Fabrication of Rapid Electrical Pulse-Based Biosensor Consisting of Truncated DNA Aptamer for Zika Virus Envelope Protein Detection in Clinical Samples.
Moonbong JangMyoungro LeeHiesang SohnChulhwan ParkTaek LeePublished in: Materials (Basel, Switzerland) (2023)
Zika virus (ZV) infection causes fatal hemorrhagic fever. Most patients are unaware of their symptoms; therefore, a rapid diagnostic tool is required to detect ZV infection. To solve this problem, we developed a rapid electrical biosensor composed of a truncated DNA aptamer immobilized on an interdigitated gold micro-gap electrode and alternating current electrothermal flow (ACEF) technique. The truncated ZV aptamer (T-ZV apt) was prepared to reduce the manufacturing cost for biosensor fabrication, and it showed binding affinity similar to that of the original ZV aptamer. This pulse-voltammetry-based biosensor was composed of a T-ZV apt immobilized on an interdigitated micro-gap electrode. Atomic force microscopy was used to confirm the biosensor fabrication. In addition, the optimal biosensor performance conditions were investigated using pulse voltammetry. ACEF promoted aptamer-target binding, and the target virus envelope protein was detected in the diluted serum within 10 min. The biosensor waveform increased linearly as the concentration of the Zika envelope in the serum increased, and the detection limit was 90.1 pM. Our results suggest that the fabricated biosensor is a significant milestone for rapid virus detection.
Keyphrases
- label free
- sensitive detection
- loop mediated isothermal amplification
- zika virus
- gold nanoparticles
- quantum dots
- dengue virus
- atomic force microscopy
- aedes aegypti
- blood pressure
- single molecule
- ionic liquid
- high speed
- ejection fraction
- binding protein
- risk assessment
- physical activity
- tissue engineering
- particulate matter
- small molecule
- prognostic factors
- newly diagnosed
- magnetic nanoparticles
- protein protein
- low cost
- patient reported outcomes