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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)

Phosphohistidine goes undetected in conventional studies of protein phosphorylation, although it may account for 6% of total protein phosphorylation in eukaryotes. Procedures for studying protein N- kinases are described. Genes whose products are putative protein histidine kinases occur in a yeast and a plant. In rat liver plasma membranes, activation of the small G-protein, Ras, causes protein histidine phosphorylation. Cellular phosphatases dephosphorylate phosphohistidine. One eukaryotic protein histidine kinase has been purified, and specific proteins phosphorylated on histidine have been observed. There is a protein arginine kinase in mouse and protein lysine kinases in rat. Protein phosphohistidine may regulate the mitogen-activated protein kinase cascade.
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PMID:Protein kinases and phosphatases that act on histidine, lysine, or arginine residues in eukaryotic proteins: a possible regulator of the mitogen-activated protein kinase cascade. 857 21

We have cloned and analysed the sequence of a putative histidine kinase, two-component gene (CaHK1) from Candida albicans. This gene encodes a 2471 amino acid protein (Cahk1p) with an estimated molecular mass of 281.8 kDa. A homology search of Cahk1p with other proteins in the databases showed that Cahk1p exhibits the greatest homology at its C-terminus with both the sensor and regulator components of prokaryotic and eukaryotic two-component histidine kinases. A further analysis of this homology showed that the Cahk1p possessed both sensor and regulator domains in the same polypeptide. Also, Cahk1p is likely to be a soluble protein. The sensor kinase domain of Cahk1p contains conserved motifs that are characteristic of all histidine kinase proteins, including the putative histidine which is believed to be autophosphorylated during activation, ATP binding motifs and others (F- and N-motifs), with unknown function. The Cahk1p regulator domain also contains conserved aspartate and lysine residues and the putative aspartate, which is secondarily phosphorylated by the autophosphorylated histidine. Finally, according to the codon usage frequency of the CaHK1 gene in comparison with other genes from C. albicans, there would appear to be a low level of expression of the gene.
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PMID:Identification of a putative histidine kinase two-component phosphorelay gene (CaHK1) in Candida albicans. 963 13

Bacillus subtilis PhoP is a member of the OmpR/PhoB family of response regulators that is directly required for transcriptional activation or repression of Pho regulon genes in conditions under which P(i) is growth limiting. Characterization of the PhoP protein has established that phosphorylation of the protein is not essential for PhoP dimerization or DNA binding but is essential for transcriptional regulation of Pho regulon genes. DNA footprinting studies of PhoP-regulated promoters showed that there was cooperative binding between PhoP dimers at PhoP-activated promoters and/or extensive PhoP oligomerization 3' of PhoP-binding consensus repeats in PhoP-repressed promoters. The crystal structure of PhoPN described in the accompanying paper revealed that the dimer interface between two PhoP monomers involves nonidentical surfaces such that each monomer in a dimer retains a second surface that is available for further oligomerization. A salt bridge between R113 on one monomer and D60 on another monomer was judged to be of major importance in the protein-protein interaction. We describe the consequences of mutation of the PhoP R113 codon to a glutamate or alanine codon and mutation of the PhoP D60 codon to a lysine codon. In vivo expression of either PhoP(R113E), PhoP(R113A), or PhoP(D60K) resulted in a Pho-negative phenotype. In vitro analysis showed that PhoP(R113E) was phosphorylated by PhoR (the cognate histidine kinase) but was unable to dimerize. Monomeric PhoP(R113E) approximately P was deficient in DNA binding, contributing to the PhoP(R113E) in vivo Pho-negative phenotype. While previous studies emphasized that phosphorylation was essential for PhoP function, data reported here indicate that phosphorylation is not sufficient as PhoP dimerization or oligomerization is also essential. Our data support the physiological relevance of the residues of the asymmetric dimer interface in PhoP dimerization and function.
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PMID:Residue R113 is essential for PhoP dimerization and function: a residue buried in the asymmetric PhoP dimer interface determined in the PhoPN three-dimensional crystal structure. 1248 63

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

Signature-tagged mutagenesis (STM) was used to identify new genes involved in the virulence of the Gram-positive intracellular pathogen Listeria monocytogenes. One of the mutants isolated by this technique had the transposon inserted in virR, a gene encoding a putative response regulator of a two-component system. Deletion of virR severely decreased virulence in mice as well as invasion in cell-culture experiments. Using a transcriptomic approach, we identified 12 genes regulated by VirR, including the dlt-operon, previously reported to be important for L. monocytogenes virulence. However, a strain lacking dltA, was not as impaired in virulence as the DeltavirR strain, suggesting a role in virulence for other members of the vir regulon. Another VirR-regulated gene is homologous to mprF, which encodes a protein that modifies membrane phosphatidyl glycerol with l-lysine and that is involved in resistance to human defensins in Staphylococcus aureus. VirR thus appears to control virulence by a global regulation of surface components modifications. These modifications may affect interactions with host cells, including components of the innate immune system. Surprisingly, although controlling the same set of genes as VirR, the putative cognate histidine kinase of VirR, VirS, encoded by a gene located three genes downstream of virR, was shown not to be essential for virulence. By monitoring the activity of VirR with a GFP reporter construct, we showed that VirR can be activated independently of VirS, for example through a mechanism involving variations in the level of intracellular acetyl phosphate. In silico analysis of the VirR-regulated promoters revealed a VirR DNA-binding consensus site and specific interaction between purified VirR protein and this consensus sequence was demonstrated by gel mobility shift assays. This study identifies a second key virulence regulon in L. monocytogenes, after the prfA regulon.
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PMID:VirR, a response regulator critical for Listeria monocytogenes virulence. 1610 6

We have measured the transcription of several genes that have been implicated as virulence factors in Aspergillus fumigatus, including fos-1, a histidine kinase, two-component signal protein, rhbA, a ras-related protein required for signaling, pksP, a polyketide synthase involved in biosynthesis of melanin, pabA synthetase, an enzyme catalyzing a late step in the biosynthesis of folate, lysF, a homoconitase related to lysine biosynthesis, and cpcA, the transcriptional activator of the cross-pathway control system of amino acid biosynthesis. Transcription levels were determined from in vitro grown organism as well as from lung tissue from mice infected with A. fumigatus. Our data indicate that fos-1 and rhbA transcription increased significantly during the infection in mice, compared to the other genes whose transcription remained the same (pksP, cpcA, pabA) or decreased slightly (lysF). In vitro measurements of transcription compared to transcription in infected lung tissue demonstrated low levels of fos-1 and rhbA, 20-40-fold increases (cpcA, lysF, pabA), while pksP was not detected from cultures. Our data demonstrate that transcription of these genes differs in vitro versus during disease.
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PMID:Expression of Aspergillus fumigatus virulence-related genes detected in vitro and in vivo with competitive RT-PCR. 1620 68

Daptomycin is a lipopeptide antibiotic used clinically to treat infections caused by Gram-positive bacteria. Laboratory studies have shown that Staphylococcus aureus resistance to daptomycin occurs stepwise and slowly. Mutations associated with decreased susceptibility were mapped in mprF, yycG, rpoB, and rpoC, each giving about twofold increases in the minimal inhibitory concentration (MIC) and combinations giving higher MICs. The mprF gene encodes a dual functional enzyme that couples lysine to phosphatidylglycerol (PG) and transfers the lysyl-PG (LPG) to the outer leaflet of the membrane. LPG is less acidic than PG, and thus reduces the binding of Ca(++)-bound daptomycin to bacterial membranes. The mprF mutants have higher LPG/PG ratios in the membrane outer leaflet and bind less daptomycin than the wild-type strain. YycG is a sensor histidine kinase of a two component signal transduction system required for viability in many low G+C Gram-positive bacteria. The observation of DapR mutations in yycG suggests that YycG may be a target for daptomycin antibacterial activity. Daptomycin inserts into PG rich membrane at the cell division septum, but also inserts into lung surfactant, explaining why it failed to meet non-inferiority criteria in clinical trials for community acquired pneumonia (CAP). Recent advances in biosynthetic engineering have provided new tools to generate novel lipopeptides with modifications in the core peptide: several were very potent antibiotics against Gram-positive pathogens, and some were active in the presence of surfactant.
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PMID:Daptomycin: mechanisms of action and resistance, and biosynthetic engineering. 1930 6

The Gram-positive soil bacterium Corynebacterium glutamicum is used in microbial biotechnology for the large-scale production of amino acids, e.g., L: -glutamate and L: -lysine. We have studied the response of this organism to hyperosmotic challenge at the level of both transcription and protein activity. Two systems responding to hyperosmotic stress in C. glutamicum are reviewed here, the two component system MtrAB and the glycine-betaine uptake system BetP. The osmosensory two-component system consists of the membrane-bound histidine kinase MtrB and the soluble response regulator MtrA. MtrB was shown to perceive a so far unknown physical stimulus related to hyperosmotic stress via the cytoplasmically oriented phosphorylation domain, and to transduce the signal to the DNA via MtrA. The secondary active transporter BetP takes up betaine in cotransport with two Na(+) ions. BetP responds to hyperosmotic stress by increased transcription mediated via MtrAB signaling, and by instant activation of transport. In the mechanism of BetP activation, the C-terminal, regulatory domain of BetP, the cytoplasmic concentration of K(+), and negative membrane surface charges are involved. The molecular mechanism of the activation process is discussed in relation to the recently published X-ray structure of BetP.
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PMID:Osmosensing and osmosignaling in Corynebacterium glutamicum. 1930 62

Some Gram-negative bacteria express a novel enzyme with lysine-epsilon-oxidase (LOD) activity (EC 1.4.3.20). The oxidation of l-Lys generates, among other products, hydrogen peroxide, which confers antimicrobial properties to this kind of enzyme and has been shown to be involved in cell death during biofilm development and differentiation. In addition to LOD, the melanogenic marine bacterium Marinomonas mediterranea, which forms part of the microbiota of the marine plant Posidonia oceanica, expresses two other oxidases of biotechnological interest, a multicopper oxidase, PpoA, with laccase activity and a tyrosinase named PpoB, which is responsible for melanin synthesis. By using both lacZ fusions with the lodAB promoter and quantitative reverse transcription-PCR (qRT-PCR), this study shows that the hybrid sensor histidine kinase PpoS regulates LOD activity at the transcriptional level. Although PpoS also regulates PpoA and PpoB, in this case, the regulatory effect cannot be attributed only to a transcriptional regulation. Further studies indicate that LOD activity is induced at the posttranscriptional level by l-Lys as well as by two structurally similar compounds, l-Arg and meso-2,6-diaminopimelic acid (DAP), neither of which is a substrate of the enzyme. The inducing effect of these compounds is specific for LOD activity since PpoA and PpoB are not affected by them. This study offers, for the first time, insights into the mechanisms regulating the synthesis of the antimicrobial protein lysine-epsilon-oxidase in M. mediterranea, which could be important in the microbial colonization of the seagrass P. oceanica.
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PMID:Regulation of the Marinomonas mediterranea antimicrobial protein lysine oxidase by L-lysine and the sensor histidine kinase PpoS. 2065 78

The CsrRS (or CovRS) two component system controls expression of up to 15% of the genome of group A Streptococcus (GAS). While some studies have suggested that the sensor histidine kinase CsrS responds to membrane perturbations as a result of various environmental stresses, other data have implicated the human antimicrobial peptide LL-37 and extracellular Mg(2+) as specific signals. We now report that Mg(2+) and LL-37 have opposite effects on expression of multiple genes that are activated or repressed by the transcriptional regulator CsrR. Using a GAS isolate representative of the recently emerged and widely disseminated M1T1 clone implicated in severe invasive disease, we found marked up-regulation by CsrRS of multiple virulence factors including pyrogenic exotoxin A, DNase Sda1, streptolysin O, and the hyaluronic acid capsular polysaccharide, among others. Topology and surface protein labeling studies indicated that CsrS is associated with the bacterial cell membrane and has a surface-exposed extracellular domain accessible to environmental ligands. Replacement of a cluster of three acidic amino acids with uncharged residues in the extracellular domain of CsrS abrogated LL-37 signaling and conferred a hyporesponsive phenotype consistent with tonic activation of CsrS autokinase activity, an effect that could be overridden by mutation of the CsrS active site histidine. Both loss- and gain-of-function mutations of a conserved site in the receiver domain of CsrR established an essential role for lysine 102 in CsrS-to-CsrR signal transduction. These results provide strong evidence that Mg(2+) and LL-37 are specific signals that function by altering CsrS autokinase activity and downstream phosphotransfer to CsrR to modulate its activity as a transcriptional regulator. The representation of multiple antiphagocytic and cytotoxic factors in the CsrRS regulon together with results of in vitro phagocytic killing assays support the hypothesis that CsrRS mediates conversion of GAS from a colonizing to an invasive phenotype in response to signaling by host LL-37.
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PMID:Signal transduction through CsrRS confers an invasive phenotype in group A Streptococcus. 2204 38


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