Study on transformation rules of terrestrosin D in course of Tribuli Fructus stir-frying based on simulated processing technology / 中国中药杂志

The contents of terrestrosin D and hecogenin from Tribuli Fructus were determined before and after stir-frying. The results showed that the content of terrestrosin D was decreased significantly,and the content of hecogenin was increased significantly after such processing. In order to verify the inference that terrestrosin D was converted to hecogenin by stir-frying,the quantitative variation rules of terrestrosin D and hecogenin were studied by simulated processing technology,and the simulated processing product of terrestrosin D was qualitatively characterized by ultra performance liquid chromatography/time of flight mass spectrometry( UPLC-TOF/MS) to clarify its transformation process during stir-frying. The results showed that the content of terrestrosin D was decreased significantly at first and then a platform stage appeared with the prolongation of processing time at a certain temperature. Raising the stir-frying temperature could further decrease the content of terrestrosin D and delay the time that the platform stage appeared. When the processing was simulated at higher temperatures( 220 ℃ and 240 ℃),the content of hecogenin was increased gradually with the increase of processing temperature and the prolongation of processing time. In the process of stir-frying,the deglycosylation reaction of terrestrosin D to hecogenin was not completed in one step. The deglycosylation reaction occurred first at the end of the sugar chain,and then other glycosyl units in the sugar chain were sequentially removed from the outside to the inside to finally form the hecogenin. This study provides a basis for further revealing the detoxification mechanism of stir-fried Tribuli Fructus.

Changes and mechanisms of terrestroside B and terrestrosin K in stir-frying Tribuli Fructus / 中国中药杂志

The contents of terrestroside B and terrestrosin K in Tribuli Fructus with different degree of stir-frying were determined by high performance liquid chromatography with evaporative light-scattering detector( HPLC-ELSD). The results showed that the contents of terrestroside B and terrestrosin K were increased at first and then decreased,and both of them had the highest content at the best time of heating. The results of simulated processing of Tribulus Terrestris saponins showed that when the processing time kept constant,the contents of terrestroside B and terrestrosin K were decreased gradually with the increase of processing temperature from 180 ℃ to240 ℃. At a certain temperature,the content of terrestrosin K was increased first and then decreased with the prolongation of processing time,and reached the highest level at 5 min. However,the content of terrestroside B was increased first and then decreased with the increase of processing time only at 180 ℃,and reached the highest level at 10 min. When the processing temperature was controlled at200,220 and 240 ℃ respectively,the content of terrestroside B was decreased gradually with the increase of processing time. The simulated processing products of tribuluside A,terrestroside B and terrestrosin K were qualitatively characterized by ultra-performance liquid chromatography-time of flight mass spectrometry( UPLC-TOF/MS). It was proved that tribuluside A and terrestrosin Ⅰ containing C-22-OH were dehydroxylated in the processing of Tribuli Fructus and transformed respectively into terrestroside B and terrestrosin K containing C-20-C-22 double bond. As a result,the contents of terrestroside B and terrestrosin K were increased. The sugar chains at C-3 and C-26 positions of terrestroside B and terrestrosin K could be deglycosylated and converted into monosaccharide chain saponins and short sugar chain saponins,so the contents of terrestroside B and terrestrosin K were reduced. The study provides reference for further revealing the processing principle of Tribuli Fructus.