含葡萄糖的混浊介质的Mueller矩阵模拟与分析

利用矢量Monte Carlo算法结合葡萄糖的旋光特性模拟了含糖混浊介质的背散射Mueller矩阵.数值模拟表明:含糖混浊介质的背散射Mueller矩阵元素中除Mll、M14、M41、M44外的其它元素花样均发生龙卷风状的不同程度的扭曲,其中M24、M34、M42、M43的扭曲程度更为显著.研究发现M24、M34、M4...     

氯化血红素的催化显色反应及分析应用

本文研究了以氯化血红素替代辣根过氧化物酶催化过氧化氢与4-氨基安替比林和苯酚的催化显色反应条件,拟订了测定过氧化氢的高灵敏催化分光光度法,做了多种离子对测定过氧化氢的干扰实验。并通过与葡萄糖氧化酶联用,拟订了水介质和血清中葡萄糖的分光光度测定方法,试用于测定血清样品中的葡萄糖含量得到了较满意的结果。     

壳聚糖固定化葡萄糖氧化酶生物传感器测定葡萄糖的含量

应用壳聚糖将葡萄糖氧化酶固定于鸡蛋膜上,结合氧电极制得葡萄糖传感器.实验表明,壳聚糖比戊二醛能更好地固定葡萄糖氧化酶,最佳条件为壳聚糖浓度0.3%、固定化酶量0.8 mg、 pH 7.0、缓冲溶液浓度300 mmol/L和温度25 ℃.本葡萄糖传感器的线性范围为0.016～1.10 mmol/L;检出限为8.0 μmol/L(S/N=3), 响应时间<60 s,有很好的稳定性,寿命>3个月.同一个传感器重复使用以及同方法制作的不同传感器之间都有很好的重现性,RSD分别为2.5%(n=10)和4.7%(n=4).实际样品中可能存在的烟酰胺、 VB6、 VB12、 VE、Ca2+、 Mg2+、 K+和Zn2+等对葡萄糖的测定不产生干扰.本传感器已成功地应用于市售饮料中葡萄糖含量的测定.     

葡萄糖氧化酶电极的制备

葡萄糖氧化酶电极的制备于秀娟，周定，郭京华（哈尔滨工业大学应用化学系哈尔滨１５０００６）关键词葡萄糖氢化酶，酶电极，制备酶与电极的连接即酶膜的形成是制备酶电极的关键步骤之一，有许多种方式［１～９］．葡萄糖氧化酶（ＧＯＤ）电极是研究较早和报道较多的一类...     

葡萄糖在Ti/NanoTiO2-ZrO2修饰电极上电催化氧化

在无水乙醇和乙酰丙酮混合溶液中,电解Ti金属制得前驱体Ti(OCH2CH3)4-y(acac)y,再加入ZrCl4,将上述溶液直接水解、干燥后,在450℃煅烧2 h,粉体通过X射线衍射(XRD)分析表明:纳米TiO2-ZrO2粉体呈单分散结构。扫描电子显微镜(SEM)测试表明,颗粒平均尺寸为30~40 nm。通过溶胶-凝胶法制得高活性的Ti/NanoTiO2-ZrO2修饰电极,采用循环伏安研究发现,Ti/NanoTiO2-ZrO2电极对葡萄糖氧化具有高催化活性。在NaBr电解液中,Br-在Ti/NanoTiO2-ZrO2电极表面氧化为Br2,Br2间接电氧化葡萄糖。     

278.15～318.15 K下葡萄糖在盐酸中的体积性质

测定了278.15～318.15 K(间隔10 K)下葡萄糖＋HCl＋水三元体系的密度, 计算了葡萄糖在盐酸(浓度0.2～2.1 mol•kg^–1)中的表观摩尔体积V_Φ,G、标准偏摩尔体积V⁰_Φ,G、葡萄糖-HCl在水中的体积对相互作用参数V_EG和标准偏摩尔膨胀系数(∂V⁰_Φ,G/∂T)_p. 结果表明: (1)葡萄糖在盐酸中的表观摩尔体积随葡萄糖和HCl的浓度的增加而线性增大; (2) V⁰_Φ,G随HCl的质量摩尔浓度的增加而线性增大; (3)葡萄糖与HCl在水溶液中的体积相互作用参数V_EG＞0, 但数值对温度变化不甚敏感; (4)葡萄糖在水和盐酸中的V⁰_Φ,G值随实验温度的变化关系均可表示为: V⁰_Φ,G＝a₀＋a₁(T－273.15 K) ^2/3; (5) (∂V⁰_Φ,G/∂T)_p为正值且随温度的升高而减小; 在一定温度下, 其值随HCl浓度的增加而稍稍减小. 糖的水化程度随温度的升高和HCl的浓度的增加而减小. 用结构相互作用模型对葡萄糖与HCl之间的体积相互作用进行了解释.     

Comparison of different strains of the yeastYarrowia lipolytica for citric acid production from glucose hydrol

Four commercial strains and two mutants of the yeast species Yarrowia lipolytica were screened using batch fermentation. Strain Y. lipolytica A-101-1.14 (induced with UV irradiation) was found to be the most suitable for citric acid production from glucose hydrol (39.9% glucose and 2.1% other sugars), a byproduct of glucose production from potato starch. The specific rate of total citric and isocitric acid production was 0.138 g/g.h, the yield on consumed glucose 0.93 g/g, and the productivity achieved was as high as 1.25 g/L.h. All of the tested yeast strains were able to utilize only the glucose from the glucose hydrol medium. Thus, some residual higher oligosaccharides remained in the process effluent.     

基于近红外反射光谱的无损血糖分析

无损血糖监测是一种方便且无痛的血糖监测方法。目前,大部分的血糖检测方法都是有损的。提出了一种基于近红外反射光谱的无损血糖检测方法。近红外反射光谱是一种安全、简单并且有效的方法,被应用于很多领域。采用口服葡糖糖耐量试验来采集数据,用偏最小二乘回归方法来建模。使用市售血糖仪采指尖血作为参考值,同时用光谱仪提取手掌光谱,共取得42组样本。血糖浓度范围在5~12 mmol·L-1。采用留一法交叉验证,获得所有数据的交叉验证的均方根误差为1.16 mmol·L-1。通过归一化和无关变量消除的预处理方法来减少噪声并消除一些额外因素,优化的均方根误差为0.79 mmol·L-1。基于个人的数据进行建模,得到了远小于整体数据的结果：0.41 mmol·L-1。该方法在个人血糖检测的市场化方面有广阔的应用前景。     

A New Amperometric Glucose Biosensor with Naphthol Green B as Mediator

Naphthol green B was used, for the first time, as a new mediator in an amperometric glucose biosensor. It is a good mediator, promoting electron transfer from glucose oxidase to graphite electrode. The biosensor shows high sensitivity to glucose at low potential with response time of 30 seconds. The linear range is from 1.5 to 18μmol/L glucose with detection limit of 0.5μmol/L glucose.     

Design and Evaluation of a Lactate Microbiosensor: Toward Multianalyte Monitoring of Neurometabolic Markers In Vivo in the Brain

Direct in vivo measurements of neurometabolic markers in the brain with high spatio-temporal resolution, sensitivity, and selectivity is highly important to understand neurometabolism. Electrochemical biosensors based on microelectrodes are very attractive analytical tools for continuous monitoring of neurometabolic markers, such as lactate and glucose in the brain extracellular space at resting and following neuronal activation. Here, we assess the merits of a platinized carbon fiber microelectrode (CFM/Pt) as a sensing platform for developing enzyme oxidase-based microbiosensors to measure extracellular lactate in the brain. Lactate oxidase was immobilized on the CFM/Pt surface by crosslinking with glutaraldehyde. The CFM/Pt-based lactate microbiosensor exhibited high sensitivity and selectivity, good operational stability, and low dependence on oxygen, temperature, and pH. An array consisting of a glucose and lactate microbiosensors, including a null sensor, was used for concurrent measurement of both neurometabolic substrates in vivo in the anesthetized rat brain. Rapid changes of lactate and glucose were observed in the cortex and hippocampus in response to local glucose and lactate application and upon insulin-induced fluctuations of systemic glucose. Overall, these results indicate that microbiosensors are a valuable tool to investigate neurometabolism and to better understand the role of major neurometabolic markers, such as lactate and glucose.