Abstract
To conform to the multiple regulations of triterpene biosynthesis, the gene encoding farnesyl pyrophosphate synthase (FPS) was transformed into Panax notoginseng (P. notoginseng) cells in which RNA interference (RNAi) of the cycloartenol synthase (CAS) gene had been accomplished. Transgenic cell lines showed both higher expression levels of FPS and lower expression levels of CAS compared to the wild-type (WT) cells. In the triterpene and phytosterol analysis, transgenic cell lines provided a higher accumulation of total triterpene saponins, and a lower amount of phytosterols in comparison with the WT cells. Compared with the cells in which RNAi of the CAS gene was achieved, the cells with simultaneously over-expressed FPS and silenced CAS showed higher triterpene contents. These results demonstrate that over-expression of FPS can break the rate-limiting reaction catalyzed by FPS in the triterpene saponins biosynthetic pathway; and inhibition of CAS expression can decrease the synthesis metabolic flux of the phytosterol branch. Thus, more precursors flow in the direction of triterpene synthesis, and ultimately promote the accumulation of P. notoginseng saponins. Meanwhile, silencing and over-expressing key enzyme genes simultaneously is more effective than just manipulating one gene in the regulation of saponin biosynthesis.
Highlights
Panax notoginseng is a well-known Chinese medicine herb
It has been reported that efficient gene silencing can be achieved by using hpRNA construct which vector was designed to accept the cycloartenol synthase (CAS) RNA interference (RNAi) fragment via homologous contains a sense arm, anti-sense arm and an intron [15,16]
The results showed that the expression levels of farnesyl pyrophosphate synthase (FPS) and CAS on the 35th day were all higher periods were the expressions of to CAS in of different growth periods were examined
Summary
Panax notoginseng is a well-known Chinese medicine herb. Triterpene saponins with a wide range of structural diversity are the major bioactive components in P. notoginseng. Over 70 different kinds of triterpene saponins have been isolated and characterized from different parts of. It has been proven that triterpene saponins have applications in anti-cancer [2], anti-atherosclerotic [3], anti-oxidant [4], anti-diabetic [5], anti-hypolipidemic [6] and some other pharmacological activities [7,8]. Difficulties including a narrow habitat (mainly in Wenshan, China), long maturation period (>3 years) and crop rotation lead to a comparatively low production of. P. notoginseng, and have restrained its pharmacological application. Since the chemical structures of triterpene saponins are complicated, the chemical synthesis may give rise to high-cost
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