Protein kinase FaSnRK2.6 phosphorylates transcription factor FabHLH3 to regulate anthocyanin homeostasis during strawberry fruit ripening.

Strawberry (Fragaria×ananassa) is a model plant for studying non-climacteric fruit ripening regulated by abscisic acid (ABA). However, the signaling of ABA in the regulation of fruit coloration is not fully understood. Here, a transcription factor FabHLH3 key to fruit coloration is identified by yeast two hybrid library screening using FaSnRK2.6 as a bait, an ABA core signaling component negative to ripening. Indeed, this interaction is also confirmed by firefly luciferase complementation assay and pull-down assay. RT-qPCR and Western blotting analysis confirm FabHLH3 is expressed ubiquitously in strawberry and stably during fruit development. Manipulating both FabHLH3 and FaSnRK2.6 expression by overexpression and interference demonstrates that FabHLH3 and FaSnRK2.6 promote and inhibit strawberry fruit coloration, respectively, using the marker gene FaUFGT, key to anthocyanin biosynthesis. FaSnRK2.6 can phosphorylate FabHLH3, which promotes FaUFGT expression by the directly binding to its promoter. The phosphorylation inhibits the binding of FabHLH3 to FaUFGT promoter, consequently suppressing FaUFGT expression. Altogether, FaSnRK2.6, a negative kinase in ripening, interacts with and phosphorylates FabHLH3 to suppress FaUFGT expression. With the increase of ABA content in strawberry fruit ripening, the expression of FaSnRK2.6 decreased, which released FabHLH3 transcription activity and enhanced FaUFGT expression, finally promoting the coloration. Thus, our findings fill a gap how FaSnRK2.6 negatively regulates strawberry fruit coloration and ripening by FabHLH3.