酶级联反应放大策略用于灵敏检测酸性磷酸酶

构建了一个新型酶级联反应体系用于灵敏检测酸性磷酸酶(ACP)。焦磷酸根离子(PPi)与Fe3+有很强的结合作用,阻碍了具有模拟过氧化物酶活性的普鲁士蓝纳米粒子(PBNPs)的生成。ACP可将底物PPi水解为PO_4~(3-),从而释放出Fe~(3+)。释放的Fe~(3+)与亚铁氰化钾(K_4[Fe(CN)_6])形成PBNPs,PBNPs可以催化过氧化氢(H_2O_2)产生羟基自由基(·OH),进而催化氧化特征底物3,3',5,5'-四甲基联苯胺(TMB),使体系产生明显的颜色变化,同时伴随吸光度的变化。基于上述原理,构建了一种灵敏检测ACP的方法。结果表明,在3~20 U/L的浓度范围内,氧化TMB(oxTMB)的吸光度与ACP浓度呈较好的线性关系,检出限为0.8 U/L。本研究中,通过天然酶的催化反应产生纳米材料模拟酶构建的酶级联催化反应体系具有高效的信号放大作用,有望在生物传感领域发挥重要作用。     

基于酶循环放大的DNA生物传感器用于检测食管鳞状细胞癌生物标志物蛋白PDGF-BB

食管鳞状细胞癌（ESCC）患者发病早期由于体内的肿瘤标志物种类少且含量低,难以在患病早期发现疾病从而快速反应并有效治疗。因此,找到一种合适的标志物对其进行快速高效检测是研究者亟待解决的问题。血小板衍生生长因子（PDGF－BB）在恶性肿瘤的早期诊断中具有极其重要的地位。该文基于酶循环放大荧光光谱设计了一种用于PDGF－BB检测的DNA生物传感器,利用特定位点剪切酶,实现了信号放大,检出限由1 fmol/L降至1 amol/L,大大提高了检测的灵敏度。该方法通过检测血液中PDGF－BB浓度,从而实现对ESCC的简单、快速、高效诊断,在生物化学和医学应用上具有重要价值。     

载酶纳米催化体系用于疾病诊疗的研究进展

酶作为一种具有高度特异性和高效性的催化剂, 可在细胞器中通过复杂有序的生化反应调节细胞的代谢过程. 受细胞区隔化结构的启发, 仿生设计纳米酶催化体系、 构筑限域酶催化微环境从而提高酶催化活性的研究为酶催化应用开辟了新思路. 纳米催化体系保留了小尺寸、 大比表面积、 肿瘤部位选择性富集等优势, 在疾病的诊疗方面发挥了巨大的优势. 本文首先总结了天然酶、 模拟酶和级联酶体系的催化机理, 对仿生构筑的纳米酶催化材料的载体体系进行了概述, 介绍了纳米酶催化体系在生物成像方面的应用, 讨论了其在相关代谢类疾病的作用途径, 并对纳米酶催化体系用于生物诊疗的发展前景进行了展望.     

基于免标记发夹型探针和核酸外切酶Ⅲ的荧光信号放大DNA检测

设计合成了一种长臂发夹型核酸探针,结合核酸外切酶Ⅲ水解反应建立了一种免标记荧光信号放大高灵敏检测DNA的新方法.当不存在靶DNA时,SYBR GreenⅠ荧光染料能够嵌入发夹型探针的茎部而发出很强的荧光,而当存在靶DNA并与发夹型探针杂交后,核酸外切酶Ⅲ从杂交产物的3'端开始水解发夹型探针,释放出靶DNA,并触发下一个酶水解反应,同时SYBR GreenⅠ染料也随发夹型探针水解而释放,导致荧光信号降低,从而实现了对DNA的免标记荧光信号放大高灵敏检测.该方法的检出限低至320 fmol/L,比传统双标的分子信标的方法降低了4~5个数量级,且该方法还具有免标记、简单、快速的特点.     

基于核酸外切酶Ⅲ诱导的双重信号放大与MoS2纳米片荧光碎灭性质的核酸检测方法

将核酸外切酶Ⅲ诱导的双重信号放大技术与MoS2纳米片的荧光猝灭性质结合,构建了一种高灵敏高选择性的DNA检测方法.首先设计两条末端修饰荧光基团的探针核酸(HP1和HP2).由于两条探针核酸具有3'粘性末端,使其不会被核酸外切酶Ⅲ降解,因而被吸附于MoS2纳米片而猝灭其荧光.当目标DNA存在时,会促使核酸外切酶Ⅲ启动双重信号放大反应,并将探针核酸降解成大量的不能吸附于MoS2纳米片表面的荧光碎片.在优化条件下,目标DNA浓度在0.5~6.0 pmol/L范围内与荧光信号变化呈良好的线性关系,检出限为0.28 pmol/L.与单重信号放大技术相比,本方法极大改善了分析灵敏度和检出限,且具有良好的单碱基错配区分能力.     

基于生物条形码与酶切放大的ATP荧光检测新方法

建立了基于纳米金生物条形码和酶切循环放大技术的荧光传感器用于高灵敏、高选择性检测ATP。通过ATP与核酸适体的特异性识别作用,将修饰有大量信号探针的纳米金条形码捕获到磁性微球表面。与释放的信号探针杂交后,分子信标的发卡结构被打开,荧光恢复。结合酶切技术使信号探针循环利用,显著增强荧光信号。在1~30 nmol/L范围内,ATP浓度与荧光信号呈良好的线性关系,检出限为0.5 nmol/L。用于细胞裂解液中ATP的测定,结果与HPLC方法接近。     

碱性磷酸酶的体外检测和体内成像研究进展

碱性磷酸酶(Alkaline phosphatase,ALP)是一种水解酶,可以催化蛋白质、核酸和碳水化合物中磷酸基团的去除.ALP广泛存在于原核生物和真核生物中,具有调节细胞分裂、增殖、凋亡和信号转导等生物功能.ALP的活性失调与心血管疾病、糖尿病和癌症等疾病密切相关,是一种重要的生物标志物.ALP的超灵敏检测对临床...     

基于双酶切级联信号放大的核酸检测方法

利用茎环结构定位探针构建了一个基于双酶切反应的级联信号放大体系,并将其用于核酸的检测.在该体系中,茎环结构定位探针首先是内切酶Tth EndonucleaseⅣ的作用底物,被剪切后又作为定位探针介导切口酶Nt.Bst NBI对分子信标实施剪切,将这2步剪切反应结合起来可有效克服切口酶对于目标核酸中特定识别序列的依赖,同时进一步提高了检测灵敏度.实验结果表明,荧光信号与目标DNA浓度的对数值呈线性相关,响应范围为1 pmol/L～1 nmol/L,并且具有良好的识别单碱基变异的能力.此外,本方法序列设计简单,通用性强,仅改变定位探针的部分序列即可实现对不同目标DNA的检测.对掺杂于血清中的目标DNA的检测结果验证了本方法在实际样品检测中的应用潜力.     

纳米酶

纳米酶(Nanozymes)是由我国科学家首次提出的新概念,它是一类具有生物催化功能的纳米材料,能够基于特定的纳米结构催化天然酶的底物并作为酶的代替品。自2007年首次报道以来,全球已有来自于55个国家的420多个研究机构证实了纳米酶的普遍规律。纳米酶的发现第一次揭示纳米材料蕴含一种独特的纳米效应——类酶催化效应。纳米酶作为一种新材料,既有纳米材料本身的理化性质,又有类似酶的催化功能,兼具天然酶与人工酶的优势于一身。其中,纳米结构不仅赋予纳米酶高效催化功能,而且使纳米酶比天然酶稳定,易于规模化生产。另外,纳米酶独特的多酶活性将为设计廉价、稳定、各种各样全新的催化级联反应提供功能分子。纳米酶是多学科交叉融合的典范,2022年被IUPAC评为十大化学新兴技术。在全球从事化学、酶学、材料学、生物学、医学、理论计算等多领域科学家的共同推进下,如今纳米酶已经成为新的研究热点。我国科学家在这一新兴领域一直发挥着引领作用,解析了纳米酶的构-效关系,将其催化活性提高了约1万倍,实现了超越天然酶的理性设计,创造了全球首个纳米酶产品,出版了纳米酶学英文专著,发布纳米酶术语及中国/国际标准化。更可喜的是,纳...     

双链特异性核酸酶介导的高灵敏度microRNA分析

基于氧化石墨烯(GO)对荧光标记单链DNA探针的荧光猝灭效应以及双链特异性核酸酶(DSN)选择性切割DNA/RNA杂合结构中DNA单链的特性,本文建立了一种新型恒温信号放大方法用于microRNA(miRNA)的高灵敏度检测.靶标miRNA首先与荧光DNA探针杂交,DSN能够特异性地将杂合双链中的DNA探针水解为碎片但不会降解miRNA,GO对酶切产生的寡核苷酸碎片吸附能力显著降低,使得荧光基团远离GO表面而不被猝灭.释放出的miRNA可再次发生与荧光DNA探针杂交、DSN酶切等反应,如此反复,可实现恒温条件下一个miRNA分子与多个探针杂交、酶切、释放荧光基团的循环过程,最终体系的荧光信号得到显著放大,通过记录体系的荧光信号即可实现对靶标miRNA的灵敏检测.     

Indirect Electrosorptive Detection via Kinetic Facilitation in Ion Chromatography

Abstract

A new technique based on electrosorption is presented for the determination of selected anions in ion chromatography. Unlike conventional methods, which are based on the measurement of nonfaradaic currents, the present method utilizes a kinetic facilitation imparted to the electroreduction of a cationic “adsorbate probe” by specifically adsorbed anions, and hence involves the measurement of faradaic currents. Amminated, transition-metal salts of Co(III) have been found most useful as adsorbate probes for this application. The current enhancement-analyte concentration response curves obtained were determined to be linear over a limited range at mercury, but show curvature at virtually all concentrations at silver. Detection limits for this technique are slightly higher than those realized using more conventional double-layer capacitance methods. A brief discussion of the future prospects for this new approach is given.     

单碱基多样性的非测序检测

单碱基多样性（SNP）是最常见的基因突变形式之一,经研究证明与很多疾病相关。虽然测序是检测SNP的重要方法,但其需要检测仪器,且检测时间较长,限制了其临床应用。本文综述了SNP的常见非测序分析方法。首先讨论了检测的热力学问题,并归纳了主要的检测策略：基于杂交的检测,基于链取代反应的检测和酶介导的检测。在三维均相检测方法中,主要介绍了不同信号开关策略,如荧光开关、酶识别开关和场效应开关。三维原位检测不仅能检测SNP,还能提供其细胞定位信息,在细胞异质性较高时更具优势。二维界面检测的识别反应速率和杂交效率受到一定影响,但界面检测能进一步减小干扰,亦便于实现高通量检测。以DNA正四面体探针界面为代表的改良界面具有优良的灵敏度和特异性。同时本文亦讨论了现有方法的局限性,并对SNP非测序检测研究进行展望。     

A 2D cadmium metal–organic framework: Synthesis,structure and luminescence sensing for chromate,permanganate, cupric,silver and ferric

A multi-responsive Cd metal–organic framework {[Cd (ttpe)(H₂O)(ip)]•4H₂O•DMAC}_n ( 1•4H ₂ O•DMAC ) was synthesized using hydrothermal method (ttpe = 1,1,2,2-tetra(4-(1H-1,2,4-triazol-1-yl)phenyl)ethylene, ip = isophthalate, DMAC = N,N-dimethylacetamide), and characterized. 1 exhibits a 2D (4,4) network. The luminescent sensing experimrnts showed that 1•4H ₂ O•DMAC as a new MOF luminescent sensor can detect Cr₂O₇²⁻, CrO₄²⁻, MnO₄⁻, Cu²⁺, Ag⁺ and Fe³⁺ in aqueous solution with simultaneously high efficiency and high sensitivity. The quenching constants K_sv for Cr₂O₇²⁻, CrO₄²⁻, MnO₄⁻, Cu²⁺, Ag⁺ and Fe³⁺ are 4.231 × 10⁴ M⁻¹, 2.471 × 10⁴ M⁻¹, 6.459 × 10³ M⁻¹, 7.617 × 10³ M⁻¹, 1.563 × 10⁴ M⁻¹ and 3.574 × 10⁴ M⁻¹, respectively. The detection limits are 0.094 μM for Cr₂O₇²⁻, 0.108 μM for CrO₄^{2 −} , 0.346 μM for MnO₄⁻, 0.302 μM for Cu²⁺, 0.221 μM for Ag ⁺ , and 0.100 μM for Fe³⁺. 1•4H ₂ O•DMAC exhibits high photocatalytic efficiency for degradation of methylene blue under visible light irradiation.     

Surface-enhanced Raman scattering for protein detection

Proteins are essential components of organisms and they participate in every process within cells. The key characteristic of proteins that allows their diverse functions is their ability to bind other molecules specifically and tightly. With the development of proteomics, exploring high-efficiency detection methods for large-scale proteins is increasingly important. In recent years, rapid development of surface-enhanced Raman scattering (SERS)-based biosensors leads to the SERS realm of applications from chemical analysis to nanostructure characterization and biomedical applications. For proteins, early studies focused on investigating SERS spectra of individual proteins, and the successful design of nanoparticle probes has promoted great progress of SERS-based immunoassays. In this review we outline the development of SERS-based methods for proteins with particular focus on our proposed protein-mediated SERS-active substrates and their applications in label-free and Raman dye-labeled protein detection. Figure Protein-mediated SERS-active substrates for protein detection     

Amperometric multidetection with composite enzyme electrodes

The use of composite biosensors for multianalyte detection strategies is discussed. Graphite–Teflon rigid composite biosensors offer the possibility of coimmobilization of several enzymes by simple physical inclusion in the bulk of the electrode matrix with no covalent linkages. A novel trienzyme graphite–Teflon–glucose oxidase (GOD)–alcohol oxidase (AOD)–peroxidase (HRP)–ferrocene bisosensor yielded amperometric steady-state currents similar to those obtained with graphite–Teflon–GOD–HRP–ferrocene and graphite–Teflon–AOD–HRP–ferrocene electrodes for the same concentration of glucose and ethanol, respectively. The performance of the trienzyme biosensor for multianalyte detection was evaluated with the simultaneous determination of glucose and ethanol after separation by HPLC, in samples of sweet wine. The simultaneous analysis of several analytes in the same sample should imply that, with an adequate dilution, the concentration levels of the analytes can be included within the ranges of linearity of the corresponding calibration plots. The use of two composite biosensors in a parallel configuration, so that different analytes can be simultaneously detected with no need of chromatographic separation, is also discussed. The usefulness of this approach was evaluated by the simultaneous analysis of glucose and ethanol in sweet wine, and of glucose and lactic acid in red wine.     

光照度探测器设计与精度校正

助航灯光系统为夜间或能见度较低环境下飞机的安全起降提供安全保障。快速准确地测量和判断其光强等级、光照射角等是否符合国际民用航空组织(ICAO)的标准,是保障机场安全运行的重要工作。本文设计了基于硅光电池的照度探测器,通过余弦校正器和不同滤光片的组合完成视见函数校正和照度探测的精度标定,实现了灯光的高速动态检测;完成了光照度探测器的线性标定和动态精度测量实验,照度测量误差率和动态测量误差均满足ICAO规定的要求;实现了助航灯光平行截面内光强的高速动态检测。     

Integration of Separation Capillary with a Au Film Electrode and an Etched Decoupler in Amperometric Capillary Electrophoresis

Introduced in this article is fabrication of an integrated capillary for the applications of electrochemical detection in capillary electrophoresis. The separation section, voltage decoupler, and working electrode were composed into a single section of capillary. The porous decoupler was constructed by HF etching till the thickness of the capillary wall less than 20 μm. The working electrode was prepared by sputtering Au-films on the outlet of the capillary. The integration of the separation capillary with a complete detection assembly improves the convenience for the routine application of electrochemical measurements in capillary electrophoresis. For a 100-μm-i.d. capillary, the theoretical plate number of catechol and the migration time reproducibility can reach 120,000 and 1.9% RSD, respectively. The linear range exceeds 3 order of magnitude and the detection limit is lower than 0.65 μM.     

Chromenone-rhodamine conjugate for naked eye detection of Al3+ and Hg2+ ions in semi aqueous medium

Chromenone-rhodamine conjugate 1 has been synthesized and its metal ion binding properties have been studied in CH₃CN/water (3:1, v/v; 10 mM HEPES buffer; pH = 6.85). Compound 1 senses multiple metal ions such as Al³⁺ and Hg²⁺ by exhibiting turn on fluorescence and color change (colorless to pink). Al³⁺ and Hg²⁺ ions have been distinguished with the aid of tetrabutylammonium iodide (TBAI). While in the presence of I^? the pink color of the 1.Hg²⁺ complex was completely discharged; under identical conditions the pink color of 1.Al³⁺ complex was retained.     

A review of reaction detection in HPLC

Summary In the past decade, reaction detection has rapidly gained importance as a means to improve the sensitivity and selectivity of detection in HPLC. Today, most attention is being paid to post-column reaction detection with final analysis via fluorescence monitoring. Novel developments involve the use of solid-phase reactors for reagent addition or catalysis (ion-exchange resins, immobilized enzymes), and the increasing use of systems based on peroxyoxalate chemiluminescence detection. The rapidly growing number of reported applications indicates that commercialization of reaction-detection equipment is urgently needed.