Characterization and localization of the unique Marek's disease virus type 2 ORF873 gene product.
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Studies on Marek's disease virus (MDV)-unique genes are important for understanding the biological nature of the virus. Based on complete DNA sequence analyses of the MDV genomes, the MDV genomes contain presumably at least five MDV-unique genes, which are commonly conserved among the three MDV serotypes. A recombinant baculovirus that contains the MDV serotype 2 (MDV2)-unique gene, ORF873, under the polyhedrin promoter was constructed and designated rAcORF873. Polyclonal and monoclonal antibodies, which recognize the recombinant MDV2 ORF873 protein in Spodoptera frugiperda clone 9 (Sf9) cells infected with rAcORF873, were prepared by immunizing mice with a recombinant fusion protein expressed in Escherichia coli. Immunoblot analyses with the antibodies revealed a major protein band with a molecular mass of 108-kDa in both MDV2-infected chick embryo fibroblasts (CEF) and rAcORF873-infected Sf9 cells. By indirect immunofluorescence analyses using monoclonal antibody, the authentic ORF873 protein was localized in the cytoplasm of MDV2-infected CEF cells. The monoclonal and polyclonal sera, which were generated in the present study and reacted effectively to MDV2 ORF873 protein, are considered to be useful reagents for further studying the role(s) of the ORF873 protein in MDV2 infection. (+info)
Marek's disease virus type 2 (MDV-2)-encoded microRNAs show no sequence conservation with those encoded by MDV-1.
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MicroRNAs (miRNAs) are increasingly being recognized as major regulators of gene expression in many organisms, including viruses. Among viruses, members of the family Herpesviridae account for the majority of the currently known virus-encoded miRNAs. The highly oncogenic Marek's disease virus type 1 (MDV-1), an avian herpesvirus, has recently been shown to encode eight miRNAs clustered in the MEQ and LAT regions of the viral genome. The genus Mardivirus, to which MDV-1 belongs, also includes the nononcogenic but antigenically related MDV-2. As MDV-1 and MDV-2 are evolutionarily very close, we sought to determine if MDV-2 also encodes miRNAs. For this, we cloned, sequenced, and analyzed a library of small RNAs from the lymphoblastoid cell line MSB-1, previously shown to be coinfected with both MDV-1 and MDV-2. Among the 5,099 small RNA sequences determined from the library, we identified 17 novel MDV-2-specific miRNAs. Out of these, 16 were clustered in a 4.2-kb long repeat region that encodes R-LORF2 to R-LORF5. The single miRNA outside the cluster was located in the short repeat region, within the C-terminal region of the ICP4 homolog. The expression of these miRNAs in MSB-1 cells and infected chicken embryo fibroblasts was further confirmed by Northern blotting analysis. The identification of miRNA clusters within the repeat regions of MDV-2 demonstrates conservation of the relative genomic positions of miRNA clusters in MDV-1 and MDV-2, despite the lack of sequence homology among the miRNAs of the two viruses. The identification of these novel miRNAs adds to the growing list of virus-encoded miRNAs. (+info)
Phylogeny and recombination history of gallid herpesvirus 2 (Marek's disease virus) genomes.
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Phylogenetic analyses based on concatenated amino acid sequences from orthologous loci from eight genomes of alpha herpesviruses infecting birds provided strong support for the following hypotheses: (1) gallid HV3 is a sister taxon to gallid HV2 but gallid HV1 is not closely related to the other two chicken herpesviruses; (2) meleagrid HV1 is closer to both gallid HV2 and gallid HV3 than is gallid HV1; (3) within gallid HV2, the virulent GA genome forms an outgroup to both the avirulent CVI988 genome and the highly virulent Md5 and Md11 genomes. Analysis of the pattern of synonymous nucleotide substitution between orthologous genes shared by four complete genomes of gallid HV2 showed strong evidence of past events of homologous recombination that homogenized certain loci between genomes. Eight of these loci represented cases of loci homogenized between the CVI988, on the one hand, and the Md5 and Md11 genomes, on the other hand. Two others represented loci where the GA genome was homogenized with those of Md5 and Md11. The two loci (UL49.5 and RLORF12) that were homogenized among the virulent genomes GA, Md5, and Md11 are candidates for contributing to viral virulence. (+info)
Functional homologies between avian and human alphaherpesvirus VP22 proteins in cell-to-cell spreading as revealed by a new cis-complementation assay.
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