Cap-independent translation of tobacco etch virus is conferred by an RNA pseudoknot in the 5'-leader.

The tobacco etch virus (TEV) 5'-leader promotes cap-independent translation in a 5'-proximal position and promotes internal initiation when present in the intercistronic region of a dicistronic mRNA, indicating that the leader contains an internal ribosome entry site. The TEV 143-nucleotide 5'-leader folds into a structure that contains two domains, each of which contains an RNA pseudoknot. Mutational analysis of the TEV 5'-leader identified pseudoknot (PK) 1 within the 5'-proximal domain and an upstream single-stranded region flanking PK1 as necessary to promote cap-independent translation. Mutations to either stem or to loops 2 or 3 of PK1 substantially disrupted cap-independent translation. The sequence of loop 3 in PK1 is complementary to a region in 18 S rRNA that is conserved throughout eukaryotes. Mutations within L3 that disrupted its potential base pairing with 18 S rRNA reduced cap-independent translation, whereas mutations that maintained the potential for base pairing with 18 S rRNA had little effect. These results indicated that the TEV 5'-leader functionally substitutes for a 5'-cap and promotes cap-independent translation through a 45-nucleotide pseudoknot-containing domain.