Abstract
Panax japonicus C. A. Mey. is a rare and endangered Class II important protected wild medicinal plant in China with a wide range of pharmacological activities. The development of the fruit is special, only the apical capitulum can develop into fruit normally, and the colour trait changes during the maturation process showed a pattern from green to red and from red to purple-black. In order to reveal the phenomenon of colour trait changes during fruit development, this paper analyzed the correlation between colour trait changes and pigment contents (chlorophyll, carotenoids) and secondary metabolite contents (anthocyanosides, flavonoids, and total phenols) of the fruits, and used transcriptome sequencing to explore the correlation between colour trait changes and synthetic genes, and then verified the fluorescence quantification with qRT-PCR. The results showed that chlorophyll was gradually converted and carotenoids began to appear in the pericarp when the fruit entered the colour change stage from the green fruit stage; the content of anthocyanin, flavonoids and total phenolic substances gradually increased during fruit ripening. Transcriptome sequencing obtained transcriptome data of 15 samples from five periods of colour trait changes in Panax japonicus fruits 93.94 Gbp, with 462117 functionally annotated Total Unigenes; the total number of DETs generated by intercomparison of the five periods (G, Y, R, B, P) was 17895 (up-regulated 9435 and down-regulated 8460). Weighted gene co-expression network analysis (WGCNA) indicated that 448 were hub differential genes (DETs) associated with common involvement in the colour changes (carotenoids, anthocyanins, flavonoids, total phenols) in the fruits of Duchess. GO and KEGG were enriched to participate in the photosynthesis - antenna protein pathway 19; involved in flavonoid biosynthesis a total of 205. The results of qRT-PCR fluorescence quantitative validation showed that chlorophyll degradation related 6 candidate genes PjCAB and fruit colour change flavonoid biosynthesis 6 candidate genes PjF3'H, PjCHI, PjCHS, PjDFR, PjANS, and PjC3'H at five periods were consistent with the transcriptome sequencing results.