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HPPR encodes the hydroxyphenylpyruvate reductase required for the biosynthesis of hydrophilic phenolic acids in Salvia miltiorrhiza 被引量:4
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作者 WANG Guo-Quan CHEN Jun-Feng +3 位作者 YI Bo TAN He-Xin ZHANG Lei CHEN Wan-Sheng 《Chinese Journal of Natural Medicines》 SCIE CAS CSCD 2017年第12期917-927,共11页
Salvia miltiorrhiza is a medicinal plant widely used in the treatment of cardiovascular and cerebrovascular diseases. Hydrophilic phenolic acids, including rosmarinic acid(RA) and lithospermic acid B(LAB), are its pri... Salvia miltiorrhiza is a medicinal plant widely used in the treatment of cardiovascular and cerebrovascular diseases. Hydrophilic phenolic acids, including rosmarinic acid(RA) and lithospermic acid B(LAB), are its primary medicinal ingredients. However, the biosynthetic pathway of RA and LAB in S. miltiorrhiza is still poorly understood. In the present study, we accomplished the isolation and characterization of a novel S. miltiorrhiza Hydroxyphenylpyruvate reductase(HPPR) gene, Sm HPPR, which plays an important role in the biosynthesis of RA. Sm HPPR contained a putative catalytic domain and a NAD(P)H-binding motif. The recombinant Sm HPPR enzyme exhibited high HPPR activity, converting 4-hydroxyphenylpyruvic acid(p HPP) to 4-hydroxyphenyllactic acid(p HPL), and exhibited the highest affinity for substrate 4-hydroxyphenylpyruvate. Sm HPPR expression could be induced by various treatments, including SA, GA_3, Me JA and Ag^+, and the changes in Sm HPPR activity were correlated well with hydrophilic phenolic acid accumulation. Sm HPPR was localized in cytoplasm, most likely close to the cytosolic NADPH-dependent hydroxypyruvate reductase active in photorespiration. In addition, the transgenic S. miltiorrhiza hairy roots overexpressing Sm HPPR exhibited up to 10-fold increases in the products of hydrophilic phenolic acid pathway. In conclusion, our findings provide a new insight into the synthesis of active pharmaceutical compounds at molecular level. 展开更多
关键词 SALVIA miltiorrhiza HYDROPHILIC PHENOLIC acids Rosmarinic ACID llithospermic ACID B Biosynthesis pathway
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