Abstract
The genus Allexivirus currently includes eight virus species that infect allium plants. Previously, we showed that there are two distinct groups of allexiviruses (deletion [D]-type and insertion [I]-type) based on the presence or absence of a 10- to 20-base insert (IS) between the coat protein (CP) and cysteine rich protein (CRP) genes. In the present study of CRPs to analyze their functions, we postulated that evolution of allexiviruses may have been largely directed by CRPs and thus proposed two evolutionary scenarios for allexiviruses based mainly on the presence or absence of IS and determined by how the allexiviruses challenge host resistance mechanisms (RNA silencing and autophagy). We found that both CP and CRP are RNA silencing suppressors (RSS), that they can inhibit each other's RSS activity in the cytoplasm, and that CRP becomes a target of host autophagy in the cytoplasm but not CP. To mitigate CRP interference with CP, and to increase the CP's RSS activity, allexiviruses developed two strategies: confinement of D-type CRP in the nucleus and degradation of I-type CRP by autophagy in the cytoplasm. Here, we demonstrate that viruses of the same genus achieve two completely different evolutionary scenarios by controlling expression and subcellular localization of CRP.