Identification of Novel 5′ and 3′ Translation Enhancers in Umbravirus-Like Coat Protein-Deficient RNA Replicons
Jingyuan Liu, Anne E. Simon
Abstract
Umbra-like associated RNAs (ulaRNAs) are a recently discovered type of subviral RNA that use their encoded RNA-dependent RNA polymerase for replication but do not encode any coat proteins, movement proteins, or silencing suppressors yet can be found in plants in the absence of any discernible helper virus. We report the first analysis of their translation using class 2 ulaRNA citrus yellow vein-associated virus (CYVaV). CYVaV uses a novel eIF4G-binding I-shaped structure as its 3' cap-independent translation enhancer (3'CITE), which does not connect with the 5' end by a long-distance RNA:RNA interaction that is typical of 3'CITEs. ulaRNA 5' terminal hairpins can also enhance translation in association with cognate 3'CITEs or those of related ulaRNAs and, to a lesser extent, with 3'CITEs of umbraviruses, or even independent of a 3'CITE. These findings introduce a new type of 3'CITE and provide the first information on translation of ulaRNAs.