Genome Sequence of Bovine Herpesvirus 4, a Bovine Rhadinovirus, and Identification of an Origin of DNA Replication (original) (raw)
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Molecular typing of a BHV-4 (bovine herpesvirus 4) field isolate
Veterinary research communications, 2000
A new BHV-4 (bovine herpesvirus 4) isolated from a case of bovine interdigital dermatitis was characterized by PCR and restriction enzyme analysis. To determine whether the new isolate (PR/1) belonged to BHV-4, DNA from infected cells was specifically amplified by PCR. We used a set of primers spanning a large 2.571 kb conserved region of the BHV-4 genome, including the 3' end of ORF1 (homologous to the EBV BVRF1 gene), ORF2 (homologous to the EBV BXRF1 gene), ORF3 (TK gene) and ORF4 (gH gene) 5' end, respectively. The identity of the amplified product was confirmed by HindIII restriction enzyme digestion and Southern hybridization. No product was observed from the DNA of other bovine herpesviruses tested. The restriction patterns of the PR/ 1 genome compared to DN 599, MOVAR 33/63 and LVR BHV-4 reference strains showed two kinds of differences, either related or not related to the prDNA (polyrepetitive DNA). Taken together, these data show that PR/ 1 is a new BHV-4. We woul...
Journal of General Virology, 1995
Bovine herpesvirus 4 (BHV-4) DNA sequences located outside the gene blocks conserved among the gammaherpesviruses BHV-4, herpesvirus saimiri (HVS) and Epstein-Barr virus (EBV) were analysed. Twelve potential open reading frames (ORFs) were found. Protein database comparisons showed that no ORF translation products were similar to proteins encoded by alpha-or betaherpesviruses. Nevertheless, six of the ORFs were homologous in amino acid sequences to proteins encoded by HVS but apparently not to those encoded by EBV. Furthermore, the location and orientation of these six ORFs in the BHV-4 genome were similar to the corresponding ORFs in the HVS genome. No genes homologous to known cellular genes were found in the BHV-4 genome; this feature is the major difference between the BHV-4 and HVS genomes with regards to the overall gene content. 0001-3073 © 1995 SGM
Characterization of the bovine herpesvirus 4 major immediate-early transcript
Journal of Virology
The major immediate-early (IE) RNA of bovine herpesvirus 4 (BHV-4) has been identified and characterized by analyzing cytoplasmic polyadenylated RNA isolated from Madin-Darby bovine kidney cells infected with in the presence of cycloheximide. Hybridization of cDNA to Southern blots of viral DNA, Northern (RNA) blot analysis, and Si nuclease analyses showed that the major BHV-4 IE RNA is a spliced, 1.7-kb RNA, which is transcribed from right to left on the restriction map of the BHV-4 genome from DNA contained in the 8.3-kb HindIll fragment E. The major IE RNA contains three small exons at its 5' end, spliced to a 1.3-kb 3' exon. This RNA is present in much-reduced amounts when cells are infected in the absence of cycloheximide. However, late in infection, the major IE RNA gene region encodes abundant RNAs which differ in structure from the major IE RNA. Nucleotide sequence analysis of the gene encoding the major IE RNA revealed an open reading frame encoding 284 amino acids. A homology search of amino acid sequence data bases showed that a 141-amino-acid region near the amino terminus of the predicted amino acid sequence is similar to sequences near the amino terminus of herpes simplex virus type 1 IE110. This region of homology includes CXXC pairs, which could be involved in zinc finger structures. The region encoding this putative zinc finger domain is also found in RNAs transcribed from this IE region late in infection, but it is spliced to different sequences than those used in IE RNA. Thus, the major IE region of the BHV-4 genome could encode a family of proteins sharing a zinc finger domain. 5211 5212 VAN SANTEN MATERIALS AND METHODS Cell culture and virus propagation. MDBK cells and BHV-4(DN-599 isolate) were obtained from David Stringfellow, Department of Pathobiology, Auburn University. Cells were cultured in Dulbecco's modified Eagle medium containing penicillin, streptomycin, and 10% defined, supplemented bovine serum. Virus was propagated by infecting confluent monolayers with 1 50% tissue culture infective dose (TCID50) per five cells. After 4.5 days, cultures were frozen and thawed three times to release virus. After removal of cell debris by low-speed centrifugation, the TCID50 was determined 10 to 14 days after infection of MDBK cells by limiting dilution. Virus stock thus obtained was stored at -80°C.
Bovine Herpesvirus 4 Genome: Cloning, Mapping and Strain Variation Analysis
Journal of General Virology, 1990
The restriction map of the bovine herpesvirus 4 (BHV-4) genome (V. Test strain) was established for the restriction enzymes EcoRI, BamHl and HindlII by analysis of clones from a lambda library (Sau3AI partial digestion) and from a plasmid library (EcoRI fragments). One genome unit was defined as the length of the unique central part, flanked at both ends by one of the terminal tandem repeats called polyrepetitive DNA (prDNA) and was estimated to be 113 + 2 kbp. A restriction map of the prDNA of the V. Test strain showed internal 200 bp tandem repeats of different sequences. This region in the prDNA was highly polymorphic between BHV-4 strains, even in a viral DNA preparation from a plaque-purified strain. The right junction between the repeated and the unique sequence of the genome occurred at an almost constant site, but the left junction contained a modified prDNA and was variable between BHV-4 strains. The unique central part of the genome was very similar in the four strains under consideration, with a few variations due to the presence or absence of a restriction site and four length variations were observed, located at positions 0.006 to 0-034 (left end), 0-211 to 0-225, 0-864 to 0-881 and 0.962 to 0-984 (right end). The total length variation of 1 genome unit does not exceed 1 kbp.
Analysis of the transcripts encoding for antigenic proteins of bovine gammaherpesvirus 4
Journal of Veterinary Science, 2020
The major glycoproteins of bovine gammaherpesvirus 4 (BoHV-4) are gB, gH, gM, gL, and gp180 with gB, gH, and gp180 being the most glycosylated. These glycoproteins participate in cell binding while some act as neutralization targets. Glycosylation of these envelope proteins may be involved in virion protection against neutralization by antibodies. In infected cattle, BoHV-4 induces an immune response characterized by low neutralizing antibody levels or an absence of such antibodies. Therefore, virus seroneutralization in vitro cannot always be easily demonstrated. The aim of this study was to evaluate the neutralizing capacity of 2 Argentine BoHV-4 strains and to associate those findings with the gene expression profiles of the major envelope glycoproteins. Expression of genes coding for the envelope glycoproteins occurred earlier in cells infected with isolate 10/154 than in cells infected with strain 07/435, demonstrating a distinct difference between the strains. Differences in serological response can be attributed to differences in the expression of antigenic proteins or to post-translational modifications that mask neutralizing epitopes. Strain 07/435 induced significantly high titers of neutralizing antibodies in several animal species in addition to bovines. The most relevant serological differences were observed in adult animals. This is the first comprehensive analysis of the expression kinetics of genes coding for BoHV-4 glycoproteins in 2 Argentine strains (genotypes 1 and 2). The results further elucidate the BoHV-4 life cycle and may also help determine the genetic variability of the strains circulating in Argentina.
Variation in the pathogenic potential and molecular characteristics of bovid herpesvirus-4 isolates
Veterinary …, 1991
Variation in the pathogenic potential and molecular characteristics of bovid herpesvirus-4 isolates. Vet. Microbiol., 27: 1-18. Seven bovid herpesvirus-4 (BHV-4) isolates recovered from various clinical conditions of cattle were studied for their pathogenic potential in pregnant rabbits. These viruses were originally recovered from respiratory and reproductive tract infections of cattle. A virus dose of 4 × 1068TC1Dso per fetus was inoculated via the intrauterine route in I 0-and 17-day pregnant rabbits. Clinical, virologic, and pathologic data were collected to compare the effect of each isolate on does and fetuses/kits. Three isolates (LVR-140, QVR-3140 and 86-068) caused abortion, fetal reabsorption and/or mummification in inoculated rabbits. Virus was recovered from tissues of inoculated rabbits (especially the spleen, ovaries and uterus) by organ explanation and/or co-cultivation. Intravenous inoculation of isolate 86-068 did not produce any clinical signs in either 10-or 17-day pregnant rabbits. All seven isolates of BHV-4 showed a predilection for the reproductive tract of pregnant rabbits but varied in the severity of disease signs produced. Variation was also observed in the genome of various isolates on the basis of restriction endonuclease (RE) analysis. Relationship of RE patterns to the variation in the pathogenic potential of seven BHV-4 isolates is discussed. INTRODUCTION Little information is available on the pathogenesis of bovid herpesvirus-4 (BHV-4), despite a high prevalence of antibodies to this virus in the cattle population of the United States of America and other countries (Truman et al., 1986; Guo et al., 1988; Naeem et al., 1989). This virus has been implicated in several disease conditions of cattle, especially reproductive tract dis-~To whom reprint requests should be addressed.
The Journal of general virology, 1999
The linear virion DNA of bovine herpesvirus type 4 (BHV-4) is flanked by tandem repeats designated polyrepetitive DNA (prDNA). To investigate the structure and functional role of the prDNA for cleavage/packaging of progeny viral DNA, the complete nucleotide sequence (2267 bp) of a cloned prDNA unit of BHV-4 was determined. Moreover, the terminal fragments of the genome and the junctions between prDNA and the central unique DNA were analysed. In order to characterize the function of the prDNA of BHV-4, a transient packaging assay was developed. The prDNA has a G+C content of 71.1%. Its structure is composed of numerous internal repeats and every unit contains the conserved sequence of the cleavage/packaging signal. A fragment of 443 bp comprising the cleavage/packaging signal was found to be sufficient for cleavage and encapsidation of replicated concatemeric viral DNA. These results suggest that prDNA is a functionally important region of the genome of BHV-4.
PLOS ONE, 2015
Bovine herpesvirus 4 (BoHV-4) is increasingly considered as responsible for various problems of the reproductive tract. The virus infects mainly blood mononuclear cells and displays specific tropism for vascular endothelia, reproductive and fetal tissues. Epidemiological studies suggest its impact on reproductive performance, and its presence in various sites in the reproductive tract highlights its potential transmission in transfer-stage embryos. This work describes the biological and genetic characterization of BoHV-4 strains isolated from an in vitro bovine embryo production system. BoHV-4 strains were isolated in 2011 and 2013 from granulosa cells and bovine oocytes from ovary batches collected at a local abattoir, used as "starting material" for in vitro production of bovine embryos. Compatible BoHV-4-CPE was observed in the co-culture of granulosa cells and oocytes with MDBK cells. The identity of the isolates was confirmed by PCR assays targeting three ORFs of the viral genome. The phylogenetic analyses of the strains suggest that they were evolutionary unlinked. Therefore it is possible that BoHV-4 ovary infections occurred regularly along the evolution of the virus, at least in Argentina, which can have implications in the systems of in vitro embryo production. Thus, although BoHV-4 does not appear to be a frequent risk factor for in vitro embryo production, data are still limited. This study reveals the potential of BoHV-4 transmission via embryo transfer. Moreover, the high variability among the BoHV-4 strains isolated from aborted cows in Argentina highlights the importance of further research on the role of this virus as an agent with the potential to cause reproductive disease in cattle. The genetic characterization of the isolated strains provides data to better understand the pathogenesis of BoHV-4 infections. Furthermore, it will lead to fundamental insights into the molecular aspects of the virus and the means by which these strains circulate in the herds.