Reovirus protein σ1: From cell attachment to protein oligomerization and folding mechanisms

Abstract

The reovirus cell attachment protein σ1 is a lollipopshaped structure with the fibrous tail anchored to the virion. Since it interacts with the cell receptor, σ1 is a major determinant of reovirus infectivity and tissue tropism. Studies on its structure‐function relationships have been facilitated by the fact that protein σ1 produced in any expression system is capable of binding to cell receptors. The use of site‐specific and deletion mutants has led to the identification and characterization of its virion anchorage and receptor binding domains. Studies on the oligomeric status of σ1 have revealed that σ1 is a homotrimer and that two independent trimerization events at different loci (the N‐ and C‐terminal halves, respectively) of the protein, are involved in its generation. This also accounts for a clearly demonstrable dominant negative effect by a mutant subunit in a wild‐type/mutant σ1 heterotrimer. Current efforts are focused on the involvement of chaperones in the generation of σ1 and on events that take place upon σ1 binding to the cell receptor. Protein σ1 has therefore become an excellent model system for the study of both virus attachment and protein oligomerization and folding mechanisms.