Analysis of genomic rearrangement and subsequent gene deletion of the attenuated Orf virus strain D1701

Abstract

The orf virus (OV) strain D1701 belongs to the genetically heterogenous parapoxvirus (PPV) genus of the family Poxviridae. The attenuated OV D1701 has been licensed as a live vaccine against contagious ecthyma in sheep. Detailed knowledge on the genetic structure and organization of this PPV vaccine strain is an important prerequisite to reveal possible genetic mechanisms of PPV attenuation. The present study demonstrates a genomic map of the approximately 158 kbp DNA of OV D1701 established by hybridization studies of cloned restriction fragments covering the complete viral genome. The results show an enlargement of the inverted terminal repeats (ITR) to up to 18 kbp due to recombination between nonhomologous sequences during cell culture adaptation. DNA sequencing of the region adjacent to the ITR junction revealed the absence of one open reading frame designated E2L. In contrast to a transposition-deletion variant of the New Zealand OV strain NZ2 ( Fleming et al., 1995) the two genes E3L (a homologue of dUTPase) and G1L neighbouring E2L are retained in OV D1701. DNA and RNA analyses proved the presence of E2L gene in wild-type OV isolated directly from scab material. The data presented indicate that the E2L gene is nonessential for virus replication in vitro and in vivo, and may represent one important viral gene in determining virulence and pathogenesis of OV.