The Barley stripe mosaic virus γb protein promotes chloroplast-targeted replication by enhancing unwinding of RNA duplexes.

Kun Zhang,Jialin Yu,Xianbing Wang,Dawei Li,Chenggui Han,Meng Yang,Yongliang Zhang,Songyu Liu,Zhenggang Li,Savithramma P Dinesh-Kumar

doi:10.1371/journal.ppat.1006319

Kun Zhang, Jialin Yu + Show 8 more

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https://doi.org/10.1371/journal.ppat.1006319

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Journal: PLoS Pathogens	Publication Date: Apr 7, 2017
Citations: 58	License type: CC BY 4.0

Affiliation: China Agricultural University

Abstract

RNA viruses encode various RNA binding proteins that function in many steps of viral infection cycles. These proteins function as RNA helicases, methyltransferases, RNA-dependent RNA polymerases, RNA silencing suppressors, RNA chaperones, movement proteins, and so on. Although many of the proteins bind the viral RNA genome during different stages of infection, our knowledge about the coordination of their functions is limited. In this study, we describe a novel role for the Barley stripe mosaic virus (BSMV) γb as an enhancer of αa RNA helicase activity, and we show that the γb protein is recruited by the αa viral replication protein to chloroplast membrane sites of BSMV replication. Mutagenesis or deletion of γb from BSMV resulted in reduced positive strand (+) RNAα accumulation, but γb mutations abolishing viral suppressor of RNA silencing (VSR) activity did not completely eliminate genomic RNA replication. In addition, cis- or trans-expression of the Tomato bushy stunt virus p19 VSR protein failed to complement the γb replication functions, indicating that the direct involvement of γb in BSMV RNA replication is independent of VSR functions. These data support a model whereby two BSMV-encoded RNA-binding proteins act coordinately to regulate viral genome replication and provide new insights into strategies whereby double-stranded viral RNA unwinding is regulated, as well as formation of viral replication complexes.

Highlights

Positive sense ssRNA viruses consist of one or more highly structured genomic (g) RNAs
We report that the Barley stripe mosaic virus γb viral suppressor of RNA silencing (VSR) protein is recruited to viral replication sites through interactions with the αa replicase subunit protein where it enhances αa helicase activity to increase the levels of BSMV replication
Our discovery of the γb RNA helicase enhancement activity provides a novel function associated with a viral suppressor of RNA silencing that enhances

Summary

Introduction

Positive sense ssRNA viruses consist of one or more highly structured genomic (g) RNAs. Conserved RNA helicase domains are found within many plant and animal viral proteins (S1 Fig). These helicases play major roles in establishing successful infections of RNA viruses [8]. The cylindrical inclusion (CI) proteins of potyviruses contain an RNA helicase domain that overlaps the N-terminal and central regions, and functions in RNA replication and cell-to-cell movement [5, 12]. Another strategy used by RNA viruses is to recruit host RNA helicases. Genetic studies of Turnip mosaic virus (TuMV) infected Arabidopsis thaliana plants have shown that various host RNA helicases are involved in potyviral infection [17]

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