Jyoti Ahlawat , Minakshi Sharma , Chandra S. Pundir
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引用次数: 0
摘要
黄嘌呤通过黄嘌呤氧化酶(XOD)从次黄嘌呤中提取,黄嘌呤氧化酶是一种含有钼和非血红素铁、硫的黄蛋白,而黄嘌呤则通过鸟嘌呤脱氨酶从鸟嘌呤中提取。黄嘌呤被 XOD 氧化成尿酸。根据 ATP 降解为黄嘌呤的反应,黄嘌呤被用作鱼肉新鲜度的指标,其数量随鱼肉死亡时间的延长而增加。食品工业需要新鲜的鱼肉来制作高品质的食品。生物液体中黄嘌呤的测定也可用于诊断和治疗许多疾病,如肾衰竭、痛风、黄嘌呤尿症、高尿酸血症等。有多种方法可用于检测黄嘌呤,但大多数方法都比较复杂、耗时、灵敏度和特异性较低,而且需要昂贵的仪器设备和训练有素的人员来操作。基于酶的生物传感器和非酶传感器克服了这些缺点,因为它们简单、快速、特异、灵敏且易于操作。本综述介绍了黄嘌呤生物传感器,其最佳工作温度为 25°C-65°C,pH 值为 3.5-9.0,黄嘌呤浓度范围为 0.001-50×104µM。这些生物传感器还被用于测量饮料、尿液和血清样本中的黄嘌呤浓度。本综述讨论了使用酶和非酶方法检测黄嘌呤的各种改良电极。
Advances in xanthine biosensors and sensors: A review
Xanthine is derived from hypoxanthine by xanthine oxidase (XOD), a flavoprotein containing molybdenum and non-haem iron, sulfur and from guanine by guanine deaminase enzyme. Xanthine is oxidized into uric acid by XOD. Xanthine is used as an indicator of fish freshness, based on the reactions in which ATP is degraded into xanthine and its quantity increases with time of fish death. Fresh fish meat is required in food industry for making high quality items. The determination of xanthine in biological fluids is also used in diagnosing and curing many diseases like renal failure, gout, xanthinuria, hyperuricemia. Various methods are available for detection of xanthine but most of them are complicated, time consuming less sensitive & specific and require expensive instrumental setup and trained person to operate. Enzyme based biosensors and non enzymic sensors overcome these disadvantages, as these are simple, rapid, specific, sensitive and easy to operate. Present review describes xanthine biosensors, which work optimally between pH 3.5–9.0, temperature 25 °C-65 °C, xanthine concentration ranging from 0.001–50 × 104 µM. These biosensors have also been used to measure xanthine concentration in beverages, urine and serum samples. Various modified electrodes have been discussed for the detection of xanthine using both enzymatic and non-enzymatic approaches in the present review.
期刊介绍:
Enzyme and Microbial Technology is an international, peer-reviewed journal publishing original research and reviews, of biotechnological significance and novelty, on basic and applied aspects of the science and technology of processes involving the use of enzymes, micro-organisms, animal cells and plant cells.
We especially encourage submissions on:
Biocatalysis and the use of Directed Evolution in Synthetic Biology and Biotechnology
Biotechnological Production of New Bioactive Molecules, Biomaterials, Biopharmaceuticals, and Biofuels
New Imaging Techniques and Biosensors, especially as applicable to Healthcare and Systems Biology
New Biotechnological Approaches in Genomics, Proteomics and Metabolomics
Metabolic Engineering, Biomolecular Engineering and Nanobiotechnology
Manuscripts which report isolation, purification, immobilization or utilization of organisms or enzymes which are already well-described in the literature are not suitable for publication in EMT, unless their primary purpose is to report significant new findings or approaches which are of broad biotechnological importance. Similarly, manuscripts which report optimization studies on well-established processes are inappropriate. EMT does not accept papers dealing with mathematical modeling unless they report significant, new experimental data.
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