Blueprints for Biosensors: Design, Limitations, and Applications

Blueprints for Biosensors: Design, Limitations, and Applications

Biosensors are enabling major advances in the field of analytics that are both facilitating and being facilitated by advances in synthetic biology. The ability of biosensors to rapidly and specifically detect a wide range of molecules makes them highly relevant to a range of industrial, medical, eco...

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Bibliographic Details
Published in:Genes 2018-07, Vol.9 (8), p.375
Main Authors: Carpenter, Alexander C, Paulsen, Ian T, Williams, Thomas C
Format: Article
Language:eng
Subjects:
analytics
aptamers
biosensors
high-throughput screening
metabolic engineering
molecular diagnostics
protein switches
Review
synthetic biology
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Summary:Biosensors are enabling major advances in the field of analytics that are both facilitating and being facilitated by advances in synthetic biology. The ability of biosensors to rapidly and specifically detect a wide range of molecules makes them highly relevant to a range of industrial, medical, ecological, and scientific applications. Approaches to biosensor design are as diverse as their applications, with major biosensor classes including nucleic acids, proteins, and transcription factors. Each of these biosensor types has advantages and limitations based on the intended application, and the parameters that are required for optimal performance. Specifically, the choice of biosensor design must consider factors such as the ligand specificity, sensitivity, dynamic range, functional range, mode of output, time of activation, ease of use, and ease of engineering. This review discusses the rationale for designing the major classes of biosensor in the context of their limitations and assesses their suitability to different areas of biotechnological application.
ISSN:2073-4425
2073-4425