EC:2.7.13.3 - FACTA Search

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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)

Hexokinase plays an important role in glucose-utilizing tissues like normal brain and cancers. In these tissues, hexokinase (HK) is mainly bound to mitochondria (mHK). Our objectives were to evaluate total HK (tHK) activity and mHK fraction in gliomas and to determine whether mHK binding could be targeted for therapy. Tumors were obtained from 26 patients and 13 were xenografted. HK, lactate and ATP were measured in cytosol and mitochondria extracts. The tHK expressed in mU/mg protein were 147 +/- 19 and 78 +/- 12, in fresh gliomas and xenografts, respectively, and of 489 in the normal brain. The mHK fraction was 76% in normal brain, 74 +/- 4% in fresh tumors and 53 +/- 6% in xenografts. Lactate/mHK ratios were higher in gliomas than in normal brain. The ATP was 10, 52 +/- 31 and 19 +/- 8 nmol/mg protein in normal brain, xenografts and fresh gliomas respectively. Loss of one copy of chromosome 10 which carries the HK1 gene, was evidenced in 11 of the 13 xenografted gliomas. The anti-tumor effect of lonidamine (LND), which affects glycolysis in interfering with mHK activity, was tested in nude mice bearing 4 gliomas. LND (125 mg/kg, given i.p., twice daily for 5 days) led to a growth inhibition of TG-7-RO of 72%, with 2-fold growth retardation, and had no effect for TG-8-OZ. Intermediate LND-sensitivities for TG-11-DU and TG-10-PY were noted. The LND-sensitivity was correlated with the mHK activity (R2 = 0.73) and mHK fraction (R2 = 0.88). HK binding to mitochondria is a key of glycolysis in malignant gliomas, and targetting this binding with appropriate agents could be an effective therapeutic approach.
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PMID:Mitochondria-bound hexokinase as target for therapy of malignant gliomas. 762 99

A protein phosphorylation cascade involved in chemotactic signaling in Escherichia coli was investigated with purified components in vitro. CheA, an auto-phosphorylating histidine kinase, was mixed with [gamma-32P]ATP, and the labeled protein was purified for use as a reagent in the assays. CheY, a response regulator protein, can acquire phosphate groups from CheA but then undergoes rapid hydrolysis, which releases inorganic phosphate. To follow the kinetics of the CheA-CheY phospho-transfer reaction and the subsequent dephosphorylation of phospho-CheY, we separated the reaction components by polyacrylamide gel electrophoresis and measured the amount of 32P label in the CheA. CheY and inorganic phosphate bands with phosphor storage screens. By reducing the time needed to separate and quantify the reaction products, we minimized diffusive spreading of the low molecular weight inorganic phosphate, which enabled us to measure it accurately on the same gel with the much larger proteins. In principle, any radiolabeled molecules that can be separated by relatively rapid means, such as acrylamide gel electrophoresis, and that are detectable with a phosphor storage screen, should be amenable to this technique.
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PMID:Quantifying radiolabeled macromolecules and small molecules on a single gel. 784 Sep 74

EnvZ is a membrane-bound histidine kinase that functions as an osmotic sensor capable of phosphorylating the regulator protein OmpR in Escherichia coli. To characterize the site of phosphorylation biochemically, we overexpressed a 36-kDa truncated EnvZ protein (Glu-106 to Gly-450) that formed inclusion bodies in the cell. After solubilization, the inclusion body form of EnvZ was cleaved into two major fragments with molecular weights of 25,000 and 10,000. The 25-kDa fragment, EnvZc, was purified and found to exist as a dimer. N-terminal sequence analysis established that cleavage had occurred at Arg-214, indicating that EnvZc contained most of the cytoplasmic domain of EnvZ. After labeling EnvZc with [gamma-32P]ATP, the protein was proteolytically digested, and the resulting peptides were separated by reverse phase chromatography using high performance liquid chromatography. One major radioactive peptide containing greater than 90% of the recovered peptide-associated radioactivity was isolated. Amino acid analysis of this purified peptide indicated that the composition was consistent with a peptide that contained His-243. The amino acid sequence of this peptide was determined to be MAGVSHDLRTP (residues 238-248). These results indicate that His-243 is the major site of phosphorylation on EnvZ and represents the first biochemical characterization of the site of phosphorylation of a membrane histidine kinase of the two-component regulatory family of molecules in bacteria.
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PMID:Identification of the site of phosphorylation on the osmosensor, EnvZ, of Escherichia coli. 813 3

A novel protein kinase is induced in rat liver plasma membrane by the administration of peroxisome proliferators. A 36 kDa protein (P36) on the membrane was rapidly phosphorylated in vitro by the kinase and the phosphorylated amino acid was identified as phosphohistidine. Histidine phosphorylation of P36 was activated in vitro by recombinant Ras protein and GTP; both decreased Michaelis constant (Km) for ATP from 1.25 to 0.25 microM. The novel histidine kinase, products of which have been overlooked due to their acid lability, may participate in cellular signaling and peroxisome proliferators may perturb the pathway.
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PMID:A protein histidine kinase induced in rat liver by peroxisome proliferators. In vitro activation by Ras protein and guanine nucleotides. 845 63

Nucleoside-diphosphate kinase (NDP kinase), a key enzyme in nucleotide metabolism, is also known to be involved in growth and developmental control and tumor metastasis suppression. Interestingly, we find that coexpression of NDP kinase with Taz1, a Tar/EnvZ chimera, in the absence of its native signal, can activate a porin gene ompC-lacZ expression in Escherichia coli. Further studies show that NDP kinase can act as a protein kinase to phosphorylate histidine protein kinases such as EnvZ and CheA which are members of the His-Asp phosphorelay signal transduction systems in E. coli. Instead of ATP, the exclusive phosphodonor for histidine kinases, GTP can be utilized in vitro in the presence of NDP kinase to phosphorylate EnvZ and CheA, which then transfer the phosphoryl group to OmpR and CheY, the respective response regulators. The direct involvement of GTP for the phosphorylation of EnvZ through NDP kinase was further demonstrated by the use of a mutant EnvZ, which lost ability to be autophosphorylated with ATP. Phospho-OmpR thus formed can bind specifically to an ompF promoter sequence. These results suggest that NDP kinase may play a physiological role in signal transduction.
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PMID:Nucleoside-diphosphate kinase-mediated signal transduction via histidyl-aspartyl phosphorelay systems in Escherichia coli. 895 29

CheA is a histidine kinase central to the signal transduction pathway for chemotaxis in Escherichia coli. CheA autophosphorylates at His-48, with ATP as the phosphodonor, and then donates its phosphoryl groups to two aspartate autokinases, CheY and CheB. Phospho-CheY controls the flagellar motors, whereas phospho-CheB participates in sensory adaptation. Polypeptides encompassing the N-terminal P1 domain of CheA can be transphosphorylated in vitro by the CheA catalytic domain and yet have no deleterious effect on chemotactic ability when expressed at high levels in wild-type cells. To find out why, we examined the effects of a purified P1 fragment, CheA[1-149], on CheA-related signaling activities in vitro and devised in vivo assays for those same activities. Although readily phosphorylated by CheA[260-537], the CheA catalytic domain, CheA[1-149], was a poor substrate for transphosphorylation by full-length CheA molecules, implying that the resident P1 domain monopolizes the CheA catalytic center. CheA-H48Q, a nonphosphorylatable mutant, failed to transphosphorylate CheA[1-149], suggesting that phosphorylation of the P1 domain in cis may alleviate the exclusion effect. In agreement with these findings, a 40-fold excess of CheA[1-149] fragments did not impair the CheA autophosphorylation reaction. CheA[1-149] did acquire phosphoryl groups via reversible phosphotransfer reactions with CheB and CheY molecules. An H48Q mutant of CheA[1-149] could not participate in these reactions, indicating that His-48 is probably the substrate site. The low level of efficiency of these phosphotransfer reactions and the inability of CheA[1-149] to interfere with CheA autophosphorylation most likely account for the failure of liberated P1 domains to jam chemotactic signaling in wild-type cells. However, an excess of CheA[1-149] fragments was able to support chemotactic signaling by P1-deficient cheA mutants, demonstrating that CheA[1-149] fragments have both transphosphorylation and phosphotransfer capability in vivo.
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PMID:Chemotactic signaling by the P1 phosphorylation domain liberated from the CheA histidine kinase of Escherichia coli. 895 92

Escherichia coli cells express two forms of CheA, the histidine kinase associated with chemotaxis. The long form, CheA(L), plays a critical role in chemotactic signal transduction by phosphorylating two chemotaxis-associated response regulators, CheY and CheB. CheA(L) first autophosphorylates amino acid His-48 before its phosphoryl group is transferred to these response regulators. The short form, CheA(S), lacks the amino-terminal 97 amino acids of CheA(L) and therefore does not possess the site of phosphorylation. The centrally located transmitter domain of both forms of CheA contains four regions, called N, G1, F, and G2, highly conserved among histidine kinases of the family of two-component signal transduction systems. On the basis of sequence similarity to highly conserved regions of certain eukaryotic kinases, the G1 and G2 regions are purported to be involved in the binding and hydrolysis of ATP. We report here that alleles mutated in the G1, G2, or F region synthesize CheA variants that cannot autophosphorylate in vitro and which cannot support chemotaxis in vivo. We also show that in vitro, the nonphosphorylatable CheA(S) protein mediates transphosphorylation of a CheA(L) variant defective in both G1 and G2. In contrast, CheA(L) variants defective for either G1 or G2 mediate transphosphorylation of each other poorly, if at all. These results are consistent with a mechanism by which the G1 and G2 regions of one protomer of a CheA dimer form a unit that mediates transphosphorylation of the other protomer within that dimer.
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PMID:Genetic analysis of the catalytic domain of the chemotaxis-associated histidine kinase CheA. 900 39

The HupT protein of Rhodobacter capsulatus, involved in negative regulation of hydrogenase gene expression, is predicted to be a histidine kinase on the basis of sequence comparisons. The protein was overproduced in Escherichia coli, purified to homogeneity, and demonstrated to autophosphorylate in vitro in the presence of [gamma-32P]ATP. An H217N hupt mutant was constructed, and the mutant protein was shown to have lost kinase activity. This result, and the fact that the phosphoryl group in phosphorylated HupT appeared to be bound to an N atom, support the suggestion from sequence comparisons that HupT is a histidine kinase, which can autophosphorylate on the His217 residue.
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PMID:Purification and in vitro phosphorylation of HupT, a regulatory protein controlling hydrogenase gene expression in Rhodobacter capsulatus. 900 58

We report the cloning, sequence, and expression of the bpdS and bpdT genes from Rhodococcus sp. strain M5, which are believed to encode the first two-component signal transduction system in the genus Rhodococcus, which potentially regulates biphenyl/polychlorobiphenyl metabolism in M5. BpdT has a typical responses regulator sequence (209 amino acids; 23 kDa), whereas BpdS, the predicted histidine kinase component, is an unusually large transmembrane protein (1,576 amino acids; 170 kDa) that contains ATP-binding and leucine-rich repeat motifs and some conserved residues of protein kinases. Expression of bpdST, like that of the bpdC1C2BADE degradative operon, is inducible by biphenyl.
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PMID:Characterization of the genes encoding a receptor-like histidine kinase and a cognate response regulator from a biphenyl/polychlorobiphenyl-degrading bacterium, Rhodococcus sp. strain M5. 909 81

Laboratory mutants of Streptococcus pneumoniae resistant to either cefotaxime or piperacillin reveal defects in competence development independent of the selective beta-lactam. A resistance determinant ciaH encoding a putative histidine kinase of a two-component signal-transducing system that is also involved in competence regulation was recently identified in cefotaxime-resistant mutants. We show now that the CiaH protein can be phosphorylated by ATP in vitro, and that it also phosphorylates the cognate response regulator CiaR. The mutant C306 containing the CiaH mutation Thr-230-Pro is completely noncompetent. It does not release competence-inducing activity (competence factor) into the medium nor can such an activity be released from the cells. Competence in C306 cannot be induced upon addition of external competence factor, in contrast to the competence-defective piperacillin-resistant mutants P506 and P408. A novel resistance determinant cpoA specific for piperacillin was identified in piperacillin-resistant mutants. CpoA is responsible for the competence defect in P506 but not in P408. The results document a tight link between the action of beta-lactams and competence development in the pneumococcus and confirm that the two beta-lactams piperacillin and cefotaxime act via different primary targets.
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PMID:Resistance determinants for beta-lactam antibiotics in laboratory mutants of Streptococcus pneumoniae that are involved in genetic competence. 915 58

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