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)

MHYT, a new conserved protein domain with a likely signaling function, is described. This domain consists of six transmembrane segments, three of which contain conserved methionine, histidine, and tyrosine residues that are projected to lie near the outer face of the cytoplasmic membrane. In Synechocystis sp. PCC6803, this domain forms the N-terminus of the sensor histidine kinase Slr2098. In Pseudomonas aeruginosa and several other organisms, the MHYT domain forms the N-terminal part of a three-domain protein together with previously described GGDEF and EAL domains, both of which have been associated with signal transduction due to their presence in likely signaling proteins. In Bacillus subtilis YkoW protein, an additional PAS domain is found between the MHYT and GGDEF domains. A ykoW null mutant of B. subtilis did not exhibit any growth alterations, consistent with a non-essential, signaling role of this protein. A model of the membrane topology of the MHYT domain indicates that its conserved residues could coordinate one or two copper ions, suggesting a role in sensing oxygen, CO, or NO.
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PMID:MHYT, a new integral membrane sensor domain. 1172 10

Phosphorylation of the transcription factor RmFixJ is the key step in the hypoxic induction of Sinorhizobium meliloti nitrogen fixation genes. Oxygen regulates this process by binding reversibly to RmFixL, a heme protein kinase whose deoxy form catalyzes the phosphoryl transfer from ATP to RmFixJ. Here we present the first quantitative measure of the extent by which various heme ligands inhibit the turnover of RmFixJ to phospho-RmFixJ. We also quantitate the inhibition by ligands of the reaction of RmFixL with ATP, in the absence of RmFixJ, to form phospho-RmFixL, i.e., the "autophosphorylation". Phospho-RmFixL formed from autophosphorylation will transfer its phosphoryl group to RmFixJ in an oxygen-independent "phosphotransfer." Here we show that the mode of substrate presentation, i.e., simultaneous versus sequential, influences the regulation of phosphoryl transfer by heme status. Inhibition factors for O(2), CO, NO, CN(-), and imidazole in the presence of RmFixJ are drastically different from the inhibition of autophosphorylation by the same ligands. Oxidation of the heme iron in unliganded RmFixL is known to have no effect on either of the sequential reactions; yet oxidation causes a 100-fold decrease in RmFixJ turnover when ATP and RmFixJ are presented simultaneously. The profound difference between the regulation of isolated RmFixL versus the complex of RmFixL with RmFixJ shows that interaction of a response regulator with its histidine-kinase partner need not be limited to the enzymatic regions of the histidine kinase, but can extend also to its sensory domain.
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PMID:Ligand and oxidation-state specific regulation of the heme-based oxygen sensor FixL from Sinorhizobium meliloti. 1199 13

Elemental manganese is essential for the production of molecular oxygen by cyanobacteria, plants, and algae. In the cyanobacterium Synechocystis sp. PCC 6803, transcription of the mntCAB operon, encoding a high affinity Mn transporter, occurs under Mn starvation (nm Mn) conditions but not in Mn-sufficient (microm Mn) growth medium. Using a strain in which the promoter of this operon directs the transcription of the luxAB reporter genes, we determined that inactivation of the slr0640 gene, which encodes a histidine kinase sensor protein component of a two-component signal transduction system, resulted in constitutive high levels of lux luminescence. Systematic targeted inactivation mutagenesis also identified slr1837 as the gene encoding the corresponding response regulator protein. We have named these two genes manS (manganese-sensor) and manR (manganese-regulator), respectively. A polyhistidine-tagged form of the ManS protein was localized in the Synechocystis 6803 cell membrane. Directed replacement of the conserved catalytic His-205 residue of this protein by Leu abolished its activity, although the mutated protein was present in cyanobacterial membrane. This mutant also showed suboptimal rates of Mn uptake under either Mn-starved or Mn-sufficient growth condition. These data suggest that the ManS/ManR two-component system plays a central role in the homeostasis of manganese in Synechocystis 6803 cells.
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PMID:A two-component signal transduction pathway regulates manganese homeostasis in Synechocystis 6803, a photosynthetic organism. 1203 66

Interleukin-8 (Il-8) and IL-10 are cytokines associated with the Epstein Barr Virus (EBV), which is linked with nasopharyngeal cancer (NPC). In the present study, we investigated the endogenous production of IL-8 and IL-10 in vitro by two EBV-positive NPC cell lines, viz., HK1 and CNE-2. IL-8 was expressed by both cell lines although the level of IL-8 was 2-fold higher in supernatant from HK1 cells. Incubation with hypericin, a natural photosensitizer increased IL-8 significantly but only in HK1 cells. Hypericin-based photodynamic therapy (PDT) did not alter the expression of IL-8 levels. Il-10 was not constitutively expressed in either cell line and could not be induced by PDT. It is interesting that PDT which is known to upregulate IL-8 transcription via reactive oxygen species and activate the IL-10 promoter did not alter IL-8 levels in either of the NPC cell lines nor induced the production of IL-10.
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PMID:Endogenous expression of interleukin-8 and interleukin-10 in nasopharyngeal carcinoma cells and the effect of photodynamic therapy. 1206 Aug 53

The temporal and spatial behavior of a number of mutants of the photosynthetic, facultative anaerobe Rhodobacter sphaeroides to both step changes and to gradients of oxygen was analyzed. Wild-type cells, grown under a range of conditions, showed microaerophilic behavior, accumulating in a 1.3-mm band about 1.3 mm from the meniscus of capillaries. Evidence suggests this is the result of two signaling pathways. The strength of any response depended on the growth and incubation conditions. Deletion of either the complete chemosensory operons 1 and 2 plus the response regulator genes cheY(4) and cheY(5) or cheA(2) alone led to the loss of all aerotactic responses, although the cells still swam normally. The Prr system of R. sphaeroides responds to electron flow through the alternative high-affinity cytochrome oxidase, cbb(3), controlling expression of a wide range of metabolic pathways. Mutants with deletions of either the complete Prr operon or the histidine kinase, PrrB, accumulated up to the meniscus but still formed a thick band 1.3 mm from the aerobic interface. This indicates that the negative aerotactic response to high oxygen levels depends on PrrB, but the mutant cells still retain the positive response. Tethered PrrB(-) cells also showed no response to a step-down in oxygen concentration, although those with deletions of the whole operon showed some response. In gradients of oxygen where the concentration was reduced at 0.4 micro M/s, tethered wild-type cells showed two different phases of response, with an increase in stopping frequency when the oxygen concentration fell from 80 to 50% dissolved oxygen and a decrease in stopping at 50 to 20% dissolved oxygen, with cells returning to their normal stopping frequency in 0% oxygen. PrrB and CheA(2) mutants showed no response, while PrrCBA mutants still showed some response.
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PMID:Tactic responses to oxygen in the phototrophic bacterium Rhodobacter sphaeroides WS8N. 1227 Aug 16

Transposon tagging with modified maize Ds-GUS constructs was used to isolate genes induced by oxygen deprivation in Arabidopsis thaliana. Seedlings of 800 gene-trap (DsG) and 600 enhancer-trap (DsE) lines were grown on vertically positioned plates for 1 week, oxygen deprived for up to 24 h and stained for GUS activity. Oxygen deprivation induced intricate patterns of gene expression in seedlings of 65 lines. The insertion site and phenotypes of 15 lines were examined. Surprisingly, none of the insertions were into genes that encode known anaerobic polypeptides. Insertions were identified within or adjacent to genes encoding proteins of regulatory, enzymatic, mitochondrial protein import and unknown function, as well as adjacent to genes encoding a putative receptor-like kinase and putative sensor-histidine kinase. Four lines had significantly lower ADH activity after 24 h of oxygen deprivation and three of these showed reduced stress tolerance. Two lines with wild-type levels of ADH were low-oxygen intolerant. Paradoxically, several lines had significantly higher ADH activity after 12 h of oxygen deprivation but reduced stress tolerance. Caffeine treatment, which increased ADH specific activity in wild-type seedlings under aerobic conditions, was sufficient to increase GUS staining in seven of the 15 lines, providing evidence that these genes may be regulated by cytosolic calcium levels. These results demonstrate the effectiveness of the Ds-GUS tagging system in the identification of genes that are regulated in response to oxygen deprivation and a calcium second messenger.
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PMID:Gene and enhancer trap transposable elements reveal oxygen deprivation-regulated genes and their complex patterns of expression in Arabidopsis. 1250 34

The rhizobial FixL/FixJ system, a member of the superfamily of bacterial two-component signal transducing systems, regulates the expression of nitrogen fixation-related genes by sensing environmental oxygen tension. Oxygen-free (deoxy) FixL is autophosphorylated at an invariant histidine residue with ATP, and the phosphoryl group is transferred to FixJ, leading to an enhancement in transcriptional activity at low oxygen tensions, but the histidine kinase activity of the oxygen-bound (oxy) form is inhibited. To investigate the mechanism of oxygen sensing, we established a FixL/FixJ-mediated PfixK-lacZ reporter system in Escherichia coli, and isolated FixL and FixJ mutations conferring an upregulation of lacZ gene expression on the reporter cells even under aerobic conditions. FixL mutant proteins, which contain single amino acid changes near the autophosphorylation site, showed elevated levels of autophosphorylation and a concomitant phosphoryl transfer to FixJ in the presence of oxygen, although their oxygen-binding affinities were unimpaired. These mutational analyses suggest that the autophosphorylation domain plays a crucial role in regulatory coupling between oxygen binding and kinase activity. FixJ mutants in helix alpha1 and strand beta5 of the N-terminal half exhibited the formation of a stable acyl phosphate bond. In contrast, those in helices alpha4 and alpha5 constitutively bound to the fixK promoter in a monomeric form, suggesting that the alpha4 and alpha5 helices may be involved in the post-phosphorylation/dimerization signal transfer to liberate the DNA-binding activity of the C-terminal domain, not only serving as a dimerization interface.
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PMID:The uncoupling of oxygen sensing, phosphorylation signalling and transcriptional activation in oxygen sensor FixL and FixJ mutants. 1267 98

Much is now known about chemotaxis signaling transduction for Escherichia coli and Salmonella typhimurium. The mechanism of chemotaxis of Bacillus subtilis is, in a sense, reversed. Attractant binding strengthens the activity of histidine kinase in B. subtilis, instead of an inhibition reaction. The HemAT from B. subtilis can detect oxygen and transmit the signal to regulatory proteins that control the direction of flagella rotation. We have determined the crystal structures of the HemAT sensor domain in liganded and unliganded forms at 2.15 A and 2.7 A resolution, respectively. The liganded structure reveals a highly symmetrical organization. Tyrosine70 shows distinct conformational changes on one subunit when ligands are removed. Our study suggests that disruption of the symmetry of HemAT plays an important role in initiating the chemotaxis signaling transduction cascade.
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PMID:Structure of the oxygen sensor in Bacillus subtilis: signal transduction of chemotaxis by control of symmetry. 1296 28

Photoactivation of hypericin is known to generate singlet oxygen and superoxide anion radicals. Reactive oxygen species (ROS) produced by photodynamic therapy (PDT) has the capacity to induce oxidative damage and tumor destruction. We have previously shown that hypericin-PDT induces tumor shrinkage and regression in the human nasopharyngeal cancer (NPC)/HK1 murine tumor model. In this extended study, we show by electron microscopy that subcutaneously implanted HK1 NPC cells from Balb/c nude mice perished by cell necrosis with hypericin-PDT treatment. There was evidence of cytoplasmic swelling accompanied by loss of cell membrane integrity and autophagic vacuolization of cytoplasm but no nuclear changes. There was also no significant difference in the apoptotic index of control and PDT-treated tumors, when analyzed by in situ end labeling of DNA strand breakage to detect apoptosis. This further supports the observation that cell death in PDT-treated NPC/HK1 tumors was by necrosis. Lipid peroxidative stress analyzed by the malonaldehyde assay was significantly elevated in PDT-treated cells. However, PDT had no effect on the activity of superoxide dismutase, an intracellular antioxidant enzyme. The findings show that hypericin-PDT of nasopharyngeal tumors in vivo induces tumor necrosis with accompanying lipid peroxidation.
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PMID:Hypericin-mediated photodynamic therapy induces lipid peroxidation and necrosis in nasopharyngeal cancer. 1453 82

The most common physiological strategy for detecting the gases oxygen, carbon monoxide, and nitric oxide is signal transduction by heme-based sensors, a broad class of modular proteins in which a heme-binding domain governs the activity of a neighboring transmitter domain. Different structures are possible for the heme-binding domains in these sensors, but, so far, the Per-ARNT-Sim motif, or PAS domain, is the one most commonly encountered. Heme-binding PAS (heme-PAS) domains can accomplish ligand-dependent switching of a variety of partner domains, including histidine kinase, phosphodiesterase, and basic helix-loop-helix (bHLH) DNA-binding modules. Proteins with heme-PAS domains occur in all kingdoms of life and are quite diverse in their physiological roles. Examples include the neuronal bHLH-PAS carbon monoxide sensor NPAS2 that is implicated in the mammalian circadian clock, the acetobacterial oxygen sensor AxPDEA1 that directs cellulose production, and the rhizobial oxygen sensor FixL, which governs nitrogen fixation. What factors determine the range of detection of these sensors? How do they transduce their signal? This review examines the recent advances in answering these questions.
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PMID:Signal transduction by heme-containing PAS-domain proteins. 1471 87


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