2020
DOI: 10.1101/2020.07.14.202754
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A standardized broad host range inverter package for genetic circuitry design in Gram-negative bacteria

Abstract: Genetically encoded logic gates, especially inverters NOT gates are the building blocks for designing circuits, engineering biosensors or decision-making devices in synthetic biology. However, the repertoire of inverters readily available for different species is rather limited. In this work, a large whole of NOT gates that was shown to function previously in a specific strain of Escherichia coli, was recreated as broad host range (BHR) collection of constructs assembled in low, medium and high copy number pla… Show more

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Cited by 2 publications
(4 citation statements)
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“…Therefore, genetic logic gates are exposed to contextual dependencies that influence their phenotypic behaviour. In the extreme case, these constraints can even result in unviability of the cellular host, for example, during the conversion to pSEVA broad host range backbones, five of the genetic inverters were not functional when cloned into a high-copy plasmid (pSEVA251), perhaps due to overload in the allocation of cellular resources resulting in toxicity 23 .…”
Section: Discussionmentioning
confidence: 99%
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“…Therefore, genetic logic gates are exposed to contextual dependencies that influence their phenotypic behaviour. In the extreme case, these constraints can even result in unviability of the cellular host, for example, during the conversion to pSEVA broad host range backbones, five of the genetic inverters were not functional when cloned into a high-copy plasmid (pSEVA251), perhaps due to overload in the allocation of cellular resources resulting in toxicity 23 .…”
Section: Discussionmentioning
confidence: 99%
“…The repressible and inducible systems were previously described by Voigt Lab and acquired by the courtesy of Voigt Laboratory in MIT (USA). Description of the 20 different NOT gates moved into broad host range pSEVA backbones are described in Tas et al 23 . Components of the original inverters, like terminators, RBSs and insulators were kept the same during the SEVA conversion.…”
Section: Methodsmentioning
confidence: 99%
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“…To generate enough data on the contextual dependencies of genetic inverters we made use of 20 NOT logic gates assembled with a suite of promoters and repressors first developed as components of the CELLO platform for E. coli 1 and then recloned in broad host range vectors of different copy numbers for delivery to different types Gram-negative hosts 23 . The logic function (NOT or inverter) corresponds to a genetic device that expresses a target gene (output high) if it is not negatively regulated (input low) and vice-versa.…”
Section: Generation Of Gate-context Librariesmentioning
confidence: 99%