The MADS-domain transcription factor DAL10 is a direct target of putative DAL1-mediated age pathway in conifers

Abstract The optimal timing of the transition from vegetative growth to reproductive growth is critical for plant reproductive success, and the underlying regulatory mechanisms have been well studied in angiosperm model species, but relatively little in gymnosperms. DAL1, a MADS domain transcription factor (TF) that shows a conserved age-related expression profile in conifers, may be an age timer. However, how DAL1 mediates the onset of reproductive growth remains poorly understood. Here, we showed that PtDAL1 directly regulates PtDAL10 transcription by binding to its promoter region in vitro. Both in vitro and in Nicotiana benthamiana PtDAL1 forms ternary complexes with PtDAL10 and PtMADS11, two potential candidate regulators of the vegetative to reproductive transition in Chinese pine (Pinus tabuliformis). In new shoots PtDAL10 was progressively induced with age and was also expressed in male and female cones. Overexpression of PtDAL10 rescued the flowering of ft-10 and soc1-1-2 mutants in Arabidopsis. We provide insights into the molecular components associated with PtDAL1, which integrates the vegetative to reproductive phase transition into age-mediated progressive development of the whole plant in conifers. PtDAL1, a potential timer of age in conifers, directly activates PtDAL10, suggesting a novel regulatory mechanism in the shift from vegetative to reproductive growth in conifers.