A DNA aptamer for trivalent lanthanide ions with low nanomolar affinity†

IF 6.4 1区化学 Q1 CHEMISTRY, INORGANIC & NUCLEAR Inorganic Chemistry Frontiers Pub Date : 2025-04-07 DOI:10.1039/D5QI00391A

Jin Wang, Xin Wang, Xuesong Li, Xiangmei Li, Hongtao Lei and Juewen Liu

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Abstract

Lanthanides are extremely important for a variety of technological applications. In this work, DNA aptamers were selected using the library-immobilization method (capture-SELEX) with Tb³⁺ and Ce³⁺ as target metal ions. The Tb³⁺ selection yielded a new sequence named Tb-1 that has a K_d of 26.9 nM for La³⁺, 3.9 nM for Tb³⁺, and 2.3 nM for Lu³⁺ as determined by a DNA strand displacement assay. Non-lanthanide metal ions did not induce a fluorescence enhancement. Therefore, it is a general lanthanide binding aptamer. Another aptamer Tb-4 (K_d 290 nM) has some sequence similarity to a previously reported aptamer selected using Gd³⁺ (K_d 1.5 μM), as determined by a thioflavin T fluorescence assay. Compared to a previously reported aptamer named Sc-1, Tb-1 has faster exchange with EDTA for lanthanide binding, suggesting that Tb-1 is an outer-sphere ligand. By comparing different aptamers, we have gained fundamental insights into aptamer binding to lanthanide ions. Finally, using the strand displacement reaction, a detection limit of 0.5 nM Tb³⁺ was achieved in Lake Ontario water.

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具有低纳米摩尔亲和力的三价镧系离子的DNA适体

镧系元素在各种技术应用中都非常重要。本文以Tb3+和Ce3+为靶金属离子，采用文库固定化方法（capture-SELEX）选择DNA适体。Tb3+的选择产生了一个新的序列，命名为Tb-1，通过DNA链位移试验确定，La3+的Kd为26.9 nM， Tb3+的Kd为3.9 nM， Lu3+的Kd为2.3 nM。结合到其他金属离子不能检测使用荧光DNA链置换试验。因此，它是一种通用的镧系元素结合适体。另一个适配体Tb-4与先前报道的Gd-1适配体具有一定的序列相似性，其Kd值为290 nM，而Gd-1的Kd值为1.5µM，由硫黄素T荧光测定。它们对不同的镧系元素几乎没有选择性。与先前报道的适体Sc-1相比，Tb-1是一种外层结合剂，在加入EDTA后可以快速释放结合的镧系元素。通过比较不同的适体，我们获得了适体与镧系元素结合的基本见解。最后，利用链置换反应，在安大略湖水体中获得了0.5 nM的Tb3+检出限。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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