共查询到14条相似文献,搜索用时 46 毫秒
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双层类脂膜及其在电化学生物传感器中的应用 总被引:11,自引:0,他引:11
详细评述了各种双层类脂膜包括传统的双层类脂膜(BLM)、固体载体支撑的自组双层类脂膜(s-BLM)、固体载体支撑的混合双层类脂膜(e-BLM)的制备方法和特性,比较了其优缺点。介绍了双层类脂膜在电化学生物传感器中的应用,并展望了发展前景。 相似文献
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本研究用膜片电极支撑双层类脂膜(BLMs)核酸传感器,检测葡萄球菌肠毒素B(SEB)基因。BLMs在膜片钳尖端形成后,传感器的检测电流大小和施加的电压成正比。通过在BLMs上固定针对SEB基因特异的直链十二烷烃链(0~273.65μg/L)修饰的单链寡核苷酸(C12-ssDNA)探针与膜片钳系统一同构建成膜片电极支撑BLMs核酸传感器。电流大小与探针的浓度呈正相关,线性回归方程I=5.49 2.94C;相关系数r=0.9962。SEB基因浓度在20~5000μg/L范围时,检测的电流信号与SEB基因浓度的自然对数呈负相关,线性回归方程I=1103.26-103.62lnC,相关系数r=0.9977;同时,核酸传感器有很好的特异性,与不产SEB的金葡菌属、其它食物中毒菌的基因组DNA和空白对照组反应无明显电信号响应。应用原子力显微镜对BLMs表面微观结构、ssDNA固定于BLMs上和BLMs上杂交洗脱后的表面微观结构进行观察。本研究构建的膜片电极支撑BLMs核酸传感器为SEB基因的检测提供了一种快速、灵敏、特异性强的方法。 相似文献
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采用固体铂盘电极支撑的双层类脂膜(Pt-BLM)技术崮定乙肝表面抗体(HBsAb),研制成Pt-B12M-HBsAb电位型非标记免疫传感器,用于检测人血清中乙肝表抗原(HBsAg)。对影响构筑BLM的各种凶素进行了研究,用循环伏安法对Pt-BLM进行了表征。传感器对HBsAg呈Nernstu向应,其线性范围为2~320μg/L,线性回归方程为△V=-1.09+32.41gρ(HBsAg),线性相关系数r=0.9998。该传感器响应迅速,灵敏度高,稳定性及选择性好,于4℃干态保存4周,其响应信号基本不变。将其用于临床血清检验,结果满意。 相似文献
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双层磷脂膜的电化学性质及其在生物传感器中的应用 总被引:4,自引:0,他引:4
由于双层磷脂膜(BLM)可模仿自然界的生物细胞膜的生物相容性,成为物分子的天然固定化材料,因此生物传感器的研制领域显示出广泛的应用前景,本文介绍了BLM、s-BLM的电化学性质,制备技术,并评述了其在生物传感器的应用研究进展。 相似文献
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冠醚修饰的固体支撑双层类脂膜的形成及性能研究 总被引:3,自引:1,他引:3
用饱和了胆固醇和饰用冠醚的角鲨烷/氯仿溶液作成膜液,制备了冠醚修饰的固体支撑双层类脂分子膜。重点考察了成膜物种及技术对膜稳定性及电特生影响。其膜电势随接触水相中的变化呈现Nernst响应,线性范围10^-4-10^-1mol/L。 相似文献
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应用循环伏安法(CV),计时电流法(I_T)和开路电压法(V_T)研究了导电玻璃支撑的双层类脂膜(ITO/s_BLM)的成膜动力学过程.实验表明,导电玻璃(ITO)是一种理想的成膜支撑基底,ITO/S_BLM膜具有成膜快稳定时间长的特点.与循环伏安法相比,计时电路法和开路电路法能更为详细地给出膜系统组装的瞬时信息.ITO/s_BLM体系的膜电压实验值约为0.1V. 相似文献
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Nucleic acid probes in living organisms play an essential role in therapeutics and diagnosis.Through the imaging and sensing of nucleic acid probes in complex biological matrices,a variety of diseases-related biological process,pathogenic process,or pharmacological responses to a therapeutic intervention have been discovered.However,a critical challenge of nucleic acid probes applied in complex matrices lies in enhancing the stability of nucleic acid probes,especially when it suffers from nuclease degradation and protein adsorption.In order to enhance the application of nucleic acid nanoprobes in complex matrices,great efforts have been devoted to improving the stability of probes operated in complex media,including construction of nucleic acid nanoprobes with nuclease resistance and protein adsorption resistance,sample pretreatment,anti-biofouling and signal correction.In this review,we aim to summarize recent advances in the stability of nucleic acid nanoprobes in complex matrices,including the methods of enhancing the stability of probes or signals,and the application of nucleic acid nanoprobes for disease diagnosis. 相似文献
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The electrochemical biosensor properties of the molecular devices based on solid supported bilayer lipid membranes were investigated. The results showed that the system embedded with antihistaminic agent had strong response for the histamine. The response currents for the histamine will rise following the increasing concentrations of the histamine,as a result of the special opposing effect between histamine and antihistamine. Near the normal physiological condition(pH=7. 5),a good linearity occurred for the current response against histamine concentration ranging from 3. 0 to 60. 0 μg / L,and the relation coefficient R is 0. 9878. All the experiments mentioned above showed good sensitivity,selectivity and stability. This system can measure the concentration of histamine under -200 mV by voltammetry and be expected to form the electrochemical biosensor with high stability and low detection limit. 相似文献