纳米金-还原氧化石墨烯修饰葡萄糖氧化酶传感器的制备及其电流法检测饮料中的葡萄糖

利用纳米金(Au NPs)与还原氧化石墨烯(rGO)复合纳米材料制备了葡萄糖氧化酶生物传感器并用于饮料中葡萄糖含量的检测。将壳聚糖作为还原剂及稳定剂,通过一步法合成了Au NPs-rGO复合材料,并通过物理吸附固定葡萄糖氧化酶(GOx)来制作GOx生物传感器。该传感器在磷酸盐缓冲溶液(0.1 mol/L,p H6.0)中,-0.45 V(vs.Ag/Ag Cl)电位下电流法检测葡萄糖含量,线性检测范围为0.01~0.88 mmol/L,灵敏度为22.54μA·mmol-1·L·cm-2,检出限为1.01μmol/L,且表观米氏常数为0.497 mmol/L。该传感器用于多种饮料中葡萄糖含量的直接检测,结果满意。     

MCM‐41 Immobilized Acidic Functional Ionic Liquid and Chromium(III) Complexes Catalyzed Conversion of Hexose into 5‐Hydroxymethylfurfural

The development of novel methods to obtain biofuels and chemicals from biomass has been an immediate issue in both academic and industrial communities. In this work, a series of novel catalysts were prepared and characterized by FT‐IR , TGA , XRD , SEM , TEM , ICP‐AES , NH₃‐TPD and BET , which were applied for the conversion of hexose to 5‐hydroxymethylfurfural (HMF ). The Cr(Salten)‐MCM ‐41‐[(CH₂ )₃SO₃HVIm ]HSO₄ catalyst was the most active catalyst, and a glucose conversion of 99.8% with 50.2% HMF yield was obtained at 140 °C for 4 h in dimethyl sulfoxide (DMSO ). The effects of reaction temperature, reaction time, solvents and catalyst dosages were investigated in detail. MCM ‐41 immobilized acidic functional ionic liquid and chromium(III ) Schiff base complexes as heterogeneous catalysts can be easily recovered by simple filter treatment, exhibiting excellent stability and activity towards hexose conversion. Thus the heterogeneous catalysts were environment‐friendly for transforming biomass carbohydrates into fine chemicals.     

基于中空多孔金纳米/石墨烯复合纳米材料的葡萄糖氧化酶直接电化学及其生物传感研究

采用溶液相牺牲模板法制备中空多孔金纳米粒子（HPAuNPs）,并将该材料与还原氧化石墨烯（rGO）复合,用于葡萄糖氧化酶（GOx）在玻碳电极（GCE）表面的有效固定,构建GOx/HPAuNPs/rGO/GCE传感界面。利用扫描和透射电镜、X射线光电子能谱、X射线衍射谱、红外光谱及电化学等方法对材料的形貌与结构,GOx的固定化过程,以及传感器的直接电化学和电催化性能进行表征。结果表明,HPAuNPs和rGO的协同作用能有效促进GOx与电极之间的直接电子转移（DET）。基于GOx/HPAuNPs/rGO/GCE对葡萄糖的良好电催化性能,该方法有效实现了对葡萄糖的高灵敏度检测,其电流响应的线性范围为0.05～7.0 mmol/L,检出限（S/N=3）为16μmol/L。该传感器具有良好的选择性、重现性及稳定性,对实际样品血清中血糖的测定结果令人满意,回收率为98.0%～103%,相对标准偏差不大于5.0%。     

雷公藤内酯醇和缬沙坦对高糖诱导小鼠足细胞活性的影响

目的观察不同浓度高糖对小鼠足细胞活性的抑制作用,以及不同浓度雷公藤内酯醇（TP）和缬沙坦（Val）对高糖抑制后小鼠足细胞活性的影响,探讨高糖对足细胞的损伤作用,以及有效的药物干预浓度范围。方法将培养成熟的小鼠足细胞随机分为对照组（11.1mmol/L葡萄糖）和不同浓度高糖组（16.1、21.1、26.1、31.1、36.1mmol/L）,以上述浓度培养48h后采用CCK-8检测足细胞活性的变化。取活性变化最大的浓度为高糖诱导浓度,在此基础上随机分为不同浓度的TP组（4、8、16、32、64ng/ml）和Val组（2×10-8、2×10-7、2×10-6、2×10-5、2×10-4mol/L）,以上述浓度干预48h后,采用CCK-8检测足细胞活性的变化。结果（1）与对照组相比,除16.1mmol/L高糖组外,其余各高糖组的足细胞活性显著减少,其中以26.1mmol/L葡萄糖组减少最为明显（P＜0.01）。（2）与26.1mmol/L葡萄糖组相比,TP组（除4ng/ml组外）和Val组（除2×10-8mol/L组外）足细胞活性部分恢复,其中以16ng/mlTP组和2×10-5mol/LVal组足细胞活性恢复最为明显（P＜0.01）。结论一定浓度范围的TP和Val可部分恢复受高糖抑制的小鼠足细胞活性。     

优良发酵果蔬原酱专用乳酸菌的筛选及鉴定

采用目的平板梯度稀释法,从自然发酵果蔬原浆及中外泡菜老液中分离到22株乳酸菌。采用MRS(pH2.0)初筛平板和MRS(30%葡萄糖)复筛平板,筛选出4株耐酸、耐高糖乳杆菌。对其进行了pH值、酸度、活菌数等果蔬酱发酵性能测试研究,其中两株发酵产酸速度快、发酵性能优异、发酵果蔬酱风     

Instrumental Requirements for Non-Invasive Blood Glucose Measurement Using NIR Spectroscopy

The magnitude of spectral change in blood glucose measurements with diffuse reflectance spectroscopy is investigated. Spectral change is estimated by simulation of light propagation in skin tissue and measurements of absorbance spectra of aqueous glucose solution. Required sensitivity of spectrophotometers for monitoring change in the blood glucose concentration as small as 10 mg/dL has been obtained using the estimated change in the absorbance spectrum and mean pathlength of light in tissue.     

偏振法测葡萄糖浓度的光强分析简

通过对旋光仪三分视场内的光强分析,对“零度视场”法和“三分视场明暗对比最大”的方法进行了详细的讨论。结果表明,采用“三分视场明暗对比最大”法在多数情况下更适合人眼感光定标,可以保证测量数据精度。“零度视场”法只在相位延迟角较小,三分视场由中间暗、两边亮变化到中间亮、两边暗过程中适用性较好。     

傅立时变换中红外光谱法用于非损伤性血糖测定的研究

本文首次使用中红外光纤对人体血糖进行了非损伤性测定，实验显示，人手指的中红外光谱１１２３ｃｍ－１谱带的相对强度与人的血糖浓度同步改变，表明葡萄糖特征谱带的相对强度确可作为人血糖值的一个数量指标。这给红外光纤在生物医学领域中的应用展示了光明的前景。     

The Preparation and Enzyme Immobilization of Hydrophobic Polysiloxane Supports

Enzymes are versatile biocatalysts and find increasing applications in many areas. The major advantages of using enzymes in biocatalytic transformations are their chemo‐, regio‐, and stereospecificity, as well as the mild reaction conditions that can be used. However, even when an enzyme is identified as being useful for a given reaction, its application is often hampered by its lack of long‐term stability under process conditions, and also by difficulties in recovery and recycling. For ease of application and stabilization purposes, enzymes are often immobilized on solid supports. Among support matrices, hydrophobic biomaterials have been extensively used as supports for enzyme immobilization because the hydrophobic interactions not only can effectively increase the amount of enzyme immobilization, but also exhibit higher activity and retention of activity compared with hydrophilic supports. On the other hand, polysiloxane can evidently increase the amount of enzyme immobilization because of its hydrophobicity and strong affinity with enzyme. Therefore, this research details the first preparation and use of a hydrophobic polysiloxane support for enzyme immobilization in which the structural and functional characteristics of new supports have been investigated by using glucose oxidase (GOD) and a simple Fenton's assay method, and extremely interesting features were revealed. The results showed that the amount of GOD immobilization and the stability of GOD loaded, which are fundamental properties for enzyme separation and purification, can be significantly improved by adsorption. Moreover, the results indicated that hydrophobic polysiloxane supports can effectively increase the enzymatic affinity and durability of GOD, and decrease the rate of GOD desorbed.

     

葡萄糖在碳纳米管/纳米TiO2膜载Pt复合电极上的电催化氧化

用电化学循环伏安法和计时电位法研究了葡萄糖在碳纳米管／纳米TiO2膜载Pt(CNT／nano-TiO2／Pt)复合电极上的电催化氧化,结果表明,在碱性介质中CNT／nano-TiO2／Pt复合电极对葡萄糖的电氧化具有高催化活性,葡萄糖氧化峰电流密度高达13mA／cm^2,比铂电极上的增大一倍;复合电极性能稳定,抗中毒能力强,不易发生氧化振荡,是葡萄糖燃料电池和葡萄糖传感器的高活性催化电极。