Expression of a wild eggplant ribosomal protein L13a in potato enhances resistance to Verticillium dahliae

Abstract

The ribosomal protein L13a was recently found to play a role not only in protein synthesis, but also in modulating translation. We reported in previous study that L13a was responsive to Verticillium dahliae (V. dahliae) infection in a highly resistant eggplant species (Solanum torvum, SW). To elucidate the possible role of L13a in V. dahliae infection, we cloned and characterized its cDNA (designated StoL13a) in this study. StoL13a encodes a protein of 23.46 kDa and shows a high similarity to the L13a from other plants. Phylogenetic analysis revealed that StoL13a clearly grouped with L13a-like sequences. Expression level of StoL13a altered in response to V. dahliae infection and phytohormone treatment. We expressed StoL13a in V. dahliae sensitive potato, and found that the transgenic potato plants were more resistant to V. dahliae infection than the control plants with disease index of 15–25.2. The transgenic plants showed a lower quantity of reactive oxygen species and attenuated oxidative injury. Also, six defense and antioxidant enzyme genes were up-regulated in the StoL13a ectopic expression plants. These results suggest that the StoL13a plays a role in plant defense to V. dahliae infection.