Vaccinia virus A28L gene encodes an essential protein component of the virion membrane with intramolecular disulfide bonds formed by the viral cytoplasmic redox pathway.

We report the initial characterization of the product of the vaccinia virus A28L gene, which is highly conserved in all sequenced poxviruses. Our studies showed that the A28 protein is expressed at late times during the virus replication cycle and is a membrane component of the intracellular mature virion. An N-terminal hydrophobic sequence, present in all poxvirus A28 orthologs, anchors the protein in the virion surface membrane so that most of it is exposed to the cytoplasm. The cytoplasmic domain contains four conserved cysteines, which form two intramolecular disulfide bonds. Disulfide bond formation depended on the expression of three viral proteins, E10, A2.5, and G4, which together comprise a conserved cytoplasmic redox pathway. A28 is the third identified substrate of this pathway; the others are the L1 and F9 proteins. We constructed a conditional-lethal recombinant vaccinia virus with an inducible A28L gene. The recombinant virus was propagated in the presence of inducer but was unable to replicate and spread in its absence. During a single round of an abortive infection in the absence of inducer, the synthesis and processing of viral proteins, assembly of intra- and extracellular virions, and formation of actin tails occurred normally. In another paper (T. Senkevich, B. M. Ward, and B. Moss, J. Virol. 78:2357-2366, 2004), we have demonstrated that virions assembled without A28 cannot carry out a second round of infection because they are defective in cell penetration.