miR828a-CsMYB114 Module Negatively Regulates the Biosynthesis of Theobromine in Camellia sinensis.

Theobromine is an important quality component in tea plants (Camellia sinensis), which is produced from 7-methylxanthine by theobromine synthase (CsTbS), the key rate-limiting enzyme in theobromine biosynthetic pathway. Our transcriptomics and widely targeted metabolomics analyses suggested that CsMYB114 acted as a potential hub gene involved in the regulation of theobromine biosynthesis. The inhibition of CsMYB114 expression using antisense oligonucleotides (ASO) led to a 70.21% reduction of theobromine level in leaves of the tea plant, which verified the involvement of CsMYB114 in theobromine biosynthesis. Furthermore, we found that CsMYB114 was located in the nucleus of the cells and showed the characteristic of a transcription factor. The dual luciferase analysis, a yeast one-hybrid assay, and an electrophoretic mobility shift assay (EMSA) showed that CsMYB114 activated the transcription of CsTbS, through binding to CsTbS promoter. In addition, a microRNA, miR828a, was identified that directly cleaved the mRNA of CsMYB114. Therefore, we conclude that CsMYB114, as a transcription factor of CsTbS, promotes the production of theobromine, which is inhibited by miR828a through cleaving the mRNA of CsMYB114.

Identification of grape H3K4 genes and their expression profiles during grape fruit ripening and postharvest ROS treatment.

Fruit development is modified by different types of epigenetics. Histone methylation is an important way of epigenetic modification. Eight genes related to H3K4 methyltransferase, named VvH3K4s, were identified and isolated from the grape genome based on conserved domain analysis, which could be divided into 3 categories by the phylogenetic relationship. Transcriptome data showed that VvH3K4-5 was obviously up-regulated during fruit ripe, and its expression level was significantly different between 'Kyoho' and 'Fengzao'. The VvH3K4s promoters contains cis-acting elements of in response to stress, indicating that they may be involved in the metabolic pathways regulated by ROS signaling. The subcellular localization experiment and promoter activity analysis experiment on VvH3K4-5 showed that VvH3K4s may be regulated by H2O2. With H2O2 and Hypotaurine treatment, it was found that the expression pattern of most genes was opposite, and the expression level showed different expression trend with the extension of treatment time.