Glucose and glutamine metabolism of a murine B-lymphocyte hybridoma grown in batch culture

The energy metabolism of a mammalian cell line grown in vitro was analyzed by substrate consumption rates and metabolic flux measurements. The data allowed the determination of the relative importance of the pathways of glucose and glutamine metabolism to the energy requirements of the cell. Changes in the substrate concentrations during culture contributed to the changing catalytic activities of key enzymes, which were determined.

Integrated Microcentrifuge Carbon Entrapped Glucose Oxidase Poly (N-Isopropylacrylamide) (pNIPAm) Microgels for Glucose Amperometric Detection

This study demonstrates a miniaturized integrated glucose biosensor based on a carbon microbeads entrapped by glucose oxidase (GOx) immobilized on poly (N-isopropylacrylamide) (pNIPAm) microgels. Determined by the Lowry protein assay, the pNIPAm microgel possesses a high enzyme loading capacity of 31?mg/g. The pNIPAm GOx loaded on the microgel was found to maintain a high activity of approximately 0.140?U determined using the 4-aminoantipyrine colorimetric method. The integrated microelectrochemical cell was constructed using a microcentrifuge vial housing packed with (1:1, w/w) carbon entrapped by pNIPAm GOx microgels, which played the dual role of the microbioreactor and the working electrode. The microcentrifuge vial cover was used as a miniaturized reference electrode and an auxiliary electrode holder. The device can work as biosensor, effectively converting glucose to H₂O₂, with subsequent amperometric detection at an applied potential of ?0.4?V. The microelectrochemical biosensor was used to detect glucose in wide linear range from 30?µM to 8.0?mM, a low detection limit of 10?µM, a good linear regression coefficient (R²) of 0.994, and a calibration sensitivity of 0.0388?µA/mM. The surface coverage of active GOx, electron transfer rate constant (ks), and Michaelis–Menten constant (K_M^app) of the immobilized GOx were 4.0?×?10^?11?mol/cm², 5.4?s^?1, and 0.086?mM, respectively. To demonstrate the applicability and robustness of the biosensor for analysis of high sample matrix environment, glucose was analyzed in root beer. The microelectrochemical device was demonstrated for analysis of small sample (<50?µL), while affording high precision and fast signal measurement (≤5?s).     

过氧化物模拟酶催化的苯基荧光酮氧化反应及其分析应用

在ＮＨ４Ｃｌ－ＮＨ４ＯＨ缓冲介质中，氯化血红素（Ｈｅｍｉｎ）有显著的过氧化物模拟酶活性，催化过程化氢氧化苯基荧光酮褪色。本文探讨了反应机理，比较Ｈｅｍｉｎ与天然酶催化性能，考察反应条件和共存物质影响，从而提出测定Ｈｅｍｉｎ和过氧化氢的高灵敏分光光度法，线性范围分别为０￣３．０×１０＾－８ｍｏｌ／Ｌ和０￣１．２×１０＾５ｍｏｌ／Ｌ；检测限（３σ）分别为１．８×１０＾－１０ｍｏｌ／Ｌ和１．４×１０＾７     

中性红掺杂SiO2纳米粒子修饰的酶阵列传感器同时测定葡萄糖、乳酸和L-谷氨酸的研究

本文以中性红为核，二氧化硅为壳，利用反相微乳液技术，通过正硅酸四乙酯的水解制备了掺杂有中性红的二氧化硅纳米粒子，并用TEM技术进行了表征。核中性红能够催化测定葡萄糖，乳酸和L-谷氨酸的反应，而壳二氧化硅不仅克服了电活性物质中性红易流失的缺点，且具有高的生物亲和性。分别与葡萄糖氧化酶、乳酸氧化酶以及L-谷氨酸氧化酶混合后，修饰在碳阵列电极表面。最后在该酶阵列电极表面滴加一层Nafion, 防止电活性物质抗坏血酸、尿酸等的干扰。该酶阵列传感器与流动注射分析技术(FIA)相结合，可应用于同时检测大鼠血样中的葡萄糖，乳酸和L-谷氨酸浓度。该方法无需通过传统的色谱柱的分离，大大简化了实验条件，为这一领域的研究提供了有效的分析方法。     

A biocompatible needle-type glucose sensor based on platinum-electroplated carbon electrode

A biocompatible needle-type glucose sensor with a 3-electrode configuration was constructed. A platinum-electroplated carbon stick was used as the working electrode, Ag/AgCl as the reference electrode, and a disposable hypodermic needle made of stainless steel as the counter electrode. A Nafion membrane, an immobilized glucose oxidase (GOD) membrane, and a biocompatible membrane with diffusion-limiting effect were coated successively onto the working electrode. The sensor showed a rapid response (< 120 s in batch operation), good reproducibility (RE < 3%), good stability (over 36 h in control serum), a wide dynamic range (5-600 mg/dL glucose), and superior biocompatibility. It was used to determine glucose in serum. The data obtained from the sensor showed good agreement with that from a clinical autoanalyzer (R > 0.95).     

Immobilization and Characterization of Glucose Oxidase on Single-Walled Carbon Nanotubes and Its Application to Sensing Glucose

The negatively charged （at pH 8.2） glucose oxidase （GOx, pI ca. 4.2） was assembled onto the surface of single-walled carbon nanotubes （SWNT）, which was covered （or wrapped） by a layer of positively charged polyelectrolyte poly（dimethyldiallylammonium chloride） （PDDA）, via the electrostatic interaction forming GOx-PDDASWNT nanocomposites. Fourier transform infrared （FTIR）, UV-Vis and electrochemical impedance spectroscopy （EIS） were used to characterize the growth processes of the nanocomposites. The results indicated that GOx retained its native secondary conformational structure after it was immobilized on the surface of PDDA-SWNT. A biosensor （Nafion-GOx-PDDA-SWNT/GC） was developed by immobilization of GOx-PDDA-SWNT nanocomposites on the surface of glassy carbon （GC） electrode using Nafion （5%） as a binder. The biosensor showed the electrocatalytic activity toward the oxidation of glucose under the presence of ferrocene monocarboxylic acid （FcM） as an electroactive mediator with a good stability, reproducibility and higher biological affinity. Under an optimal condition, the biosensor could be used to detection of glucose, presenting a typical characteristic of Michaelis-Menten kinetics with the apparent Michaelis-Menten constant of KM^app ca. 4.5 mmol/L, with a linear range of the concentration of glucose from 0.5 to 5.5 mmol/L （with correlation coefficient of 0.999） and the detection limit of ca. 83 μmol/L （at a signal-to-noise ratio of 3）. Thus the biosensor was useful in sensing the glucose concentration in serum since the normal glucose concentration in blood serum was around 4.6 mmol/L. The facile procedure of immobilizing GOx used in present work would promote the developments of electrochemical research for enzymes （proteins）, biosensors, biofuel cells and other bioelectrochemical devices.     

Enthalpic Interactions of Amino Acids with Glucose in Aqueous Solutions at 298.15 K

The enthalpies of mixing of aqueous glucose solutions and six kinds of aqueous amino acid solutions (glycine, L-alanine, L-serine, L-valine, L-proline, and L-threonine) and their respective enthalpies of dilution have been determined at 298.15 K using flow microcalorimetry. The experimental data have been analyzed in terms of the McMillan–Mayer model to obtain the heterotactic interaction coefficients. The results have been interpreted from the point of view of solute–solute interactions.     

基于有机硼酸的葡萄糖荧光传感器的研究进展

有机硼酸类荧光传感器可与二羟基化合物进行高亲和性且可逆地结合, 故可用于糖类传感和识别. 综述了近10年来选择性识别葡萄糖的有机硼酸类荧光传感器的研究进展.     

DFT‐EPR study of radiation‐induced radicals in α‐D‐glucose

The structures of two radiation‐induced radicals in solid‐state α‐D ‐glucose have been identified by means of single‐molecule density function theory (DFT) calculations. Using the original crystalline structure as input, several radical models were created and their geometries optimized. Subsequently, electron paramagnetic resonance (EPR) parameters were calculated. During these calculations, the global orientation of the radical structure was kept fixed with respect to the crystal axes reference frame. This was essential to allow for an easy analysis of the hyperfine tensor principal directions, besides the isotropic and anisotropic coupling constants. By comparing these calculated EPR parameters with their experimentally determined counterparts, a plausible identification of two carbon‐centered glucose radicals was possible. © 2004 Wiley Periodicals, Inc. Int J Quantum Chem, 2004     

Glucose oxidase electrodes of polyaniline,poly(o‐toluidine) and their copolymer as a biosensor: a comparative study

A simple technique is described for constructing a glucose sensor by the entrapment of glucose oxidase (GOD) in a polyaniline (PA), poly(o‐toluidine) (POT) and their copolymer poly(aniline‐co‐o‐toluidine) (PA‐co‐POT) thin films, which were electrochemically deposited on a platinum plate in phosphate and acetate buffer. The maximum current response was observed for PA, POT, and PA‐co‐POT GOD electrodes at pH 5.5 and potential 0.60 V (v. Ag/AgCl). The phosphate buffer gives fast response as compared to acetate buffer in amperometric measurements. PA GOD electrode shows the fastest response followed by PA‐co‐POT and POT GOD electrodes. Copyright © 2004 John Wiley & Sons, Ltd.