Ma Cuiping, Huang Heqing, Zhao Chunhui
Key Laboratory of Eco-chemical Engineering, Ministry of Education, College of Chemistry and Molecular Engineering, Qingdao University of Science and Technology, Qingdao, P. R. China.
Anal Sci. 2010;26(12):1261-4. doi: 10.2116/analsci.26.1261.
A simple and homogeneous method based on aptamer and pyrene moieties for the detection of K(+) was developed. The aptamer was labeled by pyrene moiety at 3' end as the molecular recognition element. In the presence of K(+), the complementary oligonucleotide labeled by pyrene moiety at 5' end was displaced from the aptamer, which was accompanied by a dramatic decrease of the excimer fluorescence of pyrene. However, the excimer fluorescence remains in the absence of the target. With optimum conditions, relative changes of the pyrene excimer fluorescence intensity were proportional to the concentrations of K(+) in the range of 6.3 × 10(-4) to 1.0 × 10(-2) M with a detection limit of 5.0 × 10(-4) M. Importantly, in the presence of Na(+), NH(4)(+), Mg(2+) and Ca(2+) cations of biological fluids, this method was able to detect K(+) with high selectivity. In a word, the assay seems to have great potential applications, especially in biological fluids due to its simplicity, specificity and homogeneous detection.
开发了一种基于适体和芘部分的简单且均相的钾离子检测方法。适体在3'端用芘部分标记作为分子识别元件。在钾离子存在下,5'端用芘部分标记的互补寡核苷酸从适体上被置换下来,同时芘的准分子荧光显著降低。然而,在没有目标物时准分子荧光保持不变。在最佳条件下,芘准分子荧光强度的相对变化与钾离子浓度在6.3×10(-4)至1.0×10(-2) M范围内成正比,检测限为5.0×10(-4) M。重要的是,在生物体液中的钠离子、铵离子、镁离子和钙离子存在时,该方法能够高选择性地检测钾离子。总之,该检测方法似乎具有巨大的潜在应用价值,特别是在生物体液中,因其简单、特异且为均相检测。
