Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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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)

K+ channels represent the most complex class of voltage-gated ion channels from both functional and structural standpoints. In the heart these channels are responsible for the rapid repolarizing phases of the action potential and are the targets of several antiarrhythmic drugs. Full-length cDNA clones were isolated from human ventricular libraries that encode two voltage-gated K+ channels. These two cDNAs, designated HK1 and HK2, encode proteins of 653 and 605 amino acids, respectively. HK1 is the human equivalent (98% identity) of an inactivating K+ channel previously described in rat heart (RHK1) whereas the HK2 channel is 86% identical to a cloned rat brain K+ channel (Kv1). The only amino acid sequence identity (72%) between HK1 and HK2 is within the central region containing the membrane spanning domains. Northern blot analysis of human mRNA indicated that HK1 is slightly more abundant in ventricle than atrium whereas HK2 is much more abundant in atrium relative to ventricle. Both channel transcripts are present in ventricle at levels equivalent to voltage-gated Na+ channels. Analysis of the gene encoding HK1 suggests the coding sequence is intronless and is represented once in the human genome.
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PMID:Molecular cloning and characterization of two voltage-gated K+ channel cDNAs from human ventricle. 200 94

Agrobacterium tumefaciens virulence genes are induced by plant signals through the VirA-VirG two-component regulatory system. The VirA protein is a membrane-spanning sensor molecule that possesses an autophosphorylating activity, and the VirG protein is a sequence-specific DNA-binding protein. In this report, we demonstrate that the VirG protein is phosphorylated by the VirA protein and that the phosphate is directly transferred from the phosphorylated VirA molecule (phosphohistidine) to the VirG protein. The chemical stability of the phospho-VirG bond suggested that the VirG protein was phosphorylated at the aspartate and/or glutamate residue. The phosphorylated VirG protein was reduced with tritiated sodium borohydride and subjected to proteolytic digestion with the Achromobacter protease I enzyme. The resulting peptide fragments were separated by C8 reversed-phase high-pressure liquid chromatography, and the tritium-labeled peptide was sequenced. Amino acid sequence data showed that the aspartate residue at position 52 was the only site phosphorylated. Changing this aspartate into asparagine resulted in a nonphosphorylatable and biologically nonfunctional gene product. As a control, a randomly chosen aspartate was changed into an asparagine (position 72), and no effect on its phosphorylation or biological activity was observed. Unlike its homologs, including CheA-CheY, EnvZ-OmpR, and NtrB-NtrC, the phospho-VirG molecule was very stable in vitro. The possible implications of these observations and the function of VirG phosphorylation in vir gene activation are discussed.
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PMID:Phosphorylation of the VirG protein of Agrobacterium tumefaciens by the autophosphorylated VirA protein: essential role in biological activity of VirG. 239 78

The ompB operon of Escherichia coli contains the structural genes for two proteins, OmpR and EnvZ, which control the osmoregulated biosynthesis of the porin proteins OmpF and OmpC. By inserting XbaI octamer linkers into the cloned ompB locus, four distinct frameshift mutants were isolated and subsequently characterized for their OmpR and EnvZ protein products and their outer membrane porin phenotype. In a minicell expression system, the wild-type products of the ompR and envZ genes were found to be approximately 28 and 50 kilodaltons in size, respectively, whereas the mutant proteins were either truncated or extended due to the frame shift. The identity of the envZ gene product was confirmed by immunoprecipitation. M13 dideoxy sequencing of the DNA around the wild-type ompR-envZ junction revealed an error in the sequence published for this operon; the complete corrected sequence is presented. A sequence, ATGA, was found that forms the termination codon for the OmpR reading frame and a possible initiation codon for the EnvZ protein; these sequences are consistent with the sizes of the proteins observed after sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The translational activity of this ATG codon was confirmed by fusing the lacZ gene in frame with the putative EnvZ coding sequence. The implications of these results are discussed with respect to the regulation of synthesis of the ompB gene products.
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PMID:Primary characterization of the protein products of the Escherichia coli ompB locus: structure and regulation of synthesis of the OmpR and EnvZ proteins. 299 20

It was demonstrated recently that three histidine kinases genes in Candida albicans contributed to virulence, indicating the importance of signaling pathways regulated by histidine kinases. In the present study, using a set of degenerate primers, RT-PCR was performed with cDNA of A. fumigatus as a template. PCR products were cloned and sequenced. After Blast analysis, it was found that one fragment (named as AFHK1), 305 bp, was highly homologous to the two-component histidine kinase tesA gene of Aspergillus nidulans. But AFHKI was not completely identical to the FOS-1 gene of A. fumigatus. The same A. fumigatus strain was used to inoculate the mice for a murine model of invasive pulmonary aspergillosis (IPA). After 5-days post-inoculation, the lungs of infected animals were removed and incubated for 2 h at 37 degrees C in digestion buffer containing collagenase and trypsin. The pulmonary cells were removed by passing the suspension through a sieve. The non-filterable hyphae were treated with deoxygenated sodium cholate. Total RNA of A. fumigatus isolated from the infected tissues or cultured in vitro was extracted. With AFHKI as a probe. a Northern blot was performed. A 3.0 kb (approximate) transcript of mRNA was detected corresponding to the putative histidine kinase gene. It was demonstrated that that gene was expressed at markedly higher levels in vivo than in vitro. The results suggest that this gene may contribute to the survival and virulence of A. fumigatus.
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PMID:Cloning of Aspergillus fumigatus histidine kinase gene fragment and its expression during invasive infection. 1191 67

FixL, a rhizobial heme-based O2-sensing histidine kinase, catalyzes autophosphorylation in the deoxy form at low O2 tension, while the kinase activity is inhibited in the case of the O2-bound form. The present study unambiguously shows that the binding of CO and NO does not significantly inhibit the kinase activity of dithiothreitol (DTT)-reduced ferrous FixL from Sinorhizobium meliloti, which is inconsistent with the spin state mechanism previously reported. Kinase inactivation is caused by aberrant disulfide (S-S) bond formation at Cys301 in the ferric homodimer, which explains these contradictory observations. The addition of DTT cleaved the S-S bond, leading to restoration of kinase activity in the ferric form as well as heme reduction, but, sodium hydrosulfite treatment produced the kinase-inactive deoxy form without S-S cleavage. On the basis of these experimental results, it can be concluded that ferrous FixL discriminates O2 from CO and NO, and signals the O2-bound state by downregulating the phosphoryl transfer reaction.
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PMID:O2-specific regulation of the ferrous heme-based sensor kinase FixL from Sinorhizobium meliloti and its aberrant inactivation in the ferric form. 1270 97

We surveyed the Porphyromonas gingivalis W83 genome database for homologues of FimS, the first two-component sensor histidine kinase, which could possibly control virulence factors. Including fimS, we found six putative sensor kinase genes in the genome. The gene encoding one of the homologues was cloned from a P. gingivalis plasmid library, sequenced, and analyzed using its mutants. Two gene-disruption mutants were created in strain ATCC 33277 by introducing a drug cassette into the gene. The mutants formed nonpigmented colonies, indicating that they might be defective in proteinase production, a characteristic of this organism. Proteinase activities, measured as arginine- and lysine-specific (Rgp and Kgp gingipains, respectively) activities, of the mutants were almost half those of the parent strain. Unlike the parent and wildtype strains, most of the gingipain activities were detected in the culture supernatant, not in cells, of the mutants. Abnormal production of gingipains was confirmed by sodium dodecyl sulfate polyacrylamide gel electrophoresis and Western blot analyses. These results strongly suggest that this newly-discovered two-component sensor kinase is involved in maturation and proper localization of gingipains to the outer membrane through an unknown mechanism. The gene encoding the sensor histidine kinase was designated gppX, which represents regulation (X) of gingipains and black pigmentation in P. gingivalis.
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PMID:A novel type of two-component regulatory system affecting gingipains in Porphyromonas gingivalis. 1463 96

Two-component regulatory systems play a major role in the physiological response of bacteria to environmental stimuli. Such systems are composed of a sensor histidine kinase and a response regulator whose ultimate function is to affect the expression of target genes. Response regulator mutants of Campylobacter jejuni strain F38011 were screened for sensitivity to sodium deoxycholate. A mutation in Cj0643, which encodes a response regulator with no obvious cognate histidine kinase, resulted in an absence of growth on plates containing a subinhibitory concentration of sodium deoxcholate (1%, wt/vol). In broth cultures containing 0.05% (wt/vol) sodium deoxycholate, growth of the mutant was significantly inhibited compared to growth of the C. jejuni F38011 wild-type strain. Complementation of the C. jejuni cbrR mutant in trans restored growth in both broth and plate cultures supplemented with sodium deoxycholate. Based on the phenotype displayed by its mutation, we designated the gene corresponding to Cj0643 as cbrR (Campylobacter bile resistance regulator). While the MICs of a variety of bile salts and other detergents for the C. jejuni cbrR mutant were lower, no difference was noted in its sensitivity to antibiotics or osmolarity. Finally, chicken colonization studies demonstrated that the C. jejuni cbrR mutant had a reduced ability to colonize compared to the wild-type strain. These data support previous findings that bile resistance contributes to colonization of chickens and establish that the response regulator, CbrR, modulates resistance to bile salts in C. jejuni.
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PMID:The Campylobacter jejuni response regulator, CbrR, modulates sodium deoxycholate resistance and chicken colonization. 1590 88

Mycobacterium tuberculosis is known to transform into the nonreplicating persistence state under the influence of hypoxia or nitric oxide. DevS-DevR is a two-component regulatory system that mediates the genetic response for the transformation. DevS is a histidine kinase that contains two GAF domains for sensing hypoxia or nitric oxide. The second GAF from M. smegmatis DevS was crystallized using the sitting-drop vapour-diffusion method in the presence of sodium citrate and 2-propanol as precipitants. X-ray diffraction data were collected from crystals containing selenomethionine to a maximum resolution of 2.0 A on a synchrotron beamline. The crystals belong to the hexagonal space group P6(1). The asymmetric unit contains one molecule, corresponding to a packing density of 2.5 A(3) Da(-1). The selenium substructure was determined by the single anomalous dispersion method and structure refinement is in progress.
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PMID:Crystallization and preliminary crystallographic analysis of the second GAF domain of DevS from Mycobacterium smegmatis. 1839 25

Salmonella enterica serovar Typhimurium secretes virulence factors for invasion called Sip proteins or Sips into its hosts through a type III secretion system (T3SS). In the absence of a host, S. enterica induces Sip secretion in response to sucrose or simple salts, such as NaCl. We analyzed induction of host-independent Sip secretion by monitoring protein secretion by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE), assembly of needle complexes by electron microscopy, and transcription of virulence regulatory genes by quantitative reverse transcriptase PCR (real-time PCR). SDS-PAGE showed that addition of sucrose or simple salts, such as NaCl, to the growth medium induced Sip secretion without altering flagellar protein secretion, which requires a distinct T3SS. Electron microscopy confirmed that the amount of secreted Sips increased as the number of assembled needle complexes increased. Real-time PCR revealed that added sucrose or NaCl enhanced transcription of hilA, hilC, and hilD, which encode known regulators of Salmonella virulence. However, epistasis analysis implicated HilD and HilA, but not HilC, in the direct pathway from the salt stimulus to the Sip secretion response. Further analyses showed that the BarA/SirA two-component signal transduction pathway, but not the two-component sensor kinase EnvZ, directly activated hilD and hilA transcription and thus Sip secretion in response to either sucrose or NaCl. Finally, real-time PCR showed that salt does not influence transcription of the BarA/SirA-dependent csrB and csrC genes. A model is proposed for the major pathway in which sucrose or salt signals to enhance virulence gene expression.
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PMID:Signal pathway in salt-activated expression of the Salmonella pathogenicity island 1 type III secretion system in Salmonella enterica serovar Typhimurium. 1844 Oct 68

Staphylococcus aureus reacts to changing environmental conditions such as heat, pH, and chemicals through global regulators such as the sae (S. aureus exoprotein expression) two-component signaling system. Subinhibitory concentrations of some antibiotics were shown to increase virulence factor expression. Here, we investigated the S. aureus stress response to sublethal concentrations of a commonly used biocide (Perform), by real-time quantitative PCR (qRT-PCR), promoter activity assay, sodium dodecyl sulfate (SDS)-polyacrylamide gel electrophoresis, and a flow cytometric invasion assay. Perform, acting through the production of reactive oxygen species, generally downregulated expression of extracellular proteins in strains 6850, COL, ISP479C but upregulated these proteins in strain Newman. Upregulated proteins were sae dependent. The Perform component SDS, but not paraquat (another oxygen donor), mimicked the biocide effect. Eap (extracellular adherence protein) was most prominently augmented. Upregulation of eap and sae was confirmed by qRT-PCR. Promoter activity of sae P1 was increased by Perform and SDS. Both substances enhanced cellular invasiveness, by 2.5-fold and 3.2-fold, respectively. Increased invasiveness was dependent on Eap and the sae system, whereas agr, sarA, sigB, and fibronectin-binding proteins had no major effect in strain Newman. This unique response pattern was due to a point mutation in SaeS (the sensor histidine kinase), as demonstrated by allele swapping. Newman saePQRS(ISP479C) behaved like ISP479C, whereas saePQRS(Newman) rendered ISP479C equally responsive as Newman. Taken together, the findings indicate that a point mutation in SaeS of strain Newman was responsible for increased expression of Eap upon exposure to sublethal Perform and SDS concentrations, leading to increased Eap-dependent cellular invasiveness. This may be important for understanding the regulation of virulence in S. aureus.
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PMID:A point mutation in the sensor histidine kinase SaeS of Staphylococcus aureus strain Newman alters the response to biocide exposure. 1978 32


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