus monkey papillomavirus type 1 (RhPV-1), from molecular and pathological evidence, in a mating group within a single institution. We have now also obtained a number of fresh or archival tissues of rhesus monkeys from other geographically distinct institutions. Using PCR amplification, we observed two animals from one of these institutions and five animals from another which demonstrated RhPV-1 DNA sequences. In addition we molecularly cloned the E7, E2, E4, L2 and L1 genes of RhPV-1 into bacterial expression vectors. The fusion gene products were used to test for serological response to RhPV-1 antigens by Western blot analysis. Responses were observed in up to 52% of the animals tested. While some serologically positive animals were also RhPV-1 DNA-positive, most were not.
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Phospholipid interactions of the putative fusion peptide of hepatitis B virus surface antigen S protein
One of the first steps in the infective cycle of an enveloped virus consists of the fusion of the viral and cellular membranes. This process is usually achieved as a result of membrane destabilization brought about by a viral fusion peptide located at the amino terminus of one of the viral envelope glycoproteins. Previous sequence similarity studies by Rodriguez-Crespo et al. (Journal of General Virology 75, 637–639, 1994) have shown that a hydrophobic stretch in the amino-terminal sequence of the S protein of hepatitis B virus shares several characteristics with fusion peptides of retroviruses and paramyxoviruses. A 16 residue peptide with this sequence was synthesized and its interaction with liposomes characterized. This peptide was able to mediate vesicle aggregation, lipid mixing and liposome leakage in a pH dependent manner at concentrations ranging from 3.5 to 52.0 µm. These effects were specific for negatively charged phospholipid vesicles. The peptide was also able to haemolyse erythrocytes. This study supports the notion that the sequence might be important in the initial infective steps of this virus, interacting with the target membranes and bringing about their subsequent destabilization.
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Longitudinal analysis of cytomegalovirus load in renal transplant recipients using a quantitative polymerase chain reaction: correlation with disease
More LessSerial surveillance samples of urine collected from 103 renal transplant recipients were analysed by polymerase chain reaction (PCR) for the presence of human cytomegalovirus (HCMV) DNA. The PCR results were consistently negative in 70 patients, none of whom developed HCMV disease, and PCR positive in 33 patients of whom 10 developed HCMV disease (P < 0.001). In 12 patients, PCR results were positive in three or more consecutive samples indicating extensive HCMV replication. HCMV load in 104 samples from these patients was analysed using a quantitative coamplification PCR system. The maximal viral burden in the symptomatic patients ranged from 105.9 to 107.12 genomes/ml urine (median 106.5) and in the asymptomatic patients from 104 to 105.7 genomes/ml urine (median 105.2). The 101.3 difference between these median values was significant (P < 0.01). Individual kinetic profiles of viral burden showed that high levels of HCMV correlated with clinically apparent disease. In the majority of the asymptomatic individuals HCMV load remained between 104 and 105.1 genomes/ml urine; however, in two patients fluctuations in viral load were observed involving higher viral levels (up to 105.7 genomes/ml urine) suggesting that immune responses able to modulate viral replication could be studied in individual patients. Analysis of the temporal appearance and quantity of HCMV in the urine with alterations in white cell numbers showed that leukopenia occurred following the appearance of HCMV in the urine of symptomatic patients but preceded HCMV in the urine of asymptomatic patients (P = 0.01). Overall, these results show that longitudinal analysis using fully quantitative PCR methods for HCMV can provide insight into the natural history of HCMV disease in renal transplant recipients.
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Replication, establishment of latent infection, expression of the latency-associated transcripts and explant reactivation of herpes simplex virus type 1 γ34.5 mutants in a mouse eye model
The herpes simplex virus type 1 (HSV-1) γ34.5 gene is located within a region that is transcriptionally active during latent HSV-1 infection. To determine whether the γ34.5 gene deletion affects latency-associated transcript (LAT) gene expression or latent HSV-1 infection, a γ34.5 gene deletion mutant, 1716, and a stop codon insertion mutant, 1771, were studied in the mouse eye model. Although the γ34.5 gene is not essential, 1716 and 1771 replicated poorly in mouse eyes and trigeminal ganglia (TG). When mice were inoculated with 1716, infectious virus was detected in eyes only on the first day post-infection (p.i.), and was not detected at any time point in TG. Following inoculation with 1771, a small amount of virus was detected in the eyes on days 2 and 4 p.i., and in the TG of one animal on day 2 p.i. Reactivation of virus from mice latently infected with 1716 (0/30 TG) and 1771 (1/20 TG) was extremely low compared with the parental strain, 17+, and appropriate rescuants (80 to 100% reactivation), even though latent 1716 DNA was detected by PCR in 50% of TG. These results differ from those obtained following footpad inoculation; in the footpad there was limited 1716 replication and reactivatable latent infection was established in some dorsal root ganglia. The data support the hypothesis that the role of γ34.5 may be tissue and/or cell type specific. The synthesis, processing, and stability of the 2.0 kb LAT during 1716 and 1771 replication was not affected by these mutations in the γ34.5 gene. However, during latent infection of 1716 in mice the LATs were not detectable in TG by Northern blot, and were present in reduced amounts (≈ 10-fold less) during 1771 latency. The LATs from 1716 were barely detectable in a few neurons by in situ hybridization. Therefore, the γ34.5 gene might (i) affect replication in the eye, and reduce the amount of virus available to establish latent infection, be directly involved in (ii) establishment of latency, and/or (iii) the reactivation process.
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Human immunodeficiency virus type 2 (HIV-2) env gene analysis: prediction of glycoprotein epitopes important for heterotypic neutralization and evidence for three genotype clusters within the HIV-2a subtype
More LessThe env gene sequences of ten tissue-culture-adapted human immunodeficiency virus type 2 (HIV-2) isolates from West African patients were determined. Alignment and comparison of the gene sequences and putative translation products with database sequences revealed 11-29% diversity at the nucleotide level and 15-31% variation at the protein level. From analysis of glycoproteins of HIV-2 strains sensitive and resistant to neutralization by HIV-1 antisera, five regions were identified as putative targets for cross-neutralizing antibody. The HIV-2 equivalent of the HIV-1 V3 loop was not included in this number. However, three of the HIV-2 peptides aligned with regions identified as targets for broad neutralization of HIV-1 strains. These were the V2 and CD4-binding domains of gp120 and the Kennedy domain in gp41. Phylogenetic analysis of the env gene sequences, together with HIV-2 env gene sequences published in the Los Alamos database, support the identification of two distinct HIV-2 subtypes, HIV-2a and HIV-2b. The new sequences are located within the HIV-2a subtype and allow prediction of at least three genotypes, designated I-III. Some correlation of genotype with geographical origin of isolates was noted. Genotype I viruses originate from Guinea Bissau and group II viruses mainly originate from The Gambia. One isolate from Guinea Bissau, HIV-2CAM4, appears phylogenetically older than other viruses in the HIV-2a subtype. The possible implications of this in the light of epidemiological findings in Guinea Bissau are discussed.
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Leukaemogenesis by the ΔMo + SV Moloney murine leukaemia virus (M-MuLV) variant in Eµ pim-1 transgenic mice: high frequency of recombination with a solo endogenous M-MuLV LTR in vivo
More LessWe previously described an enhancer variant of Moloney murine leukaemia virus (M-MuLV), ΔMo + SV M-MuLV, in which the enhancers of MuLV have been deleted and replaced with the enhancers of the simian virus 40 (SV40). When this virus is injected into neonatal NIH Swiss mice, pre-B and B-lymphoblastic lymphomas develop with a latency of 17 months. Van Lohuizen et al. (1989) described a line of transgenic mice that carry an activated pim-1 proto-oncogene transgene (Eµ pim-1). They also reported that Eµ pim-1 transgenic mice show greatly accelerated lymphoma development when infected with wild-type M-MuLV at birth. In these experiments, neonatal Eµ pim-1 transgenic mice were infected intraperitoneally with ΔMo + SV M-MuLV. Marked acceleration of T-lymphoid leukaemia was seen. However, 10 of the 11 tumours analysed were found to be negative for the SV40 enhancers, but they still contained M-MuLV DNA as measured by Southern blot analysis. The LTRs on viruses cloned from two such tumours (as well as on virus recovered by infection onto NIH 3T3 cells) were characterized by PCR amplification, molecular cloning and sequence analysis. The LTR’s from the two tumours were identical to each other and were distinct from both the ΔMo + SV M-MuLV and wild-type M-MuLV LTRs. However, they were identical to a rearranged solo M-MuLV LTR present in the Eµ pim-1 transgene. These results indicate that the recombination in vivo between ΔMo + SV M-MuLV and the Eµ pim-1 transgene yielded a replication-competent and pathogenic virus at high efficiency. This is the first report of in vivo recombination between an exogenous MuLV and a solo endogenous LTR.
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Linear antigenic and immunogenic regions of human respiratory syncytial virus N protein
More LessThree linear antigenic regions on the N protein from human respiratory syncytial virus (RSV) subgroup A (strain A2) were identified by using peptides which reacted in ELISA with sera from humans with recent or previous RSV infection. The determinants were localized within three hydrophilic regions of the protein: Thr11 to Gly30 (N3 peptide), Ser231 to Ala250 (N25 peptide) and Thr371 to Leu391 (N39 peptide). The site represented by the N39 peptide reacted with four subgroup A-specific MAbs. There were minor variations in the amino acid epitope dependencies of each of these MAbs. Two additional antigenic regions Ser131 to Arg150 and Ala181 to Leu200, were represented by peptides that reacted with human convalescent sera, but these peptides did not differentiate between acute and convalescent sera from RSV-infected humans. Rabbit hyperimmune sera raised against selected peptides specifically precipitated different forms of the N protein from a nucleocapsid-containing homogenate derived from extracts of RSV-(subgroup A and/or B)-infected 35S-labelled cells in a radioimmuneprecipitation assay (RIPA); the sera were also used to demonstrate RSV infection in cells by immunofluorescent assay (IFA). Anti-N3 peptide sera precipitated N41, the full-length (M r 41000) form of N protein, in a RIPA done on a soluble protein pool. Anti-N39 (C-terminal region) peptide sera precipitated both forms, suggesting that N38 (M r 38000) is an N-terminally truncated (probably at position Tyr23 located inside the N3 peptide linear antigenic region) form of N41 protein.
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Casein kinase II is the P protein phosphorylating cellular kinase associated with the ribonucleoprotein complex of purified vesicular stomatitis virus
More LessProtein kinase activities associated with a highly purified transcriptionally active ribonucleoprotein complex from the virions of vesicular stomatitis virus (VSV) were isolated and characterized. Based upon several biochemical and immunological criteria, the protein kinase activity, which phosphorylated the bacterially expressed unphosphorylated (Po) protein, was shown to be cellular casein kinase II (CKII). These studies included inhibition of the protein kinase by specific inhibitors, phosphorylation of mutant phosphoproteins (P), immunoprecipitation by CKII antibody and Western blot analyses, and finally its ability to activate Po to synthesize RNA in a transcription-reconstitution reaction. The P protein is phosphorylated intracellularly by cellular CKII. The present study demonstrates that VSV specifically packages CKII which remains strongly associated with the ribonucleoprotein complex during morphogenesis.
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A 2′,5′-oligoadenylate analogue inhibits murine hepatitis virus strain 3 (MHV-3) replication in vitro but does not reduce MHV-3-related mortality or induction of procoagulant activity in susceptible mice
Exposure of inbred mice to murine hepatitis virus strain 3 (MHV-3) causes a strain dependent spectrum of disease symptoms which correlates with induction of procoagulant activity (PCA) by macrophages. Previous studies have demonstrated a role for interferons in resistance to MHV-3 infection. These cytokines have both antiviral and immunoregulatory effects which may be crucial for MHV-3 resistance. One of their antiviral effects is the ability to induce 2′,5′-oligoadenylate (2-5A) synthetase leading to activation of the latent endoribonuclease RNase L. Once activated, RNase L degrades ssRNA thereby inhibiting viral-induced protein synthesis. These studies were undertaken to determine the effects of Oragen 0004 (Oragen), an RNase L activating 2-5A analogue, on MHV-3 replication and induction of PCA in vitro and on the course of MHV-3 infection in susceptible BALB/cJ mice in vivo. Oragen inhibited MHV-3 replication in peritoneal macrophages derived from resistant A/J and susceptible BALB/cJ mice in a dose-dependent fashion. Concentrations of Oragen greater than 110 µg/2 × 106 macrophages decreased viral replication by greater than 89% in peritoneal macrophages in vitro obtained from both BALB/cJ and A/J mice and by 86% in livers from MHV-3-infected mice in vivo. However, Oragen failed to inhibit induction of PCA following in vitro exposure of BALB/cJ mice-derived peritoneal macrophages to MHV-3 and failed to prevent the development of fulminant hepatitis in BALB/cJ mice in vivo. Thus, these studies demonstrate clearly that induction of 2-5A synthase and inhibition of viral replication is not sufficient to prevent MHV-3-related hepatocellular injury, and these data further support the role of PCA in the pathogenesis of MHV-3 infection.
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Role of virus and host variables in virus persistence or immunopathological disease caused by a non-cytolytic virus
C57BL/6 mice infected with increasing doses of the Armstrong isolate of lymphocytic choriomeningitis virus (LCMV) or a variant Cl 13-Armstrong, derived from LCMV-Armstrong, exhibited distinct phenotypes with respect to clearance of virus and to cytotoxic CD8+ T cell (CTL)-dependent immunopathological disease. Low (102 p.f.u.) and high doses (107 p.f.u.) of LCMV-Armstrong were cleared rapidly from immunocompetent mice. Inoculation of a high dose (107 p.f.u.) of LCMV Cl 13-Armstrong temporarily induced a partial deletion of the antiviral CTL precursors (CTL-p) leading to chronic infection in several organs. Although virus was cleared from most organs by day 90–150 post-infection, it persisted in the kidney. The few remaining CTL-p were able to expand and eventually clear the virus. Systemic viral titres correlated inversely with the number of CTL-p. However, in contrast LCMV-Docile injected at high dose was able to cause complete exhaustion of CTL-p resulting in long term viral persistence. LCMV-Aggressive, derived from the same parental LCMV-WE (UBC) as Docile, showed a phenotype comparable to wild-type virus. Doses of < 107 p.f.u. of both Armstrong virus and of Cl 13-Armstrong failed to exhaust CTL-p and caused lethal CD8+ T cell-dependent chorio-meningitis and a substantial footpad swelling after local infection. By contrast, doses > 103 p.f.u. of LCMV-Docile failed to cause lethal choriomeningitis in C57BL/6 mice. When Cl 13-Armstrong virus (but not LCMV-Armstrong) was injected intravenously in addition to intracerebrally or into the foot, the local immunopathology was abrogated in a dose-dependent fashion. The suppression of immunopathology paralleled the extent of exhaustion of the specific CD8+ T cell response. Nucleotide sequence analysis of the viral S-RNA fragments coding for CTL epitopes in H-2b mice revealed an asparagine to serine change of amino acid 280 in the CTL epitope 275–286 of the LCMV-Docile glycoprotein (GP) in comparison to LCMV-Aggressive or wild-type WE. This change reduced overall CTL activity and thereby probably contributes to exhaustion of CTL responses in C57BL/6 (H-2b) mice. Thus, local versus systemic antigen distribution, viral characteristics and immunological parameters determine induction and exhaustion of CD8+ T cells and the course and extent of immunopathological disease.
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The asialoglycoprotein receptor is a potential liver-specific receptor for Marburg virus
More LessThe liver is one of the main target organs of Marburg virus (MBG), a filovirus causing severe haemorrhagic fever with a high fatality rate in humans and non-human primates. MBG grown in certain cells does not contain neuraminic acid, but has terminal galactose on its surface glycoprotein. This observation indicated that the asialoglycoprotein receptor (ASGP-R) of hepatocytes may serve as a receptor for MBG in the liver. Binding studies revealed that the attachment of MBG to ASGP-R-expressing HepG2 cells, but not to ASGP-R-negative E6 Vero cells, has the characteristics of ligand binding to the ASGP-R: binding is dependent on calcium and is inhibited by excess asialofetuin and by anti-ASGP-R antiserum. Asialofetuin and the specific antiserum also inhibited MBG infection of HepG2 cells. In addition, it was shown that expression of ASGP-R cDNA in NIH 3T3 cells enhanced the susceptibility of these cells to MBG infection 4.5-fold. Interaction of MBG with the hepatic ASGP-R could thus explain the marked hepatotropism of the virus.
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Nucleotide and deduced amino acid sequence of the structural protein genes of Japanese encephalitis viruses from different geographical locations
More LessStrain variation among Japanese encephalitis (JE) virus isolates has been previously demonstrated by many workers using different methods. We report the nucleotide sequence of the 5′ non-coding region and the nucleotide and deduced amino acid sequences of structural protein genes for eight wild-type JE virus strain isolated from different Asian countries (Vietnam, Nepal, Indonesia, Thailand, India, Japan and China). We compare these with five other published wild-type JE virus strains isolated from Japan and the mainland of China. No strain variation could be related to geographical location on the basis of the wild-type JE virus strains studied. The viruses differed from each other by between 21 (0.9%) and 111 (4.6%) nucleotides and by between 3 (0.4%) and 31 (4.2%) amino acids over the 2434 nucleotides examined. The amino acid divergence of the envelope (E) protein gene of the viruses was 4.2% or less among the 13 strains compared. Thus there is little genetic divergence in the strains studied. However, four variable E protein amino acids (E-51, E-209, E-244 and E-366) were identified. Residue positions E-51, E-244 and E-366 are found in peptides with functional T helper cell epitopes in two other flaviviruses. Therefore, these amino acids may be important in defining the various immunotypes of JE virus identified by antibody reactivity patterns.
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Molecular basis of attenuation of neurovirulence of wild-type Japanese encephalitis virus strain SA14
More LessTo identify the molecular determinants for attenuation of wild-type Japanese encephalitis (JE) virus strain SA14, the RNA genome of wild-type strain SA14 and its attenuated vaccine virus SA14-2-8 were reverse transcribed, amplified by PCR and sequenced. Comparison of the nucleotide sequence of SA14-2-8 vaccine virus with virulent parent SA14 virus and with two other attenuated vaccine viruses derived from SA14 virus (SA14-14-2/PHK and SA14-14-2/PDK) revealed only seven amino acids in the virulent parent SA14 had been substituted in all three attenuated vaccines. Four were in the envelope (E) protein (E-138, E-176, E-315 and E-439), one in non-structural protein 2B (NS2B-63), one in NS3 (NS3-105), and one in NS4B (NS4B-106). the substitutions at E-315 and E-439 arose due to correction of the SA14/CDC sequence published previously by Nitayaphan et al. (Virology 177, 541-552, 1990). The mutations in NS2B and NS3 are in functional domains of the trypsin-like serine protease. Attenuation of SA14 virus may therefore, in part, be due to alterations in viral protease activity, which could affect replication of the virus.
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Sequence of non-structural regions 3 and 5 of hepatitis C virus genomes from Spanish patients: existence of a predominant variant related to type 1b
Several hepatitis C viruses (HCV) have been described. In this study, the prevalence of HCV subtypes la, 1b, 2a and 2b has been studied by means of specific PCR in 93 serum samples of Spanish patients. Among these, the HCV-1b subtype was the most frequently detected (62%). Complementary DNA fragments from nonstructural region 3 (NS3) and 5 (NS5), obtained from serum samples of three Spanish patients, were amplified by PCR and the products were cloned and sequenced. Comparison of the sequence obtained with those previously published shows the highest homology (91.7% in NS3 and 91.8% in NS5) with the HCV-1b subtype. The incidence of the local variant was analysed among the HCV-1b-infected patients. In order to distinguish between the local and HCV-1b prototype subtype, a new specific PCR assay was designed using primers from NS5. In the majority of the 76 HCV-1b-infected patients, the local variant was the only subtype detected (53%). These findings support the existence of a local variant, belonging to the HCV-1b subtype.
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Protection of hamsters against experimental mumps virus (MuV) infection by antibodies raised against the MuV surface glycoproteins expressed from recombinant vaccinia virus vectors
More LessThe fusion (F) and haemagglutinin—neuraminidase (HN) glycoproteins of mumps virus (MuV) have been produced in CV1 cells via vaccinia virus recombinants. Recombinant proteins accumulated in infected cells and were glycosylated. Upon reduction, the F protein product was completely converted into its subunits. Hamsters infected with vaccinia recombinants expressing either the F or HN proteins produced antibodies recognizing MuV antigens and neutralizing MuV infectivity in vitro. These antibodies provided protection against MuV-induced encephalitis in newborn hamsters.
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C-Terminal phosphorylation of human respiratory syncytial virus P protein occurs mainly at serine residue 232
More LessTo determine which human respiratory syncytial virus (HRSV) P protein serine residues are modified by cellular protein kinase(s), several mutated versions of P protein were expressed in the absence of other viral proteins. Mutations at serines 232 or 232 and 237 drastically reduced the extent of phosphorylation P protein in vivo. Serine 232 is the main site of modification and is also essential for in vitro phosphorylation by casein kinase II. Additional in vivo phosphorylation was also detected in the region containing serines 116, 117 and 119.
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Sequence and expression of the ns2 protein gene of human coronavirus OC43
More LessThe complete nucleotide sequence of the ns2 gene of human coronavirus OC43 (HCV-OC43) was determined. Sequence analysis revealed an open reading frame that could encode a protein of 278 amino acids, with an estimated molecular mass of 32.2 kDa. Six potential phosphorylation sites are present but no sites of N-glycosylation were found. The amino acid sequence of the HCV-OC43 ns2 protein shows 92% identity with that of the Mebus strain of bovine coronavirus (BCV). However, a stretch of nine consecutive amino acids near the C terminus is completely different, causing it to be very hydrophilic, which contrasts with the hydrophobic nature of this region in BCV. As shown by immunofluorescence with a monospecific antiserum, the ns2 protein was expressed in the cytoplasm of HCV-OC43-infected HRT-18 cells.
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Identification of a novel viral protein in infectious bursal disease virus-infected cells
More LessInfectious bursal disease virus (IBDV), a member of the Birnaviridae, specifies two genomic double-stranded RNAs, segment A and segment B. Segment A encodes a 110 kDa polyprotein which is processed into virus proteins VP2, VP3 and VP4. A second open reading frame (ORF), designated ORF A-2, immediately preceding and partially overlapping the 110 kDa protein gene has also been described. After prokaryotic expression of this ORF and immunization of rabbits with the expressed protein we obtained reagents that allowed the identification of the ORF A-2 gene product in IBDV-infected cells. The ORF A-2 protein exhibits an apparent molecular mass of 21 kDa which is larger than the size of 16.5 kDa calculated from the deduced amino acid sequence. Immunofluorescence studies demonstrated the presence of the ORF A-2 protein in bursa samples from IBDV-infected chicken. In summary, the IBDV ORF A-2 product represents the fifth IBDV protein described. Therefore, we propose to designate it as IBDV VP5.
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Interferon-β strong cytopathic effect on human papillomavirus type 16-immortalized HPK-IA cell line, unexpectedly not shared by interferon-α
More LessWe report a novel, unusually severe cytopathic effect of interferon-β (IFN-β). Data concerning antibody neutralization, induction and recovery time course, CPE50 dose, impact on oxidative metabolic activity and 1D SDS-PAGE total cellular protein analysis are provided for preliminary characterization. This cytopathic effect appears to be linked to human papillomavirus type 16 (HPV-16) genome presence as it is markedly evident in the HPV-16-immortalized HPK-IA cell line, but is not induced in diploid keratinocytes. It is also not induced in highly malignant SiHa cells suggesting that it also requires a fairly conserved phenotype. This effect is unexpectedly not shared by IFN-α pointing to a discrimination between IFN-α and -β signal despite the well-known sharing of a common receptor. It remains to be clarified whether this divergence, undetectable in other cellular systems, represents a direct effect of viral presence or a non-specific consequence of cellular homoeostatic disregulation induced by the papillomavirus genome.
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Characterization of human telomeric repeat sequences from human herpesvirus 6 and relationship to replication
More LessHere we examine by polymerase chain reaction amplification followed by cloning and sequence analyses selected regions of the human herpesvirus 6 (HHV-6) genome which contain human telomeric repeats (TTAGGG). We determine the relative number, arrangement and orientation of the repeats in the unit length genome, in concatemeric replicative intermediates and in heterogeneous (het) regions. We also examine distribution of the repeats in the entire genome (159 kb) and their orientation relative to DNA packaging motifs and the origin of lytic replication. In the prototype orientation the HHV-6 repeat is the related complement, TAACCC. We show that tandem array sof this repeat are present in the right and left long direct repeats (DRL and DRR, 8 kb each) which bound the long unique sequence (UL, 143 kb). Within each DR there is a left terminal imperfect tandem array and a right terminal perfect tandem array (58 copies). In DR they are each adjacent to DNA packaging motifs, pac1 and pac2, described for herpes simplex virus and human cytomegalovirus, in the arrangement pac1-imperfect repeat-7.2 kb-perfect repeat-pac2. Five independent clones were isolated and sequence determined from junctions of concatemeric replicative intermediates which showed adjacent pac2 and pac1 motifs surrounded by telomeric repeats. Favoured cleavage sites for unit length genomes were indicated which avoided cleavage within the repeats. Analyses of the complete genome showed no tandem repeats within UL but did show a polar distribution of monomeric copies and related sequences around the origin of replication, with an effect on the overall base composition. The implications for virus replication are discussed.
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Classification and identification of geminiviruses using sequence comparisons
More LessThe genomes and ORFs of 36 geminiviruses were compared to obtain phylogenetic trees and frequency distributions of all possible pairwise comparisons with an objective to classify geminiviruses. Such comparisons show that geminiviruses form two distinct clusters of leafhopper-transmitted viruses that infect monocots (subgroup I) and whitefly-transmitted viruses that infect dicots (subgroup III), irrespective of the part of the genome considered. Of the two leafhopper-transmitted viruses that infect dicots, tobacco yellow dwarf virus has a sequence most similar to subgroup I viruses, and that of beet curly top virus differed depending upon the ORF considered. The distributions of identities within subgroups are significantly different suggesting that the taxonomic status of a particular isolate within a subgroup can be quantified. All the recognized strains of any one virus have greater than 90% sequence identity. It was observed that the 200 nucleotide intercistronic regions of geminiviruses are more variable than the remainder of the genome. The amino acid sequences of the coat protein (CP) of subgroup III viruses are more conserved than the remainder of the genome. However, a short N-terminal region (60–70 amino acids) of the CP is more variable than the rest of the CP sequence and is a close representation of the genome. PCR primers based on conserved sequences can be used to clone and sequence the N-terminal sequences of the CP of the geminiviruses; this sequence is sufficient to classify a virus isolate. A possible taxonomic structure for geminiviruses is proposed after considering the sequence comparisons and biological properties.
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Mutational analysis of the coat protein N-terminal amino acids involved in potyvirus transmission by aphids
More LessThe nature of the amino acids in the N-terminal ‘DAGX’ motif of the coat protein of tobacco vein mottling virus (TVMV) that have a direct effect on aphid transmissibility of the virion were further defined by sitedirected mutagenesis. In the first position of the DAGX motif, Asp or Asn are required for aphid transmissibility. In the second position, the nonpolar residue Ala, but not the nonpolar Gly or Val or the polar Thr and Ser, is compatible with transmissibility. In the third position, the small, neutral, nonpolar Gly appears to be critical; even substitution of Ala, with a minimal side-chain, drastically reduces transmissibility. Although the amino acid following the DAG sequence is not highly conserved among potyviruses, the presence of an acidic Glu or Asp residue at this position in the TVMV coat protein drastically reduces or abolishes aphid transmissibility. An attempt was made to test the hypothesis that trypsin cleavage of the N terminus is involved in the aphid inoculation process by destroying a trypsin cleavage site downstream from the DAGX motif. While the predicted decrease in transmission occurred from infected plants, there was no effect on the transmission of purified virus. Of the 23 mutations in the DAGX region of TVMV reported here and previously, only two, substitutions of Lys and Arg for Asp, had a detectable adverse effect other than on aphid transmissibility. These, and perhaps other, residues near the N terminus function in some phase of the TVMV life cycle, in addition to aphid transmission.
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Small satellite of arabis mosaic virus: autolytic processing of in vitro transcripts of (+) and (-) polarity and infectivity of (+) strand transcripts
More LessIn vitro RNA transcripts of both (+) and (-) polarities were obtained from a circularly permuted dimer clone of the small satellite of arabis mosaic virus (sArMV). The transcripts show efficient self-cleavage at the two specific sites in the sequence where the monomers were joined. Autolytic processing of the full-length transcript in both orientations releases promoter-proximate fragments (+) or (-) P, promoter-distal fragments (+) or (-) D, and the monomer fragments (+) or (-) M. The presence of an OH group at their 5′ ends and a 2′,3′ cyclophosphate at their 3′ ends suggests that (+) and (-) M originated via two self-cleavage reactions within the full-length transcript of corresponding polarity. Infectivity assays showed that the (+) M fragment but not the (-) M fragment initiates replication as efficiently as the natural linear sArMV in Chenopodium quinoa. Two (-) fragments were identified which are the result of religation activity: a P-D fragment formed by religation of P and D, and c-M, which is the result of efficient self-ligation of (-) M. In contrast, linear (+) M self-ligates in vitro to a very limited extent but could be circularized enzymically in a wheat germ extract.
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Efficient infection from cDNA clones of cucumber mosaic cucumovirus RNAs in a new plasmid vector
More LessFull-length cucumber mosaic cucumovirus (CMV) cDNAs were cloned into a new plasmid vector containing a modified plant virus promoter designed to transcribe the inserted sequence from its first nucleotide. cDNA copies of CMV strain Q (Q-CMV) genomic RNAs 1, 2 and 3 cloned into this vector were infectious when inoculated together, producing symptoms indistinguishable from those caused by wildtype Q-CMV infection. The infectivity of the clones could be substantially increased by excision of the viral insert together with the transcriptional promoter and terminator prior to inoculation. A diagnostic but silent mutation was introduced into the RNA 2 cDNA and found to be stably maintained in viral infection, allowing distinction of the recombinant virus from native contaminants. The infectious cDNA clones supported the replication of CMV satellite RNA when co-inoculated with biologically active Q-CMV satellite RNA transcripts. Using the infectious cDNAs described, it was found that a newly-identified overlapping gene (2b) encoded by Q-CMV RNA 2 was not essential for either systemic viral infection of Nicotiana glutinosa or replication of the satellite RNAs.
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Nucleotide sequence of tomato ringspot virus RNA1
More LessThe nucleotide sequence of tomato ringspot nepovirus (TomRSV) RNA1 has been determined. TomRSV RNA1 is 8214 nucleotides in length, excluding the 3′ poly(A) tail, and contains a single long open reading frame (ORF) of 6591 nucleotides beginning at the first AUG codon at nucleotide position 78. This ORF accounts for 80% of the RNA1 sequence and would give rise to a polyprotein with a predicted molecular mass of 244 kDa. Amino acid sequence comparisons between portions of the TomRSV RNA1-encoded polyprotein and proteins encoded by several members of the picornavirus superfamily have provided information concerning the genomic organization and putative functions of TomRSV-encoded proteins. The putative TomRSV protease retains a conserved histidine residue present in the proteases encoded by members of the como-, poty- and poliovirus groups which is thought to be involved in dipeptide cleavage site recognition. Interestingly, this histidine residue is replaced by a leucine in the proteases of other sequenced nepoviruses. This suggests that the TomRSV protease shares dipeptide cleavage site specificity with that of como-, poty- and picornaviruses rather than the other nepoviruses.
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Sequence analysis of a faba bean necrotic yellows virus DNA component containing a putative replicase gene
More LessFaba bean necrotic yellows virus (FBNYV) has a circular ssDNA genome possibly consisting of several components of about 1 kb each. The complete nucleotide sequence of one component of FBNYV (FBNYV DNA 1) containing a putative replicase gene is presented. This component consists of 1002 nucleotides and, in the virion orientation, contains one large open reading frame (ORF1) potentially encoding a 32.3 kDa replicase with the NTP-binding motif GGEGKS. No obvious functions could be assigned to two smaller ORFs (7.4 and 9.3 kDa) occurring in the complementary orientation. Amino acid sequence comparisons of the putative replicase of FBNYV with that of other similar ssDNA viruses yielded higher homologies to subterranean clover stunt virus than to banana bunchy top and coconut foliar decay viruses. A potential stem-loop structure and a TATA box were identified within the noncoding region. Two oligonucleotides derived from FBNYV DNA 1 were used for direct sequencing of the virion ssDNA to determine its virion polarity and for amplifying part of this component by immunocapture PCR in extracts from FBNYV-infected plants.
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