Stochastic Analysis Demonstrates the Dual Role of Hfq in Chaperoning E. coli Sugar Shock Response

Bianchi, David M.; Brier, Troy A.; Poddar, Anustup; Azam, Muhammad; Vanderpool, Carin K.; Ha, Taekjip; Luthey‐Schulten, Zaida

doi:10.3389/fmolb.2020.593826

Cited by 3 publications

(5 citation statements)

References 51 publications

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“…The OD 600 at 60 h increased by about 66.07% in medium with 20 g/L sodium acetate compared to MG1655 (Figure S8), suggesting that knockout of sgrS conferred acetate tolerance. SgrS was found to be expressed during glucose‐phosphate stress, a condition associated with intracellular accumulation of glucose‐6‐phosphate caused by disruption of glycolytic flux in E. coli 73 . Under stress conditions, SgrS negatively regulates the translation and stability of the ptsG mRNA, encoding the major glucose transporter, by means of a base pairing‐dependent mechanism requiring the RNA chaperone Hfq 74 .…”

Section: Resultsmentioning

confidence: 99%

“…SgrS was found to be expressed during glucose-phosphate stress, a condition associated with intracellular accumulation of glucose-6-phosphate caused by disruption of glycolytic flux in E. coli. 73 Under stress conditions, SgrS negatively regulates the translation and stability of the ptsG mRNA, encoding the major glucose transporter, by means of a base pairing-dependent mechanism requiring the RNA chaperone Hfq. 74 SgrS thus downregulates the synthesis of glucose-6-phosphate, and further decreases glycolytic flux.…”

Section: Regulation Of Small Rna Expression Confers Tolerance To Acetatementioning

confidence: 99%

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Engineering global regulators for enhanced tolerance to multiple inhibitors by CRISPR‐enabled trackable genome engineering

Song

Zheng

et al. 2023

AIChE Journal

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Strain engineering for industrial production requires the improvement of tolerance to multiple unfavorable conditions. Here, we report global regulator libraries based on the CRISPR-enabled trackable genome engineering to engineer tolerance against multiple inhibitors in Escherichia coli. Deep mutagenesis libraries were rationally designed, and constructed to target 34,340 mutations across 23 global regulators. Sixty-nine specific mutations, respectively, conferred tolerance to acetate, NaCl, furfural, and high temperature were isolated, confirmed, and evaluated. Among them, 31 novel reconstructed mutations exhibited better tolerance to the corresponding inhibitors.The most dramatic mutation CRP-E182D conferred high cross-tolerance to acetate, NaCl, and isobutanol. According to the reconstruction and transcriptome analysis, the tolerance of mutant strains to acetate is a complex whole-cell process. In particular, it was confirmed for the first time that upregulation of ilvA and nadA-pnuC, deletion of potF or the small RNA sgrS, and adding exogenous valine or isoleucine significantly increased acetate tolerance.

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Section: Resultsmentioning

confidence: 99%

Section: Regulation Of Small Rna Expression Confers Tolerance To Acetatementioning

confidence: 99%

Engineering global regulators for enhanced tolerance to multiple inhibitors by CRISPR‐enabled trackable genome engineering

Song

Zheng

et al. 2023

AIChE Journal

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“…Small regulatory RNAs (sRNAs) are abundant in bacteria and have great vital roles in post-transcriptional gene expression regulation. Large regulons are controlled by many bacterial sRNAs, which perform important functions in cellular metabolism and physiology. , The synthesis of a variety of sRNAs is strictly regulated and expressed under specific conditions such as glucose-phosphate overload, oxidative stress, and acid stress . The rpoB gene encodes the β subunit of RNA polymerase.…”

Section: Resultsmentioning

confidence: 99%

Improving Furfural Tolerance of Escherichia coli by Integrating Adaptive Laboratory Evolution with CRISPR-Enabled Trackable Genome Engineering (CREATE)

Zheng

Kong

Luo

et al. 2022

ACS Sustainable Chem. Eng.

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Genetic diversity is an important factor affecting the efficiency of adaptive laboratory evolution (ALE). The recent development of precise tools and strategies for genomic engineering has greatly accelerated mutant library construction for ALE. Here, a global regulator library based on the CRISPR-enabled trackable genome engineering (CREATE) technology was first used to accelerate adaptive evolution for improved furfural tolerance in Escherichia coli, and the furfural tolerance was increased approximately 2-fold in the genetically diversified CREATE-based strains. The evolved strain tolerated up to 4.7 g/L furfural and also showed marked cross-tolerance to NaCl, isobutanol, butanol, ethanol, and high temperature. Whole-genome sequencing and mutant reconstruction analysis revealed for the first time that rpoB P153L mutation leads to greatly increased furfural tolerance. The expression of genes coding central carbon and energy metabolism was significantly altered according to transcriptome analysis. In particular, it was confirmed for the first time that the knockout of sRNA sgrS and the overexpression of sRNA arrS significantly increased furfural tolerance. This study provides evidence that combined ALE and the CREATE technology can not only obtain highly efficient strains with favorable mutation combinations but also accelerate ALE by providing much greater genomic and functional diversity.

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“…The upregulation of adhesins and porins and the downregulation of global regulators with respect to lab media showed the deep gene expression reset of CFT073 during the contact with host cells. Apart from Fnr, regulons governed by CRP, Hfq, Fur, and Zur encode several virulence genes (Banerjee et al 2020;Bianchi et al 2020;Patzer and Hantke 2000;Shimada et al 2011). The interplay among these global regulators that leads to the complex gene regulation cascades in response to environmental stimuli is still unknown and requires further studies.…”

Section: Discussionmentioning

confidence: 99%

“…In adherent bacteria, its expression was significantly downregulated in comparison with bacteria grown in LB and AU and paralleled the expression profile shown by crp (Tables 2 and 3). In view of these results, it can be speculated that the host cell environment causes a downregulation of hfq, which, in turn, influences the stability of several target RNAs, such as fur, gadAC, and manX (Bianchi et al 2020;Lin et al 2011). Indeed, this interconnected regulatory cascade composed by CRP-cAMP/Hfq coordinates metabolic pathways, membrane homeostasis, motility, envelope stress, and virulence during UPEC adhesion steps and bacterial intracellular lifestyle later on (Behzadi et al 2021).…”

Section: Variable Expression Of Key Bacterial Regulators During Adhes...mentioning

confidence: 99%

Adaptive strategies of uropathogenic Escherichia coli CFT073: from growth in lab media to virulence during host cell adhesion

et al. 2022

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Urinary tract infections (UTIs) are a major concern in public health. The prevalent uropathogenic bacterium in healthcare settings is Escherichia coli. The increasing rate of antibiotic-resistant strains demands studies to understand E. coli pathogenesis to drive the development of new therapeutic approaches. This study compared the gene expression profile of selected target genes in the prototype uropathogenic E. coli (UPEC) strain CFT073 grown in Luria Bertani (LB), artificial urine (AU), and during adhesion to host bladder cells by semi-quantitative real-time PCR (RT-PCR) assays. AU effectively supported the growth of strain CFT073 as well as other E. coli strains with different lifestyles, thereby confirming the appropriateness of this medium for in vitro models. Unexpectedly, gene expression of strain CFT073 in LB and AU was quite similar; conversely, during the adhesion assay, adhesins and porins were upregulated, while key global regulators were downregulated with respect to lab media. Interestingly, fimH and papGII genes were significantly expressed in all tested conditions. Taken together, these results provide for the first time insights of the metabolic and pathogenic profile of strain CFT073 during the essential phase of host cell adhesion.

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Stochastic Analysis Demonstrates the Dual Role of Hfq in Chaperoning E. coli Sugar Shock Response

Cited by 3 publications

References 51 publications

Engineering global regulators for enhanced tolerance to multiple inhibitors by CRISPR‐enabled trackable genome engineering

Engineering global regulators for enhanced tolerance to multiple inhibitors by CRISPR‐enabled trackable genome engineering

Improving Furfural Tolerance of Escherichia coli by Integrating Adaptive Laboratory Evolution with CRISPR-Enabled Trackable Genome Engineering (CREATE)

Adaptive strategies of uropathogenic Escherichia coli CFT073: from growth in lab media to virulence during host cell adhesion

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