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

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^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

5 Citations (Scopus)

Abstract

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.

Original language	English
Pages (from-to)	134-137
Number of pages	4
Journal	Electrochemistry
Volume	89
Issue number	2
DOIs	https://doi.org/10.5796/electrochemistry.20-00144
Publication status	Published - 2021 Mar 5

Keywords

Aptamer
Conformational change
Cortisol
Field effect transistor

ASJC Scopus subject areas

Electrochemistry

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10.5796/electrochemistry.20-00144

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title = "Immobilization of target-bound aptamer on field effect transistor biosensor to improve sensitivity for detection of uncharged cortisol",

abstract = "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.",

keywords = "Aptamer, Conformational change, Cortisol, Field effect transistor",

author = "Hiroki Hayashi and Ryo Toyama and Ryota Takibuchi and Sho Hideshima and Shigeki Kuroiwa and Naoto Kaneko and Katsunori Horii and Keishi Ohashi and Toshiyuki Momma and Tetsuya Osaka",

note = "Funding Information: This research was supported by JST-COI Program Grant Number, JPMJCE1303, JST-OPERA Program Grant Number, JPMJOP1612, and JST-A-STEP Program no. AS2525029M, all from Japan Science and Technology Agency (JST), Japan. The authors would like to thank Dr. Iwao Waga of NEC Solution Innovators, Ltd. for proposing aptamer-based stress marker sensing and supporting our activities as a leader of the JST-COI and JST-ASTEP programs. Publisher Copyright: {\textcopyright} The Author(s) 2020.",

year = "2021",

month = mar,

day = "5",

doi = "10.5796/electrochemistry.20-00144",

language = "English",

volume = "89",

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journal = "Electrochemistry",

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T1 - Immobilization of target-bound aptamer on field effect transistor biosensor to improve sensitivity for detection of uncharged cortisol

AU - Hayashi, Hiroki

AU - Toyama, Ryo

AU - Takibuchi, Ryota

AU - Hideshima, Sho

AU - Kuroiwa, Shigeki

AU - Kaneko, Naoto

AU - Horii, Katsunori

AU - Ohashi, Keishi

AU - Momma, Toshiyuki

AU - Osaka, Tetsuya

N1 - Funding Information: This research was supported by JST-COI Program Grant Number, JPMJCE1303, JST-OPERA Program Grant Number, JPMJOP1612, and JST-A-STEP Program no. AS2525029M, all from Japan Science and Technology Agency (JST), Japan. The authors would like to thank Dr. Iwao Waga of NEC Solution Innovators, Ltd. for proposing aptamer-based stress marker sensing and supporting our activities as a leader of the JST-COI and JST-ASTEP programs. Publisher Copyright: © The Author(s) 2020.

PY - 2021/3/5

Y1 - 2021/3/5

N2 - 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.

AB - 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.

KW - Aptamer

KW - Conformational change

KW - Cortisol

KW - Field effect transistor

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Immobilization of target-bound aptamer on field effect transistor biosensor to improve sensitivity for detection of uncharged cortisol

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