Metabolism of long-chain fatty acids affects disulfide bond formation in<i>Escherichia coli</i>and activates envelope stress response pathways as a combat strategy

Jaswal, Kanchan; Shrivastava, Megha; Roy, Deeptodeep; Agrawal, Shashank; Chaba, Rachna

doi:10.1101/2020.03.04.976175

2020

DOI: 10.1101/2020.03.04.976175

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Metabolism of long-chain fatty acids affects disulfide bond formation inEscherichia coliand activates envelope stress response pathways as a combat strategy

Kanchan Jaswal

Megha Shrivastava

Deeptodeep Roy

et al.

Abstract: The envelope of gram-negative bacteria serves as the first line of defense against environmental insults. Therefore, its integrity is continuously monitored and maintained by several envelope stress response (ESR) systems. Due to its oxidizing environment, the envelope represents an important site for disulfide bond formation. In Escherichia coli, the periplasmic oxidoreductase, DsbA introduces disulfide bonds in substrate proteins and transfers electrons to the inner membrane oxidoreductase, DsbB. Under aerob… Show more

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Gene Networks and Pathways Involved in Escherichia coli Response to Multiple Stressors

et al. 2022

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Stress response helps microorganisms survive extreme environmental conditions and host immunity, making them more virulent or drug resistant. Although both reductionist approaches investigating specific genes and systems approaches analyzing individual stress conditions are being used, less is known about gene networks involved in multiple stress responses. Here, using a systems biology approach, we mined hundreds of transcriptomic data sets for key genes and pathways involved in the tolerance of the model microorganism Escherichia coli to multiple stressors. Specifically, we investigated the E. coli K-12 MG1655 transcriptome under five stresses: heat, cold, oxidative stress, nitrosative stress, and antibiotic treatment. Overlaps of transcriptional changes between studies of each stress factor and between different stressors were determined: energy-requiring metabolic pathways, transport, and motility are typically downregulated to conserve energy, while genes related to survival, bona fide stress response, biofilm formation, and DNA repair are mainly upregulated. The transcription of 15 genes with uncharacterized functions is higher in response to multiple stressors, which suggests they may play pivotal roles in stress response. In conclusion, using rank normalization of transcriptomic data, we identified a set of E. coli stress response genes and pathways, which could be potential targets to overcome antibiotic tolerance or multidrug resistance.

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Gene Networks and Pathways Involved in Escherichia coli Response to Multiple Stressors

et al. 2022

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Metabolism of long-chain fatty acids affects disulfide bond formation inEscherichia coliand activates envelope stress response pathways as a combat strategy

Cited by 1 publication

References 73 publications

Gene Networks and Pathways Involved in Escherichia coli Response to Multiple Stressors

Gene Networks and Pathways Involved in Escherichia coli Response to Multiple Stressors

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