首页 | 本学科首页   官方微博 | 高级检索  
相似文献
 共查询到20条相似文献,搜索用时 140 毫秒
1.
设计了一种基于磁性微球与核酸适体的夹心式化学发光适体传感器,建立了高灵敏度的可卡因分析方法。实验考察了反应所用羧基磁性微球、捕获探针、可卡因适体、生物素标记的报告序列以及链霉亲合素修饰的辣根过氧化物酶用量对化学发光信号的影响。优化条件下,在1.0×10-8~1.0×10-4mol/L范围内,化学发光信号与可卡因浓度的对数呈线性相关(r2=0.989 7),检出限为3.2×10-9mol/L。考察了共存物质中适体对可卡因的特异性识别能力,方法显示了较好的选择性。  相似文献   

2.
以羧基磁性微球为分离载体,固定氨基修饰的腺苷适配体,通过腺苷与生物素修饰的报告序列竞争结合氨基适配体,建立了一种化学发光检测生物小分子腺苷的方法。实验优化了磁性微球、氨基适配体、报告序列等参数,发现腺苷浓度在1.0×10-9~1.0×10-4mol/L范围内与CL信号强度减少量呈良好线性关系,最低检出限达1.0×10-9mol/L,重复5次测定0.1 mmol/L腺苷的相对标准偏差为5.0%。方法成功用于实际尿样中腺苷的测定。该法可简单、灵敏、特异性地检测腺苷,有望用于临床诊断、药物分析等领域。  相似文献   

3.
以羧基磁性微球为分离载体,固定氨基修饰的腺苷适配体,通过腺苷与生物素修饰的报告序列竞争结合氨基适配体,建立了一种化学发光检测生物小分子腺苷的方法。实验优化了磁性微球、氨基适配体、报告序列等参数,发现腺苷浓度在1.0×10-9~1.0×10-4 mol/L范围内与CL信号强度减少量呈良好线性关系,最低检出限达1.0×10-9mol/L,重复5次测定0.1 mmol/L腺苷的相对标准偏差为5.0%。方法成功用于实际尿样中腺苷的测定。该法可简单、灵敏、特异性地检测腺苷,有望用于临床诊断、药物分析等领域。  相似文献   

4.
建立了一种基于阳离子型共轭聚合物和核酸适体的腺苷检测新方法. 荧光素修饰的短链DNA与腺苷的核酸适体部分互补, 形成双链DNA; 阳离子型共轭聚合物通过静电作用与双链DNA结合, 发生高效率的荧光共振能量转移(FRET). 加入腺苷后, 腺苷与核酸适体发生特异性结合, 导致双链DNA分解成单链, 使静电吸引力下降, 能量转移效率降低. 通过阳离子型共轭聚合物对单双链DNA的高效识别, 可快速简易地检测出腺苷.  相似文献   

5.
金标记羟胺放大化学发光检测赭曲霉毒素A   总被引:1,自引:0,他引:1  
以羧基磁性微球为分离载体,连接氨基捕获探针和适配体,加入生物素化报告序列和赭曲霉毒素A(Ochratoxin A,OTA)竞争结合适体,继续加入链霉亲和素纳米金和羟胺/Au~(3+)以显著提高化学发光检测OTA的灵敏度,从而建立了一种纳米金标记羟胺放大化学发光检测OTA的高灵敏度方法。优化了羧基磁性微球、氨基捕获探针、适配体、生物素化报告序列、链霉亲和素纳米金的用量。优化条件下,在OTA质量浓度0.01~50 ng/m L范围内,化学发光信号值与OTA浓度的对数呈较好的线性关系(r~2=0.992 5),检出限为1.58×10~(-3)ng/mL。对啤酒样品进行OTA加标回收实验,回收率为97.4%~105.4%,相对标准偏差为4.0%~5.5%。  相似文献   

6.
将核酸适体(Aptamer)的特异性与纳米金颗粒的独特光学性质相结合,制备了一种适用于小分子检测的干式试纸条。该试纸条以修饰功能化核酸适体(PloyT13-Aptamer)的纳米金为识别元件,在控制线(C)上修饰ployA13序列,与识别元件结合以判断试纸条的有效性;在测试线(T)上修饰与Aptamer部分互补的DNA序列,与待测物形成竞争关系,通过T线上纳米金显色的深浅来定性或定量分析待测物浓度。结果表明,优化实验条件下,观察T线颜色变化可实现三磷酸腺苷(ATP)的肉眼定性检测,视觉检出限为10μmol/L。使用Image J软件进行定量分析,试纸条检测范围为10~1000μmol/L,检出限为2.4μmol/L。该试纸条生物传感器可以在10 min内得出检测结果且特异性良好,血清中回收率为104.4%~119.0%,为ATP的现场快速检测提供了一种经济有效的方法。  相似文献   

7.
碳纳米管修饰金电极检测特定序列DNA   总被引:7,自引:0,他引:7  
唐婷  彭图治  时巧翠 《化学学报》2005,63(22):2042-2046
利用化学偶联法将末端修饰氨基的寡聚核苷酸固定在表面修饰有羧基化碳纳米管(CNTs-COOH)的金电极表面, 制备新型核酸探针, 可以特异性结合目标单链寡聚核苷酸. 以阿霉素作为嵌合指示剂, 利用示差脉冲法测定杂交的结果. 经过实验条件的优化, 测定DNA浓度在1.0×10-6~1.0×10-9 mol/L呈良好的线性关系. 检测限为: 2.54×10-10 mol/L. 碳纳米管特有的纳米结构对检测结果的放大作用, 提高了该传感器的检测限和灵敏度.  相似文献   

8.
基于核酸适体对靶标的特异性识别和辣根过氧化物酶(HRP)的高效催化反应, 发展了一种用于检测三磷酸腺苷(ATP)的酶联核酸适体分析新方法. 核酸适体和靶标的特异性结合导致与核酸适体杂交的短链DNA解链, 解离的DNA通过杂交被固定在另一酶标板的DNA捕获. 解离的DNA预先标记了异硫氰酸荧光素(FITC)基团, FITC特异性结合HRP标记的FITC抗体, HRP作为信号传导元素催化四甲基二苯胺(TMB)底物显色, 通过颜色变化及450 nm波长处吸光度的变化检测ATP. 该方法对ATP具有良好的选择性, 检测不受其它物质如GTP, UTP和CTP的干扰, 且检测能在较复杂的试样(体积分数10%和50%的血清)中进行. 实验结果表明, 在ATP浓度为50~400 nmol/L范围内, 具有良好的线性关系, 检出限为26 nmol/L.  相似文献   

9.
合成了牛血清白蛋白修饰的铜纳米簇(BSA-Cu NCs),研究发现在碱性环境中,BSA-Cu NCs对鲁米诺-过氧化氢体系的发光信号有很好的增强作用。对铜纳米簇催化鲁米诺-过氧化氢化学发光的机理进行了研究,并发现色氨酸对鲁米诺-过氧化氢-铜纳米簇化学发光体系信号具有增强作用,基于此,建立了化学发光测定色氨酸的含量的方法。该方法对色氨酸的检测限为6×10-8mol·L-1,线性范围为2.0×10-7~10-4mol·L-1。  相似文献   

10.
本文基于磁性粒子(MB)良好的分离、富集能力,研究了硫化铜纳米粒子标记的流动注射-化学发光(FI-CL)DNA检测体系.通过硫化铜标记的探针1与目标DNA及连有磁球的探针2形成三明治结构,实现对目标DNA的捕获、分离与标记;通过其溶解释放出CuS标记颗粒的铜离子,引起化学发光信号增强,实现了目标DNA序列的定性定量检测.该方法对完全互补单链DNA(ssDNA)检测的线性范围为1.0×10-11~1.6×10-9 mol/L,检出限为3.0×10-12 mol/L,对1.0×10-9 mol/L目标DNA测定的相对标准偏差为3.2%(n=11),对目标碱基序列具有良好的识别能力.  相似文献   

11.
利用AuNPs/Nafion复合膜技术固定Ru(bpy)2+3,采用羧基化碳纳米管固定氨基化腺苷适配体,制备腺甘电化学发光生物传感器.采用循环伏安法和电化学发光法对传感器进行表征.结果表明,此传感器具有良好的稳定性和重现性.腺苷与传感器作用后,腺苷与其适配体形成G四面体结构,Ru(bpy)2+3的电化学发光强度降低.在最佳实验条件下,电化学发光强度降低量与腺苷浓度的负对数在1.0×10-11~1.0×10-7 mol/L范围内呈良好的线性关系,线性方程为ΔIECL=-890lgC-5050,检出限(S/N=3)为5.0 × 10-12 mol/L.对1.0 × 10-10 mol/L腺苷平行测定11次,相对标准偏差为2.7%.用于尿液中腺苷的测定,加标回收率在 97.1%~110.0%之间.  相似文献   

12.
Xiluan Yan  Masaaki Kai 《Talanta》2009,79(2):383-4519
We have developed a novel sensitive chemiluminescence (CL) aptasensor for the target assay as exemplified by using adenosine as a model target. In this work, we have demonstrated the signaling mechanism to make detection based on magnetic separation and 3,4,5-trimethoxyl-phenylglyoxal (TMPG), a special CL reagent as the signaling molecule, which reacts instantaneously with guanine nucleobases (G) of adenosine-binding aptamer strands. Briefly, amino-functioned capture DNA sequences are immobilized on the surface of carboxyl-modified magnetic beads, and then hybridized with label-free G-rich (including 15 guanine nucleobases) adenosine-binding aptamer strands to form our CL aptasensor. Upon the introduction of adenosine, the aptamer on the surface of magnetic beads is triggered to make structure switching to the formation of the adenosine/aptamer complex. Consequently, G-rich aptamer strands are forced to dissociate from magnetic beads sensing interface, resulting in a decrease of CL signal. The decrement of peak signal is proportional to the amount of adenosine. The effects of the amounts of capture DNA, aptamer, magnetic beads are investigated and optimized. It was found that the CL intensity had a linear dependency on the concentration of adenosine in the range of 4 × 10−7 to 1 × 10−5 M. With a low detection limit of 8 × 10−8 M and simplicity in CL detection, this novel technique will offer a great promise for future target/aptamer analysis.  相似文献   

13.
铁(Ⅱ)能在具有催化活性的纳米TiO2表面产生化学发光辐射,表面活性剂十六烷基三甲基溴化铵(CTAB)的存在能显著增敏此发光强度。此外,纳米氧化钛也能增强Fenton反应的化学发光强度,据此,建立了纳米TiO2-CTAB-Fenton化学发光新体系检测铁(Ⅱ)的新方法。在优化条件下,亚铁离子在1.0×10-8~1.0×10-6mol/L浓度范围内与其化学发光强度呈现良好的线性关系,对1.0×10-7mol/L浓度的亚铁离子平行测定5次,相对标准偏差为3.9%,检出限为4.0×10-9mol/L。文中还对化学发光反应机理进行了初步探讨。  相似文献   

14.
Xu Hun  Zhouping Wang 《Mikrochimica acta》2012,176(1-2):209-216
A sensitive method is presented for the detection of L-argininamide. It is based on the amplification of the hydrolysis of S1 nuclease of single-stranded regions of an aptamer-target complex. The S1 nuclease, which is sequence-independent, is used to “recycle” target molecules, thus leading to strongly enhanced chemiluminescence (CL). L-Argininamide was chosen as model analyte. The DNA aptamer and its complementary DNA were labeled with the CL reagent N-(4-aminobutyl)-N-ethylisoluminol (ABEI). The DNA complementary to the aptamer was labeled with ABEI and immobilized on magnetic beads (MBs) coated with gold. The aptamer was also labeled with ABEI and self-assembled on the MBs. A duplex was formed due to hybridization between the DNA aptamer and the DNA complementary to the aptamer. In the presence of the target L-argininamide, a stem-loop aptamer structure is formed which subsequently denatures the duplex. This switch from a duplex structure to a stem-loop structure causes the formation of single-stranded regions both in the target-aptamer and in the single-stranded DNA on the MBs. The nuclease hydrolyzes the single-stranded regions and single-stranded DNA. Ultimately, L-argininamide is released which then interacts with another aptamer on the MB, thereby leading to one more L-argininamide. This autocatalytic cycle can generate substantial quantities of ABEI which then can be sensitively determined by the diperiodatonickelate-isoniazide reaction system. L-argininamide can be detected in the concentration range from 3.0?×?10?4 to 3.0?×?10?7 M, and the limit of detection is 1.0?×?10?7 M.
Figure
A enantiomer assay for detection of L-argininamide was developed based on S1 nuclease hydrolysis of single-stranded regions of aptamer-target complex and the releasing of the L-argininamide. The released L-argininamide can then interact with another aptamer leading to many signal probes be generated. The L-argininamide assay exhibits high sensitivity and specificity.  相似文献   

15.
贵莉莉 《分析测试学报》2016,35(8):1054-1057
设计了一个简单、通用、基于核酸适配体无标记的高敏感、高专一检测凝血酶的荧光方法。以无标记凝血酶核酸适配体单链DNA为识别元素,Pico Green染料传导互补双链的荧光信号。Pico Green是一种不对称菁,当其单独存在时不产生荧光信号,而当其被吸附到互补的双链DNA上时,可产生很强的荧光信号,但被吸附到单链DNA上时,却无明显的信号改变。基于该性质,将其用于凝血酶的检测。该方法对凝血酶的响应线性范围为1.0×10~(-14)~1.0×10~(-7)mol/L,相关系数(r~2)为0.99,检出限为1.0×10~(-14)mol/L。1.0×10~(-8)mol/L两种干扰物质(牛血清蛋白和细胞色素C)的存在不影响凝血酶的检测,表明该方法对凝血酶具有非常好的专一性。该方法成功应用于对人血清样品的检测,其平均回收率为97%~102%。方法可简单、灵敏、特异性地检测凝血酶,有望用于医学临床诊断等领域。  相似文献   

16.
A new adenosine biosensor based on aptamer probe is introduced in this article. An amino-labeled aptamer probe was immobilized on the gold electrode modified with an o-phenylenediamine electropolymerized film. When adenosine is bound specifically to the aptamer probe, the interface of the biosensor is changed, resulting in the decrement of the peak current. The response current is proportional to the amount of adenosine in sample. The used electrode can be easily regenerated in hot water. The proposed biosensor represents a linear response to adenosine over a concentration range of 1.0x 10^-7-l.0x10^-4 mol/L with a detection limit of 1.0xl0^-8 mol/L. The presented biosensor exhibits a nice specificity towards adenosine. It offers a promising approach for adenosine assay due to its excellent electrochemical properties that are believed to be very attractive for electrochemical studies and electroanalytical applications.  相似文献   

17.
Based on the micelle synergism mechanism, a chemiluminescence (CL) flow system for the determination of sulfite was described. The CL signal generated from the reaction of chlorate with sulfite in acidic solution was very weak, while the interfusion of sodium dodecylbenzenesulfonate (SDBS) resulted in a highly chemiluminescent intensity. The major goal of this work was to investigate and develop the SDBS rnicelle synergetic CL system. The mechanism was proposed and proved by spectrometry. The results indicated that the unique structure of SDBS micelles prorooted the aggregation of rhodamine 6G (Rh6G) and a much easier energy transfer, leading to a marked shift to red in the CL emission. This CL system was developed for the determination of sulfite and the concentration of sulfite was proportional to the CL intensity in the range of 5.0× 10^-8--1.0× 10^-5 mol/L with the detection limit of 1.7×10^-8 mol/L (S/N=3). The relative standard deviation was 3.3% for 1.0×10^ 6 mol/L sulfite solution with eleven repeated measurements. This method was successfully applied to the determination of sulfite in powder sugar.  相似文献   

18.
A novel flow injection chemiluminescence (FI‐CL) method for the determination of genistein was described. The method was based on the reaction between genistein and potassium ferricyanide in alkaline solution to give weak CL signal, which was dramatically enhanced by rhodamine 6G (Rh G). The CL emission allowed quantitation of genistein concentration in the range 1.0 × 10?7–4.0 × 10?5 mol/L with a detection limit (3σ) of 4.2 × 10?8 mol/L. The relative standard deviation for 11 parallel measurements of 5.0 × 10?7 mol/L, 4.0 × 10?6 mol/L and 1.0 × 10?5 mol/L genistein were 2.59%, 2.40% and 1.48%, respectively. The experimental conditions for the CL reaction were optimized and the possible reaction mechanism was discussed. The method was applied to the determination of genistein in biological fluids.  相似文献   

19.
利用凝血酶的两条核酸适配体与凝血酶的高亲和力构建了三明治结构, 利用磁性纳米颗粒的磁性分离技术, 设计并制作了一种新型的荧光纳米生物传感器, 用其检测凝血酶. 此法对凝血酶的响应线性范围为2.24×10-11~4.03×10-9 mol/L, 其线性方程为I=0.9758×1011c-2.628, 检出限为1.0×10-11 mol/L, 对浓度为2.68×10-10 mol/L的凝血酶检测10次, 其RSD为2.56%, 测得的荧光信号稳定, 24 h后测定并无衰减, 具有很高的检测特异性和灵敏度.  相似文献   

20.
采用模板法制备了二硫化钼中空球纳米材料,利用扫描电子电子显微镜、X射线衍射仪和Raman光谱仪对材料的形貌和结构进行表征.将适配体固定在金纳米粒子和二硫化钼共同修饰的电极上构建了一种新型的微小核糖核酸(microRNA)电化学生物传感器,采用循环伏安、微分脉冲伏安和电化学阻抗等技术对构筑的传感器进行表征.结果表明,microRNA浓度在1.0×10~(-10)~1.0×10~(-16)mol/L范围内峰电流(I)与microRNA浓度的负对数(-lgc)呈良好的线性,目标miRNA的检出限为0.55×10~(-16)mol/L.构建出的传感器具备选择性好、灵敏度高、稳定性强等特性,具有广阔的应用前景.  相似文献   

设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号