Identification of Essential Host Factors Affecting Tombusvirus RNA Replication Based on the Yeast Tet Promoters Hughes Collection

Abstract

To identify essential host genes affecting replication of Tomato bushy stunt virus (TBSV), a small model plant virus, we screened 800 yeast genes present in the yeast Tet promoters Hughes Collection. In total, we have identified 30 new host genes whose down-regulation either increased or decreased the accumulation of a TBSV replicon RNA. The identified essential yeast genes are involved in RNA transcription/metabolism, protein metabolism/transport, or other cellular processes. Detailed analysis of the effects of some of the identified yeast genes revealed that they might affect RNA replication by altering (i) the amounts/functions of p33 and p92^pol viral replication proteins, (ii) the standard 10 to 20:1 ratio between p33 and p92^pol in the viral replicase, (iii) the activity of the tombusvirus replicase, and (iv) the ratio of plus- versus minus-stranded RNA replication products. Altogether, this and previous genetic screening of yeast (Panavas et al., Proc. Natl. Acad. Sci. USA 102:7326-7331, 2005) led to the identification of 126 host genes (out of ∼5,600 genes that represent ∼95% of all the known and predicted yeast genes) that affected the accumulation of tombusvirus RNA.