Ayinazhaer Aihemaiti , Yuqing Liu , Peichen Zou , Hongyu Liu , Liang Zhu , Yabin Tang
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Different optimizing chromatographic conditions and mass spectrometric parameters were tested in order to provide the best separation and the lowest limit of quantification (LLOQ) values for targeted metabolites. The validation was evaluated according to the Food and Drug Administration guidelines. The limit of determination (LOD) and the LOQ values were in the range of 0.02–8.33 ng mL<sup>−1</sup> and 0.1–24.5 ng mL<sup>−1</sup>, respectively. All calibration curves displayed good linear relationship of with excellent correlation coefficient (r) ranging from 0.9943 to 0.9999. Both intra-day and inter-day variability were below 15 %, respectively. Trueness, expressed as relative error, was always within ±15 %. In addition, no derivatization procedure and ion-pair reagents are in need. 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All calibration curves displayed good linear relationship of with excellent correlation coefficient (r) ranging from 0.9943 to 0.9999. Both intra-day and inter-day variability were below 15 %, respectively. Trueness, expressed as relative error, was always within ±15 %. In addition, no derivatization procedure and ion-pair reagents are in need. 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引用次数: 0
摘要
嘌呤代谢是人体代谢网络的核心。它将嘌呤代谢物作为细胞生存和增殖的基础原料。嘌呤代谢物是生物体内最丰富的代谢底物。目前很少有报告能同时量化细胞中的典型嘌呤代谢。本研究开发了一种新型亲水相互作用液相色谱-质谱(HILIC-MS/MS)方法,用于同时测定生物样本中的嘌呤含量。采用亲水作用液相色谱(Waters Xbridge™ Amide)色谱柱实现色谱分离。测试了不同的优化色谱条件和质谱参数,以便为目标代谢物提供最佳分离效果和最低定量限 (LLOQ) 值。根据食品和药物管理局的指导方针对验证进行了评估。测定限(LOD)和最低定量限(LOQ)分别为 0.02-8.33 ng mL-1 和 0.1-24.5 ng mL-1。所有校准曲线都显示出良好的线性关系,相关系数(r)在 0.9943 至 0.9999 之间。日内和日间变异性分别低于 15%。以相对误差表示的真实度始终在 ±15 % 范围内。此外,无需衍生程序和离子对试剂。这种创新方法灵敏度高、特异性强、重复性好,适用于培养细胞中典型嘌呤代谢的绝对定量研究。
Simultaneous determination of canonical purine metabolism using a newly developed HILIC-MS/MS in cultured cells
Purine metabolism acts as the core role in human metabolic network. It offers purine metabolites as raw material for building blocks in cell survival and proliferation. Purine metabolites are the most abundant metabolic substrates in organisms. There are few reports to simultaneously quantify canonical purine metabolism in cells. A novel hydrophilic interaction liquid chromatography coupled with mass spectrometry (HILIC-MS/MS) method was developed to simultaneously determine purines profile in biological samples. Chromatographic separation was achieved using a HILIC (Waters Xbridge™ Amide) column. Different optimizing chromatographic conditions and mass spectrometric parameters were tested in order to provide the best separation and the lowest limit of quantification (LLOQ) values for targeted metabolites. The validation was evaluated according to the Food and Drug Administration guidelines. The limit of determination (LOD) and the LOQ values were in the range of 0.02–8.33 ng mL−1 and 0.1–24.5 ng mL−1, respectively. All calibration curves displayed good linear relationship of with excellent correlation coefficient (r) ranging from 0.9943 to 0.9999. Both intra-day and inter-day variability were below 15 %, respectively. Trueness, expressed as relative error, was always within ±15 %. In addition, no derivatization procedure and ion-pair reagents are in need. The innovated approach demonstrates high sensitivity, strong specificity, and good repeatability, making it suitable for absolute quantitative studies of canonical purine metabolism in cultured cells.
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