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Crystal structures and identification of novel Cd2+-specific DNA aptamer

https://doi.org/10.1093/nar/gkad239

Liu, Hehua ; Gao, Yanqing ; Mathivanan, Johnsi ; Armour-Garb, Zev ; Shao, Zhiwei ; Zhang, Yixi ; Zhao, Xin ; Shao, Qiyuan ; Zhang, Weizhen ; Yang, Jie ; et al ( April 2023 , Nucleic Acids Research)

Abstract
Cadmium (Cd) is one of the most toxic heavy metals. Exposure to Cd can impair the functions of the kidney, respiratory system, reproductive system and skeletal system. Cd2+-binding aptamers have been extensively utilized in the development of Cd2+-detecting devices; however, the underlying mechanisms remain elusive. This study reports four Cd2+-bound DNA aptamer structures, representing the only Cd2+-specific aptamer structures available to date. In all the structures, the Cd2+-binding loop (CBL-loop) adopts a compact, double-twisted conformation and the Cd2+ ion is mainly coordinated with the G9, C12 and G16 nucleotides. Moreover, T11 and A15 within the CBL-loop form one regular Watson–Crick pair and stabilize the conformation of G9. The conformation of G16 is stabilized by the G8–C18 pair of the stem. By folding and/or stabilizing the CBL-loop, the other four nucleotides of the CBL-loop also play important roles in Cd2+ binding. Similarly to the native sequence, crystal structures, circular dichroism spectrum and isothermal titration calorimetry analysis confirm that several variants of the aptamer can recognize Cd2+. This study not only reveals the underlying basis for the binding of Cd2+ ions with the aptamer, but also extends the sequence for the construction of novel metal–DNA complex.

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Structure-guided development of Pb2+-binding DNA aptamers

https://doi.org/10.1038/s41598-021-04243-2

Liu, Hehua ; Gao, Yanqing ; Mathivanan, Johnsi ; Shen, Fusheng ; Chen, Xi ; Li, Yangyang ; Shao, Zhiwei ; Zhang, Yixi ; Shao, Qiyuan ; Sheng, Jia ; et al ( January 2022 , Scientific Reports)

Abstract
Owing to its great threat to human health and environment, Pb²⁺pollution has been recognized as a major public problem by the World Health Organization (WHO). Many DNA aptamers have been utilized in the development of Pb²⁺-detection sensors, but the underlying mechanisms remain elusive. Here, we report three Pb²⁺-complexed structures of the thrombin binding aptamer (TBA). These high-resolution crystal structures showed that TBA forms intramolecular G-quadruplex and Pb²⁺is bound by the two G-tetrads in the center. Compared to K⁺-stabilized G-quadruplexes, the coordinating distance between Pb²⁺and the G-tetrads are much shorter. The T3T4 and T12T13 linkers play important roles in dimerization and crystallization of TBA, but they are changeable for Pb²⁺-binding. In combination with mutagenesis and CD spectra, the G8C mutant structure unraveled that the T7G8T9 linker of TBA is also variable. In addition to expansion of the Pb²⁺-binding aptamer sequences, our study also set up one great example for quick and rational development of other aptamers with similar or optimized binding activity.

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