The Conformations of the Manganese Transport Regulator of Bacillus subtilis in its Metal-free State

Dewitt, Mark; Kliegman, J.I.; Helmann, John D.; Brennan, Richard G.; Farrens, David; Glasfeld, Arthur

doi:10.1016/j.jmb.2006.10.080

Cited by 31 publications

(49 citation statements)

References 33 publications

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“…In a very recent study, a similar scenario for a member of the single domain family, MntR was proposed based on crystallographic results (45). DeWitt et al showed that MntR has a conformational distribution of the DNA binding sites in the apo form.…”

Section: Discussionmentioning

confidence: 97%

Protein Dynamics and Monomer−Monomer Interactions in AntR Activation by Electron Paramagnetic Resonance and Double Electron−Electron Resonance

2007

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The Anthracis repressor (AntR) is a Mn(II)-activated DNA binding protein that is involved in the regulation of Mn(II) homeostasis in Bacillus anthracis. AntR is structurally and functionally homologous to Mn(II)-activated repressor from Bacillus subtillis (MntR). Our studies on AntR focus on metal-regulated activation of the protein. Line shape analysis of continuous wave electron paramagnetic resonance (EPR) spectra showed that metal binding resulted in a general reduction of backbone dynamics and that there were no further changes in backbone motion upon DNA binding. Double electron-electron resonance (DEER) pulsed EPR spectroscopy was used to measure distances between nitroxide spin labels strategically placed in dimeric AntR. The DEER data were analyzed assuming Gaussian distributions for discrete populations of spins. A structural model for AntR was built from homology to MntR, and the experimentally measured distances were simulated to distinguish between spin label and backbone motions. Together with the computational analysis, the DEER results for apo-AntR indicated relatively narrow conformational distributions for backbone residues at the dimer interface and near the metal binding site. No significant changes were observed on these sites in the presence of metal or DNA. On the other hand, the distribution of the conformers and the distances between the putative DNA binding helices decreased upon metal binding. These results suggest that the DNA binding region of AntR shows large amplitude backbone motions in the absence of metal, which may preclude sequence-specific binding to promoter sites. Metal binding narrows the range of conformations accessible in this region and shortens the mean distance between the DNA binding helices, probably resulting in alignment that optimizes promoter recognition and binding.

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Section: Discussionmentioning

confidence: 97%

Protein Dynamics and Monomer−Monomer Interactions in AntR Activation by Electron Paramagnetic Resonance and Double Electron−Electron Resonance

2007

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“…6A) against H–D exchange relative to the apo-state 59 and limits the conformational disorder of the DNA-binding domain relative to the dimerization domain. 24 In any case, what seems clear is that direct coordination by M8 in DtxR/IdeR and D7 in MntR by the activating metal drives a global “caliper-like” closure of the DNA-binding domains in each subunit relative to one another (Supplementary Fig. S1), which brings them into alignment to bind to successive major grooves in the DNA operator.…”

Section: Discussionmentioning

confidence: 99%

“…20,21 The three most extensively studied members of this family are the homologous Fe(II)-sensors Corynebacterium diphtheriae DtxR and Mycobacterium tuberculosis IdeR 22,23 and Mn(II)-sensor in Bacillus subtilis, MntR. 24–31 Although similar in both primary structure and quaternary structure of the activated metal-bound forms (see Supplementary Fig. S1), DtxR and MntR induce transcriptional co-repression by binding their cognate metal ions in distinct ways.…”

Section: Introductionmentioning

confidence: 99%

Physical Characterization of the Manganese-Sensing Pneumococcal Surface Antigen Repressor from Streptococcus pneumoniae

Lisher¹,

Higgins²,

Maroney

et al. 2013

Biochemistry

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Transition metals, including manganese, are required for proper virulence and persistence of many pathogenic bacteria. In Streptococcus pneumoniae (Spn), manganese homeostasis is controlled by a high affinity Mn(II) uptake complex, PsaBCA, and a constitutively expressed efflux transporter, MntE. PsaBCA expression is transcriptionally regulated by the DtxR/MntR family metalloregulatory protein pneumococcal surface antigen repressor (PsaR) in Spn. Here, we present a comprehensive analysis of the metal and DNA-binding properties of PsaR. PsaR is a homodimer in the absence and presence of metals and binds two manganese or zinc per protomer (four per dimer) in two pairs of structurally distinct sites, termed site 1 and site 2. Site 1 is likely filled with Zn(II) in vivo (KZn1≥1013 M−1; KMn1≈108 M−1). The Zn(II)-site 1 complex adopts a pentacoordinate geometry by x-ray absorption spectroscopy containing a single cysteine, and appears analogous to the Cd(II) site observed in S. gordonii ScaR. Site 1 is necessary but not sufficient for full positive allosteric activation of DNA operator binding by metals as measured by ΔGc, the allosteric coupling free energy, since mutants in site 1 show intermediate ΔGc. Site 2 is the primary regulatory site and governs specificity for Mn(II) over Zn(II) in PsaR, with ΔGcZn,Mn>>ΔGcZn,Zn despite the fact that Zn(II) binds site 2 with 40-fold higher affinity relative to Mn(II), i.e., KZn2>KMn2. Mutational studies reveal that Asp7 in site 2 is a critical ligand for Mn(II)-dependent allosteric activation of DNA binding. These findings are discussed in the context of other well-studied DtxR/MntR Mn(II)/Fe(II) metallorepressors.

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“…The conformation of Mn 2ϩ -bound MntR differs from the Zn 2ϩ -bound conformation with respect to the occupancy of the metal binding sites: Mn 2ϩ binds to two sites, whereas only one Zn 2ϩ ion binds to MntR, which does not allow binding of a second one (36). Metal binding at the second site is proposed to be required for DNA binding, as it promotes a disorder-to-order transition of MntR structure (17). PsaR shares 25% and 15% sequence identity with DtxR and MntR, respectively.…”

Section: Discussionmentioning

confidence: 99%

Opposite Effects of Mn²⁺and Zn²⁺on PsaR-Mediated Expression of the Virulence GenespcpA,prtA, andpsaBCAofStreptococcus pneumoniae

Kloosterman¹,

Witwicki

Kooi-Pol³

et al. 2008

J Bacteriol

110

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Homeostasis of Zn2؉ and Mn 2؉ is important for the physiology and virulence of the human pathogen Streptococcus pneumoniae. Here, transcriptome analysis was used to determine the response of S. pneumoniae D39 to a high concentration of Zn 2؉ . Interestingly, virulence genes encoding the choline binding protein PcpA, the extracellular serine protease PrtA, and the Mn 2؉ uptake system PsaBC(A) were strongly upregulated in the presence of Zn 2؉ . Using random mutagenesis, a previously described Mn 2؉ -responsive transcriptional repressor, PsaR, was found to mediate the observed Zn 2؉ -dependent derepression. In addition, PsaR is also responsible for the Mn 2؉ -dependent repression of these genes. Subsequently, we investigated how these opposite effects are mediated by the same regulator. In vitro binding of purified PsaR to the prtA, pcpA, and psaB promoters was stimulated by Mn 2؉ , whereas Zn 2؉ destroyed the interaction of PsaR with its target promoters. Mutational analysis of the pcpA promoter demonstrated the presence of a PsaR operator that mediates the transcriptional effects. In conclusion, PsaR is responsible for the counteracting effects of Mn 2؉and Zn 2؉ on the expression of several virulence genes in S. pneumoniae, suggesting that the ratio of these metal ions exerts an important influence on pneumococcal pathogenesis.

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The Conformations of the Manganese Transport Regulator of Bacillus subtilis in its Metal-free State

Cited by 31 publications

References 33 publications

Protein Dynamics and Monomer−Monomer Interactions in AntR Activation by Electron Paramagnetic Resonance and Double Electron−Electron Resonance

Protein Dynamics and Monomer−Monomer Interactions in AntR Activation by Electron Paramagnetic Resonance and Double Electron−Electron Resonance

Physical Characterization of the Manganese-Sensing Pneumococcal Surface Antigen Repressor from Streptococcus pneumoniae

Opposite Effects of Mn²⁺and Zn²⁺on PsaR-Mediated Expression of the Virulence GenespcpA,prtA, andpsaBCAofStreptococcus pneumoniae

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The Conformations of the Manganese Transport Regulator of Bacillus subtilis in its Metal-free State

Cited by 31 publications

References 33 publications

Protein Dynamics and Monomer−Monomer Interactions in AntR Activation by Electron Paramagnetic Resonance and Double Electron−Electron Resonance

Protein Dynamics and Monomer−Monomer Interactions in AntR Activation by Electron Paramagnetic Resonance and Double Electron−Electron Resonance

Physical Characterization of the Manganese-Sensing Pneumococcal Surface Antigen Repressor from Streptococcus pneumoniae

Opposite Effects of Mn2+and Zn2+on PsaR-Mediated Expression of the Virulence GenespcpA,prtA, andpsaBCAofStreptococcus pneumoniae

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Opposite Effects of Mn²⁺and Zn²⁺on PsaR-Mediated Expression of the Virulence GenespcpA,prtA, andpsaBCAofStreptococcus pneumoniae