Abstract
Double-stranded RNA (dsRNA) plays essential functions in many biological processes, including the activation of innate immune responses and RNA interference. dsRNA also represents the genetic entity of some viruses and is a hallmark of infections by positive-sense single-stranded RNA viruses. Methods for detecting dsRNA rely essentially on immunological approaches and their use is often limited to in vitro applications, although recent developments have allowed the visualization of dsRNA in vivo. Here, we report the sensitive and rapid detection of long dsRNA both in vitro and in vivo using the dsRNA binding domain of the B2 protein from Flock house virus. In vitro, we adapted the system for the detection of dsRNA either enzymatically by northwestern blotting or by direct fluorescence labeling on fixed samples. In vivo, we produced stable transgenic Nicotiana benthamiana lines allowing the visualization of dsRNA by fluorescence microscopy. Using these techniques, we were able to discriminate healthy and positive-sense single-stranded RNA virus-infected material in plants and insect cells. In N. benthamiana, our system proved to be very potent for the spatio-temporal visualization of replicative RNA intermediates of a broad range of positive-sense RNA viruses, including high- vs. low-copy number viruses.
Highlights
Double-strandedRNA that results from the pairing in cis or in trans of two complementary RNA strands has been postulated to be the earliest form of life (Gilbert, 1986; Joyce, 1989)
We show that Double-stranded RNA (dsRNA) binding dsRNA Detection in Vitro and in Planta was sequence-independent, since electrophoretic mobility shifts occurred with both dsRNA of bacteriophage Phi6 (Φ6) or of synthetic origin (Figures 1A,C–E)
Our results indicate that fluorescence labeling is very sensitive since it allowed the detection of Grapevine fanleaf virus (GFLV) replication complexes in Arabidopsis protoplasts that looked very similar to those described in tobacco BY-2 cells (Ritzenthaler et al, 2002a) and that failed to be detected by northwestern blotting of systemically infected N. benthamiana samples (Figure 2C)
Summary
Double-stranded (ds)RNA that results from the pairing in cis or in trans of two complementary RNA strands has been postulated to be the earliest form of life (Gilbert, 1986; Joyce, 1989). Long dsRNA is regarded as a universal hallmark of infection of cellular organisms by viruses (Morris and Dodds, 1979; Kawai and Akira, 2006). In this respect, double-stranded RNA viruses have dsRNA as their genome. With DNA viruses, dsRNA production generally results from the pairing of converging overlapping transcripts of the viral genome. DsRNA can be generated by secondary structures in viral transcripts
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