Quantitation of femtomolar protein levels via direct readout with the electrochemical proximity assay |
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Authors: | Hu Jiaming Wang Tanyu Kim Joonyul Shannon Curtis Easley Christopher J |
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Institution: | Department of Chemistry and Biochemistry, Auburn University, Auburn, Alabama 36849, USA. |
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Abstract: | We have developed a separation-free, electrochemical assay format with direct readout that is amenable to highly sensitive and selective quantitation of a wide variety of target proteins. Our first generation of the electrochemical proximity assay (ECPA) is composed of two thrombin aptamers which form a cooperative complex only in the presence of target molecules, moving a methylene blue (MB)-conjugated oligonucleotide close to a gold electrode. Without washing steps, electrical current is increased in proportion to the concentration of a specific target protein. By employing a DNA-based experimental model with the aptamer system, we show that addition of a short DNA competitor can reduce background current of the MB peak to baseline levels. As such, the detection limit of aptamer-based ECPA for human thrombin was 50 pM via direct readout. The dual-probe nature of ECPA gave high selectivity and 93% recovery of signal from 2.5 nM thrombin in 2% bovine serum albumin (BSA). To greatly improve the flexibility of ECPA, we then proved the system functional with antibody-oligonucleotide conjugates as probes; the insulin detection limit was 128 fM with a dynamic range of over 4 orders of magnitude in concentration, again with high assay selectivity. ECPA thus allows separation-free, highly sensitive, and highly selective protein detection with a direct electrochemical readout. This method is extremely flexible, capable of detecting a wide variety of protein targets, and is amenable to point-of-care protein measurement, since any target with two aptamers or antibodies could be assayed via direct electrochemical readout. |
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