Association Analysis of Transcriptome and Targeted Metabolites Identifies Key Genes Involved in Iris germanica Anthocyanin Biosynthesis

Abstract: The anthocyanin biosynthetic pathway is the main pathway regulating floral coloration in Iris germanica, a well-known ornamental plant. We investigated the transcriptome profiles and targeted metabolites to elucidate the relationship between genes and metabolites in anthocyanin biosynthesis in the bitone flower cultivar ‘Clarence’, which has a deep blue outer perianth and nearly white inner perianth. In this study, delphinidin-, pelargonidin-, and cyanidin-based anthocyanins were detected in the flowers. The c… Show more

“…Additionally, F3′5′H is a key gene in the delphinidin synthesis pathway. In Iris germanica , the expression of F3′5′H in the deep blue outer perianth is up-regulated, resulting in a significantly higher content of delphinidin than that in the nearly white inner perianth [ 46 ]. The results of this study showed that the F3′5′H gene was absent in P. mume , which may be an important reason for the lack of the delphinidin pathway in P. mume .…”

Integration of Metabolomic and Transcriptomic Analyses Reveals the Molecular Mechanisms of Flower Color Formation in Prunus mume

“…Additionally, F3′5′H is a key gene in the delphinidin synthesis pathway. In Iris germanica , the expression of F3′5′H in the deep blue outer perianth is up-regulated, resulting in a significantly higher content of delphinidin than that in the nearly white inner perianth [ 46 ]. The results of this study showed that the F3′5′H gene was absent in P. mume , which may be an important reason for the lack of the delphinidin pathway in P. mume .…”

Integration of Metabolomic and Transcriptomic Analyses Reveals the Molecular Mechanisms of Flower Color Formation in Prunus mume

Comparative Study of Polysaccharide Metabolites in Purple, Orange, and White Ipomoea Batatas Tubers