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The ABC transporter SmABCG1 mediates tanshinones export from the peridermic cells of Salvia miltiorrhiza root

丹参 生物合成 液泡 化学 异源表达 拟南芥 生物化学 基因 细胞生物学 生物 突变体 病理 中医药 细胞质 替代医学 医学 重组DNA
作者
Yajing Li,Junfeng Chen,Jing-Yu Zhi,Doudou Huang,Yuchen Zhang,Lei Zhang,Xinyi Duan,Pan Zhang,Shi Qiu,Jiaran Geng,Jingxian Feng,Ke Zhang,Xu Yang,Shouhong Gao,Wei-Hao Xia,Zheng Zhou,Yuqi Qiao,Bo Li,Qing Li,Tingzhao Li
出处
期刊:Journal of Integrative Plant Biology [Wiley]
卷期号:67 (1): 135-149 被引量:13
标识
DOI:10.1111/jipb.13806
摘要

Plants have mechanisms to transport secondary metabolites from where they are biosynthesized to the sites where they function, or to sites such as the vacuole for detoxification. However, current research has mainly focused on metabolite biosynthesis and regulation, and little is known about their transport. Tanshinone, a class diterpenoid with medicinal properties, is biosynthesized in the periderm of Salvia miltiorrhiza roots. Here, we discovered that tanshinone can be transported out of peridermal cells and secreted into the soil environment and that the ABC transporter SmABCG1 is involved in the efflux of tanshinone ⅡA and tanshinone Ⅰ. The SmABCG1 gene is adjacent to the diterpene biosynthesis gene cluster in the S. miltiorrhiza genome. The temporal-spatial expression pattern of SmABCG1 is consistent with tanshinone accumulation profiles. SmABCG1 is located on the plasma membrane and preferentially accumulates in the peridermal cells of S. miltiorrhiza roots. Heterologous expression in Xenopus laevis oocytes demonstrated that SmABCG1 can export tanshinone ⅡA and tanshinone Ⅰ. CRISPR/Cas9-mediated mutagenesis of SmABCG1 in S. miltiorrhiza hairy roots resulted in a significant decrease in tanshinone contents in both hairy roots and the culture medium, whereas overexpression of this gene resulted in increased tanshinone contents. CYP76AH3 transcript levels increased in hairy roots overexpressing SmABCG1 and decreased in knockout lines, suggesting that SmABCG1 may affect the expression of CYP76AH3, indirectly regulating tanshinone biosynthesis. Finally, tanshinone ⅡA showed cytotoxicity to Arabidopsis roots. These findings offer new perspectives on plant diterpenoid transport and provide a new genetic tool for metabolic engineering and synthetic biology research.
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