Title
Structure-guided development of Pb2+-binding DNA aptamers
Author
Hehua Liu, Yanqing Gao, Johnsi Mathivanan, Fusheng Shen, Xi Chen, Yangyang Li, Zhiwei Shao, Yixi Zhang, Qiyuan Shao, Jia Sheng & Jianhua Gan
Year
2022
Journal
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.
Full Article
Instrument
J-815
Keywords
WHO, DNA, aptamer, binding activity