College of Chemistry, Chemical Engineering and Materials Science, Collaborative Innovation Center of Functionalized Probes for Chemical Imaging in Universities of Shandong, Key Laboratory of Molecular and Nano Probes, Ministry of Education, Shandong Provincial Key Laboratory of Clean Production of Fine Chemicals, Shandong Normal University, Jinan 250014, PR China.
School of Medicine, Health Science Center,Shenzhen University, Shenzhen 518060, PR China.
Biosens Bioelectron. 2018 Apr 15;102:87-93. doi: 10.1016/j.bios.2017.11.025. Epub 2017 Nov 7.
We develop a reusable ratiometric electrochemical biosensor on the basis of the binding of methylene blue (MB) to DNA with alternating AT base sequence for sensitive detection of adenosine. We design a strand 1 with MB-modified thymine (T) base in the proximal 3' termini as the capture probe for its immobilization on the gold electrode and a 3' termini ferrocene (Fc)-modified aptamer for the recognition of adenosine. The hybridization of strand 1 with the aptamer leads to the formation of a double-stranded DNA (dsDNA) and consequently the away of MB from the electrode surface and the close of Fc to the electrode surface, generating a small value of I/I (I and I are the peak currents of MB and Fc, respectively). In the presence of adenosine, its binding with the aptamer induces the release of Fc from the electrode surface and the close of MB to the electrode surface, generating a large value of I/I. As a result, adenosine may be accurately quantified by the measurement of ratiometric signal (I/I). This ratiometric electrochemical biosensor can be simply fabricated and exhibits high sensitivity with a limit of detection of as low as 90.8pM and a large dynamic range from 0.1nM to 100μM. Moreover, this biosensor demonstrates good performance with excellent selectivity, regeneration capability, high reliability and good reproducibility, and may become a universal platform for the detection of various biomolecules which can be recognized by aptamers, holding great potential for further applications in biomedical research and clinical diagnosis.
我们基于具有交替 AT 碱基序列的 DNA 与亚甲蓝 (MB) 的结合,开发了一种可重复使用的比率型电化学生物传感器,用于灵敏检测腺苷。我们设计了一条带有 MB 修饰的胸腺嘧啶 (T) 碱基的链 1,作为其在金电极上固定的捕获探针,以及 3' 末端带有二茂铁 (Fc) 修饰的适体,用于识别腺苷。链 1 与适体的杂交导致形成双链 DNA(dsDNA),从而导致 MB 远离电极表面,Fc 靠近电极表面,产生较小的 I/I 值(I 和 I 分别是 MB 和 Fc 的峰电流)。在存在腺苷的情况下,它与适体的结合诱导 Fc 从电极表面释放,MB 靠近电极表面,产生较大的 I/I 值。因此,通过测量比率信号(I/I)可以准确地定量腺苷。这种比率型电化学生物传感器可以简单地制造,具有高灵敏度,检测限低至 90.8pM,动态范围从 0.1nM 到 100μM 非常宽。此外,该生物传感器表现出良好的性能,具有出色的选择性、再生能力、高可靠性和良好的重现性,并且可能成为用于检测各种可以被适体识别的生物分子的通用平台,在生物医学研究和临床诊断中有很大的应用潜力。
