H'/> A simple and sensitive UHPLC–Q–TOF–MS/MS method for sophoricoside metabolism study <ce:italic>in vitro</ce:italic> and <ce:italic>in vivo</ce:italic>
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首页> 外文期刊>Journal of chromatography, B. Analytical technologies in the biomedical and life sciences >A simple and sensitive UHPLC–Q–TOF–MS/MS method for sophoricoside metabolism study in vitro and in vivo
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A simple and sensitive UHPLC–Q–TOF–MS/MS method for sophoricoside metabolism study in vitro and in vivo

机译:一种简单敏感的UHPLC-Q-TOF-MS / MS方法,用于SophoricoSide代谢研究体外>斜体>和在体内(体内:斜体)

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Highlights ? Initial metabolism study of sophoricoside in vivo and vitro. ? Generalized metabolic mechanisms of sophoricoside in vivo and vitro. ? 60 metabolites including 38 phase II metabolites in vivo. ? 4 metabolites containing 2 phase II metabolites in vitro. Abstract Sophoricoside (SOPH) is an isoflavone glycoside isolated from Fructus Sophorae, and it has the effects on reproductive system. Currently, a strategy was firstly developed to identify the metabolites of SOPH in vitro and in vivo using ultra high performance liquid chromatography coupled with hybrid triple quadrupole time-of-flight mass spectrometry (UHPLC–Q–TOF–MS/MS). Based on the proposed method, 60 metabolites were structurally characterized in vivo including 22 phase I and 38 phase II metabolites, and 4 metabolites in vitro were detected containing 2 phase I and 2 phase II metabolites. The results indicated that the metabolic pathways mainly included oxidation, reduction, hydrolysis, methylation, sulfate, glucuronide, glutamine and glycine conjugation. These results will provide basic data for future pharmacological and toxicology studies of SOPH and other isoflavone glycoside. ]]>
机译:<![cdata [ 突出显示 Sophoricoside的初始新陈代谢研究在体内体外 Sophoricoside的广义代谢机制在体内体外 60代谢物,包括38阶段II代谢物在体内 4个代谢物,其中包含2阶段II代谢物在体外 抽象 SophoricoSide(Soph)是一种从玻璃叶草(斜体)sophorae 的异黄酮糖苷,它对生殖系统产生了影响。目前,首先制定了一种策略来确定Soph 斜体>和在体内的斜体>和使用超高性能液相色谱法与杂交三倍相结合Quadrupole飞行时间质谱(UHPLC-Q-TOF-MS / MS)。基于所提出的方法,将60种代谢物在结构上表征在体内:斜体>,包括22阶段I和38阶段II代谢物,4代谢物体外> Italic>检测到含有2相和2阶段II代谢物。结果表明,代谢途径主要包括氧化,还原,水解,甲基化,硫酸盐,葡糖醛,谷氨酰胺和甘氨酸缀合。这些结果将为未来的Soph和其他异黄酮糖苷的未来药理学和毒理学研究提供基本数据。 ]]>

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