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)

Temperature-dependent phosphorylation and dephosphorylation of membrane proteins was studied in vitro in a number of psychrotrophic Antarctic bacteria which grow between 0 and 30 degrees C. One of them, a Pseudomonas syringae isolate, was studied in detail and was found to have three membrane proteins of molecular mass 30, 65 and 85 kDa which were phosphorylated differently in response to low and high temperatures. The 65 kDa protein was phosphorylated only at lower temperatures (between 0 and 15 degrees C). The 30 kDa protein was phosphorylated more at higher temperatures and was possibly a histidine kinase. This protein was present in all the psychrotrophic Pseudomonas species studied and in Sphingobacterium antarcticus. A possible role for these proteins in sensing environmental temperature is proposed.
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PMID:Phosphorylation of membrane proteins in response to temperature in an Antarctic Pseudomonas syringae. 788 43

The wilt-inducing phytopathogen Pseudomonas solanacearum produces several extracellular virulence factors, both polysaccharides (EPS I) and proteins (EXPs), which are independently regulated by a LysR-type transcriptional regulator, PhcA, and a histidine kinase sensor, VsrB. Here we characterize a third locus, vsrA, which is also required for normal production of EPS I, some EXPs and wilt disease. Analysis of eps::lacZ reporters in vsrA mutants showed that, like vsrB and phcA, vsrA is required for maximal expression (transcription) of eps, which contains some of the genes necessary for production of EPS I. Unlike vsrB and phcA mutants, however, eps transcription (and EPS I production) by vsrA mutants varies from 3 to 17% of wild-type levels, depending on growth conditions. Inactivation of vsrA also causes a dramatic reduction in production of three species of EXPs (28 kDa, 48 kDa, and 66 kDa), and an apparent increase in production of a few other EXPs. Unlike most other EPS-deficient P. solanacearum strains, vsrA mutants caused almost no disease symptoms when 10(4) cells were stem-inoculated into tomato plants. This correlated with a greater than 10-fold reduction in their ability to grow in planta. vsrA was cloned from a P. solanacearum genomic library by complementation of the vsrA mutant and was further subcloned on a 2.3 kb DNA fragment. PhoA fusion analysis and subcellular localization of the vsrA gene product in Escherichia coli maxicells suggest that it is a 53 kDa membrane-associated protein. Analysis of the nucleotide sequence of vsrA revealed a 502 residue open reading frame with homology to the histidine kinase domain of sensors in the two-component regulator family. This discovery shows that EPS I production by P. solanacearum is simultaneously controlled by dual two-component sensors.
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PMID:VsrA, a second two-component sensor regulating virulence genes of Pseudomonas solanacearum. 815 73

Pseudomonas solanacearum, an important wilt pathogen of many plants, produces several extracellular proteins (EXPs) and extracellular polysaccharides (EPSs) that contribute to its virulence. Using TnphoA mutagenesis, we discovered a new gene, vsrB, that when inactivated causes a major reduction in the virulence and production of an EPS. Analysis of eps::lacZ reporters showed that vsrB is required for maximal expression (transcription) of eps, whose products are required for production of EPS I, a major virulence determinant. Analysis of EXPs in culture supernatants revealed that inactivation of vsrB also causes reduced production of two major EXPs, with molecular masses of 28 and 97 kDa, and a simultaneous 15-fold increase in levels of another EXP, PglA endopolygalacturonase. The vsrB gene was cloned from a P. solanacearum genomic library by complementation of the nonmucoid phenotype of the vsrB::TnphoA mutant and then subcloned on a 2.4-kb DNA fragment. TnphoA fusion analysis and subcellular localization of the vsrB gene product in Escherichia coli maxicells suggest that it is a ca. 60-kDa transmembrane protein. The nucleotide sequence of the 2.4-kb DNA fragment was determined, and a 638-amino-acid open reading frame was found for VsrB. A search of the GenBank data base found that the central part of VsrB has homology with the histidine kinase domain of sensors in the two-component regulator family, while the C terminus has homology with the phosphate receiver domain of response regulators in the same family. Genetic analysis suggests that the receiver domain is not required for vsrB function.
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PMID:vsrB, a regulator of virulence genes of Pseudomonas solanacearum, is homologous to sensors of the two-component regulator family. 840 89

Specific induction of the copper resistance operon (cop) promoter from Pseudomonas syringae was measured by beta-galactosidase production from a cop promoter-lacZ fusion. Induction of the cop promoter in P. syringae pv. syringae required trans-acting factors from copper resistance plasmid pPT23D, from which cop was originally cloned. Tn5 mutagenesis of pPT23D was used to localize two complementation groups immediately downstream from copABCD. Cloning and sequencing of the DNA in this region revealed two genes, copR and copS, expressed in the same orientation as the cop operon but from a separate constitutive promoter. The amino acid sequence deduced from these genes showed distinct similarities to known two-component regulatory systems, including PhoB-PhoR and OmpR-EnvZ. In addition, CopR showed strong similarity to copper resistance activator protein PcoR from Escherichia coli. Functional chromosomal homologs to copRS activated the cop promoter, in a copper-inducible manner, in copper-resistant or -sensitive strains of P. syringae pv. tomato and other Pseudomonas species. This implies that copper-inducible gene regulation is associated with a common chromosomally encoded function, as well as plasmid-borne copper resistance, in Pseudomonas spp.
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PMID:A two-component regulatory system required for copper-inducible expression of the copper resistance operon of Pseudomonas syringae. 844 73

A putative two-component system, mtrA-mtrB, was isolated from M. tuberculosis H37Rv by using phoB from Pseudomonas aeruginosa as a hybridization probe. The predicted gene product of mtrA displayed high similarity with typical response regulators, including AfsQ1, PhoB, PhoP, and OmpR. The predicted gene product of mtrB displayed similarities with the histidine protein kinases AfsQ2, PhoR, and EnvZ and other members of this class of proteins. Expression analysis in the T7 system showed that mtrA encoded a polypeptide with an apparent molecular mass of 30 kDa. MtrA was overproduced, purified, and demonstrated to participate in typical phosphotransfer reactions using a heterologous histidine protein kinase, CheA, as a phosphoryl group donor. Mycobacterium bovis BCG, harboring an mtrA-gfp (green fluorescent protein cDNA) transcriptional fusion, was used to monitor mtrA expression in infected J774 monolayers. Flow cytometric and fluorescence microscopic analyses indicated that the mtrA promoter was activated upon entry and incubation in J774 macrophages. In contrast, the hsp60-gfp fusion displayed no change in expression under the growth conditions tested. These results suggest a potential role for mtrA in adaptation of the M. tuberculosis complex organisms to environmental changes which may include intracellular conditions.
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PMID:Elements of signal transduction in Mycobacterium tuberculosis: in vitro phosphorylation and in vivo expression of the response regulator MtrA. 865 13

The two-component signal transduction pathways in bacteria use a histidine-aspartate phosphorelay circuit to mediate cellular changes in response to environmental stimuli. Here we describe a novel two-component todST system, which activates expression of the toluene degradation (tod) pathway in Pseudomonas putida F1. The todS gene is predicted to encode a sensory hybrid kinase with two unique properties--a basic region leucine zipper dimerization motif at the N terminus and a duplicated histidine kinase motif. Evidence from a synthetic peptide model suggests that TodS binds as a dimer to a pseudopalindromic sequence (5'-TGACTCA), which resembles the recognition sequence of the eukaryotic transcription factors Fos and Jun. These results provide additional evidence that bacteria and eukaryotes share common regulatory motifs. The todT gene product, a response regulator, was overproduced as a fusion protein in Escherichia coli, and the purified protein was found to bind specifically to a 6-bp palindromic DNA structure in the tod control region. The phosphorylated form of TodT appears to be the activator of tod structural genes. This is the first report of a two-component system that regulates aromatic metabolism in bacteria.
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PMID:A bacterial basic region leucine zipper histidine kinase regulating toluene degradation. 903 74

The chromosomal region of Pseudomonas sp. strain Y2 involved in the conversion of styrene to phenylacetate (upper catabolic pathway) has been cloned and sequenced. Four catabolic genes, styABCD, and two regulatory genes, stySR, were identified. This gene cluster when transferred to Escherichia coli W confers to this phenylacetate-degrading host the ability to grow on styrene as the sole carbon and energy source. Genes styABCD are homologous to those encoding the styrene upper catabolic pathway in Pseudomonas fluorescens ST. Northern blot analyses have confirmed that genes styABCD constitute a transcription unit. The transcription start site of the sty operon was mapped 33 nucleotides upstream of the styA translational start codon. The styS and styR genes, which form an independent transcriptional unit, are located upstream of the styABCD operon, and their gene products show high similarity to members of the superfamily of two-component signal transduction systems. The styS gene product is homologous to histidine kinase proteins, whereas the styR gene product exhibits similarity at its N-terminal domain with cluster 1 of receiver modules and at its C terminus with the LuxR/FixJ family 3 of DNA-binding domains. Expression of the catabolic operon decreased significantly in the absence of the stySR genes and was restored when the stySR genes were provided in trans in the presence of styrene, suggesting that the stySR system behaves as a styrene-inducible positive regulator of the styABCD operon. Finally, a gene encoding a phenylacetyl-coenzyme A ligase that catalyzes the first step in the phenylacetate catabolism (styrene lower catabolic pathway) has been identified upstream of the styS gene. This activity was found to be induced in Pseudomonas sp. strain Y2 cells grown on styrene but not present in cells grown on glycerol. These results strongly suggest that the genes responsible for the complete mineralization of styrene are clustered in the chromosome of Pseudomonas sp. strain Y2.
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PMID:Genetic and functional analysis of the styrene catabolic cluster of Pseudomonas sp. strain Y2. 949 43

Phytochromes are a family of photoreceptors used by green plants to entrain their development to the light environment. The distribution of these chromoproteins has been expanded beyond photoautotrophs with the discovery of phytochrome-like proteins in the nonphotosynthetic eubacteria Deinococcus radiodurans and Pseudomonas aeruginosa. Like plant phytochromes, the D. radiodurans receptor covalently binds linear tetrapyrroles autocatalytically to generate a photochromic holoprotein. However, the attachment site is distinct, using a histidine to potentially form a Schiff base linkage. Sequence homology and mutational analysis suggest that D. radiodurans bacteriophytochrome functions as a light-regulated histidine kinase, which helps protect the bacterium from visible light.
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PMID:Bacteriophytochromes: phytochrome-like photoreceptors from nonphotosynthetic eubacteria. 1061 69

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

A novel two-component system, CbrA-CbrB, was discovered in Pseudomonas aeruginosa; cbrA and cbrB mutants of strain PAO were found to be unable to use several amino acids (such as arginine, histidine and proline), polyamines and agmatine as sole carbon and nitrogen sources. These mutants were also unable to use, or used poorly, many other carbon sources, including mannitol, glucose, pyruvate and citrate. A 7 kb EcoRI fragment carrying the cbrA and cbrB genes was cloned and sequenced. The cbrA and cbrB genes encode a sensor/histidine kinase (Mr 108 379, 983 residues) and a cognate response regulator (Mr 52 254, 478 residues) respectively. The amino-terminal half (490 residues) of CbrA appears to be a sensor membrane domain, as predicted by 12 possible transmembrane helices, whereas the carboxy-terminal part shares homology with the histidine kinases of the NtrB family. The CbrB response regulator shows similarity to the NtrC family members. Complementation and primer extension experiments indicated that cbrA and cbrB are transcribed from separate promoters. In cbrA or cbrB mutants, as well as in the allelic argR9901 and argR9902 mutants, the aot-argR operon was not induced by arginine, indicating an essential role for this two-component system in the expression of the ArgR-dependent catabolic pathways, including the aruCFGDB operon specifying the major aerobic arginine catabolic pathway. The histidine catabolic enzyme histidase was not expressed in cbrAB mutants, even in the presence of histidine. In contrast, proline dehydrogenase, responsible for proline utilization (Pru), was expressed in a cbrB mutant at a level comparable with that of the wild-type strain. When succinate or other C4-dicarboxylates were added to proline medium at 1 mM, the cbrB mutant was restored to a Pru+ phenotype. Such a succinate-dependent Pru+ property was almost abolished by 20 mM ammonia. In conclusion, the CbrA-CbrB system controls the expression of several catabolic pathways and, perhaps together with the NtrB-NtrC system, appears to ensure the intracellular carbon: nitrogen balance in P. aeruginosa.
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PMID:The CbrA-CbrB two-component regulatory system controls the utilization of multiple carbon and nitrogen sources in Pseudomonas aeruginosa. 1140 99


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