Jun‐Haeng Cho scite author profile

Anthrax is an infectious disease caused by Bacillus anthracis. Although anthrax commonly affects domestic and wild animals, it causes a rare but lethal infection in humans. A variety of techniques have been introduced and evaluated to detect anthrax using cultures, polymerase chain reaction, and immunoassays to address the potential threat of anthrax being used as a bioweapon. The high-potential harm of anthrax in bioterrorism requires sensitive and specific detection systems that are rapid, field-ready, and real-time monitoring. Here, we provide a systematic overview of anthrax detection probes with their potential applications in various ultra-sensitive diagnostic systems.

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Characterization of Acetohydroxyacid Synthase I fromEscherichia coliK-12 and Identification of Its Inhibitors

Chien¹,

Moon²,

Cho³

et al. 2010

Bioscience, Biotechnology, and Biochemistry

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Use of Multiple Peptide-Based SERS Probes Binding to Different Epitopes on a Protein Biomarker To Improve Detection Sensitivity

et al. 2016

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We propose an analytical strategy to improve the sensitivity for detecting a protein biomarker through signal multiplication by manipulating multiple peptide-based surface-enhanced Raman scattering (SERS) probes to bind the biomarker. Protective antigen (PA) was used as an Anthrax biomarker in this study. For this purpose, five small peptides selective to various PA epitopes with different binding affinities were chosen and peptide-conjugated Au nanoparticle (AuNP) SERS probes were individually prepared using each peptide. Initially, five different SERS probes were separately used to detect PA and the sensitivities were compared. Next, the possibility of enhancing sensitivity by employing multiple SERS probes was examined. Rather than applying the probes simultaneously, which would induce competitive binding, each probe was added sequentially and an optimal probe-addition sequence was determined to provide maximal sensitivity. Finally, PA samples at seven different concentrations were measured with the optimal sequence. The limit of detection (LOD) was 0.1 aM, and the enhancement was more effective at lower PA concentrations. The proposed scheme can be further applicable to detect other protein biomarkers to diagnose various diseases.

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Functional evaluation of residues in the herbicide-binding site of Mycobacterium tuberculosis acetohydroxyacid synthase by site-directed mutagenesis

Jung

Cho

Koo

et al. 2015

Enzyme and Microbial Technology

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Development of receptor-based inhibitory RNA aptamers for anthrax toxin neutralization

Lee

Gedi

et al. 2015

International Journal of Biological Macromolecules

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Jun‐Haeng Cho

Advances in Anthrax Detection: Overview of Bioprobes and Biosensors

Characterization of Acetohydroxyacid Synthase I fromEscherichia coliK-12 and Identification of Its Inhibitors

Use of Multiple Peptide-Based SERS Probes Binding to Different Epitopes on a Protein Biomarker To Improve Detection Sensitivity

Functional evaluation of residues in the herbicide-binding site of Mycobacterium tuberculosis acetohydroxyacid synthase by site-directed mutagenesis

Development of receptor-based inhibitory RNA aptamers for anthrax toxin neutralization

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