The Ski7 antiviral protein is an EF1-α homolog that blocks expression of non-poly(A) mRNA in Saccharomyces cerevisiae

We mapped and cloned SK17, a gene that negatively controls the copy number of L-A and M double-stranded RNA viruses in Saccharomyces cerevisiae. We found that it encodes a nonessential 747-residue protein with similarities to two translation factors, Hbs1p and EF1-alpha. The ski7 mutant was hypersensitive to hygromycin B, a result also suggesting a role in translation. The SK17 product repressed the expression of nonpolyadenylated [non-poly(A)] mRNAs, whether capped or uncapped, thus explaining why Ski7p inhibits the propagation of the yeast viruses, whose mRNAs lack poly(A). The dependence of the Ski7p effect on 3' RNA structures motivated a study of the expression of capped non-poly(A) luciferase mRNAs containing 3' untranslated regions (3'UTRs) differing in length. In a wild-type strain, increasing the length of the 3'UTR increased luciferase expression due to both increased rates and duration of translation. Overexpression of Ski7p efficiently cured the satellite virus M-2 due to a twofold-increased repression of non-poly(A) mRNA expression. Our experiments showed that Ski7p is part of the Ski2p-Ski3p-Ski8p antiviral system because a single ski7 mutation derepresses the expression of non-poly(A) mRNA as much as a quadruple ski2 ski3 ski7 ski8 mutation, and the effect of the overexpression of Ski7p is not obtained unless other SKI genes are functional, ski1/xrn1 Delta ski2 Delta and ski1/xrn1 Delta ski7 Delta mutants were viable but temperature sensitive for growth.