- Volume 73, Issue 9, 1992
Volume 73, Issue 9, 1992
- Animal
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Measles virus from a long-term persistently infected human T lymphoblastoid cell line, in contrast to the cytocidal parental virus, establishes an immediate persistence in the original cell line
More LessTo investigate the mechanisms of measles virus (MV) establishment and maintenance of persistence in lymphoid cells, we have established a long-term persistent infection with MV, Edmonston strain, in the human T lymphoblastoid cell line MOLT4, which has been in continuous culture for over 8 years. In this culture, designated MOMP1, more than 98% of cells display viral antigens. The MOMP1 culture is immune to superinfection with MV and is not cured by anti-MV antibodies. No evidence of defective interfering particles was obtained. The persistently infected culture releases an infectious virus showing a miniplaque and thermoresistant modified phenotype that, unlike the parental virus Edmonston strain which produces a lytic infection with extensive cell fusion, establishes an immediate persistence in MOLT4 cells with neither significant loss of cell viability nor cell fusion. This suggests that the modification in the virus suffices to maintain the state of persistence without requiring a coevolution of the host cell during the infection, as has been reported in other persistent virus infections.
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Measles virus gene expression in lytic and persistent infections of a human lymphoblastoid cell line
More LessMOMP1 is a measles virus (MV) long-term steady-state persistently infected culture of the human T lymphoblastoid cell line MOLT4. The analysis of MV gene expression revealed that in MOMP1 cells, the major MV proteins, haemagglutinin (H), phosphoprotein (P), nucleoprotein, fusion (F) and matrix (M), are present and the fusion precursor (F0) is cleaved into F2 and F1 peptides. H and F2 proteins are glycosylated in both lytic and persistent MOLT4 infections. All major proteins are underexpressed in the persistently infected cultures in comparison to the lytically infected cells. However a relatively greater reduction was observed for H, M and P proteins. Pulse-chase labelling experiments indicated that this underexpression of H, M and P proteins was not due to selective degradation of these proteins in the persistent infection (p.i.). The relative amounts of the major monocistronic and dicistronic mRNAs for MV proteins, with the exception of P mRNA, was not altered in the p.i. with respect to lytically infected MOLT4 cells, suggesting that the defective expression of H and M proteins was not due to a restriction in the transcription of their mRNAs. In contrast, the mRNA for P protein, the most abundant MV mRNA in these lytically infected T lymphoid cells, is markedly underexpressed in the homologous p.i. Thus the underexpression of P protein in p.i. could be due to a decreased availability of P mRNA. This unbalanced underexpression of MV proteins may impair the cell fusion and c.p.e. of MV and facilitate viral persistence in human lymphoid cells.
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Heterogeneity of linear B cell epitopes of the measles virus fusion protein reacting with late convalescent sera
More LessB cell epitopes of the measles virus fusion protein were mapped, by reacting sera from late convalescent donors with synthetic overlapping pentadecapeptides, segments covering the whole F protein sequence. Unselected individual sera recognized 7 to 20% of the total sequence. Cumulation of the binding patterns of 30 sera identified eight to 10 clusters of antibody-binding peptides spread over most of the sequence. The B cell epitopes included regions of transition between the more hydropathic (including the N-terminal end of the F1 and F2 protein) and hydrophilic sequences. When the regions of antibody binding were compared with the predicted secondary structure of the F protein, no detectable pattern became apparent. Exposed sequences as well as sequences hidden in the viral membrane or in the protein core of both the F1 and F2 polypeptides were recognized by the antibodies. The heterogeneity of the binding patterns was not merely dependent on the anti-measles virus titre. The importance of antibodies recognizing linear epitopes of the measles virus fusion protein for the immune protection is presently not known.
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Protective epitopes on the fusion protein of respiratory syncytial virus recognized by murine and bovine monoclonal antibodies
G. Taylor, E. J. Stott, J. Furze, J. Ford and P. SoppThe regions of the fusion protein of respiratory syncytial virus (RSV) that react with neutralizing, fusion-inhibiting and highly protective bovine and murine monoclonal antibodies (MAbs) were mapped by two methods: (i) competitive binding assays and (ii) production and analysis of antibody-escape mutants. Competitive binding assays with 16 murine and 10 bovine MAbs identified 11 antigenic sites on the fusion (F) protein, many of which overlapped extensively, and indicated that cattle, a natural host for RSV, and mice recognize similar epitopes. Neutralizing MAbs identified four sites, two of which were also fusion-inhibiting and highly protective in mice. The pattern of reactivity of antibody-escape mutants with the MAbs confirmed the mapping of the protective epitopes deduced from competitive binding assays. A comparison of the biological properties of MAbs to the F protein indicated that protection against RSV infection correlated with fusion inhibition rather than neutralization titre or complement-dependent lysis of virus-infected cells.
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Characterization of two antigenic sites recognized by neutralizing monoclonal antibodies directed against the fusion glycoprotein of human respiratory syncytial virus
Two antigenic sites recognized by neutralizing monoclonal antibodies (MAbs) directed against the fusion (F) glycoprotein of human respiratory syncytial virus were mapped on the primary structure of the protein by (i) the identification of amino acid substitutions selected in antibody-escape mutants and (ii) the reactivity of synthetic peptides with MAbs. The first site contained several overlapping epitopes which were located within the trypsin-resistant amino-terminal third of the large F1 subunit. Only one of these epitopes was faithfully reproduced by a short synthetic peptide; the others might require specific local conformations to react with MAbs. The second antigenic site was located in a trypsin-sensitive domain of the F1 subunit towards the carboxy-terminal end of the cysteine-rich region. One of these epitopes was reproduced by synthetic peptides. In addition, mutagenized F protein with a substitution of serine for arginine at position 429 did not bind MAbs to the second site. These results are discussed in terms of F protein structure and the mechanisms of virus neutralization.
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Mutagenesis of the L protein encoded by Bunyamwera virus and production of monospecific antibodies
More LessBacterial fusion proteins containing portions of the Bunyamwera virus L protein were used as immunogens to prepare antisera in rabbits. Of five fusion proteins injected into rabbits, three yielded sera that reacted with the Bunyamwera virus L protein, detected by Western blotting or immunoprecipitation. Two of these antisera were specific for either the amino- or carboxy-terminal regions of the L protein. The specificity of these antisera was confirmed by their pattern of reactivity with full-length and truncated forms of the L protein. Plasmids containing the L gene cDNA under control of a bacteriophage T7 promoter were transfected into CV-1 cells which had previously been infected with a recombinant vaccinia virus, vTF7-3, that expresses T7 RNA polymerase. Antigenically authentic L protein was expressed. Using a nucleocapsid transfection assay developed previously, we showed that the transiently expressed L protein had RNA synthesis activity. Site-specific mutations were made in the L cDNA-containing plasmid to change certain amino acids in the putative polymerase domain of the L protein. The effects of these amino acid substitutions on the RNA synthesis activity of the L protein were monitored using the nucleocapsid transfection assay. These experiments showed that residues strictly conserved between the L proteins of different viruses in the family Bunyaviridae were obligatorily required for activity, whereas non-conserved residues could be substituted without abolishing RNA synthesis capability. Our results provide direct evidence for the functional significance of particular amino acids in the polymerase domain of a negative-strand virus RNA polymerase.
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Organization of Germiston bunyavirus M open reading frame and physicochemical properties of the envelope glycoproteins
More LessWe describe the construction of plasmids which express fusion proteins representing various regions of Germiston virus M polyprotein. The fusion proteins were purified and inoculated into rabbits to produce antisera. The N- and C-terminal regions of the polyprotein induced specific antibodies which reacted with glycoproteins G2 and G1, respectively, and the intermediate region induced antibodies against the NSM polypeptide. This enabled us to determine the gene order: G2-NSM-G1. Glycoproteins G1 and G2 form the spikes on the surface of the virion. We attempted to determine the structural organization of the glycoproteins by using a membrane-permeable cross-linking reagent, dimethyl suberimidate, but were unable to demonstrate that G1 and/or G2 form oligomeric structures. We analysed the glycoproteins further and showed that, like peripheral membrane proteins, the G2 and NSM proteins are almost completely extracted into the aqueous phase of detergent Triton X114-treated cellular extracts, whereas glycoprotein G1 is distributed in almost equal proportions between the aqueous and the detergent fractions. This indicates that G1 is a membrane-associated protein, but its presence in the aqueous phase suggests that it is less hydrophobic than a typical membrane protein. We have also characterized the intracellular transport of the envelope glycoproteins from the endoplasmic reticulum to the Golgi complex. Pulse-chase labelling followed by immunoprecipitation and treatment with endoglycosidase H (endo H) showed that both G1 and G2 are transported from the endoplasmic reticulum to the Golgi complex. Conversion to the endo H-resistant form is a rather slow process which takes more than 2 h. The mature G1 and G2 proteins present in the virion particle contain almost completely endo-H-resistant glycans.
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Non-random reassortment between the tripartite RNA genomes of La Crosse and snowshoe hare viruses
More LessThe process of reassortment between the tripartite RNA genomes (segments designated L, M and S) of snowshoe hare and La Crosse bunyaviruses (Bunyaviridae) has been investigated by polymerase chain reaction analysis of > 250 progeny recovered at 72 h post-infection from dual wild-type virus infections involving high multiplicities (approximately 5) of each virus in a BHK-21 cell line. Statistical analysis of the data indicated that RNA segment reassortment was not random, and for these two viruses the data appeared to fit the hypothesis that there was a preference for homologous L-M and M-S associations among the progeny formed.
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Immunogenicity and vaccine efficacy of synthetic peptides containing Semliki Forest virus B and T cell epitopes
More LessA synthetic peptide that contains a Semliki Forest virus (SFV) B cell epitope, located at amino acid positions 240 to 255 of the E2 protein, and an SFV T helper (Th) cell epitope, located at positions 137 to 151 of the E2 protein, evoked high titres of SFV-reactive antibodies in H-2d mice. Although the peptide-induced antibodies did not neutralize SFV in vitro, 70 to 100% of the peptide-immunized mice were protected against SFV, even when viral challenge was presented 4 months after immunization. The protection could be transferred by anti-peptide serum, indicating that antibodies were responsible for the protection. When the Th cell epitope of this protective peptide was replaced by an influenza virus Th cell epitope or by another SFV Th cell epitope, the resulting peptides induced lower non-neutralizing SFV-reactive antibody titres and protected a correspondingly lower percentage of mice (50% and 30%, respectively). A peptide with the same Th cell epitope as the best protective peptide but with a less effective SFV B cell epitope protected only 33% of the mice. These results indicate that protection against SFV by a synthetic peptide is primarily dependent on its ability to induce adequate amounts of antibodies with relevant specificity and sufficient affinity; the ability to induce a relevant (SFV-specific) T memory response played only a minor role in protection.
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Potential significance of the cellular immune response against the macaque strain of simian immunodeficiency virus (SIVMAC) in immunized and infected rhesus macaques
The cellular immune response of seven rhesus macaques immunized with Tween-ether-treated macaque strain of simian immunodeficiency virus (SIVMAC) and three non-vaccinated control animals was investigated. Immunization elicited antigen-specific proliferating CD4+ cells in five of seven monkeys. Proliferating T cells were found in all animals protected from a first virus challenge. Cytotoxic T lymphocytes (CTLs) were not induced by the immunization. After the second challenge, the four formerly protected animals became infected, despite a strong proliferative CD4+ cell activity in three of them. All animals lost their proliferative activity 2 weeks after infection. After the first challenge four of the six infected animals exhibited a CTL response and after the second challenge, one of four newly infected macaques acquired a CTL response. The five animals with a CTL activity against SIVMAC proteins were protected from severe thrombo-cytopenia, which appeared in the five CTL-negative animals after infection. Our data show the induction of proliferative T cells by immunization with soluble SIVMAC antigen. This T cell reactivity was found in all animals protected from the first virus challenge, but did not confer protection from the second challenge. Interestingly, the proliferative T cell reactivity disappeared 2 weeks after virus infection. Furthermore a CTL response against viral proteins seems to protect infected animals from severe thrombocytopenia which is an early sign of AIDS in monkeys.
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Human T cell leukaemia virus type 1 p21X mRNA: constitutive expression in peripheral blood mononuclear cells of patients with adult T cell leukaemia
Although the p21X protein of human T cell leukaemia virus type 1 (HTLV-1) is generally thought to be expressed from a doubly spliced mRNA transcript (tax/rex mRNA) that encodes the p40tax, p27rex and p21X proteins, we have shown previously that a novel, alternatively spliced mRNA transcript (p21X mRNA) is responsible for p21X production in HTLV-1-infected cell lines. In the present study, we analysed expression of p21X mRNA and tax/rex mRNA in uncultured and cultured peripheral blood mononuclear cells (PBMCs) from eight patients with adult T cell leukaemia by using a quantitative polymerase chain reaction coupled to reverse transcription. The results demonstrated that the expression of p21X mRNA occurs constitutively in all uncultured and cultured PBMCs, whereas the expression of tax/rex mRNA is inducible in the cultured PBMCs, as described previously. In uncultured and cultured PBMCs from the one specimen in which p21X mRNA was highly expressed, the p21X protein was detectable by Western blotting. On the other hand, p27rex protein was detectable only after cultivation. These findings indicate that p21X mRNA is constitutively expressed in vivo and is responsible for production of p21X protein.
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The effects of poly(I). poly(C12U) and interferon on the multiplication of a mammalian type C retrovirus in human cells
More LessPoly(I).poly(C12U) or interferon treatment inhibited multiplication of the xenotropic baboon type C endogenous retrovirus M7 in chronically infected human AV3-M7 cells, as determined by a reverse transcriptase (RT) assay and electron microscopy. Furthermore, this polynucleotide induced 2′5′ oligoadenylate (2′5′A) synthetase activity. In contrast to interferon (IFN), poly(I).poly(C12U) did not give rise to the appearance of a trapping phenomenon observable by electron microscopy. When AV3-M7 cells were treated simultaneously with poly(I).poly(C12U) and anti-IFN-β/α antibodies, the induction of 2′5′A synthetase was abolished without any alteration of the inhibitory effect of RT activity. Taken together, these results suggest that different mechanisms are used by poly(I).poly(C12U) and IFN in blocking type C retrovirus multiplication.
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Dissociable antiviral activities directed against cardioviruses are expressed in L cells treated with interferon
More LessInterferon (IFN) restricts a wide variety of viruses. To do so it elicits many antiviral pathways. For example, subclones of the same cell line with a reduced antiviral spectrum are thought to lack one or more antiviral pathways. Our line of L cells exhibits two distinct antiviral activities. The first delays the yield of both wild-type mengovirus (is +) and an IFN-sensitive mutant (is-1). The second specifically inhibits is-1 virus yields 100-fold. From these cells, a subclone was isolated which had lost the second antiviral activity (i.e. in these cells is-1 virus acts like is + virus). To see whether other cardioviruses are sensitive to these activities, two additional strains [m-mengovirus and encephalomyocarditis-R (EMC-R) virus] were tested in our subclones. Like is + virus, m-mengovirus yields were delayed by IFN in both subclones; EMC-R virus behaved like is-1 virus in both cell lines. When actinomycin D was added at the time of infection, is-1 virus was phenotypically reversed to is + virus, but EMC-R virus was still inhibited. The 2-5A synthetase/RNase L pathway is expressed in both clones. Therefore, at least three antiviral activities against cardioviruses can be distinguished in IFN-treated L cells, and two of them appear not to involve the 2-5A synthetase/RNase L pathway.
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Proteolytic processing of a Murray Valley encephalitis virus non-structural polyprotein segment containing the viral proteinase: accumulation of a NS3-4A precursor which requires mature NS3 for efficient processing
More LessThe proteolytic processing of a non-structural polyprotein segment from the cytoplasmic domain of NS2A to the C terminus of NS5 of Murray Valley encephalitis (MVE) virus was examined, when expressed from cDNA via a vaccinia virus recombinant, in transiently transfected COS cells, or synthesized by cell-free translation. Cleavages mediated by the virus-encoded proteinase domain in NS3 at the junctions of NS2A-2B, NS2B-3 and NS4B-5 were catalysed efficiently. However, the cleavage at the NS3-4A junction, also mediated by the NS3 proteinase, was greatly delayed. Little or no NS3 was found, but an 85K precursor molecule accumulated; this was identified as NS3-4A. Termination codons were introduced by site-directed mutagenesis at the junctions of the NS3-4A, NS4A-4B and NS4B-5 genes to generate C-terminal truncations of the MVE virus polyprotein segment. In expression studies of these constructs the predicted NS3-mediated proteolytic cleavages were catalysed, except for that at the NS3-4A junction. In co-infections and co-transfections with constructs encoding the MVE virus non-structural polyprotein region truncated at the C termini of NS3 or NS4A, efficient processing at the NS3-4A site was induced. Thus it appears that the MVE virus polyprotein is cleaved inefficiently in cis at the NS3-4A junction, whereas the site is processed efficiently in trans by mature NS3. The NS3-4A precursor is also seen in flavivirus-infected cells. Its function remains to be determined, but it could play a role in the replication of flavivirus, in view of the importance of polyprotein processing in the regulation of gene expression of positive-stranded RNA viruses, the modulation of processing at the NS3-4A site by NS3 or NS3-containing precursors described in the present study and the importance of NS3 as an integral part of the viral polymerase complex.
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Expression and characterization of glycoprotein gp35 of hepatitis C virus using recombinant vaccinia virus
Complementary DNA clones corresponding to one of the putative structural regions of the hepatitis C virus (HCV) genome were obtained from sera of non-A non-B hepatitis patients. The putative envelope gene was expressed by using a recombinant vaccinia virus carrying this region of the HCV genome. In cells infected with the recombinant vaccinia virus, a glycosylated protein with an M r of about 35K (gp35) was specifically detected by convalescent sera from hepatitis C patients. The sera from rabbits immunized with this recombinant vaccinia virus reacted to the gp35 produced in insect cells and also to gp35 which was translated in vitro in the glycosylated and processed form. The gp35 was used to detect antibodies in sera of only 7 to 23% of HCV patients at various stages of HCV disease. These results suggest that the gp35 of HCV may not have high antigenicity in humans.
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Identification of four VP4 serological types (P serotypes) of bovine rotavirus using viral reassortants
More LessA series of five reassortant viruses each containing the VP4 gene of a distinct bovine rotavirus and the VP7 gene of human rotavirus strain ST3 was prepared, and antisera to these were produced in rabbits. In neutralization tests, these antisera allowed the differentiation of the five original strains (from three different VP7 or G serotypes) into three or possibly four VP4 or P serotypes. All of a further seven bovine rotavirus strains adapted to cell culture were successfully typed by these antisera. There was a degree of cross-reaction between antiserum to the fourth bovine rotavirus P serotype and the predominant human rotavirus serotype. However, antisera raised in guinea-pigs to recombinant VP4 from this serotype showed the bovine serotype to be distinct. There was no significant serological relationship between these four bovine rotavirus P serotypes and previously described P serotypes from rotaviruses isolated from man and non-bovine animals. The predominant bovine rotavirus VP7 serotypes G6 and G10 tended to have distinct P serotypes also.
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Analysis by polymerase chain reaction of the physical state of human papillomavirus type 16 DNA in cervical preneoplastic and neoplastic lesions
More LessIntegration of human papillomavirus (HPV) DNA into the host cell genome is believed to be essential for malignant progression. However unambiguous detection of the physical state of HPV is a difficult and time-consuming procedure. To resolve this issue a simple, rapid and highly sensitive technique of polymerase chain reaction (PCR) has been utilized for detecting the physical state of HPV-16 DNA. Investigations were carried out in 122 cervical specimens comprising the whole spectrum of cervical lesions starting from cervical dysplasia to invasive carcinoma including HPV-16-positive normal controls. A pair of oligonucleotide primers specific to the E2 open reading frame, which is often deleted or disrupted following HPV integration, was used for the study. Distinction between episomal and integrated forms of viral DNA was accomplished by detecting amplification of the E2-specific fragment (1139 bp) in the PCR product. The PCR results were compared with those obtained by the conventional methods of Southern blotting, two-dimensional gel electrophoresis and chromosomal in situ hybridization; a high degree of agreement was observed between the methods. The findings indicate that although integrated forms of HPV-16 DNA were detected in more than 70% of cervical cancer specimens, integration was less frequent (23%) in severe dysplasia and carcinoma in situ. Only 2.5% of cases showed both episomal and integrated forms of HPV-16 DNA. The difference between episomal and integrated forms was statistically significant (P < 0.01). The absence of integration in about 30% of cancer cases suggests that integration of HPV may not be necessary for malignant progression and alternative mechanism(s) of malignant transformation may occur without HPV integration. The PCR test thus provides an effective complement to Southern blotting and two-dimensional gel electrophoresis for accurate detection of the integration of HPV DNA.
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Expression of human papillomavirus type 16 E6 protein by recombinant baculovirus and use for detection of anti-E6 antibodies in human sera
Existing assays to detect antibodies to human papillomavirus type 16 (HPV-16) proteins in sera from cervical carcinoma patients rely primarily on bacterially produced recombinant proteins or synthetic peptides for use as target antigens. These methods have had limited success in the detection of antibodies against the E6 protein. To produce more authentic E6 protein for use in serological assays, we have employed a recombinant baculovirus vector to synthesize the protein in insect cells. Cells infected with the vector containing E6 gene sequences expressed a stable protein doublet comprising 18.5K and 19.1K bands. This protein reacted in Western blots with an anti-serum raised against a purified E6 fusion protein produced in Escherichia coli. This antiserum, and several others raised against E. coli-derived E6 fusion proteins, were unable to recognize the baculovirus E6 protein in radioimmunoprecipitation assays (RIPAs). However, serum from a cervical carcinoma patient readily immunoprecipitated the baculovirus E6 protein, suggesting that the baculovirus-derived protein represented a realistic antigenic target. A RIPA was developed for the detection of anti-E6 protein antibodies in human sera. The assay was tested on a selected group of sera from carcinoma patients and controls, in comparison with a Western blotting method using bacterial fusion proteins. The baculovirus E6 protein-based RIPA showed a marked increase in detection rate over the Western blotting method. These findings suggest that serum antibodies to HPV-16 E6 protein may be more prevalent than has previously been shown.
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Virological and pathological features of mice infected with murine gammaherpesvirus 68
More LessThe primary infection of BALB/c mice with murine herpesvirus 68 (MHV-68) was investigated. When the virus was introduced intranasally, the lung was the main tissue infected, the virus being associated with alveolar epithelium and mononuclear cells. A productive infection lasted for 10 days, after which viral DNA could be detected by in situ hybridization up to 30 days after infection. At that time lymphoproliferative accumulations were also observed in the lung, with formation of germinal centres. Virus could also be recovered from the heart, kidney, adrenal gland and spleen during the primary infection. In addition, the spleen appeared to be the major site of virus persistence, with latently infected cells detected up to 90 days post-infection. During the primary infection, there was atrophy of the thymus and spleen of clinically sick animals. In contrast, lymphoproliferative responses, typified by splenomegaly, were frequently seen in asymptomatic animals. The pattern of infection observed in MHV-68-infected mice is similar to that seen in infectious mononucleosis of man following Epstein–Barr virus infection. The model described in this paper may prove to be useful in studying natural gamma-herpesvirus infections of man and domestic animals.
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Vaccination by cholera toxin conjugated to a herpes simplex virus type 2 glycoprotein D peptide
More LessImmunization of BALB/cJ mice with a peptide corresponding to residues 1 to 23 of glycoprotein D [gD(1–23)] from herpes simplex virus type 2 (HSV-2) elicits antibody responses which correlate with protection against lethal HSV-2 infection. In the present study, we examined the ability of cholera toxin (CTX) to act as an immunogenic carrier for gD(1–23). The number of gD(1–23) residues conjugated to CTX affected its binding to GM1 ganglioside and physiological toxicity, both of which are factors affecting oral immunogenicity. The antibody response elicited after intraperitoneal (i.p.) immunization with the CTX-gD(1–23) conjugate was protective against a lethal i.p. challenge with HSV-2. In other experiments, mice were immunized i.p. on day 0 and subsequent immunizations conducted on days 14 and 28 were administered either intragastrically or intravaginally (i.vag.). Intraperitoneal priming followed by either i.p. or intragastric boosting resulted in anti-HSV-2 antibodies in vaginal washings and in protection against a lethal i.vag. challenge with HSV-2. Intraperitoneal priming followed by i.vag. boosting did not elicit anti-HSV-2 antibodies in vaginal washings and did not protect mice against a lethal i.vag. challenge with HSV-2. These results suggest that CTX can act as a systemic and an oral delivery molecule for the covalently linked gD(1–23) peptide and that such conjugates can elicit protective immune responses against systemic and genital HSV-2 infection.
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Expression in insect cells and immune reactivity of a 28K tegument protein of human cytomegalovirus
The gene encoding the highly antigenic 28K (pp28) tegument phosphoprotein of human cytomegalovirus (HCMV) was expressed in insect cells utilizing a recombinant baculovirus. The mature intracellular form of the recombinant-derived pp28 had mobility on SDS-polyacrylamide gels similar to that of native pp28 from HCMV strain Towne-infected human foreskin fibroblasts (HFFs). In vitro labelling of recombinant Autographa californica nuclear polyhedrosis virus-infected Spodoptera frugiperda cells or of HCMV-infected HFFs with [32P]orthophosphate followed by immunoprecipitation showed that both the insect cell-derived and HCMV strain Towne-infected fibroblast-derived pp28 were phosphorylated. The mobility of pp28 derived from these two sources as well as from extracellular HCMV virions indicated the existence of multiple charged forms of the protein, and a difference in the relative amounts of these forms expressed in HCMV-infected HFFs and recombinant baculovirus-infected insect cells. The recombinant pp28 expressed in insect cells was readily and specifically recognized by antibodies to native pp28, including HCMV-seropositive human serum, and was used in an ELISA to screen human sera for seropositivity.
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Glycoprotein gp116 of human cytomegalovirus contains epitopes for strain-common and strain-specific antibodies
More LessGlycoprotein gp116 of human cytomegalovirus (HCMV) is a target for neutralizing antibodies. Gp116 is a component of the gCI complex which consists of gp58 and gp116. Like its homologue, glycoprotein B of herpes simplex virus type 1, gp116 contains a highly antigenic region in the N-terminal part of the molecule, between amino acids 28 and 84. Prokaryotic expression plasmids and synthetic peptides were used to define binding sites for mouse and human monoclonal antibodies (MAbs) as well as HCMV convalescent sera. Site I, located between amino acids 68 and 77, contains an epitope recognized by the human MAb C23, which is capable of neutralizing HCMV independently of complement and the site is conserved between HCMV strains. Of HCMV-positive human sera, 53% recognized site I. Site II was mapped using mouse MAbs as well as human sera. It is located between residues 50 and 54, an area which is not conserved between strains AD169 and Towne, the two laboratory strains of known sequence. Strain-specific antibodies were detected in 25% of human sera. Site II-specific antibodies, purified from human sera by affinity chromatography, were found to be incapable of neutralizing HCMV in tissue culture.
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The 72K IE1 and 80K IE2 proteins of human cytomegalovirus independently trans-activate the c-fos, c-myc and hsp70 promoters via basal promoter elements
More LessGrowth-regulating cellular genes or genes encoding proteins involved in cell cycle control are likely to be major targets of viral gene products in the establishment of a cellular state favourable for a permissive infection. We have examined whether infection of permissive fibroblasts with human cytomegalovirus (HCMV) results in trans-regulation of such cellular genes. Here we have shown that the proto-oncogenes c-fos and c-myc are specifically induced during immediate early (IE) and early times of HCMV infection, as has recently been shown for the heat shock protein 70 gene (hsp70). Deletion analyses and transfection assays of all three promoters showed that previously defined control sequences upstream of the constitutive promoters and downstream of the mRNA cap site are not required for this up-regulation by HCMV, such that the minimal inducible promoters of c-fos, c-myc and the hsp70 gene contained only 50 to 60 bp upstream of the transcription start site. Cotransfection assays with vectors expressing HCMV major IE cDNAs showed that the 72K IE1 and 80K IE2 proteins are involved in the up-regulation of these promoters. IE1 and IE2 products independently were able to up-regulate the minimal constitutive promoters of the constructs tested here, but trans-activation by IE1 and IE2 together was synergistic. In the case of the hsp70 promoter, promoter constructs containing a variety of different TATA elements could be activated by the 72K IE1 and 80K IE2 proteins.
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Down-regulation of the class I HLA heterodimer and β2-microglobulin on the surface of cells infected with cytomegalovirus
More LessCytotoxic T cell recognition of virus-infected cells requires the presentation of viral peptides by class I HLA molecules on the cell surface. We report here that cytomegalovirus (CMV) infection of human fibroblasts results in a progressive decrease in the cell surface expression of class I HLA and β2-microglobulin (β2m) such that in the late stages of infection the majority of infected cells have no detectable surface class I HLA. Coincident with decreased surface expression of class I HLA was an increase in his cytoplasmic expression. Confocal scanning laser microscopic analysis demonstrated that class I HLA and β2m accumulate in a perinuclear compartment inside the CMV-infected cell. Our data thus support the concept that CMV infection induces altered transport of class I HLA to the cell surface. We suggest that the virus has evolved this mechanism as a strategy to avoid T cell recognition of infected cells.
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Quantification of human cytomegalovirus DNA using the polymerase chain reaction
More LessThe important goal of developing quantitative assays for viral nucleic acids in clinical samples has been achieved for human cytomegalovirus (HCMV) by using a modified polymerase chain reaction (PCR). A control PCR target sequence was constructed by PCR mutagenesis to allow the post-amplification quantification of HCMV DNA. The control region was identical to a naturally occurring sequence within the glycoprotein B (gB) coding part of the virus genome, except that a unique restriction site, introduced by the aforementioned mutagenesis step, allowed post-amplification differentiation of control/non-control target amplified product. This technique was initially validated using known amounts of cloned control/non-control target DNA, and was found to be sufficiently sensitive to allow the quantification of a range of 10 to 106 genome equivalents of virus. The method was applied to urine samples of congenitally infected infants for which infectious virus titres were available. The results obtained demonstrated that the number of infectious virions determined by conventional cell culture represented a small proportion of the HCMV genome present in the samples, as assessed by the quantitative PCR methodology.
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Polyadenylic:polyuridylic acid-induced protection of BALB/c mice against acute murine cytomegalovirus infection
More LessTreatment of BALB/c mice with poly(A):poly(U) 18 h prior to infection with a lethal dose of murine cytomegalovirus (MCMV) increased survival. In parallel with increased survival, a 10- to 100-fold reduction of plaque-forming MCMV was found in the liver and spleen of mice 4 days post-infection with a sublethal dose of MCMV. Poly(A):poly(U) did not significantly increase natural killer cell activity or prolong the duration of elevated cytotoxic activity in infected animals. The possible role of interferon in the poly(A):poly(U)-induced protection of BALB/c mice is discussed.
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Demonstration of sites of latency of infectious laryngotracheitis virus using the polymerase chain reaction
More LessMature laying chickens were inoculated intratracheally with a field strain of infectious laryngotracheitis (ILT) virus. Tracheal swabs were collected regularly from all birds for virus culture. At various times post-inoculation, pairs of birds were killed and tissues removed for detection of virus products using conventional tissue homogenization and culture, organ culture, indirect immunofluorescence (IF) and also the polymerase chain reaction (PCR). The latter was used to detect a DNA sequence from the ILT virus thymidine kinase gene. Following inoculation the birds developed mild respiratory disease with clinical signs characteristic of ILT from 3 to 10 days post-inoculation. Trachea and turbinate tissues were virus-positive as determined by virus isolation, organ culture, IF and PCR on day 4 post-inoculation. After recovery from the acute phase, virus shedding initially ceased, then intermittent, low level shedding was recorded for five of the six remaining birds. In an attempt to locate sites of latency, pairs of birds were sampled at 31, 46 and 61 days post-inoculation. Virus was not detected in upper respiratory tract or ocular tissues by conventional techniques, or in the trigeminal, proximal and distal ganglia. All tissues were also negative by PCR, except for the trigeminal ganglia of five of the six birds. All PCR-positive birds had previously shed ILT virus intermittently between days 19 and 59 post-inoculation. As we did not detect viral DNA in any of the other tissues sampled from clinically recovered birds, we conclude that the trigeminal ganglion is the main site of latency of ILT virus.
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Replication of a mutant hepatitis B virus with a fused X-C reading frame in hepatoma cells
More LessWe have previously described a mutant hepatitis B virus (HBV) with a fused X-C open reading frame (ORF) resulting from a single nucleotide insertion in the X-C overlapping region. A stably transformed cell line producing HBV particles, HepG2-K8, was established by transfecting the human hepatoma cell line HepG2 with a plasmid carrying four tandem repeats of the mutant HBV genome. The virus particles secreted into the culture medium were characterized by density gradient centrifugation and electron microscopy. The particles, similar to Dane particles by morphology and density, contained the mature HBV genome and endogenous DNA polymerase activity. Six HBV-specific transcripts of 4.0, 3.5, 2.2, 2.1, 1.2 and 0.9 kb were detected in HepG2-K8 cells by Northern blot analysis. cDNA cloning and sequence analysis of X mRNA showed that an elongated X ORF encoding 193 amino acids was created by a frameshift mutation in the 3′-terminal region of the wild-type X ORF and that the formation of an in-frame termination codon (TAA) resulted from polyadenylation. This elongated X gene product exerted transcriptional trans-activation.
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The complete sequence of African horsesickness virus serotype 4 (vaccine strain) RNA segment 5 and its predicted polypeptide compared with NS1 of bluetongue virus
The complete sequence of RNA segment 5 of the African horsesickness virus serotype 4 (AHSV-4) vaccine strain was determined from cDNA clones inserted into pBR322. The RNA is 1751 bp long (M r 1.12 × 106) and contains an open reading frame encoding a protein of 548 amino acids (M r 63 122) with a net charge of +0.5 at neutral pH. A comparison of the sequence of AHSV-4 segment 5 with that of segment 6 of bluetongue virus (BTV) serotypes 10 and 17 revealed 49.2% and 48.9% nucleotide similarity, respectively, and 31.4% amino acid similarity. However, AHSV-4 segment 5 has no significant similarity to BTV segment 5. In addition, Northern blot hybridization showed that full-length AHSV-4 segment 5 cDNA cross-hybridized with the corresponding genes of all serotypes of attenuated AHSV.
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The cloning, sequencing and expression of a major antigenic region from the feline calicivirus capsid protein
More LessRNA purified from the feline calicivirus (FCV) F9 vaccine strain was used to prepare a cDNA library in the expression vector λgt11. The library was screened for expression of FCV antigen using a rabbit antiserum prepared against purified FCV. A 330 bp cDNA clone was identified and used as a probe to obtain a larger overlapping clone of 1369 bp. Comparative sequence analysis with the CFI and F4 strains showed that the clones were derived from the 3′ open reading frame encoding the capsid protein. The region encoded by the 330 bp clone was shown to be variable in the three strains compared, and therefore the probable location of major antigenic variation. This clone was expressed in a bacterial system and antiserum to the recombinant protein was used in immunoblots to confirm that this clone was derived from the gene encoding the capsid protein. From these immunoblots, several other capsid-related polypeptides were identified. Comparison with immunoblots using post-vaccination cat sera showed the antibody response in the cat was directed mainly against the capsid protein. Antiserum to the recombinant protein was shown to be effective in neutralizing the infectivity of FCV, indicating that at least one major neutralizing epitope had been cloned.
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Location of monoclonal antibody binding sites in the capsid protein of feline calicivirus
More LessWe report the localization of three monoclonal antibody (MAb) binding sites in the capsid protein of feline calicivirus. Gene fragments were generated by restriction enzyme digestion or the polymerase chain reaction, and expressed as β-galactosidase fusion proteins in Escherichia coli. These chimeric molecules were screened using three MAbs. A non-neutralizing MAb recognized a region within 36 amino acids of the C terminus. Two neutralizing MAbs bound to a different region of 37 amino acids in the centre of the protein. Comparative sequence analysis shows this area to be the major variable region of the capsid protein.
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Sequence comparison between the phosphoprotein mRNAs of human and bovine respiratory syncytial viruses identifies a divergent domain in the predicted protein
More LessThe nucleotide and deduced amino acid sequences of the phosphoprotein (P) mRNA of bovine respiratory syncytial virus (BRSV) strain A51908 have been determined. The P mRNA is 860 nucleotides long with a single large open reading frame and the encoded polypeptide is 241 amino acids long. Comparison with the corresponding sequences of human respiratory syncytial virus (HRSV) subgroups A and B revealed 72 to 74% identity at the nucleotide level, and 81% at the amino acid level. The P protein contains a single divergent domain (37% amino acid identity) flanked by highly conserved domains (87% amino acid identity). The 3′ end non-coding region is 47 nucleotides shorter than the corresponding region of HRSV. Comparison of the P mRNA sequences of two strains of BRSV (A51908 and FS-1) showed that there was extensive sequence identity at both the nucleotide (97%) and amino acid (97.9%) levels.
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Highly conserved epitope domain in major core protein p24 is structurally similar among human, simian and feline immunodeficiency viruses
Linear B cell epitopes were mapped on the major core protein p24 of human immunodeficiency virus type 1 (HIV-1), simian immunodeficiency virus (SIVAGM) and feline immunodeficiency virus (FIV) using a fusion protein-based method and murine monoclonal antibodies reactive against the p24 antigens expressed on the surface of HIV-1- and FIV-infected cells. The results suggest that the sites identified here are encoded at similar positions in the three virus genomes and consist of highly conserved epitopes, which could exhibit immunodominance.
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Inhibition of viral replication by monoclonal antibodies directed against human immunodeficiency virus gp120
Monoclonal antibodies (MAbs) were raised against the glycoprotein gp120 of human immunodeficiency virus type 1 (strain HTLV-IIIB). The reactivity of five selected MAbs was characterized in several tests: ELISA, immunostaining of Western blots, immunofluorescence, immunoprecipitation, immunoelectron microscopy, alkaline phosphatase-anti-alkaline phosphatase assay and neutralization. The binding region was delimited by sequential overlapping Escherichia coli fusion proteins of the gp120 sequence between amino acids (aa) 49 and 280. In the ELISA, when using sequential overlapping 15 aa peptides, the binding epitopes were localized between aa 64 and 78 for three MAbs and between aa 114 and 123 for the fourth Mab. The fifth Mab showed multiple reactions with different peptides possibly indicating a reaction with a discontinuous epitope. In virus growth inhibition assays, all five MAbs inhibited the spread of HIV-1 infection in cell cultures after a single or repeated treatment at a concentration of 63 µg/ml of the purified MAbs. All MAbs showed low but significant neutralizing activity at concentrations of 100 µg/ml.
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Mapping of sequential epitopes recognized by monoclonal antibodies on the bovine leukaemia virus external glycoproteins expressed in Escherichia coli by means of antipeptide antibodies
A λ gt11 cDNA library prepared from bovine leukaemia virus (BLV)-producing ovine cells was screened with a cocktail of anti-BLV gp51 monoclonal antibodies (MAbs). Four recombinant phages with inserts of about 2.5 kbp were isolated. One, λ BLV-gp51-1, was sequenced and shown to encode the C-terminal part of gp51 and all of gp30. This insert was subcloned into pEV-vrf1 and expressed in Escherichia coli N-4830-1 cells. The BLV product and a series of antipeptide antibodies were used to localize the sequential epitopes defined on BLV envelope glycoprotein gp51 by their reactivity with MAbs. Epitope B was localized to amino acids 180 to 205, B′ to residues 195 to 205, D and D′ to residues 218 to 237, and A to amino acids 249 to 260. All the mapped sequential epitopes were localized in the C-terminal half of BLV gp51. The results of epitope mapping with bacterially produced gp51 confirm the map obtained using native viral glycoprotein.
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Expression of human endogenous retroviral sequences in peripheral blood mononuclear cells of healthy individuals
More LessThe polymerase chain reaction was used to detect expression of retroviral sequences with oligonucleotide primers derived from conserved regions of the retroviral genome. Four primer pairs derived from gag and one from pol were used in amplification of reverse-transcribed total RNA prepared from peripheral blood mononuclear cells of seven blood donors. The amplification pattern was the same from each of the seven samples. Sequencing of cloned amplification products revealed that at least three subclasses of sequences related to the human endogenous retroviruses (HERV) RTVL-H, HERV-E and HERV-K, are expressed in peripheral blood mononuclear cells of healthy individuals. This has not been previously reported.
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Two novel viruses associated with severe disease symptoms of the green stinkbug Nezara viridula
More LessTwo viruses were isolated from green stinkbugs (Nezara viridula) with severe disease symptoms. These viruses have been named N. viridula virus type 1 (NVV-1) and NVV-2 according to their relative sedimentation coefficients. NVV-1 is a small picorna-like virus with a diameter of 29 nm, a buoyant density in CsCl of 1.34 g/ml and a sedimentation coefficient of 153S. NVV-1 particles contain a 9.4 kb ssRNA segment and have three coat proteins of M rs 32100, 31500 and 30700. NVV-2 sediments as two components on sucrose gradients; the top 104S component consists almost entirely of 41 nm empty capsids and the faster sedimenting 177S component consists of intact 39 nm spherical particles. NVV-2 particles have a buoyant density in CsCl of 1.39 g/ml and consist of one major protein of M r 73800 and at least two minor proteins of M rs 13500 and 16500. Only one dsRNA segment of 6.2 kb was identified. The properties of NVV-2 are similar to those of the Totiviridae. Individual stinkbugs were infected with either NVV-1 or NVV-2, or with a mixture of the two viruses. Re-infection of virus-free stinkbugs with the mixture resulted in typical disease symptoms. Both viruses were vertically transmitted through the eggs and insects were infected by surface contamination of their food source.
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Sequence analysis of the 3′-terminal halves of RNA 1 of two strains of barley mild mosaic virus
More LessDNA complementary to the 3′-terminal halves of RNA 1 of two strains of barley mild mosaic virus (BaMMV) from Japan, BaMMV-Ka1 and BaMMV-Na1, was cloned and sequenced. The sequences start within a single long open reading frame (ORF), and are followed by 337 and 338 3′ non-coding nucleotides, for BaMMV-Ka1 and BaMMV-Na1 respectively. The two strains have 88% nucleotide identity in the ORFs and 92% identity in the non-coding regions. The putative ORF products contain the capsid proteins at the C termini, as indicated by amino acid sequence analysis, and two putative non-structural proteins are arranged in the same manner as in RNA 1 of barley yellow mosaic virus (BaYMV). The deduced capsid proteins of BaMMV-Ka1 and BaMMV-Na1 each contain 251 amino acids and have 94% sequence identity, which is compatible with their close serological relationship. Most of the sequence differences between the two capsid proteins are found in the N-terminal region, and might explain their serological differences. Significant sequence similarities of the capsid proteins of the two BaMMV strains (37 and 35% respectively) with that of BaYMV, and their marginal similarities (21 to 26%) to the capsid proteins of aphid-borne or mite-borne potyviruses support the classification of BaMMV and BaYMV as distinct members of the same virus group, which is separate from the group(s) containing aphid-borne or mite-borne potyviruses.
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A zucchini yellow mosaic virus coat protein gene mutation restores aphid transmissibility but has no effect on multiplication
More LessAn aphid-transmissible (AT) and two non-aphid-transmissible (NAT) isolates of zucchini yellow mosaic virus (ZYMV) were studied. The predicted amino acid sequences of the coat protein (CP) of the three virus isolates were analysed and compared. The NAT isolates differed from the AT isolate in having a Thr instead of an Ala residue at position 10 in the conserved Asp-Ala-Gly triplet in the N-terminal region of CP. Aphid transmissibility was restored in a progeny virus derived from an infectious clone of the ZYMV-NAT isolate in which Thr was changed back to Ala by site-directed mutagenesis. However this mutation did not have any effect on the multiplication rate in squash, which was significantly higher than that of the AT isolate. The involvement of this mutation in aphid transmission and virus multiplication is discussed.
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The nucleotide sequence of RNA-2 of raspberry ringspot nepovirus
More LessThe nucleotide sequence of raspberry ringspot nepovirus (RRV) RNA-2 consists of 3928 nucleotides and a poly(A) tract at the 3′ end. RNA-2 contains one open reading frame which encodes a polypeptide of M r 123508 (123K). Edman degradation located the N terminus of the coat protein 514 residues from the C-terminal end of the 123K protein, which suggests that the coat protein is released from the polyprotein by cleavage of a C-A bond. The RRV coat protein has some sequence similarities with the coat proteins of other nepoviruses, but is no more like any one nepovirus than another. In contrast, the portion of the 123K protein to the N-terminal side of the coat protein is similar in sequence to the corresponding parts of the polyproteins of tomato black ring and grapevine chrome mosaic nepoviruses, though not to those of other nepoviruses.
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The nucleotide sequence of red clover mottle virus bottom component RNA
More LessThe complete nucleotide sequence of the bottom component RNA (B RNA) of red clover mottle virus strain S has been determined. The sequence consists of 6033 nucleotides and contains a single long open reading frame sufficient to encode a protein of M r 210258. The proteolytic processing sites within this protein have been deduced by comparison of its sequence with that of the B RNA-encoded protein of cowpea mosaic virus. Comparison of the amino acid sequences of the individual proteins confirms that the two viruses have a similar genome organization.
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Nucleotide sequence of carnation ringspot dianthovirus RNA-2
More LessRNA-2 of carnation ringspot virus (CRSV), the type member of the dianthovirus group, has been cDNA cloned and sequenced. CRSV RNA-2 is 1394 nucleotides in length and contains a single open reading frame encoding a 304 amino acid polypeptide of 33.8K. Amino acid sequence alignment of this polypeptide with the cell-to-cell movement proteins encoded by RNA-2 of red clover necrotic mosaic virus (RCNMV) Australian (Aus) and Czechoslovakian (TpM-34) isolates indicates 59.6% and 55.7% sequence identity, respectively. The N-terminal 230 amino acids are more highly conserved, with 64.3% and 62.6% sequence identity, respectively. The cell-to-cell movement proteins of the two RCNMV isolates are themselves 82.5% and 91.7% identical when the amino-terminal 230 amino acids are compared. Structural prediction comparison of the RCNMV-Aus, RCNMV-TpM-34 and tobacco mosaic virus cell-to-cell movement proteins to the putative CRSV RNA-2-encoded movement protein suggests that even though no primary amino acid sequence similarity exists, the movement protein polypeptides are possibly similar in structure and function.
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A comparative study of the RNA-2 nucleotide sequences of two sweet clover necrotic mosaic virus strains
More LessThe nucleotide sequences of the RNA-2s of two strains of sweet clover necrotic mosaic virus (SCNMV-38 and -59) have been determined. The RNA-2s of SCNMV-38 and -59 consist of 1446 and 1449 nucleotides, respectively, and both contain one major open reading frame (ORF) which potentially can encode polypeptides of 326 amino acid residues (about 36.5K), designated SC38P2 and SC59P2, respectively. The nucleotide sequences of SCNMV-38 and -59 RNA-2s show 93.2% similarity, and the amino acid sequences of SC38P2 and SC59P2 are 91.7% identical, although the identical nucleotides and amino acids are not distributed uniformly in RNA-2 and the encoded proteins. Two highly conserved regions (from positions 23 to 221 and 297 to 326) and a relatively divergent region (from positions 222 to 296) are found in the P2 proteins of these strains. A similar pattern is apparent on comparison of the nucleotide and deduced amino acid sequences of RNA-2 of these SCNMV strains with those of the Australian and Czechoslovakian isolates of red clover necrotic mosaic virus.
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