Ultrafast Biomarker Quantification through Reagentless Capacitive Kinetics

We introduce a facile assessment of binding kinetics at bioreceptive redox-active interfaces as a means of quantifying target proteins. This is achieved by monitoring the redox capacitance (Cr) of a receptor-modified conductive polymer interface under continuous flow. Exemplified with the quantification of C-reactive protein (CRP), capacitance analyses resolve both the association and dissociation regimes in real-time. Significantly, the rate of electrochemical signal change within the association regime is a sensitive function of target concentration, enabling marker assaying down to picomolar levels, comparable to end-point assays, in 15 s. This reagentless proof-of-principle methodology is envisioned to be widely applicable to the facile quantification of a range of other pertinent, clinically relevant targets.

Automated summary

We present a simple method for quantifying target proteins by monitoring the redox capacitance of a conductive polymer interface. This method allows real-time analysis of both association and dissociation regimes and can detect target proteins at picomolar levels within 15 seconds. This proof-of-principle methodology is expected to be widely applicable in quantifying other clinically relevant targets.