Abstract
RNA granules are cellular structures, which play an important role in mRNA translation, storage, and degradation. Animal (+)RNA viruses often co-opt RNA granule proteins for viral reproduction. However, the role of RNA granules in plant viral infections is poorly understood. Here we use Potato virus A (PVA) as a model potyvirus and demonstrate that the helper component-proteinase (HCpro), the potyviral suppressor of RNA silencing, induces the formation of RNA granules. We used confocal microscopy to demonstrate the presence of host RNA binding proteins including acidic ribosomal protein P0, argonaute 1 (AGO1), oligouridylate-binding protein 1 (UBP1), varicose (VCS) and eukaryotic initiation factor iso4E (eIF(iso)4E) in these potyvirus-induced RNA granules. We show that the number of potyviral RNA granules is down-regulated by the genome-linked viral protein (VPg). We demonstrated previously that VPg is a virus-specific translational regulator that co-operates with potyviral RNA granule components P0 and eIF(iso)4E in PVA translation. In this study we show that HCpro and varicose, components of potyviral RNA granules, stimulate VPg-promoted translation of the PVA, whereas UBP1 inhibits this process. Hence, we propose that PVA translation operates via a pathway that is interrelated with potyviral RNA granules in PVA infection. The importance of these granules is evident from the strong reduction in viral RNA and coat protein amounts that follows knock down of potyviral RNA granule components. HCpro suppresses antiviral RNA silencing during infection, and our results allow us to propose that this is also the functional context of the potyviral RNA granules we describe in this study.
Highlights
A feature associated with mRNA in eukaryotic cells is its ability to assemble into ribonucleoprotein (RNP) complexes, which in turn may form large RNA granules
Potato Virus A-Induced RNA Granules and Viral Translation protein helper component-proteinase (HCpro) induces RNA granules, which contain in addition to HCpro several plant RNA granule proteins
We show that many of the RNA granule proteins participate in potyviral translation and conclude that viral protein genome-linked (VPg)-mediated active viral translation and formation of HCpro-induced RNA granules are interrelated processes
Summary
A feature associated with mRNA in eukaryotic cells is its ability to assemble into ribonucleoprotein (RNP) complexes, which in turn may form large RNA granules. The best characterized RNA granules in yeast and animal cells are processing bodies (PBs) and stress granules (SGs) [1,2,3]. Over 40 different proteins have been identified both in SGs and PBs and many of them are shared between different RNA granule types in yeast and mammals [4]. Processes that regulate mRNA expression within these granules are mRNA decay, RNA silencing and translational repression. The mechanisms of mRNA decay and RNA silencing are coupled functionally [7,8], and show spatial overlap with the RNA silencing proteins AGO1 and silencing defective 3 (SDE3) localized in Arabidopsis PBs [9]
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