Abstract
The mechanism of genome packaging in adenoviruses (AdVs) is presumed to be similar to that of dsDNA viruses including herpesviruses and dsDNA phages. First, the empty capsids are assembled after which the viral genome is pushed through a unique vertex by a motor which consists of three minimal components: an ATPase, a small terminase and a portal. Various components of this motor exist as ring-like structures forming a central channel through which the DNA travels during packaging. In AdV, the IVa2 protein is believed to function as a packaging ATPase, however, the equivalents of the small terminase and the portal have not been identified in AdVs. IVa2 interacts with another viral protein late region 4 (L4) 33K which is important for genome packaging. Both IVa2 and 33K are expressed at high levels during the late stage of virus infection. The oligomeric state of IVa2 and 33K was analyzed in virus-infected cells, IVa2 and 33K transfected cells, AdV particles, or as recombinant purified proteins. Electron microscopy of the purified proteins showed ring-like oligomers for both proteins which is consistent with their putative roles as a part of the packaging motor. We found that the ATPase activity of IVa2 is stimulated in the presence of 33K and the AdV genome. Our results suggest that the 33K functions analogous to the small terminase proteins and so will be part of the packaging motor complex.
Highlights
Adenoviruses (AdVs) are non-enveloped icosahedral viruses with a linear dsDNA genome ranging in size from 28 to 45 kbp
We proposed that IVa2 and 33K might assemble into ring-like oligomers with a central channel large enough to allow the passage of the viral genome
Lysates of human AdV serotype 5 (HAdV5)-infected cells were processed for SDS–PAGE in both reducing and non-reducing conditions, followed by a Western blot with anti-IVa2 or anti-33K antibody
Summary
Adenoviruses (AdVs) are non-enveloped icosahedral viruses with a linear dsDNA genome ranging in size from 28 to 45 kbp. The AdV genomes carry conserved AT-rich repeat regions, named ‘Arepeats,’ located between the left inverted terminal repeat (ITR) and the transcriptional start site of early region (E) 1 (E1) in the viral genome (Kosturko et al, 1982; Ostapchuk and Hearing, 2003a,b, 2005; Xing and Tikoo, 2003, 2007). IVa2 mutants carrying mutations in Walker A and Walker B motifs, or lacking a C-terminal fragment encompassing these motifs, resulted in an accumulation of empty capsids implying a defect in genome packaging. These results imply that IVa2 is similar to the DNA packaging ATPases observed in dsDNA phages and herpesviruses (Rao and Feiss, 2008; Ostapchuk et al, 2011). IVa2 has been shown to be located at a unique vertex of mature virions with only 6–8 copies per capsid again suggesting its role as a DNA packaging ATPase (Christensen et al, 2008; Ahi et al, 2013)
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