Anthocyanins have essential biological functions, affecting the development of horticultural production. They are synthesized in the cytoplasm through flavonoid metabolic pathways and finally transported into vacuoles for storage. Plant glutathione S-transferases (GSTs) are multifunctional enzymes involved in anthocyanin transportation. In this study, we identified 38 GSTs from the apple (Malus domestica) genome (HFTH1 Whole Genome v1.0) based on the sequence similarity with the GST family proteins of Arabidopsis. These MdGST genes could be grouped into nine chief subclasses: U, F, L, Z, T, GHR, EF1Bγ, TCHQD, and DHAR. The structures, motifs, three-dimensional models, and chromosomal distribution of MdGST genes were further analyzed. Elements which are responsive for some hormones and stress, and others that involve genes related to flavonoid biosynthesis were forecast in the promoter of MdGST. In addition, we identified 32 orthologous gene pairs between apple and Arabidopsis. These genes indicated that numerous apple and Arabidopsis counterparts appeared to be derived from a common ancestor. Amongst the 38 MdGST genes, MdGSTU12 was considerably correlated with anthocyanin variation in terms of extracting expression profiles from reported. Finally, further functional identification in apple transgenic calli and subcellular localization confirmed that MdGSTU12 was of great significance in anthocyanin accumulation in apple.
Keywords: MdGSTU12; anthocyanin; apple; gene family; glutathione S-transferase (GST).