A novel amperometric glucose biosensor based on reconstitution of glucose oxidase on thiophene-3-boronic acid polymer layer

The biosensor was constructed for determination of glucose by using glucose oxidase enzyme immobilized on poly(thiophene-3-boronic acid) (PTBA). Boronic acid functionalized polythiophene layer was obtained by electrochemical polymerization of Thiophene (Th) and thiophene-3-boronic acid (TBA) with different monomer rations. The reconstitution of the apo-glucose oxidase (apo-GOx) on a complexed flavin adenine dinucleotide (FAD) linked to polythiophene boronic acid (PTBA) monolayer yields an electrically contacted enzyme monolayer. The GOx-reconstituted enzyme electrode exhibited excellent electrocatalytic activities toward the reduction and oxidation of hydrogen peroxide as well. The PTBA/FAD/GOx biosensor shows an excellent performance for glucose at +0.4 V with a high sensitivity (2.14 μA/mM) and lower response time (～5 s) in a wide concentration range of 0.5–18 mM (correlation coefficient of 0.9952). Furthermore, the effects of applied potential, pH, temperature, electroactive interference, stability and reusability of the biosensors were discussed.     

Effect of nanostructured MoS2 morphology on the glucose sensing of electrochemical biosensors

In this study, the effects of the morphological characteristics of MoS₂ nanomaterials on the glucose sensing of electrochemical biosensors were explored. Nanostructured MoS₂ materials, including nanoparticles (NPs), nanoflowers (NFs), and nanoplatelets (NPLs), were prepared via a simple hydrothermal method. The structure and morphological characteristics of MoS₂ nanomaterials were examined through X-ray diffraction, field emission scanning electron microscopy, and Raman spectroscopy. Electrochemical properties were analyzed through cyclic voltammetry. Results showed that the obtained sensitivity was 64, 68.7, and 77.6 μAmM⁻¹ cm⁻² for MoS₂ NP-, MoS₂ NF-, and MoS₂ NPL-based biosensors, respectively. The limit of detection (LOD) of all MoS₂-based glucose biosensors was 0.081 mM. In addition, the pH, temperature, glucose oxidase (GOx) concentration, reproducibility, specificity, and stability of glucose biosensors with different MoS₂ morphologies were also investigated and indicated the oxidation current response of the MoS₂ NPL-based glucose biosensor was higher than that of MoS₂ NF- and NP-based biosensors.     

Saccharide Sensing Using Gold and Silver Nanoparticles-A Review

We review new methodologies for glucose sensing from our laboratories based on the specific biological interactions between Con A, dextran-coated gold nanoparticles and glucose, and the interactions between dextran, glucose, and boronic-acid capped silver nanoparticles in solution. Our new approaches promise new tunable glucose sensing platforms. Dextran-coated gold nanoparticles were aggregated with the addition of Con A resulting in increase an in absorbance of nanoparticles at 650 nm, where the post-addition of glucose caused the dissociation of the aggregates and thus a decrease in the absorbance at 650 nm. The interaction of glucose and dextran with boronic acid-capped silver nanoparticles in solution resulted in enhanced luminescence intensity cumulatively due to surface-enhanced fluorescence and the decrease in absorbance at 400 nm, with an increase in absorbance at 640 nm. Lifetime measurements were used to distinguish the contribution from the surface-enhanced fluorescence. TEM was employed to assess the aggregation of nanoparticles.     

Catalytically Active Copper Phosphate–Dextran Sulfate Microparticle Coatings for Bioanalyte Sensing

Engineering reactive and functional nanostructured surfaces is important for enhancing the sensitivity and versatility of biosensors and microreactors. For example, the assembly of hybrid inorganic–organic porous microparticles on surfaces may provide a catalytic microenvironment for a wide range of reactions. Herein, the synthesis of catalytically active porous dextran sulfate–copper phosphate hybrid microparticles by a facile and rapid crystallization process in aqueous solution is reported. The sulfated polysaccharide enables control over the size and hierarchical morphology of the hybrid microparticles, as well as their assembly into stable macroporous coatings. The engineered microparticle coatings display intrinsic nonenzymatic peroxidase-like catalytic activity when employed as a platform for the detection of hydrogen peroxide. Pairing of the microparticle coating with glucose oxidase affords a hybrid platform that is employed as a glucose sensor for monitoring physiological concentrations of a given analyte via a hybrid enzymatic/nonenzymatic cascade reaction. This work presents a strategy for the assembly of hybrid porous microparticles into enzyme-mimicking surfaces for copper-based catalysis and biochemical analyte sensing.     

1-苯胺基萘-8-磺酸盐在各种固体基质中发光特性的研究

1-苯胺基萘 - 8-磺酸盐 (ANS)在不同的固体基质中发光特性的研究发现 :(1 ) ANS分子发射峰位置与在甲醇溶液中相比 ,发生明显的蓝移 ,可能是由于约束在固体基质中的荧光分子的运动受到一定的限制而接近单分子发光的行为。与纯粉末 ANS荧光相比 ,发生红移。ANS在极性的滑石基质中 ,发射峰移向更短的波长 ,在非极性的石蜡基质中移向更长的波长 ,反映固体基质微观环境的变化。 (2 ) ANS分子荧光寿命明显缩短 ,主要原因是在固体基质中 ,荧光发射速率常数 kf 增大。 (3) ANS分子相对量子产率明显增大 ,荧光分子运动受限 ,减弱分子之间的相互作用 ,减小了由于碰撞引起的猝灭 ,分子结构刚性增强。该结果对于研究固体基质的物化性质、探讨光化学反应中能量转移现象具有重要意义。     

Consequential secondary structure alterations and aggregation during prolonged casein glycation

Non-enzymatic glycosylation (glycation) of casein is a process used not just to ameliorate the quality of dairy products but also to increase the shelf life of canned foods, including baby milk supplements. Incubation of κ-casein with reducing sugars for 15 days at physiological temperature showed the formation of a molten globule state at day 9 and 12 during fructation and glucation respectively. This state exhibits substantial secondary structure and maximum ANS binding. Later on, glycation resulted in the formation of aggregates at day 12 in presence of fructose and day 15 in presence of glucose. Aggregates possess extensive β-sheet structure as revealed by far-UV CD and FTIR. These aggregates showed altered tryptophan environment, decrease ANS binding relative to molten globule state and increase in Thioflavin T fluorescence. Aggregates were also accompanied by the accumulation of AGEs, indicative of structural damage to the protein and formation of potentially harmful species at the physiological level. Fructose was more reactive than glucose and thus caused early and significant changes in the protein. From our studies, we conclude that controlling the extent of the Maillard reaction in the food industry is essential to counter its negative effects and expand its safety spectrum.     

Application of polyaniline as enzyme based biosensor

The PANI films have been synthesized electrochemically and are used as matrix for immobilization of glucose oxidase (GOD) and lactate dehydrogenase (LDH) enzymes. The temporal aspects of anion self-exchange in PANI films have been investigated. The exchange of bulkier tosylate–ferricyanide ion with Cl⁻ ion has been monitored by photometry and electrochemical techniques. The relative changes in porosity brought about by self-exchange have been experimentally determined to be 323 and 2125/k in tosylate-exchanged and ferricyanide-exchanged polyaniline films, respectively. It is seen that the polyaniline films exhibit enhanced loading of glucose oxidase after a self-ion exchange, and, hence they can be used for the fabrication of a third generation glucose biosensor.Lactate is determined by the photometric detection of NADH formed in the reaction catalysed by LDH. Studies have been carried out with PANI as a matrix for the immobilization of LDH and its feasibility as a biosensor. The results of the photometric and amperometric measurements conducted on such LDH/PANI electrodes show a response to pyruvate concentration upto 0.45 mM, a response time of 90 s and a shelf life of about two weeks.     

应用荧光探针研究菠菜叶绿体膜对低强度电磁场的辐射敏感性

应用ANS渗入菠菜叶绿体膜后的ANS荧光光谱和光合细胞Chla荧光参数的变化研究了菠菜叶绿体膜对辐射功率密度为5 mW·cm-2以下的300 MHz低强度电磁场的辐射敏感性。研究发现,在1～5 mW·cm-2的低强度电磁场作用下,菠菜叶绿体ANS荧光光谱的位置没有明显变化,但ANS荧光强度明显增大,表明低强度电磁场使菠菜叶绿体膜流动性变小。1～5 mW·cm-2低强度电磁场的作用还使菠菜叶绿体发出的Chla荧光参数F₀减小,f_V／F₀,F_V／F_m和ΔF_V／T增大,F_VI／F_V减小,表明低强度电磁场使菠菜叶绿体膜发生了光系统Ⅱ(PSⅡ)无活性中心向有活性中心的转变,PSⅡ潜在活性提高、光合电子传递过程加快,原初光能转换效率增强。菠菜叶绿体膜ANS荧光和Chla荧光对低强度电磁场的这种辐射敏感性说明了低强度电磁场能对菠菜光合作用系统产生非热效应,并且,菠菜光合细胞有可能通过PSⅡ活性中心异质性的转变来适应电磁辐射增强的环境。     

溶剂对TNS与ANS荧光光谱的影响

研究了两种光谱探针TNS与ANS在不同溶剂中的荧光光谱,为此类荧光探针的应用奠定了一定的基础。结果表明溶剂对TNS与ANS荧光光谱的影响是一般溶剂效应与特殊溶剂效应共同作用的结果。     

Tryptophan Fluorescence Yields and Lifetimes as a Probe of Conformational Changes in Human Glucokinase

Five variants of glucokinase (ATP-D-hexose-6-phosphotransferase, EC 2.7.1.1) including wild type and single Trp mutants with the Trp residue at positions 65, 99, 167 and 257 were prepared. The fluorescence of Trp in all locations studied showed intensity changes when glucose bound, indicating that conformational change occurs globally over the entire protein. While the fluorescence quantum yield changes upon glucose binding, the enzyme’s absorption spectra, emission spectra and fluorescence lifetimes change very little. These results are consistent with the existence of a dark complex for excited state Trp. Addition of glycerol, L-glucose, sucrose, or trehalose increases the binding affinity of glucose to the enzyme and increases fluorescence intensity. The effect of these osmolytes is thought to shift the protein conformation to a condensed, high affinity form. Based upon these results, we consider the nature of quenching of the Trp excited state. Amide groups are known to quench indole fluorescence and amides of the polypeptide chain make interact with excited state Trp in the relatively unstructured, glucose-free enzyme. Also, removal of water around the aromatic ring by addition of glucose substrate or osmolyte may reduce the quenching.     

An Insight into the Biophysical Characterization of Insoluble Collagen Aggregates: Implication for Arthritis

Misfolding and aggregation of proteins is involved in some of the most prevalent neurodegenerative disorders. The importance of collagen stems from the fact that it is one of the dominant component used for tissue engineering and drug delivery applications and is a major component of skin, tendon, bone and other connective tissues. A systematic investigation on the conformation of collagen at various concentrations of glyoxal is studied by various biophysical techniques such as Trp fluorescence, ANS binding, Circular dichroism (CD), ATR-FTIR, Congo red (CR) assay, Rayleigh light scattering and Turbidity measurements. At 60 % (v/v) glyoxal, collagen retains native-like secondary structure, altered Trp environment and high ANS fluorescence, characteristic of molten globule (MG) state. At 80 % (v/v) glyoxal, insoluble collagen aggregates are detected as confirmed by decrease in Trp and ANS fluorescence, increase in non-native β sheet structure as evident from far-UV CD and FTIR spectra, increase in Thioflavin T fluorescence, Rayleigh light scattering, Turbidity measurements, as well as red shift in CR absorbance.     

热压协同处理对接种于鸡腿菇中的细菌芽孢灭活效果的影响

以鸡腿菇为原料,以凝结芽孢杆菌芽孢和嗜热脂肪芽孢杆菌芽孢为对象菌,研究中温与超高静压协同处理条件下两种对象菌的灭活效果及其相应的动力学变化趋势。研究结果表明:在相同条件下,鸡腿菇中凝结芽孢杆菌芽孢的致死效果优于嗜热脂肪芽孢杆菌;接种于鸡腿菇中的两种对象菌芽孢致死效果均低于磷酸缓冲液中的效果,说明鸡腿菇对这两种细菌芽孢有一定的保护作用。利用线性模型、Weibull模型和Log-logistic模型,对鸡腿菇中两种对象菌芽孢的灭活效果进行拟合,以均方差和回归系数为评价指标,分析了3种模型的拟合效果。结果表明:在所研究的条件下,Log-logistic模型的拟合效果最好,Weibull模型次之,线性模型最差。因此可以通过Log-logistic模型来预测热压协同处理下细菌芽孢的灭活效果。     

Time-Resolved Fluorescent Imaging of Glucose

A method for the fluorescent imaging of glucose is described that is based on the detection of enzymatically produced hydrogen peroxide, using the europium(III) tetracycline complex as the fluorescent probe incorporated into a hydrophilic polymer layer. Coadsorption of glucose oxidase (GOx) makes these sensor layers respond to the hydrogen peroxide produced by the GOx-assisted oxidation of glucose. The hydrogel layers are integrated into a 96-microwell plate for a parallel and simultaneous detection of various samples. Glucose is visualized by means of time resolved luminescence lifetime imaging. Unlike in previous methods, the determination of H₂O₂ does not require the addition of peroxidase or a catalyst to form a fluorescent product. The lifetime-based images obtained are compared with conventional fluorescence intensity-based methods with respect to sensitivity and the dynamic range of the sensor layer. The main advantages provided by this sensing scheme for H₂O₂ include reversibility, applicability at neutral pH, and the straightforwardness of the transducer system and the imaging device.     

Probing the Liquid-State Structure and Dynamics of Aqueous Solutions by Fluorescence Spectroscopy

Time-resolved fluorescence spectroscopy of the solvent-sensitive molecule 1,8-anilinonaphthalene sulfonate (ANS) is used to probe the structure and dynamics of an aqueous methanol solution (mole fraction = 0.5). The intensity decay of ANS in the mixed solvent displays single exponential kinetics under ambient conditions. At low temperature, a simple two-state solvent relaxation model describes the fluorescence decay for ANS in both methanol and the mixed solvent. The temperature dependence of ANS fluorescence in the mixed solvent is attributed to the onset of glassy dynamics in the aqueous component at higher temperature, implying a partial demixing of the water and methanol due to self-association. We discuss the absence of more complicated fluorescence decays in such a heterogeneous solvent system.     

Fluorescence spectroscopic study to characterize and monitor TEOS based sol–gel process for development of optical biosensors

Development of optical biosensors is an active area of research in the field of medical technology. Sol–gel matrices made from alkoxide silicates, tetraethyl orthosilicate (TEOS) appear to be suitable glassy host matrix for the sensing system. However, the major problem in the TEOS based sol–gel matrices is stability. So it is important to study dopant–matrix interaction as a function of time. In the present study, we report fluorescence emission and excited state lifetime measurements on fluorescent probes entrapped in TEOS sol–gel for monitoring the physico-chemical processes for characterization and monitoring of local environment (pores) of dopant molecule (fluorescent probes) for construction of sensing layer for optical transducer. Different types of fluorescent probes viz., Hoechst 33258 (H258) and pyranine (PY) were used. Sol–gels containing these probes were prepared at pH=6.0 and the physical and spectroscopic parameters were monitored as a function of storage time (days). The emission intensity from entrapped H258 has shown relatively higher extent of decrease during aging. The excited state fluorescence lifetime measurements on these probes depicted single exponential decay component at 5.4 ns (PY) and 3.6 ns (H258) in fresh sol–gels. After a few days of storage the sol–gel containing H258 revealed an additional short decay component whereas no such alteration could be observed with the probe molecule PY. Further confirmation of multicomponents decay was obtained by distribution analysis of lifetime of H258 where an increase in width of mean lifetime was observed with storage whereas no such change was indicated from PY. Thus it appears that H258 is a better probe molecule for characterizing and monitoring local environment of pores in sol–gel.     

Luminescence properties of pyron red—A new molecular probe for protein research

The dependence of the luminescence of the new anionic dye Pyron Red (PR) on the polarity of the medium is investigated. Upon passage from an aqueous phase to a nonpolar phase, PR shows a shortwave shift of the fluorescence emission maximum from 675 to 650 nm and an increase in the fluorescence quantum yield from 0.03 to 0.54–0.70. When complexed with human serum albumin, PR shows fluorescence excitation and emission maxima at 525 and 625 nm and a fluorescence quantum yield of 0.8. In a comparison of the luminescence properties of PR with those of the well-known probes ANS and K35 in water and a complex with albumin, PR is shown to have the maximum absolute sensitivity but a lower fluorescence enhancement upon binding with a protein compared to ANS. A convenient criterion of the probe sensitivity toward binding with a protein that is defined as the ratio of the fluorescence intensities of the protein-bound and the free probe A_F=F_b/F_f is proposed. The value of A_F(35) for the PR probe ranks between those for the K35 probe with a low A_F(18) and ANS with a high A_F(105). Translated from Zhurnal Prikladnoi Spektroskopii, Vol. 66, No. 3, pp. 369–374, May–June, 1999.     

The effects of carbon nanotube addition and oxyfluorination on the glucose-sensing capabilities of glucose oxidase-coated carbon fiber electrodes

Glucose-sensing electrodes were constructed from carbon fibers by electrospinning and heat treatment. By controlling the pore size, the specific surface area and pore volume of the electrospun carbon fibers were increased for efficient immobilization of the glucose oxidase. Carbon nanotubes were embedded as an electrically conductive additive to improve the electrical property of the porous carbon fibers. In addition, the surface of the porous carbon fibers was modified with hydrophilic functional groups by direct oxyfluorination to increase the affinity between the hydrophobic carbon surface and the hydrophilic glucose oxidase molecules. The porosity of the carbon fibers was improved significantly with approximately 28- and 35-fold increases in the specific surface area and pore volume, respectively. The number of chemical bonds between carbon and oxygen were increased with higher oxygen content during oxyfluorination based on the X-ray photoelectron spectroscopy results. Glucose sensing was carried out by current voltagram and amperometric methods. A high-performance glucose sensor was obtained with high sensitivity and rapid response time as a result of carbon nanotube addition, physical activation and surface modification. The mechanism of the highly sensitive prepared glucose sensor was modeled by an enzyme kinetics study using the Michaelis-Menten equation.     

Ophthalmic Glucose Monitoring Using Disposable Contact Lenses—A Review

We have developed a range of disposable and colorless tear glucose sensing contact lenses, using off-the-shelf lenses embedded with new water soluble, highly fluorescent and glucose sensitive boronic acid containing fluorophores. The new lenses are readily able to track tear glucose levels and therefore blood glucose levels, which are ideally suited for potential use by diabetics. The fluorescence responses from the lenses can be monitored using simple excitation and emission detection devices. The novelty of our approach is two fold. Firstly, the notion of sensing extremely low glucose concentrations in tears, which track blood levels, by our contact lens approach, and secondly, the unique compatibility of our new glucose signaling probes with the internal mildly acidic contact lens environment. The new lenses are therefore ideal for the non-invasive and continuous monitoring of tear glucose, with about 15-min response time, and a measured shelf life in excess of 3 months. In this review article, we show that fluorescence based signaling using plastic disposable lenses, which have already been industrially optimized with regard to vision correction and oxygen/analyte permeability etc, may a notable alternative to invasive and random finger pricking, the most widely used glucose monitoring technology by diabetics.     

两种荧光染料对葡萄糖氧化酶的标记

本工作用异硫氢酸荧光素和异硫氢酸四甲基罗丹明分别对葡萄糖氧化酶进行标记，研究了标记蛋白的吸收光谱，荧光光谱，讨论了两种染料标记的位点的差异，同时还研究了脲对标记后染料荧光的影响。     

若丹明6G溶液体系的荧光量子效率

本文对八种若丹明6G溶液的荧光量子效率进行了测量,并着重讨论了染料若丹明6G溶液体系的量子效率的溶剂效应.在研究中发现:若丹明6G溶渡的荧光量子效率与溶液极性(ε-1)/(2ε+1)之间存在线性关系,体系的荧光量子效率随溶剂极性的增加而下降.由于染料分子与成氢键溶剂作用愈强,能量散逸愈快将是导致这一结果的主要原因.这一规律也适用于ANS染料溶液体系中.