SoxR as a Single-Cell Biosensor for NADPH-Consuming Enzymes in <i>Escherichia coli</i>

Siedler, Solvej; Schendzielorz, Georg; Binder, Stephan; Eggeling, Lothar; Bringer, Stephanie; Bott, Michael

doi:10.1021/sb400110j

Cited by 114 publications

(94 citation statements)

References 46 publications

(86 reference statements)

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“…As circuits become more advanced, entire algorithms from control theory could be applied to improve biochemical production (Fig. 1a) 7–16 . Synthetic regulation is also an important tool for the discovery of natural products, including pharmaceuticals, insecticides, and entirely new classes of chemicals.…”

Section: Introductionmentioning

confidence: 99%

Principles of genetic circuit design

2014

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Cells are able to navigate environments, communicate, and build complex patterns by initiating gene expression in response to specific signals. Engineers need to harness this capability to program cells to perform tasks or build chemicals and materials that match the complexity seen in nature. This review describes new tools that aid the construction of genetic circuits. We show how circuit dynamics can be influenced by the choice of regulators and changed with expression “tuning knobs.” We collate the failure modes encountered when assembling circuits, quantify their impact on performance, and review mitigation efforts. Finally, we discuss the constraints that arise from operating within a living cell. Collectively, better tools, well-characterized parts, and a comprehensive understanding of how to compose circuits are leading to a breakthrough in the ability to program living cells for advanced applications, from living therapeutics to the atomic manufacturing of functional materials.

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Section: Introductionmentioning

confidence: 99%

Principles of genetic circuit design

2014

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“…Moreover, changes in the intracellular NAD(P)H/NAD(P) ratio also result in the activation of SoxRS [196][197][198]. We note that the solvent exposed nature of [2Fe-2S] cluster likely enables rapid electron transfer to and from the cluster.…”

Section: <Figure 13 Here>mentioning

confidence: 88%

13. Reactivity of iron-sulfur clusters with nitric oxide

Dodd¹,

Crack²,

Thomson³

et al. 2017

Characterization, Properties and Applications

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“…Hence, it is not surprising that one straightforward approach to exploit TFs for high-throughput screening is to hack into the host transcription system and employ a synthetic or native condition-specific promoter to drive the expression of a reporter gene. For instance, Siedler et al developed an NADPH/NADP + redox sensor in Escherichia coli using its native redox sensitive TF SoxR [27 ]. Similarly, Knudsen et al constructed a yeast NADH/NAD + redox sensor by expressing GFP under the control of GPD2 promoter, which is known to be activated by an increased NADH/NAD + ratio [28].…”

Section: Transcription Factor-based Biosensorsmentioning

confidence: 99%