Issue 3, 2015

Antibody mimetic receptor proteins for label-free biosensors

Abstract

The development of high sensitivity biosensors, for example for clinical diagnostics, requires the identification of suitable receptor molecules which offer high stability, specificity and affinity, even when embedded into solid-state biosensor transducers. Here, we present an electrochemical biosensor employing small synthetic receptor proteins (Mw < 15 kDa) which emulate antibodies but with improved stability, sensitivity and molecular recognition properties, in particular when immobilized on a solid sensor surface. The synthetic receptor protein is a non-antibody-based protein scaffold with variable peptide regions inserted to provide the specific binding, and was designed to bind anti-myc tag antibody (Mw ∼ 150 kDa), as a proof-of-principle exemplar. Both the scaffold and the selected receptor protein were found to have high thermostability with melting temperatures of 101 °C and 85 °C, respectively. Furthermore, the secondary structures of the receptor protein were found to be very similar to that of the original native scaffold, despite the insertion of variable peptide loops that create the binding sites. A label-free electrochemical sensor was fabricated by functionalising a microfabricated gold electrode with the receptor protein. A change in the phase of the electrochemical impedance was observed when the biosensor was subjected to anti-myc tag antibodies at concentrations between 6.7 pM and 6.7 nM. These findings demonstrate that these non-antibody receptor proteins are excellent candidates for recognition molecules in label-free biosensors.

Graphical abstract: Antibody mimetic receptor proteins for label-free biosensors

Supplementary files

Article information

Article type
Paper
Submitted
01 Aug 2014
Accepted
17 Nov 2014
First published
18 Nov 2014
This article is Open Access
Creative Commons BY license

Analyst, 2015,140, 803-810

Antibody mimetic receptor proteins for label-free biosensors

M. Raina, R. Sharma, S. E. Deacon, C. Tiede, D. Tomlinson, A. G. Davies, M. J. McPherson and C. Wälti, Analyst, 2015, 140, 803 DOI: 10.1039/C4AN01418A

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