采用固定化酶柱和化学发光技术对血清中葡萄糖和尿酸进行高灵敏度流动注射分析。

Journal of applied biochemistry Pub Date : 1984-08-01
M Tabata, C Fukunaga, M Ohyabu, T Murachi
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引用次数: 0

摘要

本文介绍了一种用固定化酶柱形和化学发光法测定血清中葡萄糖和尿酸的流动注射分析方法。该方法的基础是测定由各自氧化酶作用于葡萄糖和尿酸而产生的鲁米诺-铁氰化物混合物与过氧化氢反应形成的化学发光。取1微升样品,以120个样品/小时的速度测定血清中的葡萄糖或尿酸,无残留,测定时间约为10 s。固定化葡萄糖氧化酶柱尺寸仅为1.0 × 5mm,固定化尿酸酶柱尺寸仅为1.0 × 20mm。本方法在4.0 g葡萄糖/升或0.10 g尿酸/升范围内具有良好的线性关系,具有令人满意的精密度、重现性和准确的反应回收率。此外,本方法几乎不受抗坏血酸的影响,而过氧化物酶联比色法通常受抗坏血酸的显著影响。两个塔式反应器在2个月的时间内表现出良好的运行稳定性,在此期间,它们被重复用于分析超过2000次。葡萄糖和尿酸的测定结果与其他已建立的方法相吻合。
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Highly sensitive flow injection analysis of glucose and uric acid in serum using an immobilized enzyme column and chemiluminescence.

A method for the flow injection analysis of glucose and uric acid in serum using immobilized enzymes in column form and chemiluminescence detection is described. The method is based on the determination of chemiluminescence formed by the reaction of a luminol-ferricyanide mixture with hydrogen peroxide which is produced by the action of the respective oxidases on glucose and uric acid. Glucose or uric acid in serum were determined with 1 microliter of the sample at a speed of 120 samples/h without carryover and at an assay time of approximately 10 s. The immobilized glucose oxidase column measured only 1.0 X 5 mm, and the immobilized uricase column 1.0 X 20 mm. The present method gave perfect linearity of the data up to 4.0 g glucose per liter or 0.10 g uric acid per liter with satisfactory precision, reproducibility, and accurate reaction recoveries. Furthermore, the present method was hardly affected by ascorbic acid, while the peroxidase-linked colorimetric method is usually influenced significantly by ascorbic acid. Both column reactors showed good operational stability for a 2-month period, during which time they were repeatedly used for analyses over 2000 times. The results on glucose and uric acid correlated satisfactorily with those obtained by other well-established methods.

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