Alpha-aminoisobutyric acid incorporated peptides for the construction of electrochemical biosensors with high stability and low fouling in serum

An effective strategy to construct low fouling electrochemical biosensors for assaying serum biomarkers was proposed based on specially designed α-aminoisobutyric acid (Aib) incorporated peptides. The Aib-peptides were designed to be of antifouling properties, and at the same to incorporate Aib residues in their interior to enhance the hydrolytic stability. In order to construct the electrochemical biosensor, two kinds of Aib-peptides labelled with biotin were modified on the electrode surface: One with cysteine terminal for easy attachment to the electrode modified with gold nanoparticles, the other with unique terminal peptide sequence for specific binding of immunoglobulin G (IgG), and they were connected through the streptavidin-biotin affinity system. Owing to the interposition of Aib residues, the peptides as well as the constructed biosensors showed excellent antifouling performances and enhanced stability against enzymatic degradation in serum. Furthermore, the IgG biosensor constructed with the Aib-peptides displayed a very low detection limit (29.5 pg mL-1) and a broad linear range (100 pg mL-1 - 10 μg mL-1), and it was able to assay IgG in clinical human sera with decent accuracy and reliability. This strategy provides a new path for the construction of stable antifouling biosensors based on functional peptides for practical biomarker assaying in real clinical samples.