化学
干涉测量
镉
极化(电化学)
双偏振干涉法
对偶(语法数字)
纳米技术
色谱法
光学
电信
文学类
艺术
物理化学
物理
有机化学
材料科学
计算机科学
天线(收音机)
作者
Yu Xue,Yu Wang,Shuang Wang,Mengxia Yan,Jianshe Huang,Xiurong Yang
出处
期刊:Analytical Chemistry
[American Chemical Society]
日期:2020-07-03
卷期号:92 (14): 10007-10015
被引量:50
标识
DOI:10.1021/acs.analchem.0c01710
摘要
Recently, numerous aptamer-based biosensors have been developed to detect heavy metal ions. Most of aptamer-based biosensors only can be used to get some quantitative information. The mechanism of the interaction between aptamer and metal ions, however, is rarely studied. In this work, a label-free and regenerable aptamer-based biosensor was constructed using dual polarization interferometry (DPI). This aptasensor was used to investigate the real-time interaction process between cadmium(II) and its aptamer. According to the information on mass, thickness, and density obtained by DPI, a Cd2+ concentration-dependent interaction mechanism and conformation of aptamer was proposed. At low Cd2+ concentration, Cd2+ mainly interacted with phosphate groups on aptamer, resulting in the stretched ssDNA and a few vertical hairpin structures. When adding the high concentration of Cd2+, Cd2+ primarily bound with bases of DNA by coordination interaction and the conformation of aptamer transferred to a tight and short hairpin structure. In addition, the association rate constant (ka), dissociation rate constant (kd) and disassociation constant (KD) between Cd2+ and its aptamer were calculated to be 96 M-1 S-1, 2.11 × 10-5 S-1, and 220 nM, respectively. The proposed aptasensor showed high sensitivity for Cd2+ detection with the detection limit of 0.61 μg/L, which was far below the 5.0 μg/L ranked by the U.S. Environmental Protection Agency. The biosensor also exhibited excellent regenerability and could be used for three cycles without obvious change in response signal. Therefore, the developed method could not only provide quantitative information, but also offered the information on conformation and kinetics for molecular interaction. This method can facilely extend to study the interaction of DNA with other ions, small molecules, or biomacromolecules.
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