Development of an Electrochemical Immunosensor for Direct Detection of Interferon-γ at the Attomolar Level

Dijksma, M.; Kamp, B.; Hoogvliet, J. C.; Bennekom, W.P. van

doi:10.1021/ac001051h

Cited by 119 publications

(79 citation statements)

References 43 publications

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“…In 2001 Dijksma et al published work reporting the unprecedented detection limit of 0.02 fg/ mL for protein interferon-γ using a nonfaradaic measurement of an antibody-modified SAM [196]. Like some other investigators, they made use of a flow cell and introduced controlled amounts of antigen followed by buffer washes.…”

Section: Nonfaradaic Studiesmentioning

confidence: 99%

Label‐Free Impedance Biosensors: Opportunities and Challenges

2007

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Impedance biosensors are a class of electrical biosensors that show promise for point-of-care and other applications due to low cost, ease of miniaturization, and label-free operation. Unlabeled DNA and protein targets can be detected by monitoring changes in surface impedance when a target molecule binds to an immobilized probe. The affinity capture step leads to challenges shared by all label-free affinity biosensors; these challenges are discussed along with others unique to impedance readout. Various possible mechanisms for impedance change upon target binding are discussed. We critically summarize accomplishments of past label-free impedance biosensors and identify areas for future research.

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Section: Nonfaradaic Studiesmentioning

confidence: 99%

Label‐Free Impedance Biosensors: Opportunities and Challenges

2007

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“…The electrochemical approach is cost-effective because it does not require expensive instrumentation [24,25] and would allow portability [26]. FIS transduction is especially well suited to detect changes that occur in the solution-electrode interface without the need of labels.…”

Section: Introductionmentioning

confidence: 99%

A label-free DNA aptamer-based impedance biosensor for the detection of E. coli outer membrane proteins

Queirós

de‐los‐Santos‐Álvarez

Noronha

et al. 2013

Sensors and Actuators B: Chemical

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a b s t r a c tA label-free DNA aptamer-based impedance biosensor for the detection of E. coli outer membrane proteins (OMPs) was developed. Two single stranded DNA sequences were tested as recognition elements and compared. The aptamer capture probes were immobilized, with and without 6-mercapto-1-hexanol (MCH) on a gold electrode. Each step of the modification process was characterized by Faradaic impedance spectroscopy (FIS). A linear relationship between the electron-transfer resistance (R et ) and E. coli OMPs concentration was demonstrated in a dynamic detection range of 1 × 10 −7 -2 × 10 −6 M. Moreover, the aptasensor showed selectivity despite the presence of other possible water contaminates and could be regenerated under low pH condition. The developed biosensor shows great potential to be incorporated in a biochip and used for in situ detection of E. coli OMPs in water samples.

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“…2 Most important, EIS has demonstrated novel success in multimarker detection on a single electrode surface 3 with the potential for continuous monitoring. 4 Multimarker detection is achieved via optimal binding frequency (OBF) based off the biological specificity from molecular recognition elements (MRE). The OBF is the interaction at which an MRE and analyte can be detected with best responsivity and specificity.…”

Section: Letter To the Editormentioning

confidence: 99%