Rivarez M. P. S., Faure C., Svanella-Dumas L., Pecman A., Žnidaric M. T., Schönegger D., De Jonghe K., Blouin A., Rasmussen D., Massart S., Ravnikar M., Kutnjak D., Marais A., Candresse T.
Diversity and pathobiology of anilarvirus unexpectedly detected in diverse plants and global sequencing data.
High-throughput sequencing (HTS) and sequence mining tools revolutionized virus detection and discovery in recent years and implementing them with classical plant virology techniques results to a powerful approach to characterize viruses. An example of a virus discovered through HTS is Solanum nigrum ilarvirus 1 (SnIV1) (Bromoviridae), which was recently reported in various solanaceous plants from France, Slovenia, Greece, and South Africa. It was likewise detected in grapevines (Vitaceae) and several Fabaceaeand Rosaceaeplant species. Such very diverse set of source organismsis atypical for ilarviruses, thus warranting further investigation. In this study, modern and classical virological tools were combined to accelerate the characterization of SnIV1. Through HTS-based virome surveys, mining of sequence read archive datasets, and literature search, SnIV1 was further identified from diverse plant and non-plant sources globally. SnIV1 isolates showed relatively low variability compared to other phylogenetically related ilarviruses. Phylogenetic analyses showed a distinct basal clade of isolates from Europe, while the rest formed clades of mixed geographic origin. Furthermore, systemic infection of SnIV1 in Solanum villosumand its mechanical and graft transmissibility to solanaceousspecies were demonstrated. Near identical SnIV1 genomes from the inoculum (S. villosum) and inoculated Nicotiana benthamianawere sequenced, thus partially fulfilling Koch’s postulates. SnIV1 was shown to be seed-transmitted and potentially pollen-borne, has spherical virions, and possibly induces histopathological changes in infected N. benthamiana leaf tissues. Overall, this study provides information to better understand the diversity, global presence, and pathobiology of SnIV1, however, its possible emergence as a destructive pathogen remains uncertain.