| |
[摘要]:Members of the genus Orthoreovirus replicate in cytoplasmic inclusions termed viral factories. Compelling evidence suggests that the nonstructural protein mu NS forms the matrix of the factories and recruits specific viral proteins to these structures. In the first part of this study, we analyzed the properties of avian reovirus factories and mu NS-derived inclusions and found that they are nonaggresome cytoplasmic globular structures not associated with the cytoskeleton which do not require an intact microtubule network for formation and maturation. We next investigated the capacity of avian reovirus mu NS to form inclusions in transfected and baculovirus-infected cells. Our results showed that mu NS is the main component of the inclusions formed by recombinant baculovirus expression. This, and the fact that mu NS is able to self-associate inside the cell, suggests that mu NS monomers contain all the interacting domains required for inclusion formation. Examination of the inclusion-forming capacities of truncated mu NS versions allowed us to identify the region spanning residues 448 to 635 of mu NS as the smallest that was inclusion competent, although residues within the region 140 to 380 seem to be involved in inclusion maturation. Finally, we investigated the roles that four different motifs present in mu NS(448-635) play in inclusion formation, and the results suggest that the C-terminal tail domain is a key determinant in dictating the initial orientation of monomer-to-monomer contacts to form basal oligomers that control inclusion shape and inclusion-forming efficiency. Our results contribute to an understanding of the generation of structured protein aggregates that escape the cellular mechanisms of protein recycling. |
|
