不同采收期苗药土党参中党参炔苷、总多糖和总黄酮含量的测定以及土党参最佳采收期的确定
Determination of Lobetyolin, Total Polysaccharides and Total Flavonoids in Miao Medicine Campanumoea Javanica from Different Harvesting Periods and Determination of the Optimal Harvesting Period of Campanumoea Javanica
摘 要
分别采用高效液相色谱法(HPLC)和紫外-可见分光光度法(UV-Vis)测定不同采收期(1~12月)土党参中党参炔苷、总多糖、总黄酮含量,并用总评归一化法确定其最佳采收期。在土党参样品中加入甲醇,超声提取40 min,过0.45 μm滤膜,用HPLC测定滤液中的党参炔苷含量。在土党参样品中加入80%(体积分数)乙醇溶液,回流2次,每次1 h,过滤后,滤渣以水为介质在微波炉中消解2次,每次5 min,稀释后加入50 g·L-1苯酚溶液和硫酸,于100℃水浴加热10 min,冰水浴中冷却20 min,用UV-Vis在490 nm下测定总多糖含量,用葡萄糖作为对照品绘制标准曲线。在土党参样品中加入60%(体积分数,下同)乙醇溶液,回流2次,每次1 h,过滤、浓缩并稀释,加入50 g·L-1亚硝酸钠溶液、100 g·L-1硝酸铝溶液和40 g·L-1氢氧化钠溶液,用60%乙醇溶液稀释至10 mL,用UV-Vis在509 nm下测定总黄酮含量,用芦丁作为对照品绘制标准曲线。以Hassan法计算党参炔苷、总多糖和总黄酮的归一值,以总归一(OD)值确定最佳采收期。结果显示:党参炔苷、总多糖和总黄酮的质量浓度均在一定范围内与其对应的峰面积(党参炔苷)和吸光度(总多糖和总黄酮)呈线性关系,党参炔苷的检出限(3S/N)、总多糖的检出限(3.143s)、总黄酮的检出限(3.143s)分别为0.131,0.046,0.071 mg·L-1。方法用于实际样品的分析,峰面积(党参炔苷)和吸光度(总多糖和总黄酮)的相对标准偏差(n=6)均不大于3.0%,平均加标回收率分别为98.8%,99.1%,98.5%;10月份的OD值较高,可将其确定为土党参最佳采收期,此时党参炔苷、总多糖和总黄酮的质量分数分别为3.08,185.15,5.85 mg·g-1。
紫外-可见分光光度法
党参炔苷
总多糖
总黄酮
采收期
土党参
HPLC
UV-Vis
lobetyolin
total polysaccharides
total flavonoids
harvesting period
Campanumoea javanica
Abstract
Lobetyolin, total polysaccharides and total flavonoids in Campanumoea javanica from different harvesting periods (January to December) were determined by HPLC and UV-Vis, and the optimal harvesting period was obtained by the comprehensive evaluation normalization method. The Campanumoea javanica sample were mixed with methanol for extraction with ultrasound for 40 min. Aftering passing through 0.45 μm filter membrane, lobetyolin in the filtrate was determined by HPLC. The ethanol solution of 80% (volume fraction) was added into the Campanumoea javanica sample, and the mixture was refluxed twice for 1 h each time. After filtering, the filtrate was digested twice with water as media in the microwave oven for 5 min each time, diluted and mixed with 50 g·L-1 phenol solution and sulfuric acid. The above solution was heated in the water bath at 100 ℃ for 10 min, cooled in an ice water bath for 20 min, and total polysaccharides was determined by UV-Vis at 490 nm, with glucose as reference substance for preparation of standard curve. The Campanumoea javanica sample together with 60% (volume fraction, the same below) ethanol solution was refluxed twice for 1 h each time. After filtration, concentration and dilution, 50 g·L-1 sodium nitrite solution, 100 g·L-1 aluminum nitrate solution and 40 g·L-1 sodium hydroxide solution were added. The solution obtained was diluted to 10 mL with 60% ethanol solution, and total flavonoids was determined by UV-Vis at 509 nm, with rutin as reference substance for preparation of standard curve. The normalized values of lobetyolin, total polysaccharide and total flavonoids were calculated by Hassan method, and the optimal harvesting period was obtained by the total normalized (OD) value. As found by results, linear relationships between mass concentrations of lobetyolin, total polysaccharides and total flavonoids and their corresponding peak areas (for lobetyolin) and absorbances (for total polysaccharides and total flavonoids) were kept in definite ranges, and detection limits of lobetyolin (3S/N), total polysaccharides (3.143s) and total flavonoids (3.143s) were 0.131, 0.046, 0.071 mg·L-1, respectively. The proposed method was applied to the analysis of actual samples, RSDs (n=6) of the peak areas (for lobetyolin) and absorbances (for total polysaccharides and total flavonoids) were not more than 3.0%, and the average values of test for spiked recovery were 98.8%, 99.1% and 98.5%, respectively. The OD values in October were higher, which could be identified as the optimal harvesting period for Campanumoea javanica, with mass fractions of lobetyolin, total polysaccharides and total flavonoids of 3.08, 185.15, 5.85 mg·g-1, respectively.
中图分类号 O657.7 O657.32 DOI 10.11973/lhjy-hx202202002
所属栏目 试验与研究
基金项目 2018年、2019年中医药公共卫生服务补助专项(国中医药办科技函[2018]132号、国中医药办科技函[2019]186号);黔南民族医学高等专科学校科研项目(QNYZ201717)
收稿日期 2020/12/1
修改稿日期
网络出版日期
作者单位点击查看
备注陆廷祥,讲师,执业药师,硕士,主要研究方向为中药、民族药质量控制研究
引用该论文: LU Tingxiang,WANG Chuanming,ZHANG Yuping,JIANG Danhong,JIANG Xiaoqi,HAN Zhongyao. Determination of Lobetyolin, Total Polysaccharides and Total Flavonoids in Miao Medicine Campanumoea Javanica from Different Harvesting Periods and Determination of the Optimal Harvesting Period of Campanumoea Javanica[J]. Physical Testing and Chemical Analysis part B:Chemical Analysis, 2022, 58(2): 133~139
陆廷祥,王传明,张玉萍,姜丹红,姜晓琪,韩忠耀. 不同采收期苗药土党参中党参炔苷、总多糖和总黄酮含量的测定以及土党参最佳采收期的确定[J]. 理化检验-化学分册, 2022, 58(2): 133~139
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【2】杜江,邱得文.中华本草苗药卷[M].贵州:贵州科技出版社, 2005:12.
【3】张占军,杨小生,朱文适,等.土党参化学成分研究[J].中草药, 2005(8):28-30.
【4】杨大松,李资磊,王雪,等.土党参的化学成分及其抗血管生成活性研究[J].中草药, 2015,46(4):470-475.
【5】陈致印,罗莹,刘广军,等.旋转中心设计优化土党参蛋白质提取工艺[J].上海农业学报, 2017,33(5):93-98.
【6】宋丹,王峥涛,李隆云,等.党参炔苷对胃溃疡模型大鼠胃黏膜损伤保护作用的研究[J].中国中医急症, 2008(7):963-964.
【7】张占军,杨小生.响应面法优化土党参多糖的提取工艺及其神经营养活性研究[J].食品工业科技, 2016,37(6):291-297.
【8】肖雄,彭梅,杨娟.土党参多糖铁配合物的制备及其理化性质[J].食品科学, 2015,36(17):13-16.
【9】彭梅,张振东,杨娟.土党参多糖对小鼠的抗疲劳作用[J].食品科学, 2011,32(19):224-226.
【10】张振东,杨娟,吴兰芳,等.土党参多糖对小鼠脑缺血/再灌注损伤的保护作用[J].中国药理学通报, 2011,27(4):508-511.
【11】彭梅,张振东,杨娟.土党参多糖对小鼠耐缺氧能力的影响[J].中国老年学杂志, 2012,32(6):1183-1185.
【12】张丽静,扎罗,范蓓,等.西藏不同地区芜菁中总黄酮及皂苷含量测定及抗氧化活性比较研究[J].食品研究与开发, 2020,41(11):53-58.
【13】焦豪妍,许梦怡,师大智,等.蓝莓叶总黄酮对LPS/D-GalN诱导小鼠急性肝损伤的保护作用[J].食品研究与开发, 2020,41(17):1-6.
【14】宋怡伟,赵志刚,韩成云.响应面法超声辅助提取香椿叶总黄酮及抑菌效果研究[J].食品研究与开发, 2019,40(23):153-158.
【15】杨小生,张占军,杨再昌,等.土党参多糖、衍生物及其制备方法和应用:1648136[P]. 2005-08-03[2020-11-12].
【16】杨娟,张振东,彭梅,等.土党参多糖在制备药物和保健食品中的应用:101966199A[P]. 2011-02-09[2020-11-12].
【17】王阳光.一种提高人体免疫力的四参中药保健品:108066617A[P]. 2018-05-25[2020-11-12].
【18】陆廷祥,王传明,胡志平,等.贵州省都匀市苗药加欧屋的资源调查初报[J].中国民族医药杂志, 2019,25(5):41-43.
【19】孙庆文,黄敏,何顺志.高效液相色谱法测定土党参中党参炔苷的含量[J].时珍国医国药, 2009,20(1):120-121.
【20】李瑞燕,来丽娜,杨雪,等.野生党参芦头与参尾的质量评价研究[J].食品研究与开发, 2018,39(19):141-146.
【21】吴兰芳,景永帅,张振东,等.土党参多糖不同提取方法的比较研究[J].食品科学, 2012,33(18):45-48.
【22】韩忠耀,余跃生,董海平,等.声光可调滤光器-近红外光谱法快速测定苗药水冬瓜根皮药材中总黄酮和浸出物的含量[J].理化检验-化学分册, 2019,55(6):668-671.
【23】宋艺君,王志彦,李积秀,等.总评归一化法优选山茱萸酒蒸炮制工艺[J].中药材, 2018,41(2):325-329.
【24】刘斌,常薇,等.银杏叶提取物中总黄酮含量的荧光光度法测定[J].西安工程大学学报, 2019,33(6):620-624.
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