MucR binds multiple target sites in the promoter of its own gene and is a heat‐stable protein: Is MucR a H‐<scp>NS</scp>‐like protein?

Baglivo, Ilaria; Pirone, Luciano; Malgieri, Gaetano; Fattorusso, Roberto; Roop, R. Martin; Pedone, Emilia; Pedone, Paolo V.

doi:10.1002/2211-5463.12411

Cited by 15 publications

(35 citation statements)

References 49 publications

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“…Here, we identify a hydrophobic region as responsible for the higher-order oligomer formation at the N-terminus of the prokaryotic zinc-finger protein MucR and definitively demonstrate the importance of MucR oligomerization for its regulatory function in Brucella . Based on the results presented here, together with previously published findings 26 , 27 , we propose that the prokaryotic zinc-finger proteins in the Ros/MucR family control gene expression by employing a mechanism similar to that used by the H-NS proteins, rather than working as classical transcriptional regulators.…”

Section: Introductionsupporting

confidence: 68%

“…To investigate the ability of the mutant protein MucR L36L39I40A to bind DNA, we performed electrophoretic mobility shift assays (EMSAs) using one of the MucR DNA-binding site, named Site1, previously identified in the mucR gene promoter and located at −174 bp from the ATG start codon 27 . Comparing the protein/DNA complexes formed by MucR and MucR L36L39I40A , it is evident that the mutant protein is unable to form the slow mobility MucR/DNA complex indicated by the arrow in Fig.…”

Section: Resultsmentioning

confidence: 99%

“…The increasing amount of the protein used is indicated on the top of the lanes as well as the name of the proteins. The target sequence Site1 was previously identified in the promoter of mucR gene at −174 bp from the ATG start codon 27 . The arrow indicate the protein/DNA complex formed by MucR with Site1 which does not appear in the EMSAs of MucR L36L39I40A .…”

Section: Resultsmentioning

confidence: 99%

“…On the other hand, the prokaryotic C 2 H 2 zinc-finger shows some peculiarities such as the second α-helix, the flexibility of the zinc-coordination sphere and the larger hydrophobic core that together with the zinc-finger motif constitutes the DNA-binding domain 1 , 14 – 18 . Our recent studies with full-length Ros/MucR proteins has determined that these proteins form higher-order oligomers 26 , are stable at high temperature and are able to bind multiple sites present in the promoters of their target genes 26 , 27 . These combined experimental findings have led us to propose that the Ros/MucR proteins regulate gene expression in the same manner as the DNA structuring protein H-NS, which is found in many other Gram-negative bacteria 55 .…”

Section: Discussionmentioning

confidence: 99%

“…Recently, we demonstrated that the AT-rich DNA targets sites for the Mesorhizobium Mls and Brucella MucR contain T-A steps, and that these proteins contact DNA mostly in the minor groove and are able to form higher-order oligomers 26 . Furthermore, we have shown that MucR from Brucella abortus is able to recognize multiple AT-rich sites in the promoter of its own gene and that it is a heat-stable protein with a Tm of 63 °C 27 . The ability to bind AT-rich sites containing T-A steps in the minor groove, the capacity to oligomerize and the heat-stability are also features of another prokaryotic protein family, the histone-like nucleoid structuring proteins, H-NS 28 – 34 .…”

Section: Introductionmentioning

confidence: 99%

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Identifying the region responsible for Brucella abortus MucR higher-order oligomer formation and examining its role in gene regulation

Pirone

Pitzer

D’Abrosca

et al. 2018

Sci Rep

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MucR is a member of the Ros/MucR family of prokaryotic zinc-finger proteins found in the α-proteobacteria which regulate the expression of genes required for the successful pathogenic and symbiotic interactions of these bacteria with the eukaryotic hosts. The structure and function of their distinctive zinc-finger domain has been well-studied, but only recently the quaternary structure of the full length proteins was investigated demonstrating their ability to form higher-order oligomers. The aim of this study was to identify the region of MucR involved in higher-order oligomer formation by analysing deletion and point mutants of this protein by Light Scattering, and to determine the role that MucR oligomerization plays in the regulatory function of this protein. Here we demonstrate that a conserved hydrophobic region at the N-terminus of MucR is responsible for higher-order oligomer formation and that MucR oligomerization is essential for its regulatory function in Brucella. All these features of MucR are shared by the histone-like nucleoid structuring protein, (H-NS), leading us to propose that the prokaryotic zinc-finger proteins in the MucR/Ros family control gene expression employing a mechanism similar to that used by the H-NS proteins, rather than working as classical transcriptional regulators.

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Section: Introductionsupporting

confidence: 68%

Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

Identifying the region responsible for Brucella abortus MucR higher-order oligomer formation and examining its role in gene regulation

Pirone

Pitzer

D’Abrosca

et al. 2018

Sci Rep

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Ancestral zinc-finger bearing protein MucR in alpha-proteobacteria: A novel xenogeneic silencer?

Jiao

Tian

2020

Computational and Structural Biotechnology Journal

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The MucR/Ros family protein is conserved in alpha-proteobacteria and characterized by its zinc-finger motif that has been proposed as the ancestral domain from which the eukaryotic C2H2 zinc-finger structure evolved. In the past decades, accumulated evidences have revealed MucR as a pleiotropic transcriptional regulator that integrating multiple functions such as virulence, symbiosis, cell cycle and various physiological processes. Scattered reports indicate that MucR mainly acts as a repressor, through oligomerization and binding to multiple sites of AT-rich target promoters. The N-terminal region and zinc-finger bearing C-terminal region of MucR mediate oligomerization and DNA-binding, respectively. These features are convergent to those of xenogeneic silencers such as H-NS, MvaT, Lsr2 and Rok, which are mainly found in other lineages. Phylogenetic analysis of MucR homologs suggests an ancestral origin of MucR in alpha- and delta-proteobacteria. Multiple independent duplication and lateral gene transfer events contribute to the diversity and phyletic distribution of MucR. Finally, we posed questions which remain unexplored regarding the putative roles of MucR as a xenogeneic silencer and a general manager in balancing adaptation and regulatory integration in the pangenome context.

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Ni(II), Hg(II), and Pb(II) Coordination in the Prokaryotic Zinc-Finger Ros87

et al. 2018

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Zinc ion binding is a principal event in the achievement of the correct fold in classical zinc finger domains since the motif is largely unfolded in the absence of metal. In the case of a prokaryotic zinc finger, the larger βββαα domain contributes to the folding mechanism with a larger hydrophobic core. For these reasons, following the great amount of attention devoted to unveiling the effect of xenobiotic metal ion replacement in zinc fingers and in zinc-containing proteins in general, the prokaryotic zinc finger domain appears to be an interesting model for studying metal ion interaction with metalloproteins. Here, we explore the binding of Ni(II), Hg(II), and Pb(II) to Ros87, the DNA binding domain of the prokaryotic zinc finger protein Ros. We measured Ros87–metal ion dissociation constants and monitored the effects on the structure and function of the domain. Interestingly, we found that the protein folds in the presence of Ni(II) with important structural perturbations, while in the presence of Pb(II) and Hg(II) it does not appear to be significantly folded. Accordingly, an overall strong reduction in the DNA binding capability is observed for all of the examined proteins. Our data integrate and complement the information collected in the past few years concerning the functional and structural effects of metal ion substitution in classical zinc fingers in order to contribute to a better comprehension of the toxicity of these metals in biological systems.

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MucR binds multiple target sites in the promoter of its own gene and is a heat‐stable protein: Is MucR a H‐NS‐like protein?

Cited by 15 publications

References 49 publications

Identifying the region responsible for Brucella abortus MucR higher-order oligomer formation and examining its role in gene regulation

Identifying the region responsible for Brucella abortus MucR higher-order oligomer formation and examining its role in gene regulation

Ancestral zinc-finger bearing protein MucR in alpha-proteobacteria: A novel xenogeneic silencer?

Ni(II), Hg(II), and Pb(II) Coordination in the Prokaryotic Zinc-Finger Ros87

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