Nucleotide sequence of XhoI O fragment of ectromelia virus DNA reveals significant differences from vaccinia virus.

The nucleotide sequence of the 3913 base pair XhoI O fragment located in an evolutionary variable region adjacent to the right end of the genome of ectromelia virus (EMV) was determined. The sequence contains two long open reading frames coding for putative proteins of 559 amino acid residues (p65) and 344 amino acid residues (p39). Amino acid database searches showed that p39 is closely related to vaccinia virus (VV), strain WR, B22R gene product (C12L gene product of strain Copenhagen), which belongs to the family of serine protease inhibitors (serpins). Despite the overall high conservation, differences were observed in the sequences of p39, B22R, and C12L in the site known to interact with proteases in other serpins, suggesting that the serpins of EMV and two strains of VV may all inhibit proteases with different specificities. The gene coding for the ortholog of p65 is lacking in the Copenhagen strain of vaccinia virus; the WR strain contains a truncated variant of this gene (B21R) potentially coding for a small protein (p16) corresponding to the C-terminal region of p65. p65 is a new member of the family of poxvirus proteins including vaccinia virus proteins A55R, C2L and F3L, and a group of related proteins of leporipoxviruses, Shope fibroma and myxoma viruses (T6, T8, T9, M9). These proteins are homologous to the Drosophila protein Kelch involved in egg development. Both Kelch protein and the related poxvirus proteins contain two distinct domains. The N-terminal domain is related to the similarly located domains of transcription factors Ttk, Br-C (Drosophila), and KUP (human), and GCL protein involved in early development in Drosophila. The C-terminal domain consists of an array of four to five imperfect repeats and is related to human placental protein MIPP. Phylogenetic analysis of the family of poxvirus proteins showed that their genes have undergone a complex succession of duplications, and complete or partial deletions.

[Search for unique segments of the ectromelia virus genome by cross blot hybridization with DNA from other orthopoxviruses]. / Poisk unikal'nykh uchastkov genoma virusa éktromelii metodom perekrestnoi blot-gibridizatsii s DNK drugikh ortopoksvirusov]

In order to identify ectromelia virus (EMV) genome regions which may contain genes responsible for the specific pathogenicity of this virus, blot cross-hybridization of EMV DNA with those of other orthopoxviruses was performed. Two hybridization schemes were employed: one of them included hybridization of labelled cloned fragments of EMV with digests of other viral DNAs, the other, reciprocal, consisted in hybridization of labelled total DNAs of various orthopoxviruses with digests of the region of EMV DNA adjacent to the right-terminal inverted repeat. It was demonstrated that the counterpart to an approximately 8-kilobase pair portion of EMV genome flanking the inverted repeat could be detected only in the cowpox virus genome but not in the genomes of vaccinia and rabbitpox viruses. XhoI-O and XhoI-K fragments of EMV DNA contained, along with genes found in other poxviruses, certain genes which appeared to be unique for EMV. It is postulated that some of these genes may determine the specific biological properties of EMV, including its pathogenicity for mice.