Genome-wide identification of genes directly regulated by the pleiotropic transcription factor Spx in Bacillus subtilis

Rochat, Tatiana; Nicolas, Pierre; Delumeau, Olivier; Rabatinová, Alžběta; Korelusová, Jana; Leduc, Aurélie; Bessières, Philippe; Dervyn, Etienne; Krásný, Libor; Naveilhan, Philippe

doi:10.1093/nar/gks755

Cited by 85 publications

(189 citation statements)

References 56 publications

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“…When the ratios of transcript band intensities of reactions with or without added SpxA1/SpxA2 were measured (see Table S5 in the supplemental material), stimulation of transcript synthesis was generally stronger in reaction mixtures containing the Ϫ100 PspxA2 template compared to transcription from the Ϫ50 PspxA2 DNA, although there was considerable variation in the level of transcript measured in the Ϫ50 PspxA2 reactions due to the lower activity of the shortened template DNA. In sharp contrast to the previously reported results of B. subtilis Spx activity in IVT reaction mixtures containing B. subtilis RNAP, which showed the requirement for the Ϫ43 AGCA element (10,30,31), no such element is found in the region between positions Ϫ35 and Ϫ50 in PspxA2. Removal of the upstream AGCA motif by deletion to Ϫ90 did not affect transcription activated in vitro by either SpxA1 or SpxA2.…”

Section: Fig 3 ␤-Galactosidase Activity Assays In B Anthracis Sternecontrasting

confidence: 99%

“…The promoter region of the major transcriptional start site of spxA2 resembles those recognized by the A form of RNAP, with the start site of transcription located 223 bp from the ATG start codon (41). Previous studies of Spx in B. subtilis uncovered the importance of an AGCA motif centered at approximately position Ϫ44 of Spx-controlled promoters as a possible cis-acting element (30,31), which was supported by genomewide Spx-DNA binding studies (10) and by nucleotide-specific protein-DNA cross-linking studies (37). The spxA2 promoter region does not possess the AGCA element in the vicinity of the Ϫ35 core promoter element.…”

Section: Figmentioning

confidence: 82%

“…Previous studies of B. subtilis Spx showed that the likely target of Spx-promoter interaction is the AGCA motif, which is usually centered around position Ϫ43 with respect to the start site of Spx-activated transcription (10,30,31). No sequence upstream of the spxA2 promoter in the region between positions Ϫ50 and Ϫ35 was detected that resembled an Spx targeted cis-acting element, although an AGCA was detected between positions Ϫ100 and Ϫ90.…”

Section: Fig 3 ␤-Galactosidase Activity Assays In B Anthracis Sternementioning

confidence: 94%

“…For example, in Bacillus anthracis, the causative agent of the zoonotic infectious disease, anthrax, the plasmid-borne atxA gene encodes a transcription factor required for virulence, since it is necessary for the activation of genes for toxin and protective capsule production (5,6). Other Grampositive bacteria possess genes encoding one or more forms of the ArsC (arsenate reductase) family protein, Spx, which is an RNA polymerase (RNAP)-binding protein directing the expression of large regulons that include genes necessary for pathogenesis (7)(8)(9)(10)(11). Studies of streptococci, Listeria monocytogenes, Staphylococcus aureus, and Enterococcus spp.…”

mentioning

confidence: 99%

“…However, mutational analysis of Spx-controlled promoter DNA and nucleotide-specific protein-DNA cross-linking provided evidence that RNAP-bound Spx contacts a conserved cisacting element in B. subtilis (10,30,31,37). The Spx-targeted cis-acting site, AGCA centered around position Ϫ44 upstream of the transcription start site, was detected in genome-wide chromatin immunoprecipitation studies (10).…”

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confidence: 99%

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Evidence that Oxidative Stress Induces spxA2 Transcription in Bacillus anthracis Sterne through a Mechanism Requiring SpxA1 and Positive Autoregulation

et al. 2016

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Bacillus anthracis possesses two paralogs of the transcriptional regulator, Spx. SpxA1 and SpxA2 interact with RNA polymerase (RNAP) to activate the transcription of genes implicated in the prevention and alleviation of oxidative protein damage. The spxA2 gene is highly upregulated in infected macrophages, but how this is achieved is unknown. Previous studies have shown that the spxA2 gene was under negative control by the Rrf2 family repressor protein, SaiR, whose activity is sensitive to oxidative stress. These studies also suggested that spxA2 was under positive autoregulation. In the present study, we show by in vivo and in vitro analyses that spxA2 is under direct autoregulation but is also dependent on the SpxA1 paralogous protein. The deletion of either spxA1 or spxA2 reduced the diamide-inducible expression of an spxA2-lacZ construct. In vitro transcription reactions using purified B. anthracis RNAP showed that SpxA1 and SpxA2 protein stimulates transcription from a DNA fragment containing the spxA2 promoter. Ectopically positioned spxA2-lacZ fusion requires both SpxA1 and SpxA2 for expression, but the requirement for SpxA1 is partially overcome when saiR is deleted. Electrophoretic mobility shift assays showed that SpxA1 and SpxA2 enhance the affinity of RNAP for spxA2 promoter DNA and that this activity is sensitive to reductant. We hypothesize that the previously observed upregulation of spxA2 in the oxidative environment of the macrophage is at least partly due to SpxA1-mediated SaiR repressor inactivation and the positive autoregulation of spxA2 transcription. T ranscription factors of pathogenic bacteria can be important virulence determinants, since they control genes that specify toxins, proteins functioning in nutrient acquisition within the hostile host environment, and products that operate by subverting the host innate immunity (1-4). For example, in Bacillus anthracis, the causative agent of the zoonotic infectious disease, anthrax, the plasmid-borne atxA gene encodes a transcription factor required for virulence, since it is necessary for the activation of genes for toxin and protective capsule production (5, 6). Other Grampositive bacteria possess genes encoding one or more forms of the ArsC (arsenate reductase) family protein, Spx, which is an RNA polymerase (RNAP)-binding protein directing the expression of large regulons that include genes necessary for pathogenesis (7-11). Studies of streptococci, Listeria monocytogenes, Staphylococcus aureus, and Enterococcus spp. have demonstrated the requirement for Spx proteins for virulence and viability (7,8,(12)(13)(14)(15). IMPORTANCE Regulators of transcription initiationSpx was detected in studies of B. subtilis, in which it is encoded by a gene that is under complex transcriptional control involving four RNAP forms and two repressors (16)(17)(18)(19). The complex control of spx transcription operates in response to various stress conditions, such as oxidative and cell envelope stress. Spx protein levels increase under conditions caus...

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Section: Fig 3 ␤-Galactosidase Activity Assays In B Anthracis Sternecontrasting

confidence: 99%

Section: Figmentioning

confidence: 82%

Section: Fig 3 ␤-Galactosidase Activity Assays In B Anthracis Sternementioning

confidence: 94%

mentioning

confidence: 99%

mentioning

confidence: 99%

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Evidence that Oxidative Stress Induces spxA2 Transcription in Bacillus anthracis Sterne through a Mechanism Requiring SpxA1 and Positive Autoregulation

et al. 2016

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Bacterial synthesized metal and metal salt nanoparticles in biomedical applications: An up and coming approach

Mohanta

Hashem

Abd_Allah

et al. 2020

Applied Organom Chemis

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In the present scenario, metal nanoparticles have elicited a great deal of interest in biomedical applications because of their unique properties and antimicrobial potentials. Over the past few years, the green nanotechnology has materialized as a momentous approach for the synthesis and fabrication of noble metal salt and metal nanoparticles. The green route synthesis exploits diverse reducing and stabilizing agents from bacterial resources for the successful synthesis of metal nanoparticles. This review mainly focuses on the biosynthesis of the most commonly studied metal and metal salt nanoparticles such as gold, silver, platinum, palladium, copper, cadmium, titanium oxide, zinc oxide, zinc sulphate, cadmium sulphide and many more. These noble nanoparticles can be exploited in pharmaceutical industry as antimicrobial and anti‐biofilm agents, targeted delivery of anticancer drugs, biosensors, etc.

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The cellular redox state in Bacillus amyloliquefaciens WH1 affects biofilm formation indirectly in a surfactant direct manner

Sun

Zhao

et al. 2023

J Basic Microbiol

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Surfactin is a signal to trigger biofilm formation against harsh environments. Generally, harsh environments can result in change of the cellular redox state to induce biofilm formation, but we know little about whether the cellular redox state influences biofilm formation via surfactin. Here, the reductant glucose could reduce surfactin and enhance biofilm formation by a surfactin‐indirect way. The oxidant H2O2 led to a decrease of surfactin accompanying with weakened biofilm formation. Spx and PerR were both necessary for surfactin production and biofilm formation. H2O2 improved surfactin production but inhibited biofilm formation by a surfactin‐indirect manner in Δspx, while it reduced surfactin production without obvious influence on biofilm formation in ΔperR. The ability against H2O2 stress was enhanced in Δspx, but weakened in ΔperR. Thereby, PerR was favorable for resisting oxidative stress, while Spx played a negative role in this action. Knockout and compensation of rex also supported that the cells could form biofilm by a surfactin‐indirect way. Collectively, surfactin is not a unique signal to trigger biofilm formation, and the cellular redox state can influence biofilm formation by a surfactin‐direct or ‐indirect way in Bacillus amyloliquefaciens WH1.

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Genome-wide identification of genes directly regulated by the pleiotropic transcription factor Spx in Bacillus subtilis

Cited by 85 publications

References 56 publications

Evidence that Oxidative Stress Induces spxA2 Transcription in Bacillus anthracis Sterne through a Mechanism Requiring SpxA1 and Positive Autoregulation

Evidence that Oxidative Stress Induces spxA2 Transcription in Bacillus anthracis Sterne through a Mechanism Requiring SpxA1 and Positive Autoregulation

Bacterial synthesized metal and metal salt nanoparticles in biomedical applications: An up and coming approach

The cellular redox state in Bacillus amyloliquefaciens WH1 affects biofilm formation indirectly in a surfactant direct manner

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