Discrimination of Avian Influenza Virus Subtypes using Host-Cell Infection Fingerprinting by a Sulfinate-based Fluorescence Superoxide Probe

Seong Cheol Hong; Dhiraj P. Murale; Se Young Jang; Md Mamunul Haque; Minah Seo; Seok Lee; Deok Ha Woo; Junghoon Kwon; Chang Seon Song; Yun Kyung Kim; Jun Seok Lee

doi:10.1002/anie.201804412

Discrimination of Avian Influenza Virus Subtypes using Host-Cell Infection Fingerprinting by a Sulfinate-based Fluorescence Superoxide Probe

Seong Cheol Hong, Dhiraj P. Murale, Se Young Jang, Md Mamunul Haque, Minah Seo, Seok Lee, Deok Ha Woo, Junghoon Kwon, Chang Seon Song, Yun Kyung Kim, Jun Seok Lee

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

20 Citations (Scopus)

Abstract

The current gold-standard diagnosis method for avian influenza (AI) is an embryonic egg-based hemagglutination assay followed by immunoblotting or PCR sequencing to confirm subtypes. It requires, however, specialized facilities to handle egg inoculation and incubation, and the subtyping methods relied on costly reagents. Now, the first differential sensing approach to distinguish AI subtypes is demonstrated using series of cell lines and a fluorescent sensor. Susceptibility of AI virus differs depending on genetic backgrounds of host cells. Cells were examined from different organ origins, and the infection patterns against a panel of cells were utilized for AI virus subtyping. To quantify AI infection, a highly cell-permeable fluorescent superoxide sensor was designed to visualize infection. This differential sensing strategy successfully proved discriminations of AI subtypes and demonstrated as a useful primary screening platform to monitor a large number of samples.

Original language	English
Pages (from-to)	9716-9721
Number of pages	6
Journal	Angewandte Chemie - International Edition
Volume	57
Issue number	31
DOIs	https://doi.org/10.1002/anie.201804412
Publication status	Published - 2018 Jul 26
Externally published	Yes

Keywords

avian influenza
discrimination
fluorescent probes
principal component analysis
superoxide

ASJC Scopus subject areas

Catalysis
Chemistry(all)

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10.1002/anie.201804412

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Hong, S. C., Murale, D. P., Jang, S. Y., Haque, M. M., Seo, M., Lee, S., Woo, D. H., Kwon, J., Song, C. S., Kim, Y. K., & Lee, J. S. (2018). Discrimination of Avian Influenza Virus Subtypes using Host-Cell Infection Fingerprinting by a Sulfinate-based Fluorescence Superoxide Probe. Angewandte Chemie - International Edition, 57(31), 9716-9721. https://doi.org/10.1002/anie.201804412

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title = "Discrimination of Avian Influenza Virus Subtypes using Host-Cell Infection Fingerprinting by a Sulfinate-based Fluorescence Superoxide Probe",

abstract = "The current gold-standard diagnosis method for avian influenza (AI) is an embryonic egg-based hemagglutination assay followed by immunoblotting or PCR sequencing to confirm subtypes. It requires, however, specialized facilities to handle egg inoculation and incubation, and the subtyping methods relied on costly reagents. Now, the first differential sensing approach to distinguish AI subtypes is demonstrated using series of cell lines and a fluorescent sensor. Susceptibility of AI virus differs depending on genetic backgrounds of host cells. Cells were examined from different organ origins, and the infection patterns against a panel of cells were utilized for AI virus subtyping. To quantify AI infection, a highly cell-permeable fluorescent superoxide sensor was designed to visualize infection. This differential sensing strategy successfully proved discriminations of AI subtypes and demonstrated as a useful primary screening platform to monitor a large number of samples.",

keywords = "avian influenza, discrimination, fluorescent probes, principal component analysis, superoxide",

author = "Hong, {Seong Cheol} and Murale, {Dhiraj P.} and Jang, {Se Young} and Haque, {Md Mamunul} and Minah Seo and Seok Lee and Woo, {Deok Ha} and Junghoon Kwon and Song, {Chang Seon} and Kim, {Yun Kyung} and Lee, {Jun Seok}",

note = "Funding Information: This work was supported by intramural funding from KIST (2V06370/CAP-16-02-KIST) and National Research Foundation funded by the Ministry of Science, ICT & Future Planning (NRF-2016M3A9B6902060, NRF-2017M3A9D8029942). Publisher Copyright: {\textcopyright} 2018 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim",

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doi = "10.1002/anie.201804412",

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AU - Hong, Seong Cheol

AU - Murale, Dhiraj P.

AU - Jang, Se Young

AU - Haque, Md Mamunul

AU - Seo, Minah

AU - Lee, Seok

AU - Woo, Deok Ha

AU - Kwon, Junghoon

AU - Song, Chang Seon

AU - Kim, Yun Kyung

AU - Lee, Jun Seok

N1 - Funding Information: This work was supported by intramural funding from KIST (2V06370/CAP-16-02-KIST) and National Research Foundation funded by the Ministry of Science, ICT & Future Planning (NRF-2016M3A9B6902060, NRF-2017M3A9D8029942). Publisher Copyright: © 2018 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim

PY - 2018/7/26

Y1 - 2018/7/26

N2 - The current gold-standard diagnosis method for avian influenza (AI) is an embryonic egg-based hemagglutination assay followed by immunoblotting or PCR sequencing to confirm subtypes. It requires, however, specialized facilities to handle egg inoculation and incubation, and the subtyping methods relied on costly reagents. Now, the first differential sensing approach to distinguish AI subtypes is demonstrated using series of cell lines and a fluorescent sensor. Susceptibility of AI virus differs depending on genetic backgrounds of host cells. Cells were examined from different organ origins, and the infection patterns against a panel of cells were utilized for AI virus subtyping. To quantify AI infection, a highly cell-permeable fluorescent superoxide sensor was designed to visualize infection. This differential sensing strategy successfully proved discriminations of AI subtypes and demonstrated as a useful primary screening platform to monitor a large number of samples.

AB - The current gold-standard diagnosis method for avian influenza (AI) is an embryonic egg-based hemagglutination assay followed by immunoblotting or PCR sequencing to confirm subtypes. It requires, however, specialized facilities to handle egg inoculation and incubation, and the subtyping methods relied on costly reagents. Now, the first differential sensing approach to distinguish AI subtypes is demonstrated using series of cell lines and a fluorescent sensor. Susceptibility of AI virus differs depending on genetic backgrounds of host cells. Cells were examined from different organ origins, and the infection patterns against a panel of cells were utilized for AI virus subtyping. To quantify AI infection, a highly cell-permeable fluorescent superoxide sensor was designed to visualize infection. This differential sensing strategy successfully proved discriminations of AI subtypes and demonstrated as a useful primary screening platform to monitor a large number of samples.

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Discrimination of Avian Influenza Virus Subtypes using Host-Cell Infection Fingerprinting by a Sulfinate-based Fluorescence Superoxide Probe

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