Identification and characterization of pseudorabies virus dUTPase.

Sequence analysis within the long segment of the pseudorabies virus (PrV) genome identified an open reading frame of 804 bp whose deduced protein product of 268 amino acids exhibited homology to dUTPases of other herpesviruses. The gene was designated UL50 because of its colinearity with the homologous gene of herpes simplex virus type 1. An antiserum raised against a bacterially expressed fragment of PrV UL50 specifically detected a 33-kDa protein in lysates of infected cells, which is in agreement with the predicted molecular mass of the PrV UL50 protein. A UL50-negative PrV mutant (PrV UL50-) was constructed by the insertion of a beta-galactosidase expression cassette into the UL50 coding sequence. A corresponding rescuant (PrV UL50resc) was also isolated. The interruption of the UL50 gene led to the disappearance of the 33-kDa protein, whereas restoration of UL50 gene expression restored detection of the 33-kDa protein. Enzyme activity assays confirmed that UL50 of PrV codes for a dUTPase which copurifies with nuclei of infected cells. PrV UL50- replicated with an only slightly reduced efficiency in epithelial cells in culture compared with that of its parental wild-type virus strain. Our results thus demonstrate that UL50 of PrV encodes a protein of 33 kDa with dUTPase activity which copurifies with nuclei of infected cells and is dispensable for replication in cultured epithelial cells.