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)

We show that inactivation of envZ, the gene encoding the histidine kinase sensor protein, EnvZ, of Xenorhabdus nematophilus, affected the production of several outer membrane proteins (Opns). X. nematophilus produced five major Opns during exponential growth. Insertional inactivation of envZ led to a decrease in the production of OpnP, the OmpF-like pore-forming protein which constitutes approximately 50% of the total outer membrane protein in X. nematophilus. OpnA production was also reduced, while the remaining Opns were produced normally. During the transition to stationary phase, three new outer membrane proteins, OpnB, OpnS, and OpnX, were induced in the wild-type strain. The envZ-minus strain, ANT1, did not produce OpnB and OpnX, while OpnS was induced at markedly reduced levels. These results suggest that EnvZ was required for the high-level production of OpnP during exponential growth and may be involved in the production of OpnB, OpnS, and OpnX during stationary-phase growth. We also show that ANT1 was more pathogenic than the wild-type strain when as few as five cells were injected into the hemolymph of the larval stage of the tobacco hornworm (Manduca sexta). The larvae died before significant numbers of bacteria were detectable in the hemolymph. These results are discussed in relation to the role of EnvZ in the life cycle of X. nematophilus.
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PMID:Role of the histidine kinase, EnvZ, in the production of outer membrane proteins in the symbiotic-pathogenic bacterium Xenorhabdus nematophilus. 905 14

EnvZ is an inner membrane protein present in Escherichia coli that is important for osmosensing and required for porin gene regulation. EnvZ is phosphorylated by intracellular ATP, and EnvZ-P phosphorylates OmpR, which then binds to the porin promoters to regulate their expression. An overexpressed, truncated form of the enzyme, EnvZ115, was used to characterize the kinase reaction in vitro. Using a filter binding assay, we report the first direct measurements of the kinase activity, including the apparent affinity for ATP of 200 microM. The phosphorylation reaction is dependent on MgCl2, and the phosphoenzyme has the expected stability of a phosphohistidine; i.e., it is stable in base and less stable in acid at room temperature. The addition of OmpR and ATP to solutions containing EnvZ resulted in an OmpR-stimulated, EnvZ-dependent ATPase activity that was not vanadate-sensitive. The in vivo kinase activity of EnvZ and two mutants that were deficient in porin expression were studied using an immune complex kinase reaction. Interestingly, a mutation located in the periplasmic domain of EnvZ exhibited kinase activity that was identical to that of the wild-type enzyme, while a mutation located close to the phosphorylation site showed a significant decrease in both kinase and phosphotransferase activities. These data provide support for models of EnvZ consisting of separate sensing and kinase domains.
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PMID:Kinase activity of EnvZ, an osmoregulatory signal transducing protein of Escherichia coli. 934 78

In Escherichia coli, porin gene expression is regulated, in part, by the two-component regulatory system consisting of the two proteins EnvZ and OmpR. EnvZ is an integral inner membrane protein that is phosphorylated by cytoplasmic ATP on a histidine residue. EnvZ modulates the activity of OmpR by phosphorylation and dephosphorylation. Phospho-OmpR (OmpR-P) binds to the porin genes ompF and ompC to regulate their expression. The simple affinity model predicts that as the concentration of OmpR-P increases, initially high-affinity binding sites on ompF are filled. Then binding sites of lower affinity on ompF and ompC are occupied and this ordered binding accounts for the differential expression of the porin genes. We demonstrate that acetyl phosphate phosphorylates OmpR at aspartate 55, the same residue phosphorylated by the kinase EnvZ. Quantification of the level of OmpR-P by HPLC and direct measurement of the binding affinities enabled us to test the affinity model. Our results indicate that phosphorylation dramatically increases the affinity of OmpR for its binding sites (greater than tenfold). We also show that the affinities of OmpR-P for F1 and C1 binding sites are not sufficiently different to provide a strong basis for discrimination. The consequences of these observations for the simple affinity model are considered.
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PMID:Relative binding affinities of OmpR and OmpR-phosphate at the ompF and ompC regulatory sites. 971 40

Halophilic archaea, such as eubacteria, use methyl-accepting chemotaxis proteins (MCPs) to sense their environment. We show here that BasT is a halobacterial transducer protein (Htp) responsible for chemotaxis towards five attractant amino acids. The C-terminus of the protein exhibits the highly conserved regions that are diagnostic for MCPs: the signalling domain for communication with the histidine kinase and the methylation sites that interact with the methylation/demethylation enzymes for adaptation. Hydropathy analysis predicts an enterobacterial-type transducer protein topology for BasT, with an extracellular putative ligand-binding domain flanked by two transmembrane helices and a cytoplasmic domain. BasT-inactivated mutant cells are missing a membrane protein radiolabelled with L-[methyl-3H]-methionine in wild-type cells, confirming that BasT is methylatable and membrane bound. Behavioural analysis of the basT mutant cells by capillary and chemical-in-plug assays demonstrates complete loss of chemotactic responses towards five (leucine, isoleucine, valine, methionine and cysteine) of the six attractant amino acids for Halobacterium salinarum, whereas they still respond to arginine. The volatile methyl group production assays also corroborate these findings and confirm that BasT signalling induces methyl group turnover. Our data identify BasT as the chemotaxis transducer protein for the branched chain amino acids leucine, isoleucine and valine as well as for methionine and cysteine. Thus, BasT and the arginine sensor Car cover the entire spectrum of chemotactic responses towards attractant amino acids in H. salinarum.
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PMID:BasT, a membrane-bound transducer protein for amino acid detection in Halobacterium salinarum. 1067 86

Although the involvement of taurine in osmoregulation is well-documented and widely accepted, no detailed mechanism for this function has been reported so far. We used subtractive hybridization to study mRNA steady state levels of genes up- or downregulated by taurine. Rats were fed taurine 100 mg/kg body weight per day for a period of three days and hearts (total ventricular tissue) of experimental animals and controls were pooled and used for mRNA extraction. mRNAs from two groups were used for subtractive hybridization. Clones of the subtractive library were sequenced and the obtained sequences were identified by gen bank assignment. Two clones were found to contain sequences which could be assigned to the osmolarity sensor protein envZ, showing homologies of 61 and 65%. EnvZ is an inner membrane protein in bacteria, important for osmosensing and required for porine gene regulation. It undergoes autophosphorylation and subsequently phosphorylates OmpR, which in turn binds to the porine (outer membrane protein) promoters to regulate the expression of OmpF and OmpC, major outer membrane porines. This is the first report of an osmosensing mechanism in the mammalian system, which was described in bacteria only. Furthermore, we are assigning a tentative role for taurine in the osmoregulatory process by modifying the expression of the osmoregulatory sensor protein ENVZ.
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PMID:Evidence that taurine modulates osmoregulation by modification of osmolarity sensor protein ENVZ--expression. 1070 64

Transcription of the type IV pilus subunit gene of Pseudomonas aeruginosa is controlled by a two-component signal transduction system. PilS, the histidine kinase, is membrane bound and PilR, its cognate response regulator, is cytoplasmic. The signal that activates PilS is unknown. PilS has three domains: (i) The N-terminus, predicted to form six transmembrane (TM) helices; (ii) a central linker domain; and (iii) the C-terminal transmitter domain containing all the conserved residues of sensor kinases. A translational fusion of the gfp gene (green fluorescent protein) to the 3' end of pilS was used to determine the position of PilS in the bacterial cell. Epifluorescence microscopy revealed that PilS is retained to the poles of P. aeruginosa but is distributed evenly about the membrane of Escherichia coli. Deletions of the PilS-GFP fusion revealed that the TM domain was sufficient and necessary to bring GFP to the membrane of P. aeruginosa and E. coli but was not sufficient to confine GFP to the poles. Retention to the poles of P. aeruginosa required both the TM and linker domains. Replacement of the PilS TM domain with an E. coli membrane protein, MalG, still allowed polar localization. Therefore, the PilS TM domain positions the linker domain close to the membrane allowing it to interact with the putative polar anchor which is specific to P. aeruginosa.
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PMID:Localization of the histidine kinase PilS to the poles of Pseudomonas aeruginosa and identification of a localization domain. 1076 Jan 72

The Cpx envelope stress response of Escherichia coli is controlled by a two-component regulatory system that senses misfolded proteins in extracytoplasmic compartments and responds by inducing the expression of envelope protein folding and degrading factors. We have proposed that in the absence of envelope stress the pathway is maintained in a downregulated state, in part through interactions between the periplasmic inhibitor molecule CpxP and the sensing domain of the histidine kinase CpxA. In this study, we show that depletion of the periplasmic contents of the cell by spheroplast formation does indeed lead to induction of the Cpx envelope stress response. Further, removal of CpxP is an important component of this induction because tethering an MBP-CpxP fusion protein to the spheroplast inner membranes prevents full activation by this treatment. Spheroplast formation has previously been demonstrated to induce the expression of a periplasmic protein of unknown function, Spy. Analysis of spy expression in response to spheroplast formation by Western blot analysis and by lacZ operon fusion in various cpx mutant backgrounds demonstrated that spy is a member of the Cpx regulon. Interestingly, although the only known spy homologue is cpxP, Spy does not appear to perform the same function as CpxP as it is not involved in inhibiting the Cpx envelope stress response. Rather, deletion of spy leads to activation of the sigmaE stress response. Because the sigmaE response is specifically affected by alterations in outer membrane protein biogenesis, we think it possible that Spy may be involved in this process.
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PMID:Tethering of CpxP to the inner membrane prevents spheroplast induction of the cpx envelope stress response. 1097 35

The histidine kinase (HK) component of many two-component regulatory systems exhibits regulated ability to phosphorylate itself and to participate in transfer of phosphate to and from its cognate response regulator. The signaling system that controls expression of the UhpT sugar phosphate transporter in Escherichia coli in response to external glucose 6-phosphate includes the HK protein UhpB and the polytopic membrane protein UhpC, a UhpT homolog which is required for responsiveness to an inducer and activation of UhpB. The existence of a UhpBC signaling complex is suggested by the requirement for UhpC for the activity of certain constitutively active variants of UhpB, the dominance and epistasis relationships of uhp alleles, and the finding that expression of UhpB in excess of UhpC has a strong dominant-negative effect. Expression of a hybrid protein containing the cytoplasmic C-terminal half of UhpB fused to glutathione S-transferase (GST) also interfered with Uhp signaling. This interference phenotype could not result solely from the phosphatase activity of UhpB, because interference affected both overexpressed UhpA and UhpA variants which are active in the absence of phosphorylation. Variant forms of UhpB which were active in the absence of UhpC carried amino acid substitutions near motifs conserved in HK proteins. The GST fusion protein inhibited the ability of UhpA to bind and activate transcription at the uhpT promoter. Unlike the wild-type situation, a GST fusion variant carrying one of the UhpB-activating substitutions, R324C, displayed autokinase activity and phosphate transfer to UhpA but retained the ability to sequester UhpA when it was altered in the conserved residues important for phosphate transfer. Thus, the default state of UhpB is kinase off, and activation of its phosphate transfer activity requires either the action of UhpC or the occurrence of certain mutations in UhpB. The interference phenotype shown by UhpB in excess of UhpC appears to include the binding and sequestration of UhpA.
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PMID:The histidine kinase domain of UhpB inhibits UhpA action at the Escherichia coli uhpT promoter. 1105 70

We report cloning and characterization of a 2.8 kb DNA fragment that suppressed the aerial mycelium-deficient phenotype of an amfR mutant of Streptomyces griseus when it was introduced on a high-copy-number plasmid. Nucleotide sequencing revealed that the cloned DNA fragment contained a part of a regulatory operon homologous to one of the conserved operons identified in the genome of Streptomyces coelicolor A3(2). The operon appeared to consist of 5 CDSs (rarA-E; restoration of aerial mycelium formation in an amfR mutant): rarA encoded a membrane protein with weak similarity to the histidine kinase of the two-component regulatory system; rarB and rarC products did not show marked similarity to other proteins with known function; rarD encoded a G-protein carrying two GTP-binding consensus sequences conserved in the eukaryotic Ras-like proteins; rarE product showed end-to-end homology to cytochrome P450. The 2.8 kb fragment contained a 5'-end incomplete rarA and complete rarB-D in the downstream from the promoter region of mel operon of the vector plasmid. Subcloning showed that the region containing rarA only is sufficient for the aerial mycelium-inducing activity. The truncation of rarA at its 5' terminus was essential for the restoration activity, which implied that the mutated rarA product causes unusual signaling that directs the onset of morphogenesis without amfR function. Inactivation of both rarA in Streptomyces griseus and cvnD9, a rarD ortholog in S. coelicolor resulted in precocious and glucose-resistant formation of aerial mycelium and secondary metabolites, which suggested that the operon negatively regulates the onset of differentiation. S1 nuclease protection analysis showed that the transcriptional activity of the promoter preceding rarA is developmentally regulated in an amfR- and glucose-dependent manner.
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PMID:Cloning of the conserved regulatory operon by its aerial mycelium-inducing activity in an amfR mutant of Streptomyces griseus. 1265 69

In a previous bioinformatics-based search for novel small-RNA genes encoded by the Escherichia coli genome, we identified a region, IS063, located between the ompN and ydbK genes, that encodes an approximately 100-nucleotide small-RNA transcript. Here we show that the expression of this small RNA is increased at a low temperature and in minimal medium. Twenty-two nucleotides at the 5' end of this transcript have the potential to form base pairs with the leader sequence of the mRNA encoding the outer membrane protein OmpC. The deletion of IS063 increased the expression of an ompC-luc translational fusion 1.5- to 2-fold, and a 10-fold overexpression of the small RNA led to a 2- to 3-fold repression of the fusion. Deletion and overexpression of the IS063 RNA also resulted in increases and decreases, respectively, in OmpC protein levels. Taken together, these results suggest that IS063 is a regulator of OmpC expression; thus, the small RNA has been renamed MicC. The antisense regulation was further demonstrated by the finding that micC mutations were suppressed by compensatory mutations in the ompC mRNA. MicC was also shown to inhibit ribosome binding to the ompC mRNA leader in vitro and to require the Hfq RNA chaperone for its function. We suggest that the MicF and MicC RNAs act in conjunction with the EnvZ-OmpR two-component system to control the OmpF/OmpC protein ratio in response to a variety of environmental stimuli.
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PMID:MicC, a second small-RNA regulator of Omp protein expression in Escherichia coli. 1546 17


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