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Iron dependent repressor

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Iron dependent repressor, N-terminal DNA binding domain (dtxR-type HTH domain)
crystal structure of an ider-dna complex reveals a conformational change in activated ider for base-specific interactions
Identifiers
SymbolFe_dep_repress
PfamPF01325
Pfam clanCL0123
InterProIPR022687
SCOP22dtr / SCOPe / SUPFAM
Available protein structures:
Pfam  structures / ECOD  
PDBRCSB PDB; PDBe; PDBj
PDBsumstructure summary
Iron dependent repressor, metal binding and dimerisation domain
the structure of apo-mntr from bacillus subtilis, selenomethionine derivative
Identifiers
SymbolFe_dep_repr_C
PfamPF02742
Pfam clanCL0123
InterProIPR001367
SCOP22dtr / SCOPe / SUPFAM
Available protein structures:
Pfam  structures / ECOD  
PDBRCSB PDB; PDBe; PDBj
PDBsumstructure summary

In molecular biology, the iron dependent repressors are a family of bacterial and archaeal transcriptional repressors.

At their N-terminus they contain a dtxR-type HTH domain. This is a DNA-binding, winged helix-turn-helix (wHTH) domain of about 65 amino acids present in metalloregulators of the dtxR/mntR family. The domain is named after Corynebacterium diphtheriae dtxR, an iron-specific diphtheria toxin repressor, and Bacillus subtilis mntR, a manganese transport regulator. Iron-responsive metalloregulators such as dtxR and ideR occur in Gram-positive bacteria of the high GC branch, while manganese-responsive metalloregulators like mntR are described in diverse genera of Gram-positive and Gram-negative bacteria and also in Archaea. The metalloregulators like dtxR/mntR contain the DNA-binding dtxR-type HTHdomain usually in the N-terminal part. The C-terminal part contains a dimerisation domain with two metal-binding sites, although the primary metal-binding site is less conserved in the Mn(II)-regulators. Fe(II)-regulated proteins contain an SH3-like domain as a C-terminal extension, which is absent in Mn(II)-regulated mntR.

Metal-ion dependent regulators orchestrate the virulence of several important human pathogens. The dtxR protein regulates the expression of diphtheria toxin in response to environmental iron concentrations. Furthermore, dtxR and ideR control iron uptake. Homeostasis of manganese, which is an essential nutrient, is regulated by mntR. A typical dtxR-type metalloregulator binds two divalent metal effectors per monomer, upon which allosteric changes occur that moderate binding to the cognate DNA operators. Iron-bound dtxR homodimers bind to an interrupted palindrome of 19 bp, protecting a sequence of ~30 bp. The crystal structures of iron-regulated and manganese-regulated repressors show that the DNA binding domain contains three alpha-helices and a pair of antiparallel beta-strands. Helices 2 and 3 comprise the helix-turn-helix motif and the beta-strands are called the wing. This wHTH topology is similar to the lysR-type HTH. Most dtxR-type metalloregulators bind as dimers to the DNA major groove.

Several proteins are known to contain a dtxR-type HTH domain. These include: Corynebacterium diphtheriae dtxR, a diphtheria toxin repressor, which regulates the expression of the high-affinity iron uptake system, other iron-sensitive genes, and the bacteriophage tox gene. Metal-bound dtxR represses transcription by binding the tox operator; if iron is limiting, conformational changes of the wHTH disrupt DNA-binding and the diphtheria toxin is produced. Mycobacterium tuberculosis ideR, an iron-dependent regulator that is essential for this pathogen. The regulator represses genes for iron acquisition and activates iron storage genes, and is a positive regulator of oxidative stress responses. Bacillus subtilis mntR, a manganese transport regulator, binds Mn2+ as an effector and is a transcriptional repressor of transporters for the import of manganese. Treponema pallidum troR, a metal-dependent transcriptional repressor. Archaeoglobus fulgidus MDR1 (troR), a metal-dependent transcriptional repressor, which negatively regulates its own transcription.

References

  1. Guedon E, Helmann JD (April 2003). "Origins of metal ion selectivity in the DtxR/MntR family of metalloregulators". Mol. Microbiol. 48 (2): 495–506. doi:10.1046/j.1365-2958.2003.03445.x. PMID 12675807.
  2. Spiering MM, Ringe D, Murphy JR, Marletta MA (April 2003). "Metal stoichiometry and functional studies of the diphtheria toxin repressor". Proc. Natl. Acad. Sci. U.S.A. 100 (7): 3808–13. doi:10.1073/pnas.0737977100. PMC 153003. PMID 12655054.
  3. ^ Glasfeld A, Guedon E, Helmann JD, Brennan RG (August 2003). "Structure of the manganese-bound manganese transport regulator of Bacillus subtilis". Nat. Struct. Biol. 10 (8): 652–7. doi:10.1038/nsb951. PMID 12847518. S2CID 23359112.
  4. ^ Rodriguez GM, Smith I (March 2003). "Mechanisms of iron regulation in mycobacteria: role in physiology and virulence". Mol. Microbiol. 47 (6): 1485–94. doi:10.1046/j.1365-2958.2003.03384.x. PMID 12622807.
  5. Schiering N, Tao X, Zeng H, Murphy JR, Petsko GA, Ringe D (October 1995). "Structures of the apo- and the metal ion-activated forms of the diphtheria tox repressor from Corynebacterium diphtheriae". Proc. Natl. Acad. Sci. U.S.A. 92 (21): 9843–50. doi:10.1073/pnas.92.21.9843. PMC 40899. PMID 7568230.
This article incorporates text from the public domain Pfam and InterPro: IPR022687 Category: