Project description:We have performed a transcriptome analysis of genes at three different ripening stages of the pink-white fruits and the ripe stage of the red fruits of Chinese bayberry. This analysis provided a total of 119,701 unigenes, of which 41.43% were annotated in the Nr database. Our results showed that the formation of the pink-white color in Chinese bayberry fruits depended on the anthocyanin metabolic pathway, regulated by MYB1. Downregulated expression of key anthocyanin biosynthetic pathway genes, such as UFGT, F3’H, and ANS at the late stage of fruits development compared with DK3 fruits resulted in the failure to form red fruits. Our findings shed light on the regulatory mechanisms and metabolic processes that control color development in the fruits of Chinese bayberry.

Project description:DK bayberry fruit

Project description:Genome resequencing data of bayberry

Project description:microbial community of bayberry rhizosphere

Project description:microbial community of bayberry rhizosphere

Project description:Resequencing of Chinese bayberry germplasm resources

Project description:Metabolic mechanism of wine yeasts fermenting bayberry juice and its application in deep processing of bayberry

Project description:The genome of Chinese bayberry cv Zaojia

Project description:Chinese bayberry surface (Dong Kui cultivar) Raw sequence reads

Project description:The genome of Chinese bayberry Zaojia v2 Genome sequencing and assembly