AUTHOR=Zhou Xingwen , Li Jiyuan , Zhu Yulin , Ni Sui , Chen Jinling , Feng Xiaojuan , Zhang Yunfeng , Li Shuangquan , Zhu Hongguang , Wen Yuanguang 

TITLE=De novo Assembly of the Camellia nitidissima Transcriptome Reveals Key Genes of Flower Pigment Biosynthesis

JOURNAL=Frontiers in Plant Science

VOLUME=8

YEAR=2017

URL=https://www.frontiersin.org/journals/plant-science/articles/10.3389/fpls.2017.01545

DOI=10.3389/fpls.2017.01545

ISSN=1664-462X

ABSTRACT=<p>The golden camellia, <italic>Camellia nitidissima</italic> Chi., is a well-known ornamental plant that is known as “the queen of camellias” because of its golden yellow flowers. The principal pigments in the flowers are carotenoids and flavonol glycosides. Understanding the biosynthesis of the golden color and its regulation is important in camellia breeding. To obtain a comprehensive understanding of flower development in <italic>C. nitidissima</italic>, a number of cDNA libraries were independently constructed during flower development. Using the Illumina Hiseq2500 platform, approximately 71.8 million raw reads (about 10.8 gigabase pairs) were obtained and assembled into 583,194 transcripts and 466, 594 unigenes. A differentially expressed genes (DEGs) and co-expression network was constructed to identify unigenes correlated with flower color. The analysis of DEGs and co-expressed network involved in the carotenoid pathway indicated that the biosynthesis of carotenoids is regulated mainly at the transcript level and that <italic>phytoene synthase</italic> (<italic>PSY</italic>), β <italic>-carotene 3-hydroxylase</italic> (<italic>CrtZ</italic>), and <italic>capsanthin synthase</italic> (<italic>CCS1</italic>) exert synergistic effects in carotenoid biosynthesis. The analysis of DEGs and co-expressed network involved in the flavonoid pathway indicated that <italic>chalcone synthase</italic> (<italic>CHS</italic>), <italic>naringenin 3-dioxygenase</italic> (<italic>F3H), leucoanthocyanidin dioxygenase(ANS)</italic>, and <italic>flavonol synthase</italic> (<italic>FLS</italic>) play critical roles in regulating the formation of flavonols and anthocyanidin. Based on the gene expression analysis of the carotenoid and flavonoid pathways, and determinations of the pigments, we speculate that the high expression of <italic>PSY</italic> and <italic>CrtZ</italic> ensures the production of adequate levels of carotenoids, while the expression of <italic>CHS, FLS</italic> ensures the production of flavonols. The golden yellow color is then the result of the accumulation of carotenoids and flavonol glucosides in the petals. This study of the mechanism of color formation in golden camellia points the way to breeding strategies that exploit gene technology approaches to increase the content of carotenoids and flavonol glucosides and to decrease anthocyanidin synthesis.</p>