Ultrasensitive Detection of the Hepatitis E Virus by Electrocatalytic Water Oxidation Using Pt-Co3O4 Hollow Cages
A sensitive virus detection method applicable for an early stage increases the probability of survival. Here, we develop a simple and rapid detection strategy for the detection of the hepatitis E virus (HEV) by an electrocatalytic water oxidation reaction (WOR) using a platinum (Pt)-incorporated cob...
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| Published in | ACS applied materials & interfaces Vol. 12; no. 45; pp. 50212 - 50221 |
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| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
American Chemical Society
11.11.2020
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| Subjects | |
| Online Access | Get full text |
| ISSN | 1944-8244 1944-8252 1944-8252 |
| DOI | 10.1021/acsami.0c13247 |
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| Abstract | A sensitive virus detection method applicable for an early stage increases the probability of survival. Here, we develop a simple and rapid detection strategy for the detection of the hepatitis E virus (HEV) by an electrocatalytic water oxidation reaction (WOR) using a platinum (Pt)-incorporated cobalt (Co)-based zeolite imidazole framework (ZIF-67). The surface cavity of ZIF-67 enables the rich loading of Pt NPs, and subsequent calcination etches the cavity, promoting the electrocatalytic activity of Pt-Co3O4 HCs. The Pt-Co3O4 HCs show excellent behavior for the WOR due to the synergistic interaction of Pt and Co3O4, evaluated by voltammetry and chronoamperometry. The synthesized Pt-Co3O4 HCs are conjugated with anti-HEV antibody (Ab@Pt-Co3O4 HCs); the electrocatalytic activity of Ab@Pt-Co3O4 HCs is combined with that of antibody-conjugated magnetic nanoparticles (MNPs) for HEV detection by a magneto-and-nanocomposite sandwich immunoassay. The sensor is challenged to detect the HEV in spiked serum samples and HEV G7 genotypes collected from the cell culture supernatant, reaching a low limit of detection down to 61 RNA copies mL–1. This work establishes a free-indicator one-step approach with the controlled design of Pt-Co3O4 HCs, which presents an effective WOR technique for virus detection in a neutral pH solution, which can be extended to electrocatalytic studies in the future integrated biosensing systems. |
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| AbstractList | A sensitive virus detection method applicable for an early stage increases the probability of survival. Here, we develop a simple and rapid detection strategy for the detection of the hepatitis E virus (HEV) by an electrocatalytic water oxidation reaction (WOR) using a platinum (Pt)-incorporated cobalt (Co)-based zeolite imidazole framework (ZIF-67). The surface cavity of ZIF-67 enables the rich loading of Pt NPs, and subsequent calcination etches the cavity, promoting the electrocatalytic activity of Pt-Co3O4 HCs. The Pt-Co3O4 HCs show excellent behavior for the WOR due to the synergistic interaction of Pt and Co3O4, evaluated by voltammetry and chronoamperometry. The synthesized Pt-Co3O4 HCs are conjugated with anti-HEV antibody (Ab@Pt-Co3O4 HCs); the electrocatalytic activity of Ab@Pt-Co3O4 HCs is combined with that of antibody-conjugated magnetic nanoparticles (MNPs) for HEV detection by a magneto-and-nanocomposite sandwich immunoassay. The sensor is challenged to detect the HEV in spiked serum samples and HEV G7 genotypes collected from the cell culture supernatant, reaching a low limit of detection down to 61 RNA copies mL-1. This work establishes a free-indicator one-step approach with the controlled design of Pt-Co3O4 HCs, which presents an effective WOR technique for virus detection in a neutral pH solution, which can be extended to electrocatalytic studies in the future integrated biosensing systems.A sensitive virus detection method applicable for an early stage increases the probability of survival. Here, we develop a simple and rapid detection strategy for the detection of the hepatitis E virus (HEV) by an electrocatalytic water oxidation reaction (WOR) using a platinum (Pt)-incorporated cobalt (Co)-based zeolite imidazole framework (ZIF-67). The surface cavity of ZIF-67 enables the rich loading of Pt NPs, and subsequent calcination etches the cavity, promoting the electrocatalytic activity of Pt-Co3O4 HCs. The Pt-Co3O4 HCs show excellent behavior for the WOR due to the synergistic interaction of Pt and Co3O4, evaluated by voltammetry and chronoamperometry. The synthesized Pt-Co3O4 HCs are conjugated with anti-HEV antibody (Ab@Pt-Co3O4 HCs); the electrocatalytic activity of Ab@Pt-Co3O4 HCs is combined with that of antibody-conjugated magnetic nanoparticles (MNPs) for HEV detection by a magneto-and-nanocomposite sandwich immunoassay. The sensor is challenged to detect the HEV in spiked serum samples and HEV G7 genotypes collected from the cell culture supernatant, reaching a low limit of detection down to 61 RNA copies mL-1. This work establishes a free-indicator one-step approach with the controlled design of Pt-Co3O4 HCs, which presents an effective WOR technique for virus detection in a neutral pH solution, which can be extended to electrocatalytic studies in the future integrated biosensing systems. A sensitive virus detection method applicable for an early stage increases the probability of survival. Here, we develop a simple and rapid detection strategy for the detection of the hepatitis E virus (HEV) by an electrocatalytic water oxidation reaction (WOR) using a platinum (Pt)-incorporated cobalt (Co)-based zeolite imidazole framework (ZIF-67). The surface cavity of ZIF-67 enables the rich loading of Pt NPs, and subsequent calcination etches the cavity, promoting the electrocatalytic activity of Pt-Co3O4 HCs. The Pt-Co3O4 HCs show excellent behavior for the WOR due to the synergistic interaction of Pt and Co3O4, evaluated by voltammetry and chronoamperometry. The synthesized Pt-Co3O4 HCs are conjugated with anti-HEV antibody (Ab@Pt-Co3O4 HCs); the electrocatalytic activity of Ab@Pt-Co3O4 HCs is combined with that of antibody-conjugated magnetic nanoparticles (MNPs) for HEV detection by a magneto-and-nanocomposite sandwich immunoassay. The sensor is challenged to detect the HEV in spiked serum samples and HEV G7 genotypes collected from the cell culture supernatant, reaching a low limit of detection down to 61 RNA copies mL–1. This work establishes a free-indicator one-step approach with the controlled design of Pt-Co3O4 HCs, which presents an effective WOR technique for virus detection in a neutral pH solution, which can be extended to electrocatalytic studies in the future integrated biosensing systems. A sensitive virus detection method applicable for an early stage increases the probability of survival. Here, we develop a simple and rapid detection strategy for the detection of the hepatitis E virus (HEV) by an electrocatalytic water oxidation reaction (WOR) using a platinum (Pt)-incorporated cobalt (Co)-based zeolite imidazole framework (ZIF-67). The surface cavity of ZIF-67 enables the rich loading of Pt NPs, and subsequent calcination etches the cavity, promoting the electrocatalytic activity of Pt-Co₃O₄ HCs. The Pt-Co₃O₄ HCs show excellent behavior for the WOR due to the synergistic interaction of Pt and Co₃O₄, evaluated by voltammetry and chronoamperometry. The synthesized Pt-Co₃O₄ HCs are conjugated with anti-HEV antibody (Ab@Pt-Co₃O₄ HCs); the electrocatalytic activity of Ab@Pt-Co₃O₄ HCs is combined with that of antibody-conjugated magnetic nanoparticles (MNPs) for HEV detection by a magneto-and-nanocomposite sandwich immunoassay. The sensor is challenged to detect the HEV in spiked serum samples and HEV G7 genotypes collected from the cell culture supernatant, reaching a low limit of detection down to 61 RNA copies mL–¹. This work establishes a free-indicator one-step approach with the controlled design of Pt-Co₃O₄ HCs, which presents an effective WOR technique for virus detection in a neutral pH solution, which can be extended to electrocatalytic studies in the future integrated biosensing systems. |
| Author | Ganganboina, Akhilesh Babu Park, Enoch Y Khoris, Indra Memdi Chowdhury, Ankan Dutta Li, Tian-Cheng |
| AuthorAffiliation | Research Institute of Green Science and Technology Department of Virology 2 Department of Bioscience, Graduate School of Science and Technology National Institute of Infectious Diseases Shizuoka University |
| AuthorAffiliation_xml | – name: Department of Virology 2 – name: National Institute of Infectious Diseases – name: Shizuoka University – name: Department of Bioscience, Graduate School of Science and Technology – name: Research Institute of Green Science and Technology |
| Author_xml | – sequence: 1 givenname: Akhilesh Babu surname: Ganganboina fullname: Ganganboina, Akhilesh Babu organization: Research Institute of Green Science and Technology – sequence: 2 givenname: Indra Memdi surname: Khoris fullname: Khoris, Indra Memdi organization: Shizuoka University – sequence: 3 givenname: Ankan Dutta surname: Chowdhury fullname: Chowdhury, Ankan Dutta organization: Research Institute of Green Science and Technology – sequence: 4 givenname: Tian-Cheng surname: Li fullname: Li, Tian-Cheng organization: National Institute of Infectious Diseases – sequence: 5 givenname: Enoch Y orcidid: 0000-0002-7840-1424 surname: Park fullname: Park, Enoch Y email: park.enoch@shizuoka.ac.jp organization: Shizuoka University |
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| Title | Ultrasensitive Detection of the Hepatitis E Virus by Electrocatalytic Water Oxidation Using Pt-Co3O4 Hollow Cages |
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