Determination of the Two-Component Systems regulatory network reveals core and accessory regulations across <i>Pseudomonas aeruginosa</i> lineages

Trouillon, Julian; Imbert, Lionel; Villard, Anne-Marie; Vernet, Thierry; Attrée, Ina; Elsen, Sylvie

doi:10.1101/2021.07.23.453361

Cited by 4 publications

(4 citation statements)

References 82 publications

(129 reference statements)

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“…Importantly, the structure shows that zinc is directly recognized by CzcS, without the need for additional periplasmic proteins. In P. aeruginosa, twelve response regulators of TCS might bind the intergenic region between czcRS and czcCBA forming CzcR as the "key downstream node of RR network" (Trouillon et al 2021). Besides, CzcR exhibits a dual role: in addition to promoting zinc, cadmium, and cobalt resistance via the activation of the czcCBA efflux pump, it downregulates the expression of oprD by directly binding the promoter region.…”

Section: Zinc Homeostasis Regulation Under Zinc Excessmentioning

confidence: 99%

Zinc homeostasis in Pseudomonas

2022

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In the genus Pseudomonas, zinc homeostasis is mediated by a complete set of import and export systems, whose expression is precisely controlled by three transcriptional regulators: Zur, CzcR and CadR. In this review, we describe in detail our current knowledge of these systems, their regulation, and the biological significance of zinc homeostasis, taking Pseudomonas aeruginosa as our paradigm. Moreover, significant parts of this overview are dedicated to highlight interactions and cross-regulations between zinc and copper import/export systems, and to shed light, through a review of the literature and comparative genomics, on differences in gene complement and function across the whole Pseudomonas genus. The impact and importance of zinc homeostasis in Pseudomonas and beyond will be discussed throughout this review. Graphical abstract

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Section: Zinc Homeostasis Regulation Under Zinc Excessmentioning

confidence: 99%

Zinc homeostasis in Pseudomonas

2022

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“…Zur could also compete with binding of a transcriptional repressor in this region, revealing an alternative start of transcription. For example, numerous TCS RRs have recently been detected in the intergenic region between czcR and czcC (27). Alternatively, Zur could modify a secondary structure at the DNA limits the full transcription of czcR .…”

Section: Discussionmentioning

confidence: 99%

A Zur-mediated transcriptional regulation of the zinc export system

Ducret

González

Leoni

et al. 2022

Preprint

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The control of cellular zinc (Zn) concentrations by dedicated import and export systems is essential for the survival and virulence of Pseudomonas aeruginosa. The transcription of its many Zn transporters is therefore tightly regulated by a known set of transcription factors involved in either the import or the export of Zn. In this work, we show that the Zur protein, a well-known repressor of Zn import, plays a dual role and functions in both import and export processes. In a situation of Zn excess, Zur represses Zn entry, but also activates the transcription of czcR, a positive regulator of the Zn export system. To achieve this, Zur binds at two sites, located by DNA footprinting in the region downstream the czcR transcription start site. In agreement with this regulation, a delay in induction of the efflux system is observed in the absence of Zur and Zn resistance is affected. Surprisingly, deletion of the entire czcR 5'untranslated region or impairing Zur binding in the region is sufficient to restore the growth defect of a zur mutant in excess of zinc, disclosing an important link between Zur and zinc export. The discovery of this regulation highlights a new role of Zur as global regulator of Zn homeostasis in P. aeruginosa.

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“…DAP-seq has been successfully applied to identify TFBSs in several organisms, especially in eukaryotes, such as Arabidopsis thaliana (26), rice (39, 40) and maize (41). However, DAP-seq was not widely used in prokaryotes, and only several reports have been reported in the study of TFs in Pseudomonas , such as the studies on XRE-like family TFs and two-component systems response regulators in Pseudomonas aeruginosa (42, 43). More studies in different species will be encouraged to evaluate the applicability of DAP-seq in prokaryote.…”

Section: Discussionmentioning

confidence: 99%

BysR, a LysR-type Pleiotropic Regulator, Controls Production of Occidiofungin by Activating the LuxR-type transcriptional regulator AmbR1 in Burkholderia sp. JP2-270

Tang

et al. 2022

Preprint

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Occidiofungin is a highly effective antifungal glycopeptide produced by certain Burkholderia strains. The ocf gene cluster directing occidiofungin biosynthesis is regulated by cluster-specific regulators encoded by ambR homolog(s) within the same gene cluster, while it remains unknown to what extent occidiofungin biosynthesis is connected with the core regulation network. Here, we report that a LysR-type regulator BysR acts as a pleotropical regulator, and is essential for occidiofungin biosynthesis by directly activating ambR1 transcription in Burkholderia sp. JP2-270. Deletion of bysR and ocfE both abolished the antifungal activity in JP2-270. This defect of the bysR mutant can be recovered by constitutively expressing bysR or ambR1 but not by ambR2. The EMSA assay collectively showed that BysR regulates ambR1 through direct binding to its promoter region. Taken together, occidiofungin produced by JP2-270 is the main substance inhibiting M. oryzae, and BysR controls occidiofungin production by directly activating the expression of ambR1. Besides, transcriptomic analysis revealed altered expression of 350 genes in response to bysR deletion, and the genes engaged in flagellar assembly and bacterial chemotaxis are the most enriched pathways. Also, 400 putative loci targeted by BysR were identified by DAP-seq in JP2-270. These loci not only include genes engaged in key metabolic pathways but also genes involved in secondary metabolic pathways. Collectively, we proposes that BysR may be a novel pleiotropic regulator, and ambR1 is an important target gene of BysR, which is an intra-cluster transcriptional regulatory gene that further activates the transcription of ocf gene cluster.

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Determination of the Two-Component Systems regulatory network reveals core and accessory regulations across Pseudomonas aeruginosa lineages

Cited by 4 publications

References 82 publications

Zinc homeostasis in Pseudomonas

Zinc homeostasis in Pseudomonas

A Zur-mediated transcriptional regulation of the zinc export system

BysR, a LysR-type Pleiotropic Regulator, Controls Production of Occidiofungin by Activating the LuxR-type transcriptional regulator AmbR1 in Burkholderia sp. JP2-270

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