Interplay between ABA signaling and RNA silencing in plant viral resistance.

Abscisic acid (ABA) regulates plant responses to different stimuli including viral infections through two different defense mechanisms; the antiviral RNA silencing pathway and callose accumulation. In some pathosystems, induction of these defense mechanisms is stronger in plants with resistance (R)-genes than in more susceptible plants. Mutants in several RNA silencing genes are hypersensitive to ABA, which suggests that these genes exert a regulatory feedback loop on ABA signaling. This scenario suggests that the RNA silencing pathway can target genes involved in the ABA pathway to control ABA production/signaling since prolonged production of this stress hormone arrests plant growth and development. Mutations in the ABA or salicylic acid pathways do not completely repress RNA silencing genes, indicating that RNA silencing represents a regulatory hub through which different pathways exert some of their functions, and thus the regulation of RNA silencing could be subject to hormone balancing in plants.