Small RNAs derived from avocado sunblotch viroid and their association with bleaching symptoms: implications for pathogenesis in avocado sunblotch disease

Avocado sunblotch viroid (ASBVd) is a structured RNA molecule responsible for sunblotch disease of avocado, characterised by distinct chloroses of fruit, leaves, and stems. Despite its impact on avocado, the mechanism by which ASBVd elicits sunblotch symptoms remains unknown. Previous studies on other avsunviroids have shown that viroid-derived small RNAs (vd-sRNAs) with specific sequence mutations can trigger leaf chlorosis via RNA silencing of host genes. Building on this knowledge, we aimed to shed light on the molecular basis of ASBVd pathogenesis by analysing ASBVd sequence variants and ASBVd-sRNAs from bleached and asymptomatic leaf tissues of sunblotch-affected avocado trees. Sequencing of ASBVd clones revealed that variants carrying the pathogenic determinant for bleaching were present in both green and yellow leaf tissues. Next-generation sequencing (NGS) identified ASBVd-sRNAs that varied in abundance between symptomatic and asymptomatic leaf tissues, correlating with viroid titre. We discovered 64 vd-sRNAs spanning the pathogenic region of the ASBVd genome, which were almost exclusively found in yellow tissues. The ASBVd-sRNAs containing the bleaching-associated mutation were predicted to target numerous avocado transcripts for degradation, with 25 of these transcripts significantly downregulated in bleached tissues. Notably, one of these genes, encoding a chloroplastic protein, demonstrated strong evidence of ASBVd-sRNA-guided RNA silencing, presenting a promising candidate for future research into the molecular trigger for ASBVd-induced bleaching symptoms. This study is the first to investigate ASBVd-sRNAs in bleached leaves using NGS. Our findings support the role of RNA silencing in sunblotch symptom development and reveal a unique silencing trigger compared to other avsunviroids.