Proximity‐Unlocked Luminescence by Sequential Enzymatic Reactions from Antibody and Antibody/Aptamer (PULSERAA): A Platform for Detection and Visualization of Virus‐Containing Spots

Daimei Miura; Wakana Hayashi; Kensuke Hirano; Ikkei Sasaki; Kaori Tsukakoshi; Hidehumi Kakizoe; Satomi Asai; Christopher J. Vavricka; Hitoshi Takemae; Tetsuya Mizutani; Wakako Tsugawa; Koji Sode; Kazunori Ikebukuro; Ryutaro Asano

doi:10.1002/advs.202403871

Advanced Science (Nov 2024)

Proximity‐Unlocked Luminescence by Sequential Enzymatic Reactions from Antibody and Antibody/Aptamer (PULSERAA): A Platform for Detection and Visualization of Virus‐Containing Spots

Daimei Miura,
Wakana Hayashi,
Kensuke Hirano,
Ikkei Sasaki,
Kaori Tsukakoshi,
Hidehumi Kakizoe,
Satomi Asai,
Christopher J. Vavricka,
Hitoshi Takemae,
Tetsuya Mizutani,
Wakako Tsugawa,
Koji Sode,
Kazunori Ikebukuro,
Ryutaro Asano

Affiliations

Daimei Miura: Department of Biotechnology and Life Science Graduate School of Engineering Tokyo University of Agriculture and Technology 2‐24‐16 Naka‐cho Koganei Tokyo 184–8588 Japan
Wakana Hayashi: Department of Biotechnology and Life Science Graduate School of Engineering Tokyo University of Agriculture and Technology 2‐24‐16 Naka‐cho Koganei Tokyo 184–8588 Japan
Kensuke Hirano: Department of Industrial Technology and Innovation Graduate School of Engineering Tokyo University of Agriculture and Technology 2‐24‐16 Naka‐cho Koganei Tokyo 184–8588 Japan
Ikkei Sasaki: Department of Biotechnology and Life Science Graduate School of Engineering Tokyo University of Agriculture and Technology 2‐24‐16 Naka‐cho Koganei Tokyo 184–8588 Japan
Kaori Tsukakoshi: Department of Biotechnology and Life Science Graduate School of Engineering Tokyo University of Agriculture and Technology 2‐24‐16 Naka‐cho Koganei Tokyo 184–8588 Japan
Hidehumi Kakizoe: Department of Laboratory Medicine Tokai University School of Medicine 143 Shimokasuya Isehara Kanagawa 259–1193 Japan
Satomi Asai: Department of Laboratory Medicine Tokai University School of Medicine 143 Shimokasuya Isehara Kanagawa 259–1193 Japan
Christopher J. Vavricka: Department of Biotechnology and Life Science Graduate School of Engineering Tokyo University of Agriculture and Technology 2‐24‐16 Naka‐cho Koganei Tokyo 184–8588 Japan
Hitoshi Takemae: Center for Infectious Disease Epidemiology and Prevention Research Faculty of Agriculture Tokyo University of Agriculture and Technology 3‐5‐8 Saiwai‐cho Fuchu Tokyo 183–8509 Japan
Tetsuya Mizutani: Center for Infectious Disease Epidemiology and Prevention Research Faculty of Agriculture Tokyo University of Agriculture and Technology 3‐5‐8 Saiwai‐cho Fuchu Tokyo 183–8509 Japan
Wakako Tsugawa: Department of Biotechnology and Life Science Graduate School of Engineering Tokyo University of Agriculture and Technology 2‐24‐16 Naka‐cho Koganei Tokyo 184–8588 Japan
Koji Sode: Joint Department of Biomedical Engineering University of North Carolina at Chapel Hill and North Carolina State University Chapel Hill NC 27599 USA
Kazunori Ikebukuro: Department of Biotechnology and Life Science Graduate School of Engineering Tokyo University of Agriculture and Technology 2‐24‐16 Naka‐cho Koganei Tokyo 184–8588 Japan
Ryutaro Asano: Department of Biotechnology and Life Science Graduate School of Engineering Tokyo University of Agriculture and Technology 2‐24‐16 Naka‐cho Koganei Tokyo 184–8588 Japan

DOI: https://doi.org/10.1002/advs.202403871
Journal volume & issue: Vol. 11, no. 43
pp. n/a – n/a

Abstract

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Abstract The SARS‐CoV‐2 pandemic has challenged more scientists to detect viruses and to visualize virus‐containing spots for diagnosis and infection control; however, detection principles of commercially available technologies are not optimal for visualization. Here, a convenient and universal homogeneous detection platform named proximity‐unlocked luminescence by sequential enzymatic reactions from antibody and antibody/aptamer (PULSERAA) is developed. This is designed so that the signal appears only when the donor and acceptor are in proximity on the viral surface. PULSERAA specifically detected in the range of 25–500 digital copies/mL of inactivated SARS‐CoV‐2 after simply mixing reagents; it is elucidated that the accumulation of chemical species in a limited space of the viral surface contributed to such high sensitivity. PULSERAA was quickly adapated to detect another virus variant, inactivated influenza A virus, and infectious SARS‐CoV‐2 in a clinical sample. Furthermore, on‐site (direct, rapid, and portable) visualization of the inactivated SARS‐CoV‐2‐containing spots by a conventional smartphone camera was achieved, demonstrating that PULSERAA can be a practical tool for preventing the next pandemic in the future.

Published in Advanced Science

ISSN: 2198-3844 (Online)
Publisher: Wiley
Country of publisher: Germany
LCC subjects: Science
Website: https://onlinelibrary.wiley.com/journal/21983844

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