Flower color plays a crucial role in the appeal and selection of ornamental plants, directly influencing breeding strategies and the broader horticulture industry. Lantana camara, a widely favored flowering shrub, presents a rich palette of flower colors. Yet, the intricate molecular mechanisms governing this color variation in the species have remained largely unidentified. With the aim of filling this gap, this study embarked on a comprehensive de novo transcriptome assembly and differential gene expression analysis across 3 distinct lantana accessions, each showcasing a unique flower color. By harnessing the capabilities of both PacBio and Illumina sequencing platforms, a robust transcriptome assembly, encompassing 123,492 gene clusters and boasting 94.2% BUSCO completeness, was developed. The differential expression analysis unveiled 72,862 unique gene clusters that exhibited varied expression across different flower stages. A pronounced upregulation of 8 candidate core anthocyanin biosynthesis genes in the red-flowered accession was uncovered. This was further complemented by an upregulation of candidate MYB75 (PAP1) and bHLH42 (TT8) transcription factors. A candidate carotenoid cleavage dioxygenase (CCD4a) gene cluster also manifested a marked upregulation in white flowers. The study unveils the molecular groundwork of lantana's flower color variation, offering insights for future research and potential applications in breeding ornamental plants with desired color traits.
Keywords: Lantana camara; Plant Genetics and Genomics; RNA-seq; anthocyanins; carotenoids; flower color; transcription factors; transcriptome.
© The Author(s) 2023. Published by Oxford University Press on behalf of The Genetics Society of America.