Immobilization of Target-Bound Aptamer on Field Effect Transistor Biosensor to Improve Sensitivity for Detection of Uncharged Cortisol

Hiroki HAYASHI; Ryo TOYAMA; Ryota TAKIBUCHI; Sho HIDESHIMA; Shigeki KUROIWA; Naoto KANEKO; Katsunori HORII; Keishi OHASHI; Toshiyuki MOMMA; Tetsuya OSAKA

doi:10.5796/electrochemistry.20-00144

Electrochemistry (Mar 2021)

Immobilization of Target-Bound Aptamer on Field Effect Transistor Biosensor to Improve Sensitivity for Detection of Uncharged Cortisol

Hiroki HAYASHI,
Ryo TOYAMA,
Ryota TAKIBUCHI,
Sho HIDESHIMA,
Shigeki KUROIWA,
Naoto KANEKO,
Katsunori HORII,
Keishi OHASHI,
Toshiyuki MOMMA,
Tetsuya OSAKA

Affiliations

Hiroki HAYASHI: Graduate School of Advanced Science and Engineering, Waseda University
Ryo TOYAMA: Graduate School of Advanced Science and Engineering, Waseda University
Ryota TAKIBUCHI: Graduate School of Advanced Science and Engineering, Waseda University
Sho HIDESHIMA: Research Organization for Nano & Life Innovation, Waseda University
Shigeki KUROIWA: Research Organization for Nano & Life Innovation, Waseda University
Naoto KANEKO: NEC Solution Innovators, Ltd.
Katsunori HORII: NEC Solution Innovators, Ltd.
Keishi OHASHI: Research Organization for Nano & Life Innovation, Waseda University
Toshiyuki MOMMA: Graduate School of Advanced Science and Engineering, Waseda University
Tetsuya OSAKA: Graduate School of Advanced Science and Engineering, Waseda University

DOI: https://doi.org/10.5796/electrochemistry.20-00144
Journal volume & issue: Vol. 89, no. 2
pp. 134 – 137

Abstract

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Field effect transistor (FET) biosensors are capable of detecting various biomolecules, although challenges remain in the detection of uncharged molecules. In this study, the detection of uncharged cortisol was demonstrated by interfacial design using a technique to immobilize target-bound aptamers. The target-bound aptamers, which formed a higher-order structure than target-unbound aptamers, expanded the distance between adjacent aptamers and reduced the steric hindrance to the conformational change. The density-controlled aptamers efficiently induced their conformational changes with the cortisol binding, which resulted in the improvement of the sensitivity of FET biosensors.

Published in Electrochemistry

ISSN: 2186-2451 (Online)
Publisher: The Electrochemical Society of Japan
Country of publisher: Japan
LCC subjects: Technology; Science: Chemistry: Physical and theoretical chemistry
Website: https://journal.electrochem.jp/

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