Comprehensive analysis of wintersweet flower reveals key structural genes involved in flavonoid biosynthetic pathway.

Wintersweet (Chimonanthus praecox (L.)), with an over-one-thousand-years long history in cultivation, is still a popular ornamental woody plant in China. The tepals of wintersweet flower are waxy in nature and the overall color of the flower is yellow, while the inner tepals range from yellow to red, which makes it an ideal plant to study floral color formation in ornamental shrubs. In our current work, HPLC analysis revealed that the principal pigments in tepals were the metabolite of flavonoids. All the tepals were containing quercetin, kaempferol 3‑O‑rutinoside and rutin while cyanidin‑3‑O‑glucoside and cyanidin‑3‑O‑rutinoside were only found in the in the red tepals. Moreover, we found the rutin as the principal component of all the pigments revealed. As well as in this study, a reference transcriptome library constructed from two varieties H29 and H64 flower. Further, 30 proteins of flavonoid biosynthesis pathway were identified in H29 flower using proteome analysis. Based on these dataset, the flavonoid biosynthesis pathway was also speculated. After quantitative analysis of gene expression, we found that ANS act as an on-off switch for the accumulation of red pigments and had positive correlations with various steps genes of the flavonoid pathway. This expression profiling demonstrates that no gene products compete for common substrates to redirect the metabolic flux in wintersweet. It is also demonstrated that high expression of F3'H would provide sufficient content of the precursor, dihydroquercetin, for both flavonol and anthocyanin biosynthesis. The results help us to deepen and enrich the gene resource of color formation in wintersweet flower, and provide specific breeding strategies for increasing diversity of flower color.