Hae Ja Shin scite author profile

Microbial biosensors are compact, portable, cost effective, and simple to use, making them seem eminently suitable for the in situ monitoring of environmental pollution. One promising approach for such applications is the fusion of reporter genes with regulatory genes that are dose-dependently responsive to the target chemicals or physiological signals. Their biosensor capabilities, such as target range and sensitivity, could be improved by modification of regulatory genes. Recent uses of such genetically engineered microbial biosensors include the development of portable biosensor kits and high-throughput cell arrays on chips, optic fibers, or other platforms for on-site and on-line monitoring of environmental pollution. This mini-review discusses recent advances in microbial biosensors and their future prospects, with a focus on the development and application of genetically modified microbial biosensors for in situ environmental monitoring.

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Construction and comparison of Escherichia coli whole-cell biosensors capable of detecting aromatic compounds

Kim

Park

Lim

et al. 2005

Journal of Microbiological Methods

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Rapid label-free detection of E. coli using a novel SPR biosensor containing a fragment of tail protein from phage lambda

Shin

Lim

2018

Preparative Biochemistry & Biotechnology

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In efforts to speed up the assessment of microorganisms, researchers have sought to use bacteriophages as a biosensing tool, due to their host-specificity, wide abundance, and safety. However, the lytic cycle of the phage has limited its efficacy as a biosensor. Here, we cloned a fragment of tail protein J from phage lambda and characterized its binding with the host, E. coli K-12, and other microorganism. The N-terminus of J was fused with a His-tag (6HN-J), overexpressed, purified, and characterized using anti-His monoclonal antibodies. The purified protein demonstrated a size of ∼38 kDa upon SDS-PAGE and bound with the anti-His monoclonal antibodies. ELISA, dot blot, and TEM data revealed that it specifically bound to E. coli K-12, but not to Pseudomonas aeruginosa. The observed protein binding occurred over a concentration range of 0.01-5 μg/ml and was found to inhibit the in vivo adsorption of phage to host cells. This specific binding was exploited by surface plasmon resonance (SPR) to generate a novel 6HN-J-functionalized SPR biosensor. This biosensor showed rapid label-free detection of E. coli K-12 in the range of 2 × 10 -2 × 10 CFU/ml, and exhibited a lower detection limit of 2 × 10 CFU/ml.

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NahR: effects of replacements at Asn 169 and Arg 248 on promoter binding and inducer recognition

Park

Lee

Lim

et al. 2005

Archives of Biochemistry and Biophysics

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Hae Ja Shin

Involvement of SPARC in in Vitro Differentiation of Skeletal Myoblasts

Genetically engineered microbial biosensors for in situ monitoring of environmental pollution

Construction and comparison of Escherichia coli whole-cell biosensors capable of detecting aromatic compounds

Rapid label-free detection of E. coli using a novel SPR biosensor containing a fragment of tail protein from phage lambda

NahR: effects of replacements at Asn 169 and Arg 248 on promoter binding and inducer recognition

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