Abstract

Tomato mosaic virus (ToMV), like other eukaryotic positive-strand RNA viruses, replicates its genomic RNA in replication complexes formed on intracellular membranes. Previous studies showed that a host seven-pass transmembrane protein TOM1 is necessary for efficient ToMV multiplication. Here, we show that a small GTP-binding protein ARL8, along with TOM1, is co-purified with a FLAG epitope-tagged ToMV 180K replication protein from solubilized membranes of ToMV-infected tobacco (Nicotiana tabacum) cells. When solubilized membranes of ToMV-infected tobacco cells that expressed FLAG-tagged ARL8 were subjected to immunopurification with anti-FLAG antibody, ToMV 130K and 180K replication proteins and TOM1 were co-purified and the purified fraction showed RNA-dependent RNA polymerase activity that transcribed ToMV RNA. From uninfected cells, TOM1 co-purified with FLAG-tagged ARL8 less efficiently, suggesting that a complex containing ToMV replication proteins, TOM1, and ARL8 are formed on membranes in infected cells. In Arabidopsis thaliana, ARL8 consists of four family members. Simultaneous mutations in two specific ARL8 genes completely inhibited tobamovirus multiplication. In an in vitro ToMV RNA translation-replication system, the lack of either TOM1 or ARL8 proteins inhibited the production of replicative-form RNA, indicating that TOM1 and ARL8 are required for efficient negative-strand RNA synthesis. When ToMV 130K protein was co-expressed with TOM1 and ARL8 in yeast, RNA 5′-capping activity was detected in the membrane fraction. This activity was undetectable or very weak when the 130K protein was expressed alone or with either TOM1 or ARL8. Taken together, these results suggest that TOM1 and ARL8 are components of ToMV RNA replication complexes and play crucial roles in a process toward activation of the replication proteins' RNA synthesizing and capping functions.

Highlights

  • Many animal viruses of medical and veterinary importance such as Poliovirus and Hepatitis C virus, and most plant viruses, including Tobacco mosaic virus (TMV), Brome mosaic virus (BMV) and Tomato bushy stunt virus (TBSV) are positive-strand RNA viruses

  • We show that a host small GTP-binding protein ARL8 is required for the multiplication of Tomato mosaic virus (ToMV), and that it forms a complex with ToMV replication proteins and another essential host factor TOM1 that is a seven-pass transmembrane protein

  • We further demonstrate that the replication proteins acquire the ability to synthesize negative-strand ToMV RNA and RNA 59 cap only in the presence of both TOM1 and ARL8

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Summary

Introduction

Many animal viruses of medical and veterinary importance such as Poliovirus and Hepatitis C virus, and most plant viruses, including Tobacco mosaic virus (TMV), Brome mosaic virus (BMV) and Tomato bushy stunt virus (TBSV) are positive-strand RNA viruses. These viruses have single-stranded, messenger-sense RNA genomes in virions. After infection, their genomic RNAs are released into the cytoplasm of host cells and are translated to produce viral proteins including those that are required for RNA replication (hereafter, replication proteins). The membrane-bound complexes that synthesize viral positive-strand RNAs are called ‘replication complexes’

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