摘要
目的:探索栀子主要有效成分与微量元素间的量变规律,建立有效成分与微量元素相关数学模型。方法:应用高效液相色谱仪对栀子成熟果实主要有效成分栀子苷、西红花苷Ⅰ、熊果酸进行含量测定;用火焰原子吸收光谱法和原子荧光光谱法测定栀子叶中微量元素Fe、Mn、Zn、Se的含量,分别与栀子成熟果实有效成分的含量建立相关性。结果:栀子苷的含量(Y1)、西红花苷Ⅰ的含量(Y2)、熊果酸的含量(Y3)与微量元素Fe的含量(X1)、Mn的含量(X2)、Zn的含量(X3)、Se的含量(X4)的四元线性回归方程为Y1=0.004 388X1+0.502 989X2-2.932 43X3+238.002 7X4+111.652 6(r=0.999 9),Y2=0.012 063X1+0.188 205X2-0.276 15X3-1 264.26X4+115.646 8(r=0.999 9),Y3=0.000 109X1+0.006 743X2-0.015 75X3-5.895 72X4+0.942 369(r=0.999 9);Fe质量浓度在343.2~1 246.9 mg·L-1,Mn质量浓度在35.70~99.80 mg·L-1,Zn质量浓度在18.30~40.95 mg·L-1和Se质量浓度在0.09~0.10 mg·L-1范围内,线性关系良好。结论:所建立的数学模型可靠,根据栀子叶中微量元素Fe、Mn、Zn、Se的含量可较准确计算出栀子成熟果实主要效成分栀子苷、西红花苷Ⅰ、熊果酸的含量,为科学预测引种栽培栀子的品质提供了依据。
Objective:To explore the pattern of quantitative changes and set up a mathematic model between the main effective components and microelements in Fructus Gardeniae. Methods: HPLC was used to determine the contents of geniposide, croein I , and ursolic acid in the ripe fruit of Fructus Gardeniae. Flame atomic absorption spectrometry and atomic fluorescence spectrometry were used to determine the contents of Fe, Mn,Zn and Se in the leaf of Fructus Gardeniae,and then,the correlation of each microelement with the main effective components was set up. Results :The four-element linear regression equations between the contents of geniposide ( Y1 ) , croein I ( Y2 ), and ursolic acid ( Y3 ) with the contents of Fe ( X1 ) , Mn ( X2 ) , Zn ( X3 ) and Se ( X4 ) were YL = O. 004 388X1 + 0. 502 989X2 - 2. 932 43X3 + 238.002 7X4 + 111. 652 6 ( r = 0. 999 9 ), Y2 = 0. 012 063X1 + 0. 188 205X2 - 0.276 15X3 -1 264. 26X4 +115.646 8(r =0.999 9),and Y3 =0.000 109X1 +0.006 743X2 -0.015 75X3 -5.895 72 X4 + O. 942 369 ( r = 0. 999 9 ). The linear relationship was good in the range of 343.20 - 124 6.90 mg ·L - 1 for Fe, 35.70 - 99. 80 mg · L-1 for Mn, 18.30 - 40. 95 mg · L- 1 for ZR, and 0. 09 - 0. 10 mg · L- 1 for Se, respectively. Conclusion:The mathematic model is reliable based on the quantitative change pattern between the main effective components in the ripe fruit of Fructus Gardeniae and the microelements in the leaf of Fructus Gardeniae. The contents of geniposide, crocin I , and ursolic acid can be fairly calculated according to the contents of Fe, Mn,Zn and Se in Fructus Gardeniae accurately. It can provide a basis for the scientific prediction of the quality of culti- vated Fructus Gardeniae.
出处
《药物分析杂志》
CAS
CSCD
北大核心
2015年第5期893-899,共7页
Chinese Journal of Pharmaceutical Analysis
基金
四川省科技厅-泸州市政府-泸州医学院三方联合专项-四川优质栀子产能扩大
高品质遗传特征保持稳定的关键技术与高附加值转化应用产品的开发研究(No.14ZC0045)
四川省科技支撑计划项目-巴中产栀子品质与规范化种植研究(No.2010SZ0049)
泸州市政府-泸州医学院联合专项-优质栀子泸州引种推广
现有品种品质提高之集成技术创新及转化应用产品开发研究(No.2013LZLY-K69)
四川省教育厅重点科研项目-川浙赣产栀子中乌索酸含量的比较研究(No.2005A071)
四川省科技支撑计划项目-巴中产栀子种质资源保护与评价研究(No.2011SZ0048)
