RESUMEN
Anthraquinones,dianthrones and tannins are the main active ingredients of Rheum tanguticum. In this study the three components were determined by HPLC,and the results were analyzed by multiple comparisons,principal components analysis(PCA)and correspondence analysis(CA). The results showed that the contents of components in different growing areas and types(wild and cultivated) reached a significant level(P<0. 05). Baiyu county,Xiaojin county and Ruoergai county had obvious advantages in the accumulation of catechin hydrate,rhien and sensenoside A respectively. The principal component was different in two growing type and the wild environment was conducive to combined anthraquinones accumulation. For active components,normalized planting was better than retail cultivating. Therefore,the effect on the accumulation of chemical components in Rh. tangusticum,should be taken into full account in the selection of the cultural base of Rh. tanguticum. The standardized cultivating is superior to retail cultivating in terms of the accumulation of active ingredients,and standardized planting is inferior to the wild.
Asunto(s)
Antraquinonas , Cromatografía Líquida de Alta Presión , Medicamentos Herbarios Chinos , Fitoquímicos , Plantas Medicinales , Química , Rheum , Química , TaninosRESUMEN
Objective: To obtain the optimum cultivation period and best harvesting month of P. polyphylla var. chinensis by studying on change regularity of biomass accumulation rate and steroid saponins from P. polyphylla var. chinensis with the changes of its harvesting time and medicinal parts. Methods: A high performance liquid chromatography-evaporative light-scattering detector (HPLC-ELSD) method was established to characterize content of six steroid saponins (Paris saponins I, II, VI, VII, V, and H) from P. polyphylla var. chinensis and its dynamic change regularity was detected; Drying rate was measured by oven-dry method to indicate biomass accumulation rate. Results: Drying rate increased with the planting ages and reached the highest level in the eighth year. There was a waving trend between drying rate and harvesting time and drying rate reached crest in January and June; The main steroid saponins of P. polyphylla var. chinensis were Paris saponin VII and Paris saponin H. The content of total saponins varied by `V' shaped with the increases of planting-year and reached the highest in the second and eighth year, and it changed by waving shape with the change of harvesting month and reached the crest in March and November; There was a distinct difference of total saponins among different parts of P. polyphylla var. chinensis: stems and leaves > rhizome-forepart > rhizome-middle-part ≈ rhizome-end-part. The distribution of paris saponins VII decreased obviously from stems to rhizome-end-part while paris saponins H increased gradually. Conclusion: There were remarkable correlations among steroid saponins accumulation amounts and planting ages, harvesting month, and medicinal parts. The optimum cultivation period is eight years and best harvesting month is in November; The quality of medicinal materials would decline if only rhizome-end-part to be used; Paris saponin VII maybe a relative factor for germination and growth of P. polyphylla var. chinensis; Stems of P. polyphylla var. chinensis can be an important resource to extract steroid saponins, which have a profound significance to broaden resources of medicinal plants and improve resources utilization efficiency.