Color fading in lotus (Nelumbo nucifera) petals is manipulated both by anthocyanin biosynthesis reduction and active degradation.

Flower color is a key trait that determines the ornamental quality of aquatic lotus (Nelumbo nucifera). Color fading significantly decreases the ornamental value of lotus flowers. However, the molecular mechanism underlying lotus petal discoloration remains largely unknown. Here, the anthocyanin content and global transcriptional profiling of lotus petals of cultivar 'Qiusanse' in four developmental stages were analyzed. Five anthocyanin components were detected, and the total anthocyanin content decreased as the petal color changed from red to nearly white. Moreover, the malondialdehyde (MDA) content and peroxidase (POD) activity increased during color fading. RNA-seq analysis revealed a total of 4,092 differentially expressed genes (DEGs) between petal developmental stages. Notably, oxidoreductase and hydrolase activity related genes were overrepresented in DEGs. The expression pattern of key anthocyanin biosynthesis genes including, CHS, F3H, ANS, UFGT, and transcription factor regulators, including MYBs, WRKYs and bHLHs were correlated with anthocyanin accumulation. Interestingly, DEGs associated with anthocyanin degradation and vacuolar pH regulation, including peroxidase, proton pumps regulators such as WRKY3 and MYB5-like, were significantly upregulated during the late stages of flowering. This study reveals for the first time the transcriptional dynamics during lotus petal discoloration. Our results suggest the involvement of anthocyanin biosynthesis repressors and degrading genes as well as pH regulators in controlling color fading of lotus petals. The study also provides valuable information and candidate genes for improving the lotus flower color.