EC:2.7.13.3 - FACTA Search

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Query: EC:2.7.13.3 (histidine kinase)
2,405 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The bacterial chemotaxis adaptor protein CheW physically links the chemoreceptors (MCPs) and the histidine kinase CheA. Extensive investigations using bacterium Escherichia coli have established the central role of CheW in the MCP-modulated activation of CheA. Here we report the solution structure of CheW from E. coli determined by NMR spectroscopy. The results show that E. coli CheW shares an overall fold with previously reported structure of CheW from Thermotoga maritima, whereas local conformational deviations are observed. In particular, the C-terminal alpha-helix is considerably longer in E. coli CheW and appears to shrink the active binding pocket with CheA. Our study provides the structural basis for further investigations in E. coli chemotaxis.
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PMID:Solution structure of the bacterial chemotaxis adaptor protein CheW from Escherichia coli. 1763 Dec 72

The HAMP domain plays an essential role in signal transduction not only in histidine kinase but also in a number of other signal-transducing receptor proteins. Here we expressed the EnvZ HAMP domain (Arg(180)-Thr(235)) with the R218K mutation (termed L(RK)) or with L(RK) connected with domain A (Arg(180)-Arg(289)) (termed LA(RK)) of EnvZ, an osmosensing transmembrane histidine kinase in Escherichia coli, by fusing it with protein S. The L(RK) and LA(RK) proteins were purified after removing protein S. The CD analysis of the isolated L protein revealed that it consists of a random structure or is unstructured. This suggests that the EnvZ HAMP domain by itself is unable to form a stable structure and that this structural fragility may be important for its role in signal transduction. Interestingly the substitution of Ala(193) in the EnvZ HAMP domain with valine or leucine in Tez1A1, a chimeric protein of Tar and EnvZ, caused a constitutive OmpC phenotype. The CD analysis of LA(RK)(A193L) revealed that this mutated HAMP domain possesses considerable secondary structures and that the thermostability of this entire LA(RK)(A193L) became substantially lower than that of LA(RK) or just domain A, indicating that the structure of the HAMP domain with the A193L mutation affects the stability of downstream domain A. This results in cooperative thermodenaturation of domain A with the mutated HAMP domain. These results are discussed in light of the recently solved NMR structure of the HAMP domain from a thermophilic bacterium (Hulko, M., Berndt, F., Gruber, M., Linder, J. U., Truffault, V., Schultz, A., Martin, J., Schultz, J. E., Lupas, A. N., and Coles, M. (2006) Cell 126, 929-940).
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PMID:Structural and functional studies of the HAMP domain of EnvZ, an osmosensing transmembrane histidine kinase in Escherichia coli. 1763 23

Histidine protein kinases (HPKs) are a class of receptor proteins found in bacterial two-component signal transduction systems, which allow bacteria to respond to changes in their external environment. To date, there are few potent inhibitors of histidine kinases, despite their potential ability to weaken bacteria against antibiotic treatment. EnvZ is a histidine protein kinase with osmoregulatory function in bacteria with sequence and topological similarity to DNA Gyrase B. DNA Gyrase B has several well-characterized potent inhibitors, including novobiocin and clorobiocin which have detailed structures in complex. With fluorescence competition experiments, we have determined that novobiocin binds to EnvZ with a (novo)K(D) 120 +/- 20 microm. NMR transferred NOE (trNOE) experiments, and saturation transfer difference (STD) experiments suggest that novobiocin binds to EnvZ in a conformation and orientation similar to its binding with DNA Gyrase B. These experiments suggest some similarity in the pocket despite weaker affinity for EnvZ by novobiocin.
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PMID:Transferred NOE and saturation transfer difference NMR studies of novobiocin binding to EnvZ suggest binding mode similar to DNA gyrase. 1809 89

In Staphylococcus aureus, a two-component signaling system consisting of the histidine kinase VraS and the response regulator VraR stimulates gene expression in response to antibiotics that inhibit cell wall formation. With respect to understanding the mechanism of the VraSR response and precise interaction of VraR at promoter sites, the structure of the VraR DNA binding domain (DBD) was determined using NMR methods. The DBD demonstrates a four-helix configuration that is shared with the NarL/FixJ family of response regulators and is monomeric in solution. Unobservable amide resonances in VraR NMR spectra coincided with a set of DNA backbone contact sites predicted from a model of a VraR-DNA complex. This observation suggests that a degree of conformational sampling is required to achieve a high-affinity interaction with DNA. On the basis of chemical shift differences and line broadening, an amino-terminal 3 10 helix and a portion of helix H4 identify a continuous surface that may link the DBD to the receiver domain. The full-length VraR protein thermally denatured with a single transition, suggesting that the receiver domain and DBD were integrated and not simply tethered. Of note, the DBD alone denatured at a temperature that was 21 degrees C higher than that of the full-length protein. Thus, the DBD appears to be thermodynamically and structurally sensitive to state of the receiver domain.
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PMID:The NMR structure of the Staphylococcus aureus response regulator VraR DNA binding domain reveals a dynamic relationship between it and its associated receiver domain. 1829 26

Bacterial histidine kinases play an important role in the response to external stimuli. Structural studies of the histidine kinase transmembrane domain are challenging due to difficulties in protein expression and sample preparation. After carrying out expression screening of a series of histidine kinases, we investigated sample preparation methods for obtaining high quality samples of the periplasmic and transmembrane domain (PTD) of the bacterial histidine kinase SCO3062. Various sample conditions were tested for their ability to give homogeneous NMR spectra of the SCO3062 PTD with well-resolved resonances. Circular dichroism and 3D (15)N-edited NOESY spectrum results demonstrate that the SCO3062 PTD is predominantly alpha-helical. This method should be applicable to the NMR analysis of other transmembrane proteins.
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PMID:Expression and characterization of the integral membrane domain of bacterial histidine kinase SCO3062 for structural studies. 1878 98

Two-component system (TCS) consists of two multi-domain proteins, a sensor histidine kinase (HK) and a response regulator (RR). In response to environmental change, the signal is transduced from HK to RR through phosphoryl transfer. At the first stage of structural biology of TCS, crystallographic and NMR analyses of domain blocks revealed the folds and the remarkable regions of sensor, dimerization and catalytic domains of HK and receiver and effecter domains of RR. As the second stage, the advanced researches of their multi-domain form and HK/RR complex showed the inter-domain and inter-molecular interactions and implied that the dynamic conformation changes are required in the signaling process. Thus, this chapter describes what these structural analyses of TCS proteins have contributed in understanding the cell signaling mechanism; signal input --> phosphoryl transfer --> signal output.
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PMID:Structural basis of the signal transduction in the two-component system. 1879 80

The Rcs (regulator of capsule synthesis) signalling complex comprises the membrane-associated hybrid sensor kinases RcsC and RcsD, the transcriptional regulator RcsB and the two co-inducers RcsA and RcsF. Acting as a global regulatory network, the Rcs phosphorelay controls multiple cellular pathways including capsule synthesis, cell division, motility, biofilm formation and virulence mechanisms. Signal-dependent communication of the individual Rcs domains showing histidine kinase, phosphoreceiver, phosphoryl transfer and DNA-binding activities is characteristic and essential for the modulation of signal transfer. We have analysed the structures of core elements of the Rcs network including the RcsC-PR (phosphoreceiver domain of RcsC) and the RcsD-HPt (histidine phosphotransfer domain of RcsD), and we have started to characterize the dynamics and recognition mechanisms of the proteins. RcsC-PR represents a typical CheY-like alpha/beta/alpha sandwich fold and it shows a large conformational flexibility near the active-site residue Asp(875). NMR analysis revealed that RcsC-PR is able to adopt preferred conformations upon Mg(2+) co-ordination, BeF(3)(-) activation, phosphate binding and RcsD-HPt recognition. In contrast, the alpha-helical structure of RcsD-HPt is conformationally stable and contains a recognition area in close vicinity to the active-site His(842) residue. Our studies indicate the importance of protein dynamics and conformational exchange for the differential response to the variety of signals perceived by complex regulatory networks.
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PMID:Modulation of the Rcs-mediated signal transfer by conformational flexibility. 1902 69

In bacterial pathogenesis, virulence gene regulation is controlled by two-component regulatory systems. In Escherichia coli, the EnvZ/OmpR two-component system is best understood as regulating expression of outer membrane proteins, but in Salmonella enterica, OmpR activates transcription of the SsrA/B two-component system located on Salmonella pathogenicity island 2 (SPI-2). The response regulator SsrB controls expression of a type III secretory system in which effectors modify the vacuolar membrane and prevent its degradation via the endocytic pathway. Vacuolar modification enables Salmonella to survive and replicate in the macrophage phagosome and disseminate to the liver and spleen to cause systemic infection. The signals that activate EnvZ and SsrA are unknown but are related to the acidic pH encountered in the vacuole. Our previous work established that SsrB binds to regions of DNA that are AT-rich, with poor sequence conservation. Although SsrB is a major virulence regulator in Salmonella, very little is known regarding how it binds DNA and activates transcription. In the present work, we solved the structure of the C-terminal DNA binding domain of SsrB (SsrB(C)) by NMR and analyzed the effect of amino acid substitutions on function. We identified residues in the DNA recognition helix (Lys(179), Met(186)) and the dimerization interface (Val(197), Leu(201)) that are important for SsrB transcriptional activation and DNA binding. An essential cysteine residue in the N-terminal receiver domain was also identified (Cys(45)), and the effect of Cys(203) on dimerization was evaluated. Our results suggest that although disulfide bond formation is not required for dimerization, dimerization occurs upon DNA binding and is required for subsequent activation of transcription. Disruption of the dimer interface by a C203E substitution reduces SsrB activity. Modification of Cys(203) or Cys(45) may be an important mode of SsrB inactivation inside the host.
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PMID:Structural and functional analysis of the C-terminal DNA binding domain of the Salmonella typhimurium SPI-2 response regulator SsrB. 1912 46

The crystal structure of the DNA-damage checkpoint inhibitor of sporulation, Sda, from Bacillus subtilis, has been solved by the MAD technique using selenomethionine-substituted protein. The structure closely resembles that previously solved by NMR, as well as the structure of a homologue from Geobacillus stearothermophilus solved in complex with the histidine kinase KinB. The structure contains three molecules in the asymmetric unit. The unusual trimeric arrangement, which lacks simple internal symmetry, appears to be preserved in solution based on an essentially ideal fit to previously acquired scattering data for Sda in solution. This interpretation contradicts previous findings that Sda was monomeric or dimeric in solution. This study demonstrates the difficulties that can be associated with the characterization of small proteins and the value of combining multiple biophysical techniques. It also emphasizes the importance of understanding the physical principles behind these techniques and therefore their limitations.
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PMID:Structure of the sporulation histidine kinase inhibitor Sda from Bacillus subtilis and insights into its solution state. 1946 72

Several published functions associated with the CHK1 histidine kinase of Candida albicans resemble those of the MAPK Cek1p and its cognate receptor Sho1p (SSU81). To explore this further, we have compared mutants lacking the proteins mentioned above and have constructed a double sho1/chk1Delta null mutant to determine relationships among these proteins. We observed that the sensitivity to Congo red (CR), calcofluor white (CW), as well as clumping of cells, was slightly increased in the double mutant compared to the single chk1Delta or sho1Delta mutants. However, Cek1p phosphorylation via Sho1p, which occurs during log phase growth in the presence or absence of CR in Wt cells, does not require Chk1p. These data suggest that Chk1p and Sho1p are components of parallel but independent signal pathways. In addition, bulk mannan of strains was analyzed by GLC/MS and GPC MALLS and NMR. Compared to Wt and a CHK1 gene-reconstituted strain (CHK23) that contained high, intermediate and low Mw mannan species, we found that the mannan of strains CHK21 (chk1Delta null), the cek1Delta null, and the double mutant consisted only of low Mw mannan. The sho1Delta null mutant only demonstrated a reduced intermediate type of mannan. Alcian blue binding was lower in cek1Delta, chk1Delta, and the double sho1/chk1Delta null mutant lacking high and intermediate Mw mannan than in the sho1Delta null which had a partial loss of intermediate Mw mannan only. We conclude that the Chk1p HK is part of a functionally similar but parallel pathway to the Sho1p-Cek1p pathway that confers resistance to the cell wall inhibitors CR and CW. However, a functional relationship in mannan biosynthesis of Chk1p and Cek1p exists that only partially requires Sho1p.
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PMID:The Candida albicans histidine kinase Chk1p: signaling and cell wall mannan. 1956 1

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