Genetic manipulation of equine arteritis virus using full-length cDNA clones: Separation of overlapping genes and expression of a foreign epitope

Equine arteritis virus (EAV) is an enveloped, positive-stranded RNA virus b elonging to the family Arteriviridae of the order Nidovirales. The unsegmen ted, infectious genome of EAV is 12,704 nt in length [exclusive of the poly (A) tail] and contains eight overlapping genes that are expressed from a 3' -coterminal nested set of seven leader-containing mRNAs. To investigate the importance of the overlapping gene arrangement in the viral life-cycle and to facilitate the genetic manipulation of the viral genome, a series of mu tant full-length cDNA clones was constructed in which either EAV open readi ng frames (ORFs) 4 and 5 or ORFs 5 and 6 or ORFs 4, 5, and 6 were separated by newly introduced AflII restriction endonuclease cleavage sites. RNA tra nscribed from each of these plasmids was infectious, demonstrating that the overlapping gene organization is not essential for EAV viability. Moreover , the recombinant viruses replicated with almost the same efficiency, i.e., reached nearly the same infectious titers as the wildtype virus, and stabl y maintained the mutations that were introduced. The AflII site engineered between ORFs 5 and 6 was subsequently used to generate a virus in which the ectodomain of the ORF 6-encoded M protein was extended with nine amino aci ds derived from the extreme N-terminus of the homologous protein of mouse h epatitis virus (MHV; family Coronaviridae, order Nidovirales). This nonapep tide contains a functional O-glycosylation signal as well as an epitope rec ognized by an MHV-specific monoclonal antibody, both of which were expresse d by the recombinant virus. Although the hybrid virus had a clear growth di sadvantage in comparison to the parental virus, three serial passages did n ot result in the loss of the foreign genetic material. (C) 2000 Academic Pr ess.