Color components determination and full-length comparative transcriptomic analyses reveal the potential mechanism of carotenoid synthesis during flowering.

BACKGROUND

(), an ornamental plant native to China, is known for its distinctive yellow blossoms. However, the mechanisms underlying flower coloration remain unclear.

METHODS

We selected samples from different flowering stages and conducted rigorous physicochemical analyses. The specimens were differentiated based on their chemical properties, specifically their solubilities in polar solvents. This key step enabled us to identify the main metabolite of flower color development of , and to complete the identification by High-performance liquid chromatography (HPLC) based on the results. Additionally, we employed a combined approach, integrating both third-generation full-length transcriptome sequencing and second-generation high-throughput transcriptome sequencing, to comprehensively explore the molecular components involved.

RESULTS

We combined physical and chemical analysis with transcriptome sequencing to reveal that carotenoid is the main pigment of flower color. Extraction colorimetric method and HPLC were used to explore the characteristics of carotenoid accumulation during flowering. We identified 28 differentially expressed carotenoid biosynthesis genes throughout the flowering process, validated their expression through fluorescence quantification, and discovered 19 potential positive regulators involved in carotenoid synthesis. Among these candidates, three genes showed a strong potential for governing the and gene families. In summary, our study elucidates the fundamental mechanisms governing carotenoid synthesis during flowering, enhancing our understanding of this process and providing a foundation for future research on the molecular mechanisms driving flowering.