Rice OsDof12 enhances tolerance to drought stress by activating the phenylpropanoid pathway

Abstract

Drought is a major abiotic stress that severely affects cereal production worldwide. Although several genes have been identified that enhance the ability of rice to withstand drought stress, further research is needed to fully understand the molecular mechanisms underlying the response to drought stress. Our study showed that overexpression of rice DNA binding with one finger 12 (OsDof12) enhances tolerance to drought stress. Rice plants overexpressing OsDof12 (OsDof12-OE) displayed significantly higher tolerance to drought stress than the parental japonica rice “Dongjin”. Transcriptome analysis revealed that many genes involved in phenylpropanoid biosynthesis were upregulated in OsDof12-OE plants, including phenylalanine ammonia-lyase 4 (OsPAL4), OsPAL6, cinnamyl alcohol dehydrogenase 6 (CAD6), and 4-coumarate-coA ligase like 6 (4CLL6). Accordingly, this transcriptional alteration led to the substantial accumulation of phenolic compounds, such as sinapic acids, in the leaves of OsDof12-OE plants, effectively lowering the levels of reactive oxygen species. Notably, OsDof12 bound to the AAAG-rich core sequence of the OsPAL4 promoter and promoted transcription. In addition, GIGANTEA (OsGI) interacts with OsDof12 in the nucleus and attenuates the transactivation activity of OsDof12 on OsPAL4. Our findings reveal a novel role for OsDof12 in promoting phenylpropanoid-mediated tolerance to drought stress.