Peptide-Based electrochemical potential Scanning: A novel approach for disulfide manipulation in pediatric Respiratory syncytial virus detection

Abstract

Respiratory syncytial virus (RSV) poses a significant risk to children under two years old, necessitating rapid and accurate diagnostic methods. This study introduces an innovative approach using peptides and electrochemical potential scanning for RSV detection. By replacing enzymatic catalysis with electrochemical scanning, the method simplifies the process and reduces costs. Unbound peptides undergo potential-induced disulfide bridge opening, while target-bound peptides remain protected. After removing the target protein, copper ions and a reduced short peptide promote disulfide bridge formation, leading to crosslinking and passivation of the electrode surface. The degree of polymerization and passivation correlates with the target protein levels, generating a signal. This novel method offers enhanced sensitivity, specificity, and scalability, potentially revolutionizing RSV diagnostics in children under two years old. By addressing the limitations of traditional assays, it provides a cost-effective, rapid, and efficient approach for early RSV detection and improved clinical outcomes in this vulnerable population.

Keywords: Cost reduction; Electrochemical potential scanning; Enzymatic catalysis replacement; Peptide-based detection; Polymerization and passivation; Respiratory syncytial virus (RSV).