Double-Stranded RNA Binding May Be a General Plant RNA Viral Strategy To Suppress RNA Silencing

Author:

Mérai Zsuzsanna12,Kerényi Zoltán1,Kertész Sándor1,Magna Melinda1,Lakatos Lóránt1,Silhavy Dániel1

Affiliation:

1. Agricultural Biotechnology Center, Gödöllö, Hungary

2. Department of Genetics, Eötvös Loránd University, Budapest, Hungary

Abstract

ABSTRACTIn plants, RNA silencing (RNA interference) is an efficient antiviral system, and therefore successful virus infection requires suppression of silencing. Although many viral silencing suppressors have been identified, the molecular basis of silencing suppression is poorly understood. It is proposed that various suppressors inhibit RNA silencing by targeting different steps. However, as double-stranded RNAs (dsRNAs) play key roles in silencing, it was speculated that dsRNA binding might be a general silencing suppression strategy. Indeed, it was shown that the related aureusvirus P14 and tombusvirus P19 suppressors are dsRNA-binding proteins. Interestingly, P14 is a size-independent dsRNA-binding protein, while P19 binds only 21-nucleotide ds-sRNAs (small dsRNAs having 2-nucleotide 3′ overhangs), the specificity determinant of the silencing system. Much evidence supports the idea that P19 inhibits silencing by sequestering silencing-generated viral ds-sRNAs. In this study we wanted to test the hypothesis that dsRNA binding is a general silencing suppression strategy. Here we show that many plant viral silencing suppressors bind dsRNAs.Beet yellows virus PeanutP21,clump virusP15,Barley stripe mosaic virusγB, andTobacco etch virusHC-Pro, like P19, bind ds-sRNAs size-selectively, whileTurnip crinkle virusCP is a size-independent dsRNA-binding protein, which binds long dsRNAs as well as ds-sRNAs. We propose that size-selective ds-sRNA-binding suppressors inhibit silencing by sequestering viral ds-sRNAs, whereas size-independent dsRNA-binding suppressors inactivate silencing by sequestering long dsRNA precursors of viral sRNAs and/or by binding ds-sRNAs. The findings that many unrelated silencing suppressors bind dsRNA suggest that dsRNA binding is a general silencing suppression strategy which has evolved independently many times.

Publisher

American Society for Microbiology

Subject

Virology,Insect Science,Immunology,Microbiology

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