An active RNA transport mechanism into plant vacuoles

RNA degradation inside the plant vacuole by the ribonuclease RNS2 is essential for maintaining nucleotide concentrations and cellular homeostasis via the nucleotide salvage pathway. However, the mechanisms by which RNA is transported into the vacuole are not well understood. While selective macroautophagy may contribute to this transport, macroautophagy-independent transport pathways also exist. Here we demonstrate a mechanism for direct RNA transport into vacuoles that is active in purified vacuoles and is ATP hydrolysis-dependent. We identify the RNA helicase SKI2 as a factor required for this transport pathway, as ski2 mutant vacuoles are defective in transport. ski2 mutants have an increased autophagy phenotype that can be rescued by exogenous addition of inosine, consistent with a function in nucleotide salvage. This newly-described transport mechanism is therefore critical for RNA degradation, recycling and cytoplasmic nucleotide homeostasis. ### Competing Interest Statement The authors have declared no competing interest. * ConcA : concanamycin A FL-RNA : fluorescent RNA LAMP2C : Lysosome-associated membrane glycoprotein 2 RH40 : RNA Helicase 40 RNS2 : ribonuclease2 SIDT2 : SID1 transmembrane family member 2 SKI2 : superkiller2