High throughput electronic detection of biomarkers using enzymatically amplified metallization on nanostructured surfaces

Abstract

Enzyme-linked immunosorbent assays are commonly used for clinical biomarker detection. However, they remain resource-intensive and difficult to scale globally. Here we present a miniaturized direct electronic biosensing modality which generates a simple and sensitive, quantitative, resistive readout of analyte binding in immunoassays. It utilizes the enhanced metallization generated by synergistic catalytic activity of nanostructured surfaces, created using gold nanoparticles, with enzymatic metallization, catalyzed by analyte-bound enzyme-labeled antibodies, to create a connected metal layer between microelectrodes. Based on this scheme, we develop a portable, high-throughput electronic biomarker detection device and platform which allows testing 96 different low volume (3 μL) clinical samples in a handheld device. We find an analyte concentration-dependent tunable digital switch-like behavior in the measured resistance of this device. We use this system to further explore the mechanism of enhanced metallization and find optimal parameters. Finally, we use this platform to perform quantitative measurement of viral antigen-specific antibody titers from convalescent COVID-19 patient serum.

Graphical abstract: High throughput electronic detection of biomarkers using enzymatically amplified metallization on nanostructured surfaces

Supplementary files

Article information

Article type
Paper
Submitted
07 set 2024
Accepted
31 out 2024
First published
31 out 2024
This article is Open Access
Creative Commons BY-NC license

Anal. Methods, 2024, Advance Article

High throughput electronic detection of biomarkers using enzymatically amplified metallization on nanostructured surfaces

H. Zhang, N. Rafat, J. Rudge, S. P. Peddireddy, Y. N. Kim, T. Khan and A. Sarkar, Anal. Methods, 2024, Advance Article , DOI: 10.1039/D4AY01657B

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