毛细管电泳中移动反应界面法富集和检测尿样中的氧化苦参碱

色谱

毛细管电泳中移动反应界面法富集和检测尿样中的氧化苦参碱

王星,张薇,樊柳荫,曹成喜

Laboratory of Analytical Biochemistry &Bio-Separation, School of Life Science and Biotechnology,
Shanghai Jiao Tong University, Shanghai 200240, China

收稿日期:2007-03-29 修回日期:2007-05-14 出版日期:2007-09-30 发布日期:1985-03-25
通讯作者: 曹成喜

Determination of Oxymatrine in Urine Samples by Capillary Electrophoresis with Stacking Induced
by Moving Reaction Boundary

WANG Xing, ZHANG Wei, FAN Liuyin, CAO Chengxi

Laboratory of Analytical Biochemistry &Bio-Separation, School of Life Science and Biotechnology,
Shanghai Jiao Tong University, Shanghai 200240, China

Received:2007-03-29 Revised:2007-05-14 Online:2007-09-30 Published:1985-03-25

摘要/Abstract

摘要：

采用建立在移动反应界面理论上的体系进行尿样中氧化苦参碱的富集与定量检测。与传统的毛细管电泳相比,体系中引入了富集缓冲溶液(富集相)和分离缓冲溶液(分离相)。优化的条件如下:样品缓冲溶液为20 mmol/L 甲酸钠(用氨水调节pH至10.70),富集缓冲溶液为40 mmol/L 甲酸-甲酸钠(pH 2.60),分离缓冲溶液为100 mmol/L 甲酸-甲酸钠(pH 4.80)；样品相压力进样1.4 kPa×3 min,富集相压力进样1.4 kPa×7 min,紫外检测波长210 nm,电压21 kV。氧化苦参碱在2.2~65 mg/L的质量浓度范围内呈良好的线性关系(r=0.9991),检出限为0.74 mg/L,灵敏度比常规毛细管电泳方法提高约70倍，重现性良好。该方法已经成功地应用于尿样中氧化苦参碱的检测。

关键词: 富集, 毛细管电泳, 尿样 , 氧化苦参碱, 移动反应界面

Abstract:

A stacking system based on moving reaction boundary (MRB) for stacking and quantitative determination of oxymatrine (OMT) in urine samples was developed. The experimental conditions were optimized for the stacking of OMT as well as its separation. The optimized conditions were 20 mmol/L HCOONa (pH 10.70 adjusted by weak alkali of ammonia rather than strong alkali of sodium hydroxide) as sample buffer, 40 mmol/L HCOOH-HCOONa (pH 2.60) as stacking buffer, 100 mmol/L HCOOH-HCOONa (pH 4.80) as separation buffer, 1.4 kPa (3 min) sample phase injection and 1.4 kPa (7 min) stacking phase injection, 210 nm of detection wavelength, 21 kV of voltage. The linear response of OMT concentration ranged from 2.2 to 65 mg/L with high correlation coefficient (r=0.9991), the limit of detection (LOD) for OMT was 0.74 mg/L, and sensitivity was enhanced by 70 times. This method can be well used for quantification of OMT in urine samples with high sensitivity and can be further applied in the investigation of pharmacokinetics.

Key words: moving reaction boundary, oxymatrine, stacking, urine , capillary electrophoresis (CE)

王星,张薇,樊柳荫,曹成喜.

毛细管电泳中移动反应界面法富集和检测尿样中的氧化苦参碱

[J]. 色谱.

WANG Xing, ZHANG Wei, FAN Liuyin, CAO Chengxi.

Determination of Oxymatrine in Urine Samples by Capillary Electrophoresis with Stacking Induced
by Moving Reaction Boundary

[J]. Chinese Journal of Chromatography.

[1]	温亚伦, 邵宇辰, 赵新颖, 屈锋. 2022年毛细管电泳技术年度回顾[J]. 色谱, 2023, 41(5): 377-385.
[2]	叶翰章, 刘婷婷, 丁永立, 顾婧婧, 李宇浩, 王琪, 张占恩, 王学东. 泡腾辅助微萃取技术的开发与应用研究进展[J]. 色谱, 2023, 41(4): 289-301.
[3]	张含智, 李凤, 康经武. 毛细管电泳-无鞘流电喷雾质谱用于药物分析[J]. 色谱, 2023, 41(2): 160-167.
[4]	江若可, 丁晓静. 非水毛细管电泳法同时测定消毒剂、个人护理品及药膏中三氯生、三氯卡班和对氯间二甲苯酚[J]. 色谱, 2023, 41(2): 168-177.
[5]	刘威, 徐之薇, 王睿, 赵雨, 贾琼. 多孔有机框架材料在真菌毒素分离富集与检测中的研究进展[J]. 色谱, 2023, 41(10): 891-900.
[6]	门雪, 吴成新, 陈明丽, 王建华. 毛细管电泳-激光诱导荧光法测定细胞中谷胱甘肽[J]. 色谱, 2023, 41(1): 87-93.
[7]	马遥, 胡洋洋, 郑李婷, 陈莉, 赵新颖, 屈锋. 2021年毛细管电泳技术年度回顾[J]. 色谱, 2022, 40(7): 591-599.
[8]	迟忠美, 杨丽. 毛细管电泳-质谱技术在手性化合物分离分析中的研究进展[J]. 色谱, 2022, 40(6): 509-519.
[9]	李超, 王琪, 张召香. 基于场放大进样和石墨烯量子点双重富集毛细管电泳分离检测三聚氰胺和双氰胺[J]. 色谱, 2022, 40(3): 289-295.
[10]	张安, 张娟. 多孔有机骨架材料对顺式二醇化合物富集分离的研究进展[J]. 色谱, 2022, 40(11): 966-978.
[11]	潘怡帆, 张锋, 高薇, 孙悦伦, 张森, 练鸿振, 茅力. 磁性离子印迹技术用于元素形态分离分析[J]. 色谱, 2022, 40(11): 979-987.
[12]	赵晓晓, 胡昊, 赵雯思, 刘萍, 谭敏佳. 基于精氨酸酶切的蛋白质C端肽段富集方法的优化及评估[J]. 色谱, 2022, 40(1): 17-27.
[13]	高文杰, 白玉, 刘虎威. 功能化磁性纳米材料在糖蛋白及糖肽富集中的研究进展[J]. 色谱, 2021, 39(9): 981-988.
[14]	张丕旺, 杨立业, 刘强, 陆善贵, 梁英, 张敏. 多材料3D打印技术制作用于毛细管电泳的非接触电导/激光诱导荧光二合一检测池[J]. 色谱, 2021, 39(8): 921-926.
[15]	姜皓文, 李健, 谭志强, 郭瑛瑛, 刘艳伟, 胡立刚, 阴永光, 蔡勇, 江桂斌. 无固定相分离-电感耦合等离子体质谱法在环境中痕量金属纳米颗粒分析中的应用[J]. 色谱, 2021, 39(8): 855-869.