Issue 19, 2013

Sensitive and reusable electrochemiluminescent aptasensor achieved with diblock oligonucleotides immobilized solely through preferential adenine–Au interaction

Abstract

Strong Au–S chemistry to self-assemble thiolated oligonucleotides at gold electrode is an efficient strategy to construct electrochemiluminescent (ECL) aptasensor. However, it remains challenging to precisely control the orientation and conformation of surface-tethered oligonucleotides and to reuse ECL aptasensor because of the narrow electrochemical window of thiolated DNA film on Au surface (below ∼0.80 V versus Ag/AgCl). Here, we demonstrate adenine/thymine diblock oligonucleotides (d(Am-Tn)) to substitute DNA-SH in DNA immobilization for constructing ECL aptasensor. As a proof-of-principle, thrombin was used to present the properties of the proposed sensor. The as-formed ECL aptasensor had a wide electrochemical window and good stability (decreased 5.38% after 200 cyclic potential cycles, 0–1.2 V versus Ag/AgCl). Moreover, the aptasensor exhibited an extremely low detection limit (0.017 pM) and offered good selectivity toward thrombin. This detection limit was at least one order of magnitude lower than those of previous methods for thrombin. Additionally, the ECL aptasensor was reusable (n = 3) and showed good reproducibility (relative standard derivation, 4.7% (n = 6)). We believe that the strategy demonstrated here provides a good platform for DNA immobilization in constructing ECL even electrochemical aptasensor for the detection of targets in clinical analysis conveniently.

Graphical abstract: Sensitive and reusable electrochemiluminescent aptasensor achieved with diblock oligonucleotides immobilized solely through preferential adenine–Au interaction

Article information

Article type
Paper
Submitted
08 May 2013
Accepted
03 Jul 2013
First published
04 Jul 2013

Analyst, 2013,138, 5706-5712

Sensitive and reusable electrochemiluminescent aptasensor achieved with diblock oligonucleotides immobilized solely through preferential adenine–Au interaction

X. Tang, D. Zhao and M. Zhang, Analyst, 2013, 138, 5706 DOI: 10.1039/C3AN00924F

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