Nano Convergence (Jul 2022)

Real-time monitoring of serotonin with highly selective aptamer-functionalized conducting polymer nanohybrids

  • Seong Gi Lim,
  • Sung Eun Seo,
  • Seon Joo Park,
  • Jinyeong Kim,
  • Yejin Kim,
  • Kyung Ho Kim,
  • Jai Eun An,
  • Oh Seok Kwon

DOI
https://doi.org/10.1186/s40580-022-00325-7
Journal volume & issue
Vol. 9, no. 1
pp. 1 – 10

Abstract

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Abstract Adequate serotonin levels are pivotal to human well-being; thus, serotonin can be used as a biomarker because it regulates a wide range of physical and psychological functions. As an imbalance of serotonin is highly likely to initiate the pathogenesis of various disorders, monitoring serotonin levels in real time is in high demand for the early detection of disease. We fabricated a field-effect transistor (FET) biosensor based on aptamer-immobilized conducting polymer nanohybrids, which showed an instantaneous response toward serotonin in solution. The mechanism of serotonin detection was based on aptamer deformation after aptamer-ligand interaction and the consequential decrease in the charge carrier density of the FET template. Docking simulations with AutoDock/Vina and PyMOL were successfully used to investigate the binding site of serotonin in the loop structure of the aptamer. The fabricated FET template showed high sensitivity toward serotonin in the range of 10 fM to 100 nM, and the limit of detection (LOD) was exceptionally low at 10 fM. Moreover, the selectivity toward serotonin was confirmed by observing no signal after the injection of structural analogs, functional analogs and excess physiological biomolecules. The potential clinical application of this sensor was confirmed because it remained consistent when the buffer solution was exchanged for artificial serum or artificial cerebrospinal fluid (CSF). † S.G.L. and S.E.S. contributed equally to this work.

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