The DNA sequence was determined for a region of the pseudorabies virus (PRV) genome to which a mutation defining resistance to a monoclonal antibody has been mapped (M. W. Wathen and L. M. K. Wathen, J. Virol., 51:57-62, 1984). This sequence was found to contain an open reading frame that did not include an amino acid sequence directing N-linked glycosylation. This open reading frame was expressed in uninfected Chinese hamster ovary cells to produce the PRV glycoprotein gp50. When PRV-infected Vero cells were incubated in the presence of tunicamycin, the gp50 that was produced had an identical molecular weight to that produced in the absence of drug. When infected cells were incubated in the presence of monensin, the molecular weight of gp50 was reduced from 60,000 to 45,000, but was not sensitive to endo-Ii-N-acetylglucosaminidase H. These observations led to the conclusion that gp5O does not contain N-linked carbohydrate, as predicted from the DNA sequence. A region of the amino acid sequence and the positions of the cysteine residues of PRV gp5O are homologous to glycoprotein D of herpes simplex virus.
RNA from pseudorabies virus (PRV)-infected cells was translated in a reticulocyte lysate with and without the addition of dog pancreas microsomes. Upon addition of the microsomes to the translation reaction, an additional prominent protein product was observed that was not present when microsomes were omitted. The gene coding for this processed protein and its lower-molecular-weight precursor was mapped within the small unique region of the genome by hybridization of mRNA to cloned fragments of PRV DNA and translation of the selected mRNAs. A fragment of the coding region of this gene was inserted into an open reading frame cloning vector to express part of this gene as a hybrid protein in Escherichia coli. This hybrid protein was injected into mice to raise an antiserum which was found to precipitate the glycoprotein which accumulates in the medium of PRV-infected cells. This allows us to conclude that the gene for the "excreted" glycoprotein (gX) maps to the small unique region of the genome, and that the precursor of this glycoprotein is readily processed by dog pancreas microsomes. The region of the PRV genome which codes for this glycoprotein was sequenced and found to include an open reading frame coding for 498 amino acids, flanked by sequences which contain features common to eucaryotic promoters and polyadenylation signals. The predicted protein sequence includes a hydrophobic sequence at the N-terminus which could be a signal sequence, and a hydrophobic sequence followed by a hydrophilic sequence at the C-terminus.
The pseudorabies virus vaccine strains Norden and Bartha each have been reported to have deletions in the small unique component of the genome (B. Lomniczi, M. L. Blankenship, and T. Ben-Porat, J. Virol. 49:970-979, 1984). The deletion in Norden was shown to delete the entire coding region for gI but not any of the coding sequences for gp63. However, gp63 in Norden-infected cells was only 36 kilodaltons, and a 44-kilodalton form of gp63 was released into the medium. In Bartha, the deletion removed the coding region for all but 89 amino acids of gp63, and no gp63 was detected in either Bartha-infected cells or medium.
A library of pseudorabies virus (PRV) DNA fragments was constructed in the expression cloning vector Agtll. The library was screened with antisera which reacted with mixtures of PRV proteins to isolate recombinant bacteriophages expressing PRV proteins. By the nature of the Agtll vector, the cloned proteins were expressed in Escherichia coli as I-galactosidase fusion proteins. The fusion proteins from 35 of these phages were purified and injected into mice to raise antisera. The antisera were screened by several different assays, including immunoprecipitation of [14C]glucosamine-labeled PRV proteins. This method identified phages expressing three different PRV glycoproteins: the secreted glycoprotein, gX; gI; and a glycoprotein that had not been previously identified, which we designate gp63. The gp63 and gI genes map adjacent to each other in the small unique region of the PRV genome. The DNA sequence was determined for the region of the genome encoding gp63 and gI. It was found that gp63 has a region of homology with a herpes simplex virus type 1 (HSV-1) protein, encoded by US7, and also with varicella-zoster virus (VZV) gpIV. The gI protein sequence has a region of homology with HSV-1 gE and VZV gpl. It is concluded that PRV, HSV, and VZV all have a cluster of homologous glycoprotein genes in the small unique components of their genomes and that the organization of these genes is conserved. * Corresponding author. another major glycoprotein, glil, has been mapped (40) and shown to have homology with the HSV gC gene (39). The gene for a minor PRV glycoprotein, gp5O, was mapped by
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