Department of Chemistry, University of Illinois, 600 S Mathews Avenue, Urbana, Illinois 61801, USA.
Anal Chem. 2010 Jan 15;82(2):574-8. doi: 10.1021/ac9018473.
We report a label-free fluorescent aptamer sensor for adenosine based on the regulation of malachite green (MG) fluorescence, with comparable sensitivity and selectivity to other labeled adenosine aptamer-based sensors. The sensor consists of free MG, an aptamer strand containing an adenosine aptamer next to an MG aptamer, and a bridging strand that partially hybridizes to the aptamer strand. Such a hybridization prevents MG from binding to MG aptamer, resulting in low fluorescence of MG in the absence of adenosine. Addition of adenosine causes the adenosine aptamer to bind adenosine, weakening the hybridization of the aptamer strand with the bridging strand, making it possible for MG to bind to the aptamer strand and exhibit high fluorescence intensity. Since this design is based purely on nucleic acid hybridization, it can be generally applied to other aptamers for the label-free detection of a broad range of analytes.
我们报告了一种基于孔雀石绿(MG)荧光调控的无标记荧光适体传感器,其灵敏度和选择性可与其他标记的基于腺苷适体的传感器相媲美。该传感器由游离的 MG、一条包含腺苷适体的适体链和一条部分与适体链杂交的桥接链组成。这种杂交阻止了 MG 与 MG 适体结合,导致在没有腺苷的情况下 MG 的荧光强度较低。加入腺苷会导致腺苷适体结合腺苷,削弱适体链与桥接链的杂交,使 MG 能够与适体链结合并表现出高强度的荧光。由于这种设计完全基于核酸杂交,因此可以广泛应用于其他适体,用于无标记检测广泛的分析物。