Enzyme-free and triple-amplified electrochemical sensing of 8-hydroxy-2’-deoxyguanosine by three kinds of short pDNA-driven catalyzed hairpin assemblies followed by a hybridization chain reaction.

Autor: Li-Ping Jia, Zhe Feng, Ruo-Nan Zhao, Rong-Na Ma, Wei Zhang, Lei Shang, Wen-Li Jia, Huai-Sheng Wang
Předmět:
Zdroj: Analyst; 5/21/2020, Vol. 145 Issue 10, p3605-3611, 7p
Abstrakt: A sensitive and enzyme-free electrochemical aptasensor was constructed for the sensing of 8-hydroxy2’-deoxyguanosine (8-OH-dG). In the process of constructing the aptasensor, triple signal amplification strategies were introduced to enhance the sensitivity. First, every aptamer/pDNA complex immobilized on magnetic beads could release three kinds of pDNAs when 8-OH-dG was introduced, which caused three-fold magnification of the target. Second, the released three kinds of pDNAs initiated catalyzed hairpin assembly between two hairpin DNAs (HP1 and HP2) on a gold electrode. Meanwhile, the three kinds of pDNAs were released again by a strand displacement reaction to obtain the next catalyzed hairpin assembly. Third, the emerging toehold of HP2 further induced a hybridization chain reaction (HCR) between two hairpin DNAs (HP3 and HP4), forming a long double-stranded DNA concatemer on the surface of the electrode. Finally, [Ru(NH3)6]3+, an electroactive cation, was adsorbed onto the long dsDNA concatemer by electrostatic interactions and consequently, an electrochemical signal was generated. Under this triple signal amplification, a low detection limit down to 24.34 fM has been obtained for 8-OH-dG determination, which is superior to those of most previously reported methods. [ABSTRACT FROM AUTHOR]
Databáze: Complementary Index