Seed germination is a complex process involving various physical and biochemical cues, determined by exogenous and endogenous factors. Here, we identified a gene, OsMFT2, that negatively regulates seed germination in rice. OsMFT2 knock-out lines exhibited pre-harvest sprouting, whereas OsMFT2 overexpression lines showed delayed germination. RNA expression profiling showed that OsMFT2 was specifically expressed in seeds. Subcellular localization indicated that OsMFT2 was a nuclear protein. Exogenous abscisic acid (ABA) treatment of imbibed seeds and seedlings indicated that OsMFT2 altered ABA sensitivity during seed germination and post-germination growth. In vivo and in vitro assays showed that three bZIP transcription factors, OsbZIP23, OsbZIP66 and OsbZIP72, interacted with OsMFT2. OsbZIP23/66/72 bound to the promoter of Rab16A, a typical gene containing the ABA-responsive element, and OsMFT2 enhanced the binding to the Rab16A promoter. Moreover, several ABA-responsive genes were differentially expressed in the imbibed seeds of OsMFT2 transgenic lines and the wild type. The performance of the transgenic plants demonstrated that overexpressing OsbZIP23 rescued the pre-harvest sprouting phenotype and the decrease in ABA-signaling genes expression caused by OsMFT2 knock-out. All of these results demonstrate that OsMFT2 positively regulates ABA-responsive genes through interacting with OsbZIP23/66/72 and functions in seed germination.
Keywords: OsMFT2; ABA signaling; DNA binding activity; bZIP transcription factor; rice; seed germination.
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