Abstract

Many plant viruses have positive-strand RNA [(+)RNA] as their genome. Therefore, it is not surprising that RNA-binding proteins (RBPs) play important roles during (+)RNA virus infection in host plants. Increasing evidence demonstrates that viral and host RBPs play critical roles in multiple steps of the viral life cycle, including translation and replication of viral genomic RNAs, and their intra- and intercellular movement. Although studies focusing on the RNA-binding activities of viral and host proteins, and their associations with membrane targeting, and intercellular movement of viral genomes have been limited to a few viruses, these studies have provided important insights into the molecular mechanisms underlying the replication and movement of viral genomic RNAs. In this review, we briefly overview the currently defined roles of viral and host RBPs whose RNA-binding activity have been confirmed experimentally in association with their membrane targeting, and intercellular movement of plant RNA virus genomes.

Highlights

  • Positive-strand RNA [(+)RNA] plant viruses are the most abundant in plant viruses, and cause diverse diseases in host plants

  • The viral replication proteins recognize the viral genomic RNAs rapidly and from within a pool of abundant cellular RNAs before viral RNA (vRNA) are degraded by antiviral mechanisms

  • A recent publication by Kawamura-Nagaya et al (2014) showed that a 126-kDa replication protein of Tobacco mosaic virus (TMV) binds the 5 -UTR of the genomic RNA cotranslationally, and that this binding plays an important role in regulation of vRNA translation and replication

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Summary

Introduction

Positive-strand RNA [(+)RNA] plant viruses are the most abundant in plant viruses, and cause diverse diseases in host plants. Because of the RNA nature of their genomes, it is not surprising that RNA-binding proteins (RBPs) of viral and host origin affect multiple steps of virus infection. The interaction between MPs and viral genomic RNAs is required for efficient virus cell-to-cell movement.

Results
Conclusion

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