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英国大学生物专业课程论文Conclusion & Reference格式参考

时间:2013-09-29 14:08:12来源: 作者:www.liuxuelw.com 点击:0
在我的研究中,hippric酸和肌酐的毛细管电泳在尿液分析。该方法的优化进行了讨论,与最好的结果是使用在pH 6的30 mM磷酸盐–150 mM十二烷基硫酸钠缓冲液中获得,与检测器设置在214 nm和

结果表明,尿中hippric酸和肌酐是正常尿液成分。它遵循在尿肌酸和肌酐的排泄量作为时间的函数的后肌酸摄入的兴趣。在我的研究中,hippric酸和肌酐的毛细管电泳在尿液分析。该方法的优化进行了讨论,与最好的结果是使用在pH 6的30 mM磷酸盐–150 mM十二烷基硫酸钠缓冲液中获得,与检测器设置在214 nm和15 kV跨越45厘米毛细管施加电压。验证的方法是采用高效液相色谱分析法和脉冲提供。应用该方法是通过在24小时内肌酸摄入后尿液样本的分析表明hippc酸和肌酐。
Conclusion
As the results showed, the hippric acid and Creatinine in the urine are the constituents of normal urine. It is of interest to follow the excretion of creatine and creatinine in urine as a function of time after creatine ingestion. In my study, hippric acid and creatinine were analyzed in urine by capillary electrophoresis. The optimization of the method was discussed, with the best results being obtained using a 30 mM phosphate–150 mM sodium dodecyl sulfate buffer at pH 6, with the detector set at 214 nm and an applied voltage of 15 kV across a 45 cm capillary.Verification of the method was provided by HPLC analysis and spiking. The application of the method was demonstrated by analysis of hippc acid and creatinine in urine samples collected in a 24-h period following creatine ingestion.

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