The Conserved Poxvirus L3 Virion Protein Is Required for Transcription of Vaccinia Virus Early Genes

Abstract

We provide the initial characterization of the product of the vaccinia virus L3L open reading frame (VACWR090), which is conserved in all sequenced members of the poxvirus family. The predicted polypeptide contains no motifs or other features that provided a clue to the role of the L3 protein, and no functional information was available regarding a homolog discovered in Plasmodium falciparum . The L3 protein was expressed following viral DNA replication, a finding consistent with a putative late promoter sequence, and was packaged as a non-membrane protein in mature virus particles. A recombinant virus, in which the L3L gene was regulated by the Escherichia coli lac operator/repressor system, had a conditional lethal phenotype. The virus replicated in the presence of inducer, but in its absence, the yields of infectious virus were reduced by 99%. When cells were infected without inducer, however, no defect in gene expression or morphogenesis was noted. Virus particles lacking L3, which assembled in the absence of inducer, were indistinguishable from wild-type virions with regard to morphology, major structural proteins, and DNA content but were noninfectious. L3-deficient virions were able to bind and penetrate cells but produced extremely small amounts of viral early mRNA. A defect in transcription was demonstrated by in vitro studies with permeabilized virions, but soluble extracts of L3-deficient virions showed normal levels of template-dependent transcriptional activity, indicating that only transcription of the packaged genome is impaired.