Viroids are pathogenic agents that have a small, circular noncoding RNA genome. They have been found only in plant species; therefore, their infectivity and pathogenicity in other organisms remain largely unexplored. In this study, we investigate whether plant viroids can replicate and induce symptoms in filamentous fungi. Seven plant viroids representing viroid groups that replicate in either the nucleus or chloroplast of plant cells were inoculated to three plant pathogenic fungi, Cryphonectria parasitica, Valsa mali, and Fusarium graminearum. By transfection of fungal spheroplasts with viroid RNA transcripts, each of the three, hop stunt viroid (HSVd), iresine 1 viroid, and avocado sunblotch viroid, can stably replicate in at least one of those fungi. The viroids are horizontally transmitted through hyphal anastomosis and vertically through conidia. HSVd infection severely debilitates the growth of V. mali but not that of the other two fungi, while in F. graminearum and C. parasitica, with deletion of dicer-like genes, the primary components of the RNA-silencing pathway, HSVd accumulation increases. We further demonstrate that HSVd can be bidirectionally transferred between F. graminearum and plants during infection. The viroids also efficiently infect fungi and induce disease symptoms when the viroid RNAs are exogenously applied to the fungal mycelia. These findings enhance our understanding of viroid replication, host range, and pathogenicity, and of their potential spread to other organisms in nature.plant viroid | fungus | transmission | pathogenicity V iroids are infectious pathogenic agents possessing small, nonencapsidated, circular single-stranded RNAs that, to date, have been found to naturally infect only plants (1, 2). Viroids infect a wide variety of higher plant species, causing devastating diseases in many crops, particularly vegetables, fruits, and ornamental plants (3). In crop plants, viroids are known to spread by vegetative propagation; by mechanical agricultural practices; and, in certain cases, through seeds, pollen, and insect transmission (3, 4). As viroids do not encode any proteins and do not require a helper agent for their multiplication and survival, the biological activities of viroids are entirely dependent on direct interactions of their RNA genome or its derivatives with cellular host components (5-9). Viroid replication or processing of its RNAs in the yeast, Saccharomyces cerevisiae, and cyanobacterium, Nostoc (Nostocales), have been demonstrated (10-12).Currently, at least 34 viroid species have been identified and are classified into two families, Avsunviroidae and Pospiviroidae (13-15). The members of Avsunviroidae (type species: Avocado sunblotch viroid) replicate in the chloroplasts or plastids through symmetric rolling-circle replication using the host nuclear-encoded polymerase. Their RNAs form highly branched secondary structures and have ribozyme activities. Members of Pospiviroidae (type species: Potato spindle tuber viroid) replicate and accumulate in the nucleus th...
