Effects of an alphasatellite on life cycle of the nanovirus Faba bean necrotic yellows virus.

Nanoviruses are plant viruses with a multipartite single-stranded DNA (ssDNA) genome. Alphasatellites are commonly associated with nanovirus infections, but their putative impact on their helper viruses is unknown. In this study, we investigated the role of subterranean clover stunt alphasatellite 1 (hereafter named SCSA 1) on various important traits of faba bean necrotic yellows virus (FBNYV) in its host plant Vicia faba and aphid vector Acyrthosiphon pisum, including disease symptoms, viral accumulation and transmission. The results indicate that SCSA 1 does not affect the symptom severity nor the overall FBNYV accumulation in V. faba, but changes the relative amounts of its different genomic segments. Moreover, the association of SCSA 1 with FBNYV increases the rate of plant-to-plant transmission by a process seemingly unrelated to simple increase of the viral accumulation in the vector. These results represent the first study on the impact of an alphasatellite on the biology of its helper nanovirus. They suggest that SCSA 1 may benefit FBNYV, but the genericity of this conclusion is discussed and questioned. Importance Alphasatellites are circular single stranded DNA molecules frequently found in association with natural isolates of nanoviruses and some geminiviruse, the two ssDNA plant infecting virus families. While the implications of alphasatellite presence in geminivirus infections are relatively well documented, comparable studies on alphasatellites associated with nanoviruses are not available. Here we confirm that subterranean clover stunt alphasatellite 1 affects different traits of its helper nanovirus, faba bean necrotic yellows virus, both in the host plant and aphid vector. We show that the frequencies of the virus segments change in the presence of alphasatellite, in both plant and vector. We also confirm that while within-plant virus load and symptom are not affected by alphasatellite, the presence of alphasatellite decreases within-aphid virus load, but significantly increases virus transmission rate, so may confer a possible evolutionary advantage for the helper virus.