OsJAZ9 is involved in water-deficit stress tolerance by regulating leaf width and stomatal density in rice

Drought stress poses a severe threat to grain yield in rice. Our previous report demonstrated the role of OsJAZ9 in potassium homeostasis by modulating Jasmonic Acid (JA) signalling. While both potassium (K) and JA are known to have an important role in drought stress response, JA's repressor, i.e., JAZs' role in drought stress, remains elusive. Here we report that OsJAZ9 plays a critical role in rice water-deficit stress tolerance via influencing JA and ABA signalling. Overexpression of OsJAZ9 led to the enhanced ABA and JA levels. Our data further revealed that exogenous JA application antagonises the ABA-mediated inhibition of seed germination. Further, OsJAZ9 overexpression reduces leaf width and stomata density, leading to lower leaf transpiration rates than WT. This reduced transpiration and higher K content as osmoticum improved the water-deficit stress tolerance in OsJAZ9 overexpression lines. On the contrary, OsJAZ9 RNAi lines displayed enhanced sensitivity towards water-deficit stress. Our data provide new insights on the role of JA signalling repressors in rice response to water-deficit stress.

Automated summary

OsJAZ9 plays a critical role in rice water-deficit stress tolerance by influencing JA and ABA signaling. Overexpression of OsJAZ9 enhances the plant's tolerance to water-deficit stress, while RNAi lines exhibit increased sensitivity to this stress. These findings provide new insights into the role of JA signaling repressors in rice response to water-deficit stress.