Two evolutionarily closely related ABC transporters mediate the uptake of choline for synthesis of the osmoprotectant glycine betaine in <i>Bacillus subtilis</i>

Kappes, Rainer M.; Kempf, Bettina; Kneip, Susanne; Boch, Jens; Gade, Jutta; Meier-Wagner, Jana; Bremer, Erhard

doi:10.1046/j.1365-2958.1999.01354.x

Cited by 148 publications

(251 citation statements)

References 73 publications

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“…Of these, possible virulence genes include SAG_1135 and SAG_ 1137 that encode homologs of Gls24, a stress response protein shown to contribute to virulence in experimental enterococcal infection (18,28). A similar pattern of regulation was noted for SAG_1796 and SAG_1797, which are predicted to encode a glycine/betaine osmoregulation system implicated in adaptation to osmotic stress in other species (13,14,19,31). Differential CsrS-dependent regulation of these loci in the 2603 strain background may account for the unexpectedly high virulence of strain 2603⌬csrS.…”

Section: Differential Effects On Gene Regulation Of Inactivating Csrrmentioning

confidence: 80%

“…Gls24 has been implicated in stress response and virulence in Enterococcus faecalis (18,28). The GBS CsrRS also regulates expression of two separate operons predicted to encode components of a glycine/betaine osmoregulation system (SAG_1796 to -1797 and SAG_0241 to -0244), a system that mediates adaptation to osmotic stress in Bacillus subtilis and Lactococcus lactis (13,14,19,31). Although their role in GBS is undefined, expression of two predicted transcriptional regulators is also controlled by CsrRS: SAG_0712 encoding a putative regulator of the OmpR family and SAG_0938 encoding a predicted GntR family transcriptional regulator (11,27).…”

Section: Validation Of Microarray Results By Qrt-pcrmentioning

confidence: 99%

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Variation in the Group BStreptococcusCsrRS Regulon and Effects on Pathogenicity

et al. 2008

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CsrRS (or CovRS) is a two-component regulatory system that controls expression of multiple virulence factors in the important human pathogen group B Streptococcus (GBS). We now report global gene expression studies in GBS strains 2603V/R and 515 and their isogenic csrR and csrS mutants. Together with data reported previously for strain NEM316, the results reveal a conserved 39-gene CsrRS regulon. In vitro phosphorylationdependent binding of recombinant CsrR to promoter regions of both positively and negatively regulated genes suggests that direct binding of CsrR can mediate activation as well as repression of target gene expression. Distinct patterns of gene regulation in csrR versus csrS mutants in strain 2603V/R compared to 515 were associated with different hierarchies of relative virulence of wild-type, csrR, and csrS mutants in murine models of systemic infection and septic arthritis. We conclude that CsrRS regulates a core group of genes including important virulence factors in diverse strains of GBS but also displays marked variability in the repertoire of regulated genes and in the relative effects of CsrS signaling on CsrR-mediated gene regulation. Such variation is likely to play an important role in strain-specific adaptation of GBS to particular host environments and pathogenic potential in susceptible hosts.

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Section: Differential Effects On Gene Regulation Of Inactivating Csrrmentioning

confidence: 80%

Section: Validation Of Microarray Results By Qrt-pcrmentioning

confidence: 99%

Variation in the Group BStreptococcusCsrRS Regulon and Effects on Pathogenicity

et al. 2008

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“…A 2.75 kb SalI-EcoRI DNA fragment (9ykkE-proB-proA9) from pBKB26 was cloned into the SalI-and EcoRI-restricted pBluescriptSK 2 vector (Stratagene), thereby yielding plasmid pJS3. For the construction of the proBA gene disruption mutation, a HindIII and BclI fragment (224 bp) was deleted from plasmid pJS3 and replaced with a chloramphenicol-resistance cassette derived from plasmid pRMK59 (Kappes et al, 1999), resulting in plasmid pJS8. A proBA-treA reporter gene fusion was constructed as follows.…”

Section: Methodsmentioning

confidence: 99%

T-box-mediated control of the anabolic proline biosynthetic genes of Bacillus subtilis

et al. 2011

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Bacillus subtilis possesses interlinked routes for the synthesis of proline. The ProJ-ProA-ProH route is responsible for the production of proline as an osmoprotectant, and the ProB-ProA-ProI route provides proline for protein synthesis. We show here that the transcription of the anabolic proBA and proI genes is controlled in response to proline limitation via a T-box-mediated termination/antitermination regulatory mechanism, a tRNA-responsive riboswitch. Primer extension analysis revealed mRNA leader transcripts of 270 and 269 nt for the proBA and proI genes, respectively, both of which are synthesized from SigA-type promoters. These leader transcripts are predicted to fold into two mutually exclusive secondary mRNA structures, forming either a terminator or an antiterminator configuration. Northern blot analysis allowed the detection of both the leader and the full-length proBA and proI transcripts. Assessment of the level of the proBA transcripts revealed that the amount of the full-length mRNA species strongly increased in proline-starved cultures. Genetic studies with a proB-treA operon fusion reporter strain demonstrated that proBA transcription is sensitively tied to proline availability and is derepressed as soon as cellular starvation for proline sets in. Both the proBA and the proI leader sequences contain a CCU proline-specific specifier codon prone to interact with the corresponding uncharged proline-specific tRNA. By replacing the CCU proline specifier codon in the proBA T-box leader with UUC, a codon recognized by a Phe-specific tRNA, we were able to synthetically re-engineer the proline-specific control of proBA transcription to a control that was responsive to starvation for phenylalanine.

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“…The predicted functional transporter is a homodimer ( Figure 1B). Although the architecture of BilE is similar to Lactococcus lactis OpuA, the individual domains share more sequence similarity with the equivalent subunits from Listeria monocytogenes OpuC [30], Bacillus subtilis OpuB and OpuC [31], and Archaeoglobus fulgidus ProX [32,33] (Figure 1C). These are all Type I ABC importers that contribute to osmo-or thermotolerance through the import of quaternary ammonium compounds (QACs) which act as compatible solutes either directly (e.g., glycine betaine), or as metabolic precursors (e.g., choline).…”

Section: Sequence Analysismentioning

confidence: 99%

“…The sequence of BilEB is most similar to AfProX (33% identity, 51% similarity), although one binding site tyrosine is substituted for a phenylalanine. Figure 2 shows a multiple sequence alignment of BilEB, AfProX, and other selected homologs in which these four tyrosine residues are conserved: OpuBC and OpuCC from Bacillus subtilis [31]; OpuCC from Listeria monocytogenes [30], Staphylococcus aureus [41], Pseudomonas aeruginosa and Pseudomonas syringae [42]; OsmX (OpuCC) from Salmonella typhimurium [43,44]; and YehZ from Escherichia coli [45]. The known ligands of these proteins include glycine betaine, proline betaine, choline, acetylcholine, choline-O-sulfate, carnitine, and ectoine ( Figure S3).…”

Section: Sequence Analysismentioning

confidence: 99%

Crystal Structure of the Substrate-Binding Domain from Listeria monocytogenes Bile-Resistance Determinant BilE

2016

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BilE has been reported as a bile resistance determinant that plays an important role in colonization of the gastrointestinal tract by Listeria monocytogenes, the causative agent of listeriosis. The mechanism(s) by which BilE mediates bile resistance are unknown. BilE shares significant sequence similarity with ATP-binding cassette (ABC) importers that contribute to virulence and stress responses by importing quaternary ammonium compounds that act as compatible solutes. Assays using related compounds have failed to demonstrate transport mediated by BilE. The putative substrate-binding domain (SBD) of BilE was expressed in isolation and the crystal structure solved at 1.5 Å. Although the overall fold is characteristic of SBDs, the binding site varies considerably relative to the well-characterized homologs ProX from Archaeoglobus fulgidus and OpuBC and OpuCC from Bacillus subtilis. This suggests that BilE may bind an as-yet unknown ligand. Elucidation of the natural substrate of BilE could reveal a novel bile resistance mechanism.

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Two evolutionarily closely related ABC transporters mediate the uptake of choline for synthesis of the osmoprotectant glycine betaine in Bacillus subtilis

Cited by 148 publications

References 73 publications

Variation in the Group BStreptococcusCsrRS Regulon and Effects on Pathogenicity

Variation in the Group BStreptococcusCsrRS Regulon and Effects on Pathogenicity

T-box-mediated control of the anabolic proline biosynthetic genes of Bacillus subtilis

Crystal Structure of the Substrate-Binding Domain from Listeria monocytogenes Bile-Resistance Determinant BilE

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