Key Laboratory of Laboratory Medical Diagnostics of Education, Ministry of Education, Department of Laboratory Medicine, Chongqing Medical University, No. 1 Yi Xue Yuan Road, Chongqing, 400016, People's Republic of China.
Clinical Laboratory of Traditional Chinese Medicine Hospital Affiliated to Southwest Medical University, Luzhou, 646000, People's Republic of China.
Mikrochim Acta. 2019 Jul 24;186(8):574. doi: 10.1007/s00604-019-3689-x.
An entropy-driven 3-D DNA walking machine is presented which involves catalytic hairpin assembly (CHA) for detection of microRNA. A 3-D DNA walking machine was designed that uses streptavidin-coated polystyrene microspheres as track carriers to obtain reproducibility. The method was applied to microRNA 21 as a model analyte. Continuous walking on the DNA tracks is achieved via entropy increase. This results in a disassembly of ternary DNA substrates on polystyrene microspheres and leads to cycling of microRNA 21. The release of massive auxiliary strands from ternary DNA substrates induces the CHA. This is accompanied by in increase in fluorescence, best measured at excitation/emission wavelengths of 480/520 nm. On account of entropy-driven reaction, the assay is remarkably selective. It can differentiate microRNA 21 from homologous microRNAs in giving a signal that is less than 5% of the signal for microRNA 21 except for microRNA-200b. The assay works in the 50 pM to 20 nM concentration range and has a 41 pM detection limit. The method displays good reproducibility (between 1.1 and 4.2%) and recovery (from 99.8 to 104.0%). Graphical abstract An entropy-driven 3-D DNA walking machine is described. It is based on the use of polystyrene microspheres and of a catalytic hairpin assembly reaction for sensitive microRNA detection. Figure Notes: AS represents auxiliary strand; S represents substrate strand; LS represents link strand; F represents fuel nucleic acid; RepF represents nucleic acid labeled with FAM; RepQ represents nucleic acid labeled with BHQ1.
一种熵驱动的 3D DNA 行走机器被提出,它涉及催化发夹组装(CHA)用于检测 microRNA。设计了一种 3D DNA 行走机器,该机器使用链霉亲和素包被的聚苯乙烯微球作为轨道载体以获得重现性。该方法被应用于 microRNA 21 作为模型分析物。通过熵增加实现 DNA 轨道上的连续行走。这导致三元 DNA 底物在聚苯乙烯微球上的解组装,并导致 microRNA 21 的循环。大量辅助链从三元 DNA 底物的释放诱导 CHA。这伴随着荧光的增加,最佳测量激发/发射波长为 480/520nm。由于熵驱动反应,该测定法具有显著的选择性。它可以区分 microRNA 21 与其同源 microRNAs,给出的信号小于 microRNA 21 的信号的 5%,除了 microRNA-200b。该测定法在 50 pM 至 20 nM 的浓度范围内有效,检测限为 41 pM。该方法显示出良好的重现性(1.1%至 4.2%)和回收率(99.8%至 104.0%)。
