Imprinted Polymers on the Route to Plastibodies for Biomacromolecules (MIPs), Viruses (VIPs), and Cells (CIPs)

Yarman, Aysu; Zhang, Xiaorong; Bagheri, Mandien; El-Sherbiny, Ibrahim M.; Hassan, Rabeay Y. A.; Kurbanoğlu, Sevinç; Waffo, Armel Franklin Tadjoung; Zebger, Ingo; Karabulut, Tutku Ceren; Bier, Frank F.; Lieberzeit, Peter; Scheller, Frieder W.

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Date

2024

Author

Yarman, Aysu
Zhang, Xiaorong
Bagheri, Mandien
El-Sherbiny, Ibrahim M.
Hassan, Rabeay Y. A.
Kurbanoğlu, Sevinç
Waffo, Armel Franklin Tadjoung
Zebger, Ingo
Karabulut, Tutku Ceren
Bier, Frank F.
Lieberzeit, Peter
Scheller, Frieder W.

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Citation

Yarman, A., Zhang, X., Bagheri, M., El-Sherbiny, Ibrahim M., Hassan, Rabeay Y. A., Kurbanoğlu, S., Waffo, Armel Franklin T., Zebger, I., Karabulut, Tutku C., Bier, Frank F., Lieberzeit, P., Scheller, Frieder W. (2024). Imprinted Polymers on the Route to Plastibodies for Biomacromolecules (MIPs), Viruses (VIPs), and Cells (CIPs). Trends in Biosensing Research. Springer, 107-148.

Abstract

Around 30% of the scientific papers published on imprinted polymers describe the recognition of proteins, nucleic acids, viruses, and cells. The straightforward synthesis from only one up to six functional monomers and the simple integration into a sensor are significant advantages as compared with enzymes or antibodies. Furthermore, they can be synthesized against toxic substances and structures of low immunogenicity and allow multi-analyte measurements via multi-template synthesis. The affinity is sufficiently high for protein biomarkers, DNA, viruses, and cells. However, the cross-reactivity of highly abundant proteins is still a challenge.

Source

Trends in Biosensing Research

URI

https://link.springer.com/chapter/10.1007/10_2023_234
https://hdl.handle.net/20.500.12846/1507

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