Effects of copper stress on accumulation of three medicinal compositions and expression of two key enzyme genes in biosynthesis of Atractylodes lancea / 中草药

ABSTRACT

Objective: To explore the effect on the accumulation of medicinal compositions β-eudesmol, atractylon, atractylodin and key enzyme genes 3-hydroxy-3-methylglutaryl coenzyme A reductase (HMGR) and farnesyl pyrophosphate synthase (FPPS) expression in biosynthesis of Atractylodes lancea under copper stress. Methods: Under copper stress, the expression of key enzyme genes HMGR and FPPS in A. lancea was determined by real-time fluorescence quantitative PCR; the content of three medicinal components in A. lancea were determined by HPLC; The correlation analysis was performed with SPSS, and DPS software for grey correlation analysis. Results: When the copper stress concentration was within 100 mg/kg, the expression of FPPS and the content of atractylon in the rhizomes of A. lancea increased slightly. However, when the copper concentration continued to increase, the expression levels of HMGR and FPPS and three medicinal components content of A. lancea showed a different degrees of downward trend. The expression levels of HMGR and FPPS were positively correlated with the content of β-eudesmol, atractylon, and atractylodin (P < 0.05) under copper stress. Grey relational analysis showed that the content of β-eudesmol and atractylon in the rhizomes was significantly correlated with the expression of HMGR and FPPS of A. lancea under copper stress. The expression of FPPS gene had the larger contribution on the composition of β-eudesmol and atractylon. However, the correlation between the content of atractylodin and the expression of these two key enzyme genes was relatively small. Conclusion: This study clarified the change regulation of two key enzyme gene expression and the content of three medicinal compositions, and revealed the relationship between β-eudesmol, atractylon and HMGR and FPPS, the key enzymes in terpene biosynthesis of A. lancea under copper stress. It contributed to the further study of the molecular regulation mechanism of the synthesis of medicinal constituents under copper stress and provided a theoretical basis for improving the quality of A. lancea.