[Objectives] To carry out infrared spectroscopic study of different growth years and different parts of the traditional Chinese medicine Radix Chuanmingshinis Violacei. [Methods]Using potassium bromide squash method a...[Objectives] To carry out infrared spectroscopic study of different growth years and different parts of the traditional Chinese medicine Radix Chuanmingshinis Violacei. [Methods]Using potassium bromide squash method and Fourier transform infrared spectroscopy on the different growth years and different parts of Radix Chuanmingshinis Violacei for infrared spectrum and second derivative spectrum. [Results]With the increasing growth time,Radix Chuanmingshinis Violacei accumulated in the secondary metabolism substances gradually increased,the characteristic absorption peak appeared in the position such as 3 366,2 927,1 634,1 416,1 516,1 080,1 020,and 928 cm^(-1),the main chemicals as polysaccharide,coumarin,saponins and steroids. The difference of chemical position between root tuber and cauline leaf is obvious. [Conclusions]Infrared spectroscopy was applied in studying different growing periods and different parts of Radix Chuanmingshinis Violacei,of obvious characteristics,identification and quality evaluation method,is simple and suitable for Radix Chuanmingshinis Violacei.展开更多
目的对不同生长年限及不同部位川明参Chuanmingshen violaceum Sheh et Shan进行红外光谱及二阶导数图谱研究。方法采用溴化钾压片法和傅里叶变换红外光谱法对不同生长年限川明参及川明参根茎和茎叶进行红外光谱及二阶导数图谱进行研究...目的对不同生长年限及不同部位川明参Chuanmingshen violaceum Sheh et Shan进行红外光谱及二阶导数图谱研究。方法采用溴化钾压片法和傅里叶变换红外光谱法对不同生长年限川明参及川明参根茎和茎叶进行红外光谱及二阶导数图谱进行研究。结果随着生长年限的增长,川明参次生代谢所累积的物质逐渐增多,在3366cm^(-1)、2927cm^(-1)、1634cm^(-1)、1416cm^(-1)、1516cm^(-1)、1080cm^(-1)、1020cm^(-1)和928cm^(-1)等位置出现特征吸收峰,主要化学成为多糖、香豆素、皂苷和甾体等。根茎和茎叶化学成分差异明显。结论采用红外光谱法对不同生长年限及不同部位川明参进行研究,图谱特征明显,方法简便,适合川明参的鉴别与质量评价。展开更多
基金Supported by Sichuan Science and Technology Support Program Funding(No.2014SZ0132)
文摘[Objectives] To carry out infrared spectroscopic study of different growth years and different parts of the traditional Chinese medicine Radix Chuanmingshinis Violacei. [Methods]Using potassium bromide squash method and Fourier transform infrared spectroscopy on the different growth years and different parts of Radix Chuanmingshinis Violacei for infrared spectrum and second derivative spectrum. [Results]With the increasing growth time,Radix Chuanmingshinis Violacei accumulated in the secondary metabolism substances gradually increased,the characteristic absorption peak appeared in the position such as 3 366,2 927,1 634,1 416,1 516,1 080,1 020,and 928 cm^(-1),the main chemicals as polysaccharide,coumarin,saponins and steroids. The difference of chemical position between root tuber and cauline leaf is obvious. [Conclusions]Infrared spectroscopy was applied in studying different growing periods and different parts of Radix Chuanmingshinis Violacei,of obvious characteristics,identification and quality evaluation method,is simple and suitable for Radix Chuanmingshinis Violacei.
文摘目的对不同生长年限及不同部位川明参Chuanmingshen violaceum Sheh et Shan进行红外光谱及二阶导数图谱研究。方法采用溴化钾压片法和傅里叶变换红外光谱法对不同生长年限川明参及川明参根茎和茎叶进行红外光谱及二阶导数图谱进行研究。结果随着生长年限的增长,川明参次生代谢所累积的物质逐渐增多,在3366cm^(-1)、2927cm^(-1)、1634cm^(-1)、1416cm^(-1)、1516cm^(-1)、1080cm^(-1)、1020cm^(-1)和928cm^(-1)等位置出现特征吸收峰,主要化学成为多糖、香豆素、皂苷和甾体等。根茎和茎叶化学成分差异明显。结论采用红外光谱法对不同生长年限及不同部位川明参进行研究,图谱特征明显,方法简便,适合川明参的鉴别与质量评价。
