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Adding a Twist to Lateral Flow Immunoassays: A Direct Replacement of Antibodies with Helical Affibodies, from Selection to Application

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Author / Producer

Sadler, Christy J. Creamer, Adam Giang, Kim Anh

Date

2025-04-09

Publication Type

Journal Article

ETH Bibliography

yes

Citations

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Full text (published version) (PDF, 7.32 MB)

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Rights / License

Creative Commons Attribution 4.0 International north_east

Abstract

Immunoreagents, most commonly antibodies, are integral components of lateral flow immunoassays. However, the use of antibodies comes with limitations, particularly relating to their reproducible production, and poor thermal and chemical stability. Here, we employ phage display to develop affibodies, a class of nonimmunoglobulin affinity proteins based on a small three-helix bundle scaffold, against SARS-CoV-2 Spike protein. Subsequently, we demonstrate the utility and viability of affibodies to directly replace antibodies in lateral flow immunoassays. In addition, we highlight several physiochemical advantages of affibodies, including their ability to withstand exposure to high temperature and humidity while maintaining superior performance compared to their antibody counterparts. Furthermore, we investigate the adsorption mechanism of affibodies to the surface of gold nanoparticle probes via a His6-tag, introduced to also facilitate recombinant purification. Through molecular dynamics simulations, we elucidate the structural and physical characteristics of affibody dimers which result in high-performing detection probes when immobilized on nanoparticle surfaces. This work demonstrates that affibodies can be used as direct replacements to antibodies in immunoassays and should be further considered as alternatives owing to their improved physiochemical properties and modular design.

Permanent link

https://doi.org/10.3929/ethz-b-000730317

Publication status

published

External links

https://doi.org/10.1021/jacs.4c17452 north_east

Editor

Book title

Journal / series

Volume

147 (14)

Pages / Article No.

11925 - 11940

Publisher

American Chemical Society

Event

Edition / version

Methods

Software

Geographic location

Date collected

Date created

Subject

Organisational unit

Notes

Funding

840232 - Automated microfluidic phage display through non-fouling droplet-based technologies (EC)
SEED-13 21-2 - Transcriptionally repressed synthetic gene circuits as disease biosensors (ETHZ)

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