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Functional analysis reveals G/U pairs critical for replication and trafficking of an infectious non-coding viroid RNA

Jian Wu, Cuiji Zhou, James Li, Chun Li, Xiaorong Tao, Neocles B. Leontis, Craig L. Zirbel, David M. Bisaro, Biao Ding

2020Nucleic Acids Research27 citationsDOIOpen Access PDF

Abstract

While G/U pairs are present in many RNAs, the lack of molecular studies to characterize the roles of multiple G/U pairs within a single RNA limits our understanding of their biological significance. From known RNA 3D structures, we observed that the probability a G/U will form a Watson-Crick (WC) base pair depends on sequence context. We analyzed 17 G/U pairs in the 359-nucleotide genome of Potato spindle tuber viroid (PSTVd), a circular non-coding RNA that replicates and spreads systemically in host plants. Most putative G/U base pairs were experimentally supported by selective 2'-hydroxyl acylation analyzed by primer extension (SHAPE). Deep sequencing PSTVd genomes from plants inoculated with a cloned master sequence revealed naturally occurring variants, and showed that G/U pairs are maintained to the same extent as canonical WC base pairs. Comprehensive mutational analysis demonstrated that nearly all G/U pairs are critical for replication and/or systemic spread. Two selected G/U pairs were found to be required for PSTVd entry into, but not for exit from, the host vascular system. This study identifies critical roles for G/U pairs in the survival of an infectious RNA, and increases understanding of structure-based regulation of replication and trafficking of pathogen and cellular RNAs.

Topics & Concepts

BiologyViroidRNAGeneticsBase pairPotato spindle tuber viroidGenomeCircular RNAGenePlant Virus Research StudiesPlant Disease Resistance and GeneticsBacteriophages and microbial interactions
Functional analysis reveals G/U pairs critical for replication and trafficking of an infectious non-coding viroid RNA | Litcius