磷酸苯酯-碱性磷酸酯酶伏安酶联免疫分析新体系的研究

研究了以磷酸苯酯为底物微分脉冲伏安法测定碱性磷酸酯酶 (ALP)的方法。磷酸苯酯在ALP的催化作用下水解生成苯酚 ,苯酚在玻碳电极上 0 .70V(vs.Ag/AgCl)左右产生氧化电流 ,氧化电流随着酶浓度的增大而增大 ,借助此氧化电流可以测定ALP ,并进而可用于以ALP为标记酶的酶免疫分析。对酶催化反应条件和酶催化反应产物的测定条件进行了详细的研究 ,测定游离ALP的线性范围是 0 .0 6U/L～ 1 .0× 1 0 3U/L ,检出限为 0 .0 6U/L     

Fluorimetric determination of alkaline phosphatase in solid and fluid dairy products

A new assay has been developed for measuring residual alkaline phosphatase (ALP) activity in a wide variety of dairy products. The method proposed is simple, rapid and directly applicable to solid and liquid dairy samples. ALP in the test sample hydrolyzes a non fluorescent substrate, trifluoromethyl-β-umbelliferone phosphate, to its highly fluorescent phenolate product. The assay is performed in a reverse micellar medium composed of mixed buffer (2-amino-2-methyl-1-propanol buffer pH 9.0 and borate buffer pH 9.0) in AOT/isooctane, at a temperature of 38 °C. Total test time is 450 s. Reaction rates are linear (except for butter) up to 8.5 and 11% (v/v) raw milk, for whole milk and chocolate milk, respectively. The detection limits are 0.04, 0.4 and 0.22% (v/v) raw milk, for whole milk, chocolate milk and butter, respectively. The precision of the fluorimetric method was assessed by repeated analysis of a pasteurized milk sample spiked with mixed herd raw milk. The accuracy of the method was evaluated by comparison with an official colorimetric assay using p-nitrophenylphosphate as ALP substrate.     

Voltammetric determination of alkaline phosphatase and horseradish peroxidase activity using 3-indoxyl phosphate as substrate Application to enzyme immunoassay

The use of 3-indoxyl phosphate (3-IP) as an electrochemical substrate for ELISAs with voltammetric detection was investigated. Indirect measurements of alkaline phosphatase (AP) and horseradish peroxidase (HRP) activity in solution were carried out. Picomolar levels of both enzymes can be detected, which enables the design of electrochemical immunoassays using this substrate. The enzymatic turnover of the substrate gives indigo blue, insoluble in aqueous solutions. This product is easily converted into its soluble parent compound, indigo carmine (IC), by addition of fuming sulphuric acid to the reaction media. IC shows a reversible voltammetric peak at the formal potential of −0.15 V (versus Ag pseudo-reference electrode) when a screen-printed carbon electrode (SPCE) is used. The peak current of this process constitutes the analytical signal. Using this approach an ELISA assay to quantify pneumolysin (PLY, a toxin related to respiratory infections) was carried out using AP or HRP as enzymatic label. Calibration plots obtained are reported. 3-IP is demonstrated to be the first suitable substrate for the two most common enzyme labels used in immunoassays.     

New tetrazolium method for phosphatase assay using ascorbic acid 2-phosphate as a substrate

A new method to assay alkaline and acid phosphatases assay using ascorbic acid 2-phosphate (AsA-P) and ditetrazolium salt nitroblue tetrazolium chloride (NBT) was developed. AsA-P is hydrolyzed in the presence of phosphatase to yield ascorbic acid. In turn, the ascorbic acid reduces NBT directly or indirectly, opening the tetrazole ring to produce an insoluble formazan as a colored precipitate. The proposed method for alkaline phosphatase was compared with a conventional method in which 5-bromo-4-chloro-3-indolyl phosphate (BCIP) is used in combination with NBT in the dot blots of a dilution series of β-lactoglobulin. AsA-P reduced NBT more effectively than BCIP in the presence of alkaline phosphatase. AsA-P could be also used as the chromogenic substrate for an acid phosphatase assay in the presence of phenazinium methylsulfate and NBT.     

4-Amino-1-naphthylphosphate as a substrate for the amperometric detection of alkaline phosphatase activity and its application for immunoassay

Immunosensors and biochemical array detection systems based on electrochemical transducers have many advantages such as low detection limit, fast response, simple design and ease of miniaturization. However, further development of such sensors will depend on the availability of suitable substrates that can be converted by a labeling enzyme to an electrochemically active product. Here, we report the synthesis of 4-amino-1-naphthylphosphate and it’s application as a new substrate for alkaline phosphatase. The electrochemical and enzymatic properties of this compound were investigated and compared with the properties of other aromatic 1,4-dihydroxy and 1,4-hydroxy-amine derivatives. The product of the enzyme reaction was 4-aminonaphthol, which was rapidly converted in the presences of air to 1,4-iminonaphthoquinone. This compound could then be detected in an amperometric flow injection assay (AFIA) with −200 mV versus Ag/AgCl potential application. The analytical range for mouse IgG, in an alkaline phosphatase amplified sandwich immuoassay with amperometric detection, was 0.01-100 μg ml⁻¹.     

Potentiometric flow-injection system for determination of alkaline phosphatase in human serum

A flow-injection system for detection of alkaline phosphatase (ALP) activity in human serum samples has been developed. As a specific and inexpensive ALP substrate for this kinetic assay monofluorophosphate (MFP) was applied. For detection of fluoride ions, generated in the course of the biocatalytic hydrolysis of MFP, conventional fluoride ion-selective electrode based on LaF₃-crystalline membrane was applied. After optimization the system allows analysis of human serum with high selectivity and relatively short time of analysis (5–6 samples h⁻¹). Volume of serum required for analysis is 0.05 mL. The system is useful for determination of the enzyme activity in human serum samples at physiological and pathological levels as well as for detection of isoenzymatic forms of ALP.     

Small luminescent molecular probe for developing as assay for alkaline phosphatase

Alkaline phosphatase (ALP) is an important biomarker in clinical diagnostics, and the abnormal level of ALP enzyme in serum is closely related to various diseases such as bone metastases, bone or liver cancer, and extrahepatic biliary obstruction. Recognizing the location and expression level of ALP in live cells has a substantial importance in early-stage cancer diagnosis, as well as an important parameter for studying the recovery of the patients after liver transplantation. With the advent of the newer and advanced fluorescence imaging techniques, small-molecule fluorescent probes have become a very powerful tool for mapping the subtle changes in the enzyme expression level in living cells and tissues in real-time. In this account, we provide an overview of recent advances in small-molecule ALP fluorescent probes, mainly during the last few years, including the design strategies and applications for biological applications.     

萘乙二胺法测定色氨酸及应用于DL-色氨酸拆分过程

在酸性条件下,萘乙二胺与色氨酸形成偶氮化合物,最大吸收波长在545nm处。100倍的丝氨酸、丙氨酸、天冬氨酸、精氨酸、苯丙氨酸、酪氨酸及10倍底物N-乙酰-色氨酸均不干扰显色,甲硫氨酸对显色影响较大,相对误差达到23.9%;拆分过程所需的钴离子和10倍量的酶蛋白对显色反应也没有影响,相对误差可控制在10%以内。采用萘乙二胺法检测色氨酸更适合于色氨酸拆分过程的检测,便于控制拆分过程。     

Copper sulfide nanoparticle-decorated graphene as a catalytic amplification platform for electrochemical detection of alkaline phosphatase activity

Copper sulfide nanoparticle-decorated graphene sheet (CuS/GR) was successfully synthesized and used as a signal amplification platform for electrochemical detection of alkaline phosphatase activity. First, CuS/GR was prepared through a microwave-assisted hydrothermal approach. The CuS/GR nanocomposites exhibited excellent electrocatalytic activity toward the oxidation of ALP hydrolyzed products such as 1-naphthol, which produced a current response. Thus, a catalytic amplification platform based on CuS/GR nanocomposite for electrochemical detection of ALP activity was designed using 1-naphthyl phosphate as a model substrate. The current response increased linearly with ALP concentration from 0.1 to 100 U L⁻¹ with a detection limit of 0.02 U L⁻¹. The assay was applied to estimate ALP activity in human serum samples with satisfactory results. This strategy may find widespread and promising applications in other sensing systems that involves ALP.     

Exploitation of phosphorescent labelling reagent of fullerol-fluorescein isothiocyanate and new method for the determination of trace alkaline phosphatase as well as forecast of human diseases

A new phosphorescent labelling reagent consisting of fullerol, fluorescein isothiocyanate and N,N-dimethylaniline (F-ol-(FITC)_n-DMA) was developed. The mode of action is based on the reactivity of the active -OH group in F-ol with the -COOH group of FITC to form an F-ol-(FITC)_n-DMA complex containing several FITC molecules. F-ol-(FITC)_n-DMA increased the number of luminescent molecules in the biological target of WGA-AP-WGA-F-ol-(FITC)_n-DMA (WGA and AP are wheat germ agglutinin and alkaline phosphatase, respectively) which improved the sensitivity using solid substrate room temperature phosphorimetry (SSRTP) detection. The proposed method provided high sensitivity and strong specificity for WGA-AP. The limit of detection (LD) was 0.15 ag AP spot⁻¹ for F-ol and 0.097 ag AP spot⁻¹ for FITC in F-ol-(FITC)_n-DMA, which was lower than the method using single luminescent molecules of F-ol-DMA and FITC-DMA to label WGA (0.20 ag AP spot⁻¹ for F-ol-DMA and 0.22 ag AP spot⁻¹ for FITC-DMA). Results for the determination of AP in human serum were in good agreement with those obtained by enzyme-linked immunosorbent assay. The mechanism of F-ol-(FITC)_n-DMA labelling of WGA was discussed.     

1-(2-萘基)-3-甲基-5-吡唑啉酮衍生试剂的制备及其在高效液相色谱-质谱法测定糖类化合物中的应用

以1-(2-萘基)-3-甲基-5-吡唑啉酮(NMP)作为柱前衍生试剂,建立了简单、灵敏的糖类组分的反相高效液相色谱测定方法。NMP与糖在氨为催化剂的条件下,于70 ℃下反应可获得稳定的衍生产物。在Hypersil ODS 2反相色谱柱上,实现了8种单糖的基线分离。衍生物线性相关系数均大于0.9985,检出限为0.58～1.1 pmol。利用柱后在线串联质谱的电喷雾电离正离子模式监测,获得了各组分的质谱定性及裂解规律,特别是m/z 473的特征碎片离子可作为单糖NMP衍生物的判定依据。与1-苯基-3-甲基-5-吡唑啉酮(PMP)相比,NMP对糖的衍生化具有灵敏、简单、质谱裂解规律性强、重现性好等优点。该方法用于测定油菜花粉多糖中的单糖组成,结果令人满意。     

Alkaline phosphatase assay using a near-infrared fluorescent substrate merocyanine 700 phosphate

Alkaline phosphatase (ALP) is a phosphomonoester hydrolase that is commonly used as a conjugating enzyme in biological research. A wide variety of substrates have been developed to assay its activity. In this study, we developed an ALP assay method utilizing merocyanine 700 (MC700) based substrate MC700 phosphate (MC700p). MC700 is a near-infrared fluorescent merocyanine dye, and has excitation/emission maxima at 686 nm/722 nm in ALP assay buffer. Upon hydrolysis by ALP, MC700p is converted to MC700. The fluorescence of MC700 is dependent on the pH and detergent concentration in the buffer. The fluorescence signal produced by MC700p hydrolysis is linearly related to the ALP amount and substrate concentration. A stop solution containing EDTA could be used to stop the ALP/MC700p reaction. It was also demonstrated that MC700p could substitute pNpp as the ALP substrate in a commercial 17β-Estradiol enzyme immunoassay kit.     

Rat osseous plate alkaline phosphatase as Langmuir monolayer--an infrared study at the air-water interface

A glycosylphosphatidylinositol (GPI)-anchored enzyme (rat osseous plate alkaline phosphatase-OAP) was studied as monolayer (pure and mixed with lipids) at the air-water interface. Surface pressure and surface potential-area isotherms showed that the enzyme forms a stable monolayer and exhibits a liquid-expanded state even at surface pressure as high as 30 mN m(-1). Isotherms for mixed dimyristoylphosphatidic acid (DMPA)-OAP monolayer showed the absence of a liquid-expanded/liquid-condensed phase transition as observed for pure DMPA monolayer. In both cases, pure or mixed monolayer, the enzyme preserves its native conformation under compression at the air-water interface as observed from in situ p-polarized light Fourier transform-infrared reflection-absorption spectroscopic (FT-IRRAS) measurements. Changes in orientation and conformation of the enzyme due to the presence or absence of DMPA, as well as due to the surface compression, are discussed.     

Rapid spectrophotometric determination of fosfestrol following on-line hydrolysis by alkaline phosphatase using flow injection and chasing zones

A new flow injection (FI) method is reported for the spectrophotometric determination of fosfestrol (diethyl-stilbestrol (DES) diphosphate) in pharmaceutical formulations. The proposed method is based on the on-line hydrolysis of the analyte by alkaline phosphatase (Al-Pase) using a “chasing zones” FI manifold. The orthophosphate ions, thus, generated are determined spectrophotometrically (λ_max=690 nm) using the molybdenum blue approach. The chemical and FI variables affecting the enzymatic reaction were investigated. The proposed method is very precise (s_r=1.1% at 1×10⁻⁴ mol l⁻¹ fosfestrol, n=12), fast (allowing up to 40 samples h⁻¹ to be analyzed) and has a determination range of 2×10⁻⁵ to 2×10⁻⁴ mol l⁻¹, with a satisfactory 3σ detection limit of 5×10⁻⁶ mol l⁻¹. The method was shown to provide accurate determinations of the fosfestrol concentration in a pharmaceutical formulation, giving relative errors, e_r, of +0.6 and −0.5% compared to the value stated by the supplier (Asta Medica Inc.) and the concentration derived using a method recommended by the United States Pharmacopoeia XXI, respectively. In addition, the average recoveries of known amounts of the analyte ranged between 99.2 and 101.2%.     

A covalent organic framework (COF)-MnO2 based dual signal sensing platform for sensitive alkaline phosphatase activity detection via dynamic regulating the mimicking oxidase content

It is of great significance to accurately monitor the alkaline phosphatase (ALP) level as it plays an important role in living body activities. Herein, we develop a COF- MnO₂ system for ALP activity detection via the dynamic regulating the MnO₂ nanosheets content. MnO₂ nanosheets with oxidase-mimicking property can oxide the colorless 3,3′,5,5′-Tetramethylbenzidine (TMB) into blue oxidized TMB (oxTMB). The hexagonal structure and ordered mesoporous channels of DMTP-TAPB COF provide excellent space to accommodate the product oxTMB. The confinement of the dye molecules into COF structure leads to enhance color change and obvious fluorescence quench of the sensing system. The fluorescence quenching and color change dependent on the ALP level as it can dynamic regulate the MnO₂ content via the enzymatic hydrolysis of ascorbate-2-phosphate. Therefore, a COF-MnO₂ based dual signal sensing platform is successfully constructed to detect ALP activity, giving detection limit of 0.11 U L^-1 and 0.23 U L^-1 for fluorescence and colorimetric procedures, respectively. The practical application of the designed sensing platform is verified through the detection of ALP activity in serum samples, and satisfactory results are obtained.     

Photo-fries reaction of 1-naphthyl cinnamate

The photo-Fries reaction of 1-naphthyl cinnamate afforded 2-cinnamoyl-1-naphthol. Likewise, 1-naphthylp-methyl-cinnamate gave 2-(p-methylcinnamoyl)-1-naphthol. The product chalcones were cyclised into the respective flavanones.     

Flow-injection system for the fluorimetric determination of fructose with an immobilized mannitol dehydrogenase reactor

Immobilized mannitol dehydrogenase is used for the determination of D-fructose in a flow-injection system. The enzyme is immobilized on poly(vinyl alcohol) beads. The oxidation of NADH occurs simultaneously and the disappearance of NADH is measured fluorimetrically. The response is linearly related to fructose concentration in the range 6–600 μM; 30 samples per hour can be analysed. The immobilized enzyme retains over 80% of its initial activity after repetitive use for 2 months.     

显色剂2-(5-羧基-1,3,4-三氮唑偶氮)-5-二乙氨基苯甲酸与钯(Ⅱ)的显色反应研究

研究了显色剂2-(5-羧基-1,3,4-三氮唑偶氮)-5-二乙氨基苯甲酸(CTZDBA)与钯(Ⅱ)的显色反应。结果表明,Pd(Ⅱ)与CTZDBA生成稳定的1∶2的紫红色配合物,其最大吸收波长为548 nm,配合物的表观摩尔吸光系数为9.32×104L.mol-1.cm-1,Pd(Ⅱ)质量浓度在0.08~0.8 mg/L范围内符合比耳定律。该方法可不经分离直接测定钯碳催化剂和钯纳米碳催化剂中的微量钯,测定结果与原子吸收法(AAS)基本相符。     

A sensitive fluorescence biosensor for alkaline phosphatase activity based on the Cu(II)-dependent DNAzyme

Alkaline phosphatase (ALP) plays an important role in phosphate metabolism processes; deviation from its normal level may indicate different kinds of diseases, so it is highly necessary to develop some simple and sensitive methods to monitor the ALP level. In this study, a simple, high selective, and sensitive fluorescent biosensor has been proposed for ALP activity determination. The Cu(II)-dependent DNAzyme (Cu-Enzyme) are divided into two parts: Cu-Enzyme 1 and Cu-Enzyme 2, and labelled with alkyne and azido groups, respectively. The Cu-substrate (Cu-Sub) is labelled with a FAM fluorophore (6-carboxyfluorescein) at the 3′-end and an additional quencher (BHQ1) at the 5′-end. The 5′-end of Cu-Enzyme 1 is labelled with BHQ1 as well. The hybridization of the Cu-Enzyme 1 and Cu-Enzyme 2 with Cu-Sub strand results in the low background fluorescence signal because the fluorescence from FAM is quenched. The addition of ALP can hydrolyze AA-P into AA, which can reduce Cu(II) into Cu(I) and in turn catalyze the cycloaddition of Cu-Enzyme 1 and Cu-Enzyme 2 to form a modified Cu-Enzyme. Then the modified Cu-Enzyme catalyzes the cleavage of the Cu-Sub strands into two pieces. One piece containing FAM fluorophore can easily diffuse into solution and give off a strong fluorescence signal. The enhanced fluorescent intensity has a linear relationship with the ALP concentration in the range of 0.36–54.55 U L⁻¹ with the detection limit of 0.14 U L⁻¹ (S/N = 3). The proposed biosensor has been successfully applied to detect ALP in serum samples with satisfied results.     

Automated flow immunoassay for detection of food allergen using anion-exchange resin and alkaline phosphatase conjugated immunoglobulin G

A novel automated flow immunoassay system is developed for the detection of wheat protein as a food allergen. A polyclonal immunoglobulin G (IgG) antibody was isolated from serum of a rat with a wheat allergy, then reductively treated using dithiothreitol and covalently coupled to alkaline phosphatase. This conjugate was used in a non-competitive binding assay. The automated system was equipped with an immunoreaction column, an anion-exchange column, a luminescent reaction column and a photodetector. Antibody–antigen complexes were separated from their free conjugate on the basis of a difference in isoelectric point (pI) by an anion-exchange column. This simple technique permits the assay of wheat-protein allergen in 25 min with a reliable detection limit of 5 μg/ml. The anion-exchange column was regenerated by occasional elution with N-methylpiperazine buffer (pH 5.0) containing 0.5 M NaCl, to remove free conjugate. Free conjugate recovered in this manner could be reused up to four times without significant decrease in sensitivity of the immunoassay.