Ying Zhou , Wei He , Yunchuan He , Qiulin Chen , Yang Gao , Jiamei Geng , Zeng-Rong Zhu
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引用次数: 0
摘要
芳樟醇及其衍生物对茶的香气有很大的贡献。本研究发现,8-羟基芳樟醇是海南大叶中茶(Camellia sinensis var. assamica ' Hainan dayezhong)中芳樟醇衍生的主要香气化合物之一。同时检测到(Z)-8-羟基芳樟醇和(E)-8-羟基芳樟醇,以E型化合物为主。其含量在不同月份有所波动,芽中的含量高于其他组织。CsCYP76B1和CsCYP76T1位于茶树内质网中,催化芳樟醇生成8-羟基芳樟醇。在红茶生产的萎凋过程中,(Z)-8-羟基芳樟醇和(E)-8-羟基芳樟醇的含量均显著增加。进一步研究表明,茉莉酸盐诱导CsCYP76B1和CsCYP76T1基因表达,而积累的前体芳樟醇也可能参与8-羟基芳樟醇积累。因此,本研究不仅揭示了茶树中8-羟基芳樟醇的生物合成,还揭示了红茶香气形成的机理。
Formation of 8-hydroxylinalool in tea plant Camellia sinensis var. Assamica ‘Hainan dayezhong’
Linalool and its derivatives contribute greatly to tea aroma. Here, 8-hydroxylinalool was found to be one of the major linalool-derived aroma compounds in Camellia sinensis var. assamica ‘Hainan dayezhong’, a tea plant grown in Hainan Province, China. Both (Z)-8-hydroxylinalool and (E)-8-hydroxylinalool were detected, and the E type was the main compound. Its content fluctuated in different months and was the highest in the buds compared with other tissues. CsCYP76B1 and CsCYP76T1, located in the endoplasmic reticulum, were identified to catalyze the formation of 8-hydroxylinalool from linalool in the tea plant. During withering of black tea manufacturing, the content of both (Z)-8-hydroxylinalool and (E)-8-hydroxylinalool significantly increased. Further study suggested that jasmonate induced gene expression of CsCYP76B1 and CsCYP76T1, and the accumulated precursor linalool may also contribute to 8-hydroxylinalool accumulation. Thus, this study not only reveals 8-hydroxylinalool biosynthesis in tea plants but also sheds light on aroma formation in black tea.