Characterization of the Vaccinia Virus A35R Protein and Its Role in Virulence
Date
2006-01
Authors
Roper, Rachel L.
Journal Title
Journal ISSN
Volume Title
Publisher
East Carolina University
Abstract
The vaccinia virus A35R gene is highly conserved among poxviruses and encodes a previously uncharacterized
hydrophobic acidic protein. Western blotting with anti-A35R peptide antibodies indicated that the protein
is expressed early in infection and resolved as a single sharp band of 23 kDa, slightly higher than the 20 kDa
predicted from its sequence. The protein band appeared to be the same molecular weight on sodium dodecyl
sulfate-polyacrylamide gel electrophoresis, whether expressed in an in vitro transcription/translation system
without microsomes or expressed in infected cells, suggesting that it was not glycosylated. A mutant virus with
the A35R gene deleted (vA35 ) formed wild-type-sized plaques on all cell lines tested (human, monkey, mouse,
and rabbit); thus, A35R is not required for replication and does not appear to be a host range gene. Although
the A35R protein is hydrophobic, it is unlikely to be an integral membrane protein, as it partitioned to the
aqueous phase during TX-114 partitioning. The protein could not be detected in virus-infected cell supernatants.
A35R localized intracellularly to the virus factories, where the first stages of morphogenesis occur. The
vA35 mutant formed near-normal levels of the various morphogenic stages of infectious virus particles and
supported normal acid-induced fusion of virus-infected cells. Despite normal growth and morphogenesis in
vitro, the vA35 mutant virus was attenuated in intranasal challenge of mice compared to wild-type and A35R
rescue virus. Thus, the intracellular A35R protein plays a role in virulence. The A35R has little homology to
any protein outside of poxviruses, suggesting a novel virulence mechanism. Originally published Journal of Virology, Vol. 80, No. 1, Jan 2006
Description
Keywords
Citation
Journal of Virology; 80:1 p. 306-313