Higher anthocyanin accumulation associated with higher transcription levels of anthocyanin biosynthesis genes in spinach.

Spinach (Spinacia oleracea L.) is widely cultivated as an economically important green leafy vegetable crop for fresh and processing consumption. The red-purple spinach shows abundant anthocyanin accumulation in the leaf and leaf petiole. However, the molecular mechanisms of anthocyanin synthesis in this species are still undetermined. In the present study, we investigated pigment formation and identified anthocyanin biosynthetic genes in spinach. We also analyzed the expression of these genes in purple and green cultivars by quantitative PCR. The accumulation of anthocyanin showed that it was the dominant pigment resulting in the red coloration in spinach. In total, 22 biosynthesis genes and 25 regulatory genes were identified in spinach, based on the spinach genomic and transcriptomic database. Furthermore, the expression patterns of genes encoding enzymes indicated that SoPAL, SoUFGT3, and SoUFGT4 were possible candidate genes for anthocyanin biosynthesis in red-purple spinach. The expression patterns of transcription factors indicated that two SoMYB genes, three SobHLH genes, and one SoWD40 gene were drastically up-regulated and co-expression in red-purple spinach, suggesting an essential role of regulatory genes in the anthocyanin biosynthesis of spinach. These results will enhance our understanding of the molecular mechanisms of anthocyanin biosynthesis in purple spinach.