GLKs directly regulate carotenoid biosynthesis via interacting with GBFs in plants

Abstract

Summary Carotenoids are vital photosynthetic pigments for plants. Golden2‐like transcription factors (GLKs) are widely recognized as major regulators of Chl biosynthesis and chloroplast development. However, despite GLKs being subjected to intensive investigations, whether GLKs directly regulate carotenoid biosynthesis and the molecular mechanisms by which GLKs transcriptionally activate their target genes remain unclear. Here, we report that GLKs directly regulate carotenoid biosynthesis and activate their target genes in a G‐box binding factor (GBF)‐dependent manner in Arabidopsis. Both in vitro and in vivo studies reveal that GLKs physically interact with GBFs to activate transcription of phytoene synthase (PSY), the gene encoding a rate‐limiting enzyme for carotenoid biosynthesis. While GLKs possess transactivation activity, they depend on GBFs to directly bind to the G‐box motif to modulate PSY expression. Loss of GBFs impairs GLK function in regulating carotenoid and Chl biosynthesis. Since the G‐box motif is an enriched motif in the promoters of GLK‐regulated genes, the GLK–GBF regulatory module likely serves as a common mechanism underlying GLK‐regulated photosynthetic pigment biosynthesis and chloroplast development. Our findings uncover a novel regulatory machinery of carotenoid biosynthesis, discover a molecular mechanism of transcriptional regulation by GLKs, and divulge GLKs as important regulators to coordinate photosynthetic pigment synthesis in plants.