Discovery and dissection of metabolic oscillations in the microaerobic nitric oxide response network ofEscherichia coli

Abstract: The virulence of many pathogens depends upon their ability to cope with immune-generated nitric oxide (NO · ). In Escherichia coli, the major NO · detoxification systems are Hmp, an NO · dioxygenase (NOD), and NorV, an NO · reductase (NOR). It is well established that Hmp is the dominant system under aerobic conditions, whereas NorV dominates anaerobic conditions; however, the quantitative contributions of these systems under the physiologically relevant microaerobic regime remain ill defined. Here, we investi… Show more

“…Previously, computational modeling of the E. coli NO• stress network suggested that loss of respiratory activity would eliminate NO• oscillations and that prediction was confirmed experimentally with use of a triple cytochrome terminal oxidase mutant (∆CYT: ∆ cyoA ∆ appB ∆ cydB ::kanR), which cannot respire on O 2 . Experimentally, ∆ arcA and ∆ arcB eliminated NO• oscillations (Fig.…”

“…A [Cyd] = [Cyd] 0 or 3B [Cyo] = [Cyo] 0 ). This quantitative disagreement has been discussed previously , and attributed to a parsimonious rate expression for translation that is used within the model. In that previous work, we hypothesized that complex translation dynamics during the oscillatory period were not being sufficiently captured by the model.…”

“…Specifically, we quantified [NO•] and [O 2 ] following DPTA treatment of WT, ∆ arcA , and ∆ arcB in media that initially contained 10 µM dissolved O 2 . Consistent with previous observations , WT cultures exhibited oscillations in the [NO•] and [O 2 ] (Fig. A).…”

“…Notably, transcription, translation, or catalytic issues with Hmp would have manifested as significant perturbations to the initial NO• clearance time. Without Hmp, it would have taken many hours for [NO•] to be cleared under these experimental conditions, as we have demonstrated previously . The comparable initial clearance times between WT, Δ arcA , and Δ arcB suggest that Hmp synthesis and catalytic activity are preserved in the absence of ArcAB.…”

“…To assess the accuracies of predictions drawn from the in silico simulations, we measured NO• detoxification in cultures of ∆ cydB and ∆ cyoA , and for completeness, ∆ appB . Each of these mutations eliminates the catalytic activity of their respective complexes , and notably, loss of all three eliminates the capacity of E. coli to respire on O 2 . As predicted by the systems‐level simulations, loss of CydAB activity eliminated oscillations, whereas loss of CyoABCD activity did not (Fig.…”

An integrated network analysis identifies how ArcAB enables metabolic oscillations in the nitric oxide detoxification network of Escherichia coli

“…Previously, computational modeling of the E. coli NO• stress network suggested that loss of respiratory activity would eliminate NO• oscillations and that prediction was confirmed experimentally with use of a triple cytochrome terminal oxidase mutant (∆CYT: ∆ cyoA ∆ appB ∆ cydB ::kanR), which cannot respire on O 2 . Experimentally, ∆ arcA and ∆ arcB eliminated NO• oscillations (Fig.…”

“…A [Cyd] = [Cyd] 0 or 3B [Cyo] = [Cyo] 0 ). This quantitative disagreement has been discussed previously , and attributed to a parsimonious rate expression for translation that is used within the model. In that previous work, we hypothesized that complex translation dynamics during the oscillatory period were not being sufficiently captured by the model.…”

“…Specifically, we quantified [NO•] and [O 2 ] following DPTA treatment of WT, ∆ arcA , and ∆ arcB in media that initially contained 10 µM dissolved O 2 . Consistent with previous observations , WT cultures exhibited oscillations in the [NO•] and [O 2 ] (Fig. A).…”

“…Notably, transcription, translation, or catalytic issues with Hmp would have manifested as significant perturbations to the initial NO• clearance time. Without Hmp, it would have taken many hours for [NO•] to be cleared under these experimental conditions, as we have demonstrated previously . The comparable initial clearance times between WT, Δ arcA , and Δ arcB suggest that Hmp synthesis and catalytic activity are preserved in the absence of ArcAB.…”

“…To assess the accuracies of predictions drawn from the in silico simulations, we measured NO• detoxification in cultures of ∆ cydB and ∆ cyoA , and for completeness, ∆ appB . Each of these mutations eliminates the catalytic activity of their respective complexes , and notably, loss of all three eliminates the capacity of E. coli to respire on O 2 . As predicted by the systems‐level simulations, loss of CydAB activity eliminated oscillations, whereas loss of CyoABCD activity did not (Fig.…”

An integrated network analysis identifies how ArcAB enables metabolic oscillations in the nitric oxide detoxification network of Escherichia coli

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