Expression of chimeric P450 genes encoding flavonoid-3′,5′-hydroxylase in transgenic tobacco and petunia plants

Abstract

Flavonoid-3′,5′-hydroxylase (F3′5′H), a member of the cytochrome P450 family, is the key enzyme in the synthesis of 3′,5′-hydroxylated anthocyanins, which are generally required for blue or purple flowers. A full-length cDNA, TG1, was isolated from prairie gentian by heterologous hybridization with a petunia cDNA, AK14, which encodes F3′5′H. To investigate the in vivo function of TG1 and AK14, they were subcloned into a plant expression vector and expressed under the control of the CaMV35S promoter in transgenic tobacco or petunia, both of which originally lack the enzyme. Transgenic petunia plants had a dramatic change in flower color from pink to magenta with a high content of 3′,5′-hydroxylated anthocyanins. In contrast, transgenic tobacco plants had minimal color change with at most 35% 3′,5′-hydroxylated anthocyanin content. These results indicate that the products of TG1 and AK14 have F3′5′H activity in planta and that interspecific gene transfer alters anthocyanin pigment synthesis. The difference in apparent F3′5′H activity between tobacco and petunia is discussed.