Vanisulfane Induced Plant Resistance toward Potato Virus Y via the Salicylic-Depended Acid Signaling Pathway.

Vanisulfane is a plant resistance inducer that exhibits potent activity against potato virus Y (PVY), but its mechanism of action against this virus remains unclear. Our results showed that when we used 400 μg/mL of vanisulfane, it provided an impressive level of control (63.55%) against PVY in L. Meanwhile, vanisulfane increased activities of catalase (CAT), superoxide dismutase (SOD), peroxidase (POD), and phenylalanine ammonia lyase (PAL) as well as inducing HO accumulation and Ca influx to mediate PVY resistance. Furthermore, combined transcriptome and proteome analyses revealed that vanisulfane upregulated the POD52, APX, and PR-1 genes and proteins in the salicylic acid (SA) signaling pathway. Experiments demonstrated that vanisulfane triggered the accumulation of SA, upregulated the expression of and genes, and induced resistance against PVY in transgenic plants. Consequently, it can be concluded that vanisulfane mediates the SA-dependent signaling pathway to confer PVY resistance in plants.