Independent evolution of plant natural products: Formation of benzoxazinoids in Consolida orientalis (Ranunculaceae)

Benzoxazinoids (BXDs) are important defense compounds produced by a number of species from different, evolutionarily unrelated plant families. While BXD biosynthesis has been extensively studied in the grasses (monocots) and core eudicots, the mechanism of BXD synthesis in the basal eudicots is still unclear. We used an integrated metabolomics and transcriptomics approach to elucidate the BXD pathway in Consolida orientalis, a Ranunculaceae species known to produce the BXD DIBOA-Glc. Overexpression of candidate genes in Nicotiana benthamiana identified a flavin-dependent monooxygenase (CoBX2-3) and two cytochrome P450 enzymes (CoBX4 and CoBX5) that catalyze the oxidation steps that transform indole into DIBOA. Co-expression of CoBx2-3, CoBx4, and CoBx5 with the previously described indole synthase gene CoBx1 and the UDP-glucosyltransferase gene CoBx8 in N. benthamiana resulted in the reconstitution of a fully active BXD pathway. The fact that CoBX2-3, CoBX4, and CoBX5 are not phylogenetically related to their counterparts in the grasses and core eudicots suggests independent evolution of benzoxazinoid biosynthesis in these three angiosperm lineages.