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 Green Ⅰ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...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 Green Ⅰ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 Green Ⅰ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。展开更多
Simian virus 40(SV40) is a polyomavirus and can induce a series of different tumors. The recognition of SV40 genome is crucial to tumor diagnosis and gene therapy. Herein, a sensitive and selective colorimetric meth...Simian virus 40(SV40) is a polyomavirus and can induce a series of different tumors. The recognition of SV40 genome is crucial to tumor diagnosis and gene therapy. Herein, a sensitive and selective colorimetric method for sequence-specific recognition of homopyrimidine-homopurine duplex DNA(dsDNA) of SV40(4424-4440, gp6) was established with a hairpin probe based upon the formation of triplex DNA. Hairpin probe 5'-CCC TAC CCA TTT TTT CTT CTC TTT CCT GGG TAG GGC GGG TTG GG-3'(HP) containing G-rich sequence and 17-bp triplex-forming sequence was used as the signal probe, which was stem-loop structure alone and exhibited low catalytic activity. Upon its binding to the target duplex of SV40, hairpin probe transferred from stem-loop structttre to parallel triplex DNA, accompanied by the recovery of catalytic activity of DNAzyme and a sharp increase of absorbance. Under optimum conditions, the absorbance was increased proportionally to the concentration of dsDNA over the range from 500 pmol/L to 40.0 nmol/L with a detection limit of 433 pmol/L. Moreover, satisfied results were obtained when the assay was used to recognize the mismatched sequences.展开更多
文摘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 Green Ⅰ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 Green Ⅰ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。
基金Supported by the National Natural Science Foundation of China(No.21375153), the Fundamental Research Funds for the Central Universities of China(No. 131gzd05) and the Open Project of Beijing National Laboratory for Molecular Sciences, China.
文摘Simian virus 40(SV40) is a polyomavirus and can induce a series of different tumors. The recognition of SV40 genome is crucial to tumor diagnosis and gene therapy. Herein, a sensitive and selective colorimetric method for sequence-specific recognition of homopyrimidine-homopurine duplex DNA(dsDNA) of SV40(4424-4440, gp6) was established with a hairpin probe based upon the formation of triplex DNA. Hairpin probe 5'-CCC TAC CCA TTT TTT CTT CTC TTT CCT GGG TAG GGC GGG TTG GG-3'(HP) containing G-rich sequence and 17-bp triplex-forming sequence was used as the signal probe, which was stem-loop structure alone and exhibited low catalytic activity. Upon its binding to the target duplex of SV40, hairpin probe transferred from stem-loop structttre to parallel triplex DNA, accompanied by the recovery of catalytic activity of DNAzyme and a sharp increase of absorbance. Under optimum conditions, the absorbance was increased proportionally to the concentration of dsDNA over the range from 500 pmol/L to 40.0 nmol/L with a detection limit of 433 pmol/L. Moreover, satisfied results were obtained when the assay was used to recognize the mismatched sequences.