Titlebook: Handbook of Cell Biosensors; Gérald Thouand Reference work 2022 Springer Nature Switzerland AG 2022 Biosensors guide.Microbial ecology.Bio

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Engineering of Sensory Proteins with New Ligand-Binding Capacitiesrds to interact with, chemical ligands. Frequently deployed sensor protein classes consist of transcription regulators, two-component sensory proteins, methyl-accepting chemoreceptors and periplasmic binding proteins. All classes have been linked to some form of transducer and sensor output upon bin

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Cell-Free Biosensors: Synthetic Biology Without Bordersynthetic biology applications. This chapter will review the many recent innovations from this latter category and will explore how these more complex systems create synthetic networks to provide biosensors with signal amplification, programmability, high sensitivity, and even tolerance for analyte v

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Cell-Free Synthetic Biology Biosensorsents. Cell-free protein expression systems offer an appealing platform for harnessing synthetic biology capabilities for a variety of sensing applications. Cell-free systems consist of components, typically derived from living cells, needed to reconstitute protein expression in vitro. In vitro opera

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Genetic Circuit Design Principlescal parts and systems, with a strong emphasis on applying engineering principles. Over the years, synthetic gene circuits have been designed to control and manipulate cellular gene expressions in practical applications including biosensing, biomanufacturing, bioremediation, and biotherapy. However,

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Fundamental Building Blocks of Whole-Cell Biosensor Designe coupled to response modules in living cells to create engineered organisms that can sense target compounds and produce a measurable output. This chapter reviews the fundamental building blocks of whole-cell biosensor design and the methods that are available for the development of whole-cell biose

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