2020
DOI: 10.3390/chemosensors8020028
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Electrochemical Aptasensor for Detection of Dopamine

Abstract: This work presents a proof of concept of a novel, simple, and sensitive method of detection of dopamine, a neurotransmitter within the human brain. We propose a simple electrochemical method for the detection of dopamine using a dopamine-specific aptamer labeled with an electrochemically active ferrocene tag. Aptamers immobilized on the surface of gold screen-printed gold electrodes via thiol groups can change their secondary structure by wrapping around the target molecule. As a result, the ferrocene labels m… Show more

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Cited by 25 publications
(16 citation statements)
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“…In both cases, the sensitivity is very high and approaching ppt levels. The achieved high sensitivity here in detecting PCA3 is very similar to the sensitivities of other electrochemical aptasensors reported earlier [43][44][45]. Negative controls test on binding BSA to anti-PCA3 aptamers were carried out but showed no response.…”
Section: Measurementssupporting
confidence: 84%
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“…In both cases, the sensitivity is very high and approaching ppt levels. The achieved high sensitivity here in detecting PCA3 is very similar to the sensitivities of other electrochemical aptasensors reported earlier [43][44][45]. Negative controls test on binding BSA to anti-PCA3 aptamers were carried out but showed no response.…”
Section: Measurementssupporting
confidence: 84%
“…Another approximation used in the binding kinetics analysis is applying a single binding site assumption to a complex binding process between the aptamer and PCA3 which involves interactions between several nucleotides. However, the proposed approach has been successfully used in similarly complex systems of antibody-antigen interactions [48,49] and in our previous works on aptamer-based biosensors [45,50].…”
Section: Eis Measurementsmentioning
confidence: 99%
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“…Andrews’ group constructed flexible aptamer-field-effect-transistors for DA and 5-HT sensing with a 10 fM LOD [ 150 ]. However, most E-AB sensor work focuses on in vitro development and analysis only using serum or blood samples [ 151 , 152 , 153 ]. This is presumably due to the instability of E-AB sensors in vivo that results from the degradation of the recognition aptamer, and non-specific interferant adsorption on the sensor’s surface may cause significant drift [ 154 ].…”
Section: Electrochemical Sensorsmentioning
confidence: 99%
“…The analysis was conducted in flow injection mode, where the aptasensor response to dopamine was within ≈1 s (almost instantly after the dopamine injection), the sensitivity 67 ± 1 nA μM−1 cm −2 , and the dopamine lower limit of detection (LOD) was 62 nM ( Figure 7 ). Nonetheless, despite numerous electrochemical dopamine aptasensors mentioned in the literature [ 92 , 93 , 94 , 95 , 96 ], still, the greatest challenge is its accurate measurement in body fluids. This is related to numerous neurochemical events after the dopamine (or other neurotransmitters) release, which lead to its transformation at the time-scale of a few seconds or less (the dopamine lifetime ranges from 100 to 0.05 s and depends on the current state of the organism).…”
Section: Analytes For Nucleic Acids Aptamers In the Modern Medicalmentioning
confidence: 99%